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WO2017043324A1 - Wiper device - Google Patents

Wiper device Download PDF

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Publication number
WO2017043324A1
WO2017043324A1 PCT/JP2016/074787 JP2016074787W WO2017043324A1 WO 2017043324 A1 WO2017043324 A1 WO 2017043324A1 JP 2016074787 W JP2016074787 W JP 2016074787W WO 2017043324 A1 WO2017043324 A1 WO 2017043324A1
Authority
WO
WIPO (PCT)
Prior art keywords
wiper device
swing lever
connecting rod
pivot shaft
holder
Prior art date
Application number
PCT/JP2016/074787
Other languages
French (fr)
Japanese (ja)
Inventor
秀基 白鳥
則幸 鈴木
雄司 榊原
Original Assignee
アスモ 株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2015176874A external-priority patent/JP6544159B2/en
Priority claimed from JP2015224981A external-priority patent/JP2017088132A/en
Priority claimed from JP2016082347A external-priority patent/JP2017052503A/en
Application filed by アスモ 株式会社 filed Critical アスモ 株式会社
Priority to CN201680039352.5A priority Critical patent/CN107835765A/en
Priority to US15/741,617 priority patent/US20180201228A1/en
Priority to DE112016004067.9T priority patent/DE112016004067T5/en
Publication of WO2017043324A1 publication Critical patent/WO2017043324A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/06Wipers or the like, e.g. scrapers characterised by the drive
    • B60S1/16Means for transmitting drive
    • B60S1/18Means for transmitting drive mechanically
    • B60S1/24Means for transmitting drive mechanically by rotary cranks
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/28Wipers or the like, e.g. scrapers characterised by a plurality of wipers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/32Wipers or the like, e.g. scrapers characterised by constructional features of wiper blade arms or blades
    • B60S1/34Wiper arms; Mountings therefor

Definitions

  • the present invention relates to a wiper device.
  • a wiper device a first swing lever that extends in a direction perpendicular to the axis from a first pivot shaft, a second swing lever that extends in a direction perpendicular to the axis from a second pivot shaft, and one end of the first swing lever And a connecting rod having the other end connected to the tip of the second swing lever (see, for example, Patent Document 1).
  • the wipers fixed to the first and second pivot shafts perform a wiping operation synchronously.
  • the crank arm is fixed to the output shaft of the motor, and the crank arm is connected to the second swing lever via the drive rod, whereby the second swing lever (second pivot shaft) is connected to the output shaft.
  • a wiper device provided with a ball joint for connecting a rod (drive rod or connecting rod) for transmitting a driving force to a swing lever (for example, see Patent Document 2).
  • the ball joint has a ball pin fixed to the swing lever and a joint case fixed to the rod.
  • the ball pin has a base end portion that is caulked through the swing lever, a shaft portion standing on the swing lever, and a spherical portion provided at the tip of the shaft portion.
  • the joint case has a spherical recess (mounting recess) that holds the spherical portion in a rollable manner.
  • an example of the wiper device includes a motor, a connection frame to which the motor is fixed, and pivot holders fixed to both ends of the connection frame.
  • the pivot holder is provided between a holder part that holds a pivot shaft to which the wiper is connected, a holder body fixing part that extends from the holder part and is fixed to the vehicle body, and the holder part and the holder body fixing part.
  • the shaft portion of the ball pin is erected on the swing lever in the plate thickness direction, and the plane of the swing lever and the driving force are input.
  • the spherical portion is offset in the thickness direction. Therefore, when the driving force is transmitted between the swing lever and the drive rod, the swing lever is inclined with respect to the direction perpendicular to the thickness direction (that is, the direction along the plane of the swing lever). (That is, a force in a direction in which the ball pin is inclined) is applied. Therefore, it is necessary to increase the thickness of the rocking lever to ensure the rigidity of the rocking lever so as not to be deformed by the force in the inclined direction received from the shaft portion. This causes, for example, an increase in the material cost of the swing lever.
  • a large unit consisting of a pivot shaft, a holder part, a connecting frame, a motor, and the like can be displaced downward on the vehicle side. There is a problem that a large arrangement space is required.
  • a first object of the present invention is to provide a wiper device capable of reducing the size of a swing lever.
  • a second object of the present invention is to provide a wiper device that can reduce the thickness of the swing lever.
  • a third object of the present invention is to provide a wiper device that can suppress an impact applied to a colliding object while reducing a space in which the wiper device is disposed.
  • a wiper device in order to achieve the first object, includes a first pivot shaft, a first swing lever, a second pivot shaft, and a second swing lever.
  • a rod, a crank arm, and a drive rod are included.
  • the first swing lever extends from the first pivot shaft in the radial direction of the first pivot shaft and rotates integrally with the first pivot shaft.
  • the second swing lever extends from the second pivot shaft in the radial direction of the second pivot shaft and rotates integrally with the second pivot shaft.
  • the connecting rod has a first end connected to the tip of the first swing lever and a second end connected to the tip of the second swing lever.
  • the crank arm extends in the radial direction of the output shaft from the output shaft of the motor and rotates integrally with the output shaft.
  • the drive rod has a first end connected to a tip portion of the crank arm and a second end connected to an intermediate portion of the connection rod.
  • a wiper device in order to achieve the second object, includes a pivot shaft, a swing lever, a connecting rod, and a ball joint.
  • the swing lever extends from the pivot shaft in a direction perpendicular to the axial direction of the pivot shaft and rotates integrally with the pivot shaft.
  • the connecting rod is provided to transmit a driving force to the tip of the swing lever.
  • the ball joint is provided to connect the connecting rod to the tip of the swing lever.
  • the rolling center of the ball joint is disposed within the thickness range of the swing lever.
  • a wiper device includes a motor, a connecting frame to which the motor is fixed, and a pivot holder.
  • the pivot holder includes a holder portion, a connecting frame fixing portion, and a holder vehicle body fixing portion.
  • the holder portion holds a pivot shaft having an upper end portion to which a wiper is connected.
  • the connection frame fixing part extends from the holder part and is fixed to the connection frame.
  • the holder vehicle body fixing portion extends from the holder portion and is fixed to the vehicle body.
  • a fragile part is provided in the extending part between the holder part and the connecting frame fixing part.
  • FIG. 1 is a partial perspective view of a vehicle according to a first embodiment of the present invention.
  • FIG. 2 is an overall schematic diagram of the wiper device of FIG.
  • FIG. 3 is a partial cross-sectional view illustrating a connected state of a first swing lever and a connecting rod in FIG. 2.
  • FIG. 4 is a partial cross-sectional view for explaining the ball joint of FIG. 3.
  • FIG. 6 is a partial cross-sectional view showing a connected state of a first rocking lever and a connecting rod in another example of the first embodiment.
  • FIG. 6 is a partial cross-sectional view showing a connected state of a first rocking lever and a connecting rod in another example of the first embodiment.
  • FIG. 10A The side view of the wiper apparatus of FIG.
  • FIG. 10B is a sectional view taken along line BB in FIG.
  • FIG. 10C is a sectional view taken along the line CC in FIG.
  • the vehicle includes a front window G and first and second wipers W1, W2 for wiping a wiping surface Ga on the outside of the passenger compartment of the front window G. 1 and 2 is for a left-hand drive vehicle, the first wiper W1 wipes the wiping surface Ga on the driver's seat side (right side in FIG. 1), and the second wiper W2 is the passenger seat. This is for wiping the wiping surface Ga on the side (left side in FIG. 1).
  • the wiper device includes first and second pivot holders 1 and 2 and a connecting frame 3 that connects them, with respect to a body (not shown) below the front window G (see FIG. 1). Fixed.
  • the wiper device includes a first pivot shaft 4 rotatably supported with respect to the first pivot holder 1, and a first pivot shaft 4 extending in a radial direction (axial orthogonal direction) from a lower end of the first pivot shaft 4.
  • a first swing lever 5 that rotates integrally with the pivot shaft 4 is provided.
  • the second wiper W2 is fixed to the upper end portion of the first pivot shaft 4.
  • the wiper device includes a second pivot shaft 6 rotatably supported with respect to the second pivot holder 2, and a second pivot shaft 6 extending in a radial direction (axial orthogonal direction) from a lower end of the second pivot shaft 6.
  • a pivot lever 6 and a second swing lever 7 that rotates together with the pivot shaft 6 are provided.
  • the first wiper W1 is fixed to the upper end portion of the second pivot shaft 6.
  • the wiper device further includes a connecting rod 8 having one end connected to the tip of the first swing lever 5 and the other end connected to the tip of the second swing lever 7.
  • the connecting rod 8 is made of a solid (non-hollow) bar, and in the present embodiment, is made of a metal bar having a circular cross section.
  • the wiper device also includes a motor 9 fixed to the connection frame 3 and a crank arm 11 that extends in a radial direction (axial orthogonal direction) from the output shaft 10 of the motor 9 and rotates integrally with the output shaft 10. .
  • the output shaft 10 of the motor 9 is disposed at a position closer to the first pivot shaft 4 than to the second pivot shaft 6.
  • the wiper device further includes a drive rod 12 having one end connected to the tip of the crank arm 11 and the other end connected to an intermediate portion of the connecting rod 8.
  • the drive rod 12 is connected to a position closer to the second swing lever 7 than the first swing lever 5 in the connecting rod 8.
  • the angle ⁇ formed by the straight line L2 connecting the points (each rolling center) is set to an acute angle, and is preferably set to always be within a range of 45 degrees or less during the operation of the crank arm 11.
  • the crank arm 11 intersects (crosses) the connecting rod 8 when viewed from the axial direction of the output shaft 10.
  • the connecting point X1 between the crank arm 11 and the drive rod 12 is close to the output shaft 10 with respect to the connecting rod 8 when viewed from the axial direction of the output shaft 10 when the crank arm 11 rotates (in FIG. It moves alternately between a state located at a position below (L1) and a state located at a position opposite to the position close to the output shaft 10 with respect to the connecting rod 8 (above the straight line L1 in FIG. 2).
  • the first rocking lever 5, the second rocking lever 7 and the drive rod 12 are all disposed above the connecting rod 8 (the tip ends of the first and second pivot shafts 4 and 6).
  • the connecting rod 8 is connected.
  • first rocking lever 5 and the connecting rod 8 the second rocking lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via a ball joint 21, respectively.
  • the ball joint 21 includes a ball pin 22 fixed to the connecting rod 8, a joint case 23 fixed to the first swing lever 5, and a dustproof / waterproof cover 24. . Since the ball joints 21 are similar to each other, only the ball joint 21 that connects the first swing lever 5 and the connecting rod 8 will be described in detail, and the description of the other ball joints 21 will be omitted.
  • the ball pin 22 includes a fixing portion 22b in which a fixing hole 22a is formed through which the connecting rod 8 is fixed, a shaft portion 22c extending from the fixing portion 22b in a direction perpendicular to the penetration direction of the fixing hole 22a, and a shaft portion. And a spherical portion 22d provided at the tip of 22c. That is, the ball pin 22 extends from the connecting rod 8 in a direction orthogonal to the longitudinal direction of the connecting rod 8 and has a spherical portion 22d at the tip.
  • the ball pin 22 is provided in such a manner that the connecting rod 8 is embedded in the ball pin 22.
  • the outer surface of the spherical portion 22d is formed in a shape obtained by partially removing the upper and lower parts of the sphere.
  • the joint case 23 has a spherical concave portion 23a that holds the spherical portion 22d in a rollable manner.
  • the joint case 23 further includes a cap part 23c and an opening part 23d.
  • the cap part 23c has a cap shape that covers the upper part of the spherical part 22d.
  • the first and second pivot shafts 4 and 6 extend from the first and second swing levers 5 and 7 toward the first side.
  • the cap portion 23 c has a cap shape that is located on the first side with respect to the first and second swing levers 5 and 7 and covers the first side portion of the first and second swing levers 5 and 7. is doing.
  • the opening 23 d is located at the lower part of the joint case 23.
  • the opening 23d is located on the second side opposite to the first side with respect to the first and second swing levers 5 and 7.
  • the joint case 23 has an annular groove 23b on the outside of which the inner edge of the mounting hole 5a formed in the first swing lever 5 is fitted.
  • the dustproof / waterproof cover 24 includes a fixed annular portion 24a fitted on the shaft portion 22c and a thin-walled closed portion 24b provided so as to close an opening below the joint case 23.
  • the closing portion 24b is flexible and closes the opening below the joint case 23 even when the ball joint 21 rolls (specifically, even when the spherical portion 22d slides relative to the spherical concave portion 23a). It is elastically deformed so as to maintain the state.
  • the rolling center (that is, the center of the spherical portion 22d) Z is within the range Y of the plate thickness of the first swing lever 5, and the center position within the range Y is It is arranged and provided.
  • the rolling centers Z of all (three) ball joints 21 are arranged on a straight line.
  • the rolling center Z of the ball joint 21 that connects the drive rod 12 and the connecting rod 8 is the rolling center Z of the ball joint 21 that connects the first swing lever 5 and the connecting rod 8 and the second. It is arranged on a straight line L1 connecting the rolling center Z of the ball joint 21 that connects the swing lever 7 and the connecting rod 8.
  • the connecting rod 8 passes between the motor 9 and the operating area of the crank arm 11 (between the directions along the axial direction of the output shaft 10).
  • the “operation area of the crank arm 11” means an operation area occupied by the crank arm 11 when the crank arm 11 rotates around the axis of the output shaft 10.
  • the connecting rod 8 of the present embodiment moves substantially along the longitudinal direction of the connecting rod 8 (the direction orthogonal to the plane of FIG. 5) during operation of the motor 9, and the direction orthogonal to the output shaft 10 (left and right in FIG. 5). Move in the direction).
  • the connecting rod 8 moves, at least when the connecting rod 8 approaches the output shaft 10 at least, at least a part of the connecting rod 8 passes between the motor 9 and the operating area of the crank arm 11. Yes.
  • the operation of the wiper device of the first embodiment will be described.
  • a washer switch provided in the driver's seat is operated, a drive current is supplied to the motor 9 and the output shaft 10 and the crank arm 11 are rotationally driven.
  • the power is transmitted to the first and second swing levers 5 and 7 through the drive rod 12 and the connecting rod 8, and the first and second swing levers 5 and 7 swing back and forth to form the first.
  • the second pivot shafts 4 and 6 are rotated, and the first and second wipers W1 and W2 fixed to the first and second pivot shafts 4 and 6 are reciprocally swung synchronously to perform a wiping operation. .
  • the drive rod 12 has one end connected to the tip of the crank arm 11 and the other end connected to an intermediate portion of the connecting rod 8 that connects the first swing lever 5 and the second swing lever 7. And have. Therefore, for example, the second rocking lever 7 can be downsized as compared with the configuration in which the other end of the drive rod 12 is connected to the tip of the second rocking lever 7. That is, in the configuration in which the connecting rod 8 and the drive rod 12 are connected to the tip of the second swing lever 7 via the ball joints 21, the area of the second swing lever 7 is secured in order to secure a space for connection. Need to be larger.
  • the drive rod 12 is not connected to the tip of the second swing lever 7 (since only the connecting rod 8 needs to be connected), the second swing lever 7 can be downsized (second). It is possible to reduce the area of the pivot shaft 6 as viewed from the axial direction. As a result, for example, the material cost of the second swing lever 7 can be reduced. Further, for example, the length of the drive rod 12 can be shortened as compared with the configuration in which the other end of the drive rod 12 is connected to the tip of the second swing lever 7.
  • both the first rocking lever 5 and the second rocking lever 7 are provided with only one ball joint 21 (more specifically, only one joint case 23 is provided)
  • the first rocking lever 5 and the second rocking lever 7 can be configured as a common lever shape.
  • the working space in the axial direction (vertical direction) of the second pivot shaft 6 is larger. This makes it easier to secure a mounting space on the vehicle.
  • the first rocking lever 5, the second rocking lever 7 and the drive rod 12 are all disposed above the connecting rod 8 (the tip side of the first and second pivot shafts 4 and 6). It is connected to the connecting rod 8. Therefore, the thickness (dimension) in the vertical direction of the wiper device can be reduced. That is, in the configuration in which any one of the first rocking lever 5, the second rocking lever 7, and the drive rod 12 is disposed on the opposite side of the connecting rod 8 in the vertical direction and connected to the connecting rod 8, the opposite side The thickness (dimension) in the vertical direction of the member arranged in the upper part is added to increase the vertical thickness (dimension) of the wiper device, but this can be avoided to reduce the vertical thickness (dimension). it can.
  • the first rocking lever 5 and the connecting rod 8, the second rocking lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via the ball joints 21, respectively.
  • the rolling center Z of 21 is arrange
  • the connecting rod 8 and the first swing lever 5 and the connecting rod 8 and the second swing lever 7 are connected to the connecting rod 8 on one side in the vertical direction, and the drive rod 12 and the connecting rod 8 are connected to the connecting rod.
  • 8 is connected on the other side in the vertical direction.
  • the oscillating thrust from the drive rod 12 is a connection point between the connecting rod 8 and the first oscillating lever 5 (each rolling center Z) and a connecting point between the connecting rod 8 and the second oscillating lever 7 (
  • the connecting rod 8 swings about a straight line L1 connecting the rolling centers Z) as a rotation axis. According to the said structure, such rocking
  • the output shaft 10 of the motor 9 is disposed at a position closer to the first pivot shaft 4 than the second pivot shaft 6, and the drive rod 12 has a second swing relative to the first swing lever 5 in the connecting rod 8. It is connected to a position close to the moving lever 7. Therefore, the motor 9, the drive rod 12, etc. can be satisfactorily arranged between the first pivot shaft 4 and the second pivot shaft 6 (in the vehicle width direction).
  • the angle ⁇ formed by the straight line L2 connecting the points (each rolling center) is set to be an acute angle.
  • the angle ⁇ is set to be always within a range of 45 degrees or less during operation of the crank arm 11. Therefore, the swinging thrust from the drive rod 12 can be efficiently transmitted as a force along the connecting rod 8.
  • the crank arm 11 has a state of intersecting the connecting rod 8 (crossing the connecting rod 8) when viewed from the axial direction of the output shaft 10 when the motor 9 is operated, that is, when the crank arm 11 is rotated. It is configured. Therefore, for example, compared to a configuration in which the crank arm 11 does not intersect the connecting rod 8 during operation of the motor 9, the operating space (that is, the vehicle mounting space) viewed from the axial direction of the output shaft 10 is reduced. be able to.
  • the connecting rod 8 has a state of passing between the operating area of the motor 9 and the crank arm 11 (between the directions along the axial direction of the output shaft 10) during the operation of the motor 9, for example, Compared to the configuration in which the motor 9 and the crank arm 11 are not passed, the operating space (that is, the vehicle mounting space) viewed from the axial direction of the output shaft 10 can be reduced.
  • the connecting rod 8 is made of a solid (non-hollow) rod. Therefore, it can be made thin while ensuring strength as compared with a non-solid (hollow) pipe material.
  • the wiper device is configured such that the connecting rod 8 has a state of passing between the motor 9 and the crank arm 11 as in the present embodiment.
  • the distance between the motor 9 and the crank arm 11 can be further reduced as compared with the connecting rod made of pipe material, and the axial direction (vertical direction) of the output shaft 10 of the wiper device can be reduced. Can do.
  • the connecting point between the crank arm 11 and the drive rod 12 is a position closer to the output shaft 10 with respect to the connecting rod 8 when viewed from the axial direction of the output shaft 10 when the crank arm 11 rotates.
  • the position closer to the output shaft 10 and the opposite position are provided so as to move alternately. Therefore, for example, the working space viewed from the axial direction of the output shaft 10 can be reduced as compared with a configuration that does not move alternately. That is, it is necessary to arrange each component so that the connecting rod 8 is always located outside the operation area of the crank arm 11 so that the connecting rod 8 does not interfere with the crank arm 11 when the crank arm 11 rotates. Absent.
  • the rolling center Z of the ball joint 21 is disposed within the thickness range Y of the first and second swing levers 5 and 7. Therefore, when a driving force is transmitted between the first and second swing levers 5 and 7 and the connecting rod 8, the first and second swing levers 5 and 7 are orthogonal to the plate thickness direction. It can prevent or suppress that the force of the direction inclined with respect to is added. As a result, it is difficult to apply a deformation force to the first and second swing levers 5 and 7, and it is possible to ensure rigidity even if the plate thickness of the first and second swing levers 5 and 7 is reduced. Become. As a result, for example, the material cost of the first and second swing levers 5 and 7 can be reduced. In addition, this can prevent a force from tilting the shafts 4 and 6 from acting on the first and second pivot shafts 4 and 6 that rotate integrally with the first and second swing levers 5 and 7, respectively.
  • the shaft portion of the ball pin when the shaft portion of the ball pin is caulked and fixed to the first and second swing levers, the shaft portion is slightly inclined from the direction orthogonal to the first and second swing levers. was there. For this reason, the distance between the axis of the first and second pivot shafts 4 and 6 and the rolling center Z changes, and the variation in the swing angle range of the first and second swing levers increases. As a result, the swing angle range of the wiper may be likely to vary. According to the present invention, it is possible to avoid variation in the swing angle range of the wiper due to such a reason.
  • the ball joint 21 has its rolling center Z located at the center position within the thickness range Y of the first and second swing levers 5 and 7. Therefore, it becomes more difficult for the first and second swing levers 5 and 7 to be subjected to a force for deforming the first and second swing levers 5 and 7, and consequently the plates of the first and second swing levers 5 and 7. It becomes possible to make the thickness thinner.
  • the ball joint 21 has a ball pin 22 provided on the connecting rod 8 and a joint case 23 provided on the first and second swing levers 5, 7.
  • the ball pin 22 has a portion where the connecting rod 8 is embedded and a spherical portion 22d.
  • the spherical portion 22d is accommodated in the joint case 23 so as to be able to roll.
  • the first and second pivot shafts 4 and 6 extend from the first and second swing levers 5 and 7 toward the first side.
  • the joint case 23 has a cap part 23c and an opening part 23d.
  • the cap part 23 c is located on the first side with respect to the first and second swing levers 5 and 7 and has a cap shape that covers the first side portion of the first and second swing levers 5 and 7. Have.
  • the opening 23d is located on the second side opposite to the first side with respect to the first and second swing levers 5 and 7.
  • the spherical portion 22d is accommodated in the joint case 23 through the opening 23d. Therefore, for example, even if raindrops or the like enter the wiper device from above the wiper device (the first side portion in the wiper device) and reach the ball joint 21, they are prevented or suppressed from entering the joint case 23. Is done.
  • the first embodiment may be modified as follows.
  • the first rocking lever 5, the second rocking lever 7, and the drive rod 12 are all disposed above the connecting rod 8 (the tip side of the first and second pivot shafts 4 and 6).
  • the connecting rod 8 is connected, but the present invention is not limited to this, and the connecting rod 8 may be connected in another arrangement.
  • the first rocking lever 5 may be disposed below the connecting rod 8 and connected to the connecting rod 8.
  • the second rocking lever 7 and the drive rod 12 may be arranged below the connecting rod 8 so as to be connected to the connecting rod 8.
  • any one of the first rocking lever 5, the second rocking lever 7, and the drive rod 12 is arranged on the opposite side of the connecting rod 8 in the vertical direction so as to be connected to the connecting rod 8. May be.
  • the ball pin 22 in the ball joint 21 has the fixing portion 22b formed with the fixing hole 22a through which the connecting rod 8 is fixed, but the ball pin 22 having the spherical portion 22d You may connect with the connection rod 8 by another structure.
  • the bent end portion of the connecting rod 8 may be fixed to the shaft portion 22 c of the ball pin 22 (by welding or press fitting).
  • the first swing lever 5 and the connecting rod 8, the second swing lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via the same ball joint 21.
  • the present invention is not limited to this, and may be connected via a joint having another configuration.
  • the first swing lever 5 and the connecting rod 8, the second swing lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via the ball joints 21, respectively.
  • the rolling center Z of the ball joint 21 is arranged on a straight line, the present invention is not limited to this and may be changed to a configuration not arranged on the straight line.
  • the ball joint 21 has its rolling center Z disposed within the thickness range Y of the first and second swing levers 5 and 7, but is not limited thereto.
  • the rolling center may be arranged outside the thickness range Y of the first and second swing levers 5 and 7.
  • the ball pin 22 may be fixed to the first and second swing levers 5 and 7, and the joint case 23 may be fixed to the connecting rod 8.
  • the crank arm 11 is configured to have a state of intersecting the connecting rod 8 when viewed from the axial direction of the output shaft 10 when the motor 9 is operating, that is, when the crank arm 11 is rotating.
  • the present invention is not limited to this, and it may be provided so as not to intersect at the time of rotation.
  • the connecting rod 8 is provided so as to pass between the motor 9 and the crank arm 11 (between the directions along the axial direction of the output shaft 10) during operation of the motor 9.
  • the present invention is not limited to this, and it may be provided so as not to pass between the motor 9 and the crank arm 11 (does not pass during driving).
  • the connecting rod 8 is a solid (non-hollow) bar and is made of a metal bar having a circular cross section.
  • the present invention is not limited to this, and the connecting rod 8 may be changed to another shape.
  • the connecting rod 8 may be a solid (non-hollow) bar, and may be made of a metal bar having a substantially circular cross section and a large number of irregularities on the outer periphery.
  • the connecting rod 8 may be made of a non-solid (hollow) pipe material.
  • the ball joint 21 that connects the first swing lever 5 and the connecting rod 8 and the second swing lever 7 and the connecting rod 8 has a rolling center Z that is the first and second.
  • the rocking levers 5 and 7 are disposed within the thickness range Y. However, if at least one pair (for example, the pair of the first rocking lever 5 and the connecting rod 8) is disposed as described above, The configuration may be changed.
  • the ball joint 21 has the rolling center Z disposed at the center position within the range Y of the plate thickness of the first and second swing levers 5 and 7, but is not limited thereto. Instead, it may be arranged at a position shifted from the center position within the thickness range Y.
  • the drive rod 12 having one end connected to the tip of the crank arm 11 is connected to the intermediate portion of the connecting rod 8 that connects the first swing lever 5 and the second swing lever 7 at the other end.
  • the other end of the drive rod 12 is connected with the front-end
  • the wiper device U includes two pivot holders 111, a connection frame 112 as a connection frame, a motor M, a connection rod R1, and a drive rod R2.
  • the connecting frame 112 has a C-shaped cross section perpendicular to the longitudinal direction. Specifically, the cross-sectional shape of the connecting frame 112 is formed in a C shape by a pair of facing surfaces facing the axis A1 direction of the pivot shaft 113 and a back plate surface connecting the pair of facing surfaces.
  • Pivot holders 111 are fixed to both ends of the connecting frame 112 in the longitudinal direction, and a motor M is fixed to an intermediate portion in the longitudinal direction.
  • Each pivot holder 111 includes a substantially cylindrical holder portion 111a that rotatably holds a pivot shaft 113 having an upper end portion to which the wiper W is connected, and a radially outer portion from a part of the outer peripheral portion of the holder portion 111a.
  • the holder body fixing portion 111b extends, and a frame fixing portion 111c as a connecting frame fixing portion that is a part of the outer periphery of the holder portion 111a and extends from the opposite side of the holder body fixing portion 111b.
  • the holder body fixing portion 111b has a fixing hole that penetrates in a direction along the axis A1 direction of the pivot shaft 113, and a rubber bush 114 is attached and fixed to the fixing hole.
  • the holder vehicle body fixing portion 111b is fixed to the vehicle body by a rubber bush 114 and a bolt passing through the fixing hole.
  • each frame fixing portion 111 c extends along the longitudinal direction of the connection frame 112. As shown in FIG.
  • a positioning protrusion 111 d that is fitted into the positioning hole 112 a of the connection frame 112 is provided at the tip of each frame fixing portion 111 c.
  • the frame fixing portion 111c is connected to the connecting frame by screws 115 that pass through the back plate surface of the connecting frame 112 with the positioning protrusions 111d inserted into the positioning holes 112a and are screwed to the base end portion of the frame fixing portion 111c.
  • 112 is fixed.
  • a swing lever 113a extending in a direction perpendicular to the axis is fixed to a lower end portion protruding from the lower end of the holder portion 111a.
  • the motor M includes a motor main body 121 and a speed reduction unit 122.
  • the motor main body 121 rotationally drives a rotor (not shown) inside the motor main body 121 by supplying a drive current from an external power source.
  • the speed reduction unit 122 includes a gear housing 123 fixed to the motor main body 121, a speed reduction mechanism such as a worm speed reduction gear (not shown) that is provided inside the gear housing 123 and decelerates the rotation of the rotor, and a gear connected to the speed reduction mechanism.
  • an output shaft 124 protruding from the housing 123.
  • a proximal end portion of a flat crank arm 125 is fixed to the distal end portion of the output shaft 124.
  • the axis A2 (see FIG. 9) of the output shaft 124 extends in a direction substantially parallel to the axis A1 of the pivot shaft 113. In this embodiment, the direction in which the output shaft 124 and the pivot shaft 113 project is upward. .
  • the gear housing 123 has a side surface that faces in a direction orthogonal to the axis A2 of the output shaft 124 and in a direction orthogonal to the axis A3 of the rotor of the motor body 121.
  • a pair of mounting legs 123 a (see FIG. 8) is provided on this side surface of the gear housing 123.
  • the pair of mounting legs 123a is provided at a position opposite to the position where the worm is disposed in the worm reduction gear housed in the gear housing 123.
  • the gear housing 123 is fastened and fixed to the connection frame 112 by screwing a bolt 126 (see FIG. 9) penetrating the connection frame 112 and a nut held by the mounting leg 123a.
  • One end of the connecting rod R1 is connected to the tip of the swing lever 113a on the one side (driver seat side, right side in FIG. 8), and the other end (on the passenger seat side, in FIG. 8). , And the left side) is connected to the tip of the swing lever 113a.
  • the drive rod R2 has one end connected to the tip of the crank arm 125, and the other end connected to one swing lever 113a (the right swing lever 113a in FIG.
  • the two swing levers 113a are connected to a portion near the swing lever 113a) far from the motor M.
  • the other end of the drive rod R2 is connected to a portion near the right swing lever 113a in the intermediate portion of the connecting rod R1 (that is, the two swing levers 113a are connected to each other).
  • It is connected to a portion near the swing lever 113a far from the motor M).
  • Each end of the connecting rod R1 and the driving rod R2 is drivingly connected to another member via a ball joint.
  • a fragile portion 111f is provided in the extending portion 111e between the holder portion 111a and the frame fixing portion 111c in the pivot holder 111 of the present embodiment.
  • one (right side in FIG. 8) and the other (left side in FIG. 8) pivot holder 111 are slightly different in size and shape, but one (right side in FIG. 8) pivot holder 111 is different.
  • the other (left side in FIG. 8) pivot holder 111 will be described in detail with the same reference numerals assigned to parts having similar functions, and detailed description thereof will be omitted.
  • the pivot holder 111 is an integrally molded product made of a metal material (for example, a die-cast molded part such as an aluminum alloy).
  • an extending portion 111e provided between the holder portion 111a and the frame fixing portion 111c and connecting them is a side extending from the holder portion 111a along a direction orthogonal to the axis A1 of the pivot shaft 113.
  • the whole side extension part 111g comprises the weak part 111f.
  • the vehicle body side extending portion 111j provided between the holder portion 111a and the holder vehicle body fixing portion 111b is connected in a direction perpendicular to the axis A1 of the pivot shaft 113.
  • the cross-sectional shape that extends along the direction perpendicular to the longitudinal direction is an L-shaped cross-sectional shape.
  • the vehicle body side extending part 111j has a rib 111k that protrudes in a direction perpendicular to the width direction (downward in the present embodiment) from the end in the width direction of the plate-like part serving as a base. It is L-shaped cross-sectional shape.
  • the rib 111k is an end portion in the width direction farther from the swing range B (see FIG. 8) of the swing lever 113a (the swing lever) of the two end portions in the width direction of the vehicle body side extending portion 111j. 113a in the width direction far from the tip of 113a.
  • the vertical extending portion 111h has an L-shaped cross-sectional shape that is perpendicular to the longitudinal direction (vertical direction).
  • the vertically extending portion 111h further protrudes in the width direction from the end portion in the width direction of the plate-like portion serving as the base, and is orthogonal to the width direction (in this embodiment, the side extending portion 111g).
  • the rib 111m has a width direction end portion (swing lever) which is far from the swing range B (see FIG. 8) of the swing lever 113a, of the two end portions in the width direction of the vertically extending portion 111h. 113a in the width direction far from the tip of 113a.
  • the cross-sectional shape orthogonal to the longitudinal direction maintained the rectangular cross-sectional shape (namely, the shape of the plate-shaped part used as a base).
  • the fragile portion 111f is relatively weaker than the vehicle body side extending portion 111j or the vertically extending portion 111h having the L-shaped cross section.
  • the vehicle body side extending portion 111j and the vertically extending portion 111h having an L-shaped cross-sectional shape are formed as relatively high-strength portions than the side extending portion 111g that remains a plate-like portion serving as a base. Yes.
  • a fragile portion 111f is provided in the extending portion 111e between the holder portion 111a and the frame fixing portion 111c in the pivot holder 111. Therefore, for example, when an axial downward force is applied to the pivot shaft 113 due to some object collision, the fragile portion 111f is broken and the pivot shaft 113 and the holder are broken even if there is no space below the motor M or the connecting frame 112.
  • the portion 111a can be displaced downward. Therefore, as shown in FIG. 11, the impact on the object can be suppressed while the space where the wiper device is disposed is reduced (even though the space is shallow at the bottom).
  • the pivot holder 111 has a vertically extending portion 111h. Therefore, when the connection frame 112 and the frame fixing portion 111c are fixed at a position below the pivot shaft 113 (vehicle inward position), the motor M as a heavy object fixed to the connection frame 112 is also positioned below. Can be arranged. Moreover, when the gap between the holder portion 111a and the holder body fixing portion 111b is broken as in the prior art, the vertically extending portion 111h hinders the downward displacement of the pivot shaft 113. On the other hand, in the above embodiment, since the weakened portion 111f of the extending portion 111e between the holder portion 111a and the frame fixing portion 111c is broken, as shown in FIG. 11, the holder body portion 111a using the holder body fixing portion 111b as a fulcrum. At the same time, the pivot shaft 113 can be displaced downward.
  • the extending portion 111e includes a side extending portion 111g extending from the holder portion 111a on the side opposite to the vehicle body side extending portion 111j along a direction orthogonal to the axis A1 of the pivot shaft 113, and a side extending portion. It has a vertically extending portion 111h that extends downward from the tip of the portion 111g and is connected to the frame fixing portion 111c.
  • the weak part 111f is provided in the side extension part 111g. Therefore, for example, it is easy to secure a large space below the fragile portion 111f, and as a result, it is easy to secure a large amount of downward displacement of the pivot shaft 113 and the holder portion 111a.
  • the fragile portion 111f is broken and the pivot shaft 113 and the holder portion 111a are displaced downward while rotating around the holder body fixing portion 111b. .
  • the amount of downward displacement of the pivot shaft 113 and the holder portion 111a can be increased when the fragile portion 111f is located as high as possible.
  • the fragile portion 111f is provided in the laterally extending portion 111g extending from the holder portion 111a along the direction orthogonal to the axis A1 of the pivot shaft 113.
  • the fragile portion 111f is compared to the case where the fragile portion is provided in the middle.
  • the position of can be made high. Thereby, the downward displacement amount of the pivot shaft 113 and the holder portion 111a can be increased.
  • the vehicle body side extending portion 111j and the vertical extending portion 111h between the holder portion 111a and the holder vehicle body fixing portion 111b have an L-shaped cross-sectional shape. Therefore, the rigidity of the vehicle body side extending portion 111j and the vertically extending portion 111h can be increased, and the fragile portion 111f (side extending portion 111g) has a simple plate shape with a rectangular cross section as in this embodiment. can do. Thereby, the weak part 111f which is relatively weak compared with the vehicle body side extension part 111j and the up-down direction extension part 111h of L-shaped cross-section can be comprised.
  • the vehicle body side extending portion 111j and the vertically extending portion 111h having an L-shaped cross-section are made to be relatively high-strength portions than the side extending portion 111g that is a plate-like portion serving as a base. it can.
  • a swing lever 113a is provided at the lower end of the pivot shaft 113.
  • the vertically extending portion 111h has an L-shaped cross section by having a rib 111m extending to the base end side of the side extending portion 111g.
  • the rib 111m is provided at the end in the width direction far from the swing range B of the swing lever 113a, out of the two ends in the width direction of the vertically extending portion 111h. Therefore, it is possible to prevent the rib 111m from narrowing the swing range B of the swing lever 113a while increasing the rigidity of the vertically extending portion 111h.
  • a swing lever 113a is provided at the lower end of the pivot shaft 113.
  • the vehicle body side extending portion 111j has an L-shaped cross section by having a rib 111k extending downward.
  • the rib 111k is provided at the end in the width direction far from the swing range B of the swing lever 113a, out of the two ends in the width direction of the vehicle body side extending portion 111j. Therefore, it is possible to prevent the rib 111k from narrowing the swing range B of the swing lever 113a while increasing the rigidity of the vehicle body side extending portion 111j.
  • a rubber bush 114 is fixed to the holder body fixing portion 111b.
  • the holder vehicle body fixing portion 111b is fixed to the vehicle body via the rubber bush 114. Therefore, propagation of vibration is suppressed between the wiper device U and the vehicle body. Further, when an external downward force is applied to the pivot shaft 113 due to some object collision, if the fragile portion 111f is broken, the rubber bush 114 is elastically deformed and crushed, whereby the pivot shaft 113 and the holder portion 111a are fixed to the holder body. It is allowed to easily rotate around the portion 111b, and the pivot shaft 113 and the holder portion 111a can be displaced downward. Therefore, it is possible to suppress the impact applied to the object, including absorbing the impact when the rubber bush 114 is elastically deformed.
  • the second embodiment may be modified as follows.
  • the extending part 111e between the holder part 111a and the frame fixing part 111c has a side extending part 111g and a vertically extending part 111h, and the weak part 111f extends sideways.
  • the shape of the extending portion 111e may be changed to another shape. In that case, of course, the position of the fragile portion 111f may be changed to another position of the extending portion. .
  • the vehicle body side extending portion 111j and the vertical extending portion 111h are L-shaped cross-sectional shapes, but if the shape has relatively higher rigidity than the fragile portion 111f, You may change into another cross-sectional shape.
  • the rib 111m does not affect the swing range B of the swing lever 113a, the width of the two ends in the width direction of the vertically extending portion 111h is close to the swing range B of the swing lever 113a. It may be provided at the end.
  • the rib 111k may be provided at the end in the width direction close to the swing range B of the swing lever 113a, out of the two ends in the width direction of the vehicle body side extending portion 111j.
  • the holder vehicle body fixing portion 111b is fixed to the vehicle body via the rubber bush 114.
  • the pivot shaft 113 and the holder portion 111a are displaced downward. If it can accept
  • the connecting frame 112 has a C-shaped cross section orthogonal to the longitudinal direction, but is not limited thereto, and may be, for example, a hollow pipe shape or other cross sectional shapes. It is good also as a connection frame.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Transmission Devices (AREA)

Abstract

The wiper device includes a first pivot shaft, a first swing lever, a second pivot shaft, a second swing lever, a link rod, a crank arm, and a drive rod. The first swing lever extends from the first pivot shaft in a radial direction of the first pivot shaft and integrally rotates with the first pivot shaft. The second swing lever extends from the second pivot shaft in a radial direction of the second pivot shaft and integrally rotates with the second pivot shaft. The link rod has a first end connected to a tip part of the first swing lever and a second end connected to a tip part of the second swing lever. The crank arm extends from an output shaft of a motor in a radial direction of this output shaft and integrally rotates with the output shaft. The drive rod has a first end connected to a tip part of the crank arm and a second end connected to an intermediate part of the link rod.

Description

ワイパ装置Wiper device
 本発明は、ワイパ装置に関するものである。 The present invention relates to a wiper device.
 従来、ワイパ装置としては、第1ピボット軸から軸直交方向に延びた第1揺動レバーと、第2ピボット軸から軸直交方向に延びた第2揺動レバーと、一端が第1揺動レバーの先端部に連結され他端が第2揺動レバーの先端部に連結された連結ロッドとを備えるものがある(例えば、特許文献1参照)。第1及び第2ピボット軸に固定されるワイパは同期して払拭動作を行う。このワイパ装置では、モータの出力軸にクランクアームが固定され、そのクランクアームが駆動ロッドを介して第2揺動レバーに連結されることで、出力軸から第2揺動レバー(第2ピボット軸)に動力が伝達され、その動力が連結ロッドによって第1揺動レバー(第1ピボット軸)に伝達されることになる。 Conventionally, as a wiper device, a first swing lever that extends in a direction perpendicular to the axis from a first pivot shaft, a second swing lever that extends in a direction perpendicular to the axis from a second pivot shaft, and one end of the first swing lever And a connecting rod having the other end connected to the tip of the second swing lever (see, for example, Patent Document 1). The wipers fixed to the first and second pivot shafts perform a wiping operation synchronously. In this wiper device, the crank arm is fixed to the output shaft of the motor, and the crank arm is connected to the second swing lever via the drive rod, whereby the second swing lever (second pivot shaft) is connected to the output shaft. ) Is transmitted to the first swing lever (first pivot shaft) by the connecting rod.
 また、駆動力を伝達するためのロッド(駆動ロッドまたは連結ロッド)を揺動レバーに連結するボールジョイントを備えるワイパ装置がある(例えば、特許文献2参照)。このボールジョイントは、揺動レバーに固定されたボールピンと、ロッドに固定されたジョイントケースとを有する。ボールピンは、揺動レバーを貫通してかしめられる基端部と、揺動レバーに立設される軸部と、その軸部の先端に設けられた球状部とを有している。ジョイントケースは前記球状部を転動可能に保持する球面凹部(装着凹部)を有している。 Also, there is a wiper device provided with a ball joint for connecting a rod (drive rod or connecting rod) for transmitting a driving force to a swing lever (for example, see Patent Document 2). The ball joint has a ball pin fixed to the swing lever and a joint case fixed to the rod. The ball pin has a base end portion that is caulked through the swing lever, a shaft portion standing on the swing lever, and a spherical portion provided at the tip of the shaft portion. The joint case has a spherical recess (mounting recess) that holds the spherical portion in a rollable manner.
 また、ワイパ装置の一例は、モータと、モータが固定された連結フレームと、連結フレームの両端に固定されたピボットホルダとを備える。ピボットホルダは、ワイパが連結されるピボット軸を保持するホルダ部と、該ホルダ部から延出し車体に対して固定されるホルダ車体固定部と、ホルダ部とホルダ車体固定部との間に設けられた脆弱部とを有する(例えば、特許文献3参照)。このようなワイパ装置では、例えば、何らかの物体がピボット軸の先端部(ワイパの基端部)に衝突することでピボット軸に軸方向下向きの外力(衝撃)が掛かったとき、脆弱部が破断しつつピボット軸、ホルダ部、連結フレーム及びモータ等からなる一体物が下方に変位(落下)する。これにより、物体に掛かる衝撃(ピボット軸からの反力)を抑えることができる。 Also, an example of the wiper device includes a motor, a connection frame to which the motor is fixed, and pivot holders fixed to both ends of the connection frame. The pivot holder is provided between a holder part that holds a pivot shaft to which the wiper is connected, a holder body fixing part that extends from the holder part and is fixed to the vehicle body, and the holder part and the holder body fixing part. (See, for example, Patent Document 3). In such a wiper device, for example, when an object collides with the tip end portion (base end portion of the wiper) of the pivot shaft and an external downward force (impact) is applied to the pivot shaft, the fragile portion breaks. Meanwhile, an integrated body composed of the pivot shaft, the holder portion, the connecting frame, the motor and the like is displaced (dropped) downward. Thereby, the impact (reaction force from the pivot shaft) applied to the object can be suppressed.
特開2008-207701号公報JP 2008-207701 A 特許第4142494号公報Japanese Patent No. 4142494 特開2004-330895号公報JP 2004-330895 A
 しかしながら、特許文献1に記載のようなワイパ装置では、第2揺動レバーの先端部に連結ロッドと駆動ロッドとが連結されるため、第2揺動レバーが大型化してしまう(第2ピボット軸の軸方向から見た第2揺動レバーの面積が大きくなってしまう)という問題がある。このことは、例えば、レバーの材料費を高くしてしまう原因となる。また、連結ロッドと駆動ロッドが第2揺動レバーの一方の面と他方の面に連結される場合には、さらに第2ピボット軸の軸方向へも大きくなる。そのためその作動スペースもさらに大きくなり、車両の搭載スペース確保が難しくなるといった問題もある。 However, in the wiper device described in Patent Document 1, since the connecting rod and the drive rod are connected to the tip of the second swing lever, the second swing lever becomes large (second pivot shaft). The area of the second rocking lever as viewed from the axial direction of the head is increased). This causes, for example, an increase in the material cost of the lever. Further, when the connecting rod and the drive rod are connected to one surface and the other surface of the second swing lever, the connecting rod and the driving rod are further increased in the axial direction of the second pivot shaft. As a result, the operating space is further increased, and there is a problem that it is difficult to secure a vehicle mounting space.
 また、特許文献2に記載のようなボールジョイントを備えたワイパ装置では、揺動レバーにボールピンの軸部が板厚方向に立設されており、揺動レバーの平面と駆動力が入力される球状部とが板厚方向にオフセットして位置している。そのため、揺動レバーと駆動ロッドとの間で駆動力が伝達される際に揺動レバーにその板厚方向と直交する方向(つまり揺動レバーの平面に沿った方向)に対して傾いた方向の力(すなわち、ボールピンを傾けようとする方向の力)が加わることになる。よって、軸部から受ける傾いた方向の力によって変形しないように、揺動レバーの板厚を厚くして揺動レバーの剛性を確保する必要があった。このことは、例えば、揺動レバーの材料費を高くしてしまう原因となる。 Further, in the wiper device having a ball joint as described in Patent Document 2, the shaft portion of the ball pin is erected on the swing lever in the plate thickness direction, and the plane of the swing lever and the driving force are input. The spherical portion is offset in the thickness direction. Therefore, when the driving force is transmitted between the swing lever and the drive rod, the swing lever is inclined with respect to the direction perpendicular to the thickness direction (that is, the direction along the plane of the swing lever). (That is, a force in a direction in which the ball pin is inclined) is applied. Therefore, it is necessary to increase the thickness of the rocking lever to ensure the rigidity of the rocking lever so as not to be deformed by the force in the inclined direction received from the shaft portion. This causes, for example, an increase in the material cost of the swing lever.
 また、特許文献3に記載のような脆弱部を有するワイパ装置では、ピボット軸、ホルダ部、連結フレーム及びモータ等からなる大きな一体物が下方に変位することを可能とするために、車両側に大きな配置スペースが必要となってしまうという問題がある。 Further, in a wiper device having a weak part as described in Patent Document 3, a large unit consisting of a pivot shaft, a holder part, a connecting frame, a motor, and the like can be displaced downward on the vehicle side. There is a problem that a large arrangement space is required.
 本発明の第1の目的は、揺動レバーの小型化を図ることができるワイパ装置を提供することにある。
 本発明の第2の目的は、揺動レバーの板厚を薄くすることができるワイパ装置を提供することにある。
A first object of the present invention is to provide a wiper device capable of reducing the size of a swing lever.
A second object of the present invention is to provide a wiper device that can reduce the thickness of the swing lever.
 本発明の第3の目的は、ワイパ装置が配置されるスペースを小さくしながらも、衝突する物体に掛かる衝撃を抑えることができるワイパ装置を提供することにある。 A third object of the present invention is to provide a wiper device that can suppress an impact applied to a colliding object while reducing a space in which the wiper device is disposed.
 上記第1の目的を達成するため、本発明の第1の態様にかかるワイパ装置は、第1ピボット軸と、第1揺動レバーと、第2ピボット軸と、第2揺動レバーと、連結ロッドと、クランクアームと、駆動ロッドとを含む。前記第1揺動レバーは、前記第1ピボット軸から同第1ピボット軸の径方向に延びて該第1ピボット軸と一体回動する。前記第2揺動レバーは、前記第2ピボット軸から同第2ピボット軸の径方向に延びて該第2ピボット軸と一体回動する。前記連結ロッドは、前記第1揺動レバーの先端部に連結された第1端と、前記第2揺動レバーの先端部に連結された第2端と、を有する。前記クランクアームは、モータの出力軸から同出力軸の径方向に延びて該出力軸と一体回転する。前記駆動ロッドは、前記クランクアームの先端部に連結された第1端と、前記連結ロッドの中間部に連結された第2端と、を有する。 In order to achieve the first object, a wiper device according to a first aspect of the present invention includes a first pivot shaft, a first swing lever, a second pivot shaft, and a second swing lever. A rod, a crank arm, and a drive rod are included. The first swing lever extends from the first pivot shaft in the radial direction of the first pivot shaft and rotates integrally with the first pivot shaft. The second swing lever extends from the second pivot shaft in the radial direction of the second pivot shaft and rotates integrally with the second pivot shaft. The connecting rod has a first end connected to the tip of the first swing lever and a second end connected to the tip of the second swing lever. The crank arm extends in the radial direction of the output shaft from the output shaft of the motor and rotates integrally with the output shaft. The drive rod has a first end connected to a tip portion of the crank arm and a second end connected to an intermediate portion of the connection rod.
 上記第2の目的を達成するため、本発明の第2の態様にかかるワイパ装置は、ピボット軸と、揺動レバーと、連結ロッドと、ボールジョイントとを含む。前記揺動レバーは、前記ピボット軸から同ピボット軸の軸方向と直交する方向に延びて該ピボット軸と一体回動する。前記連結ロッドは、前記揺動レバーの先端部に駆動力を伝達するために設けられる。前記ボールジョイントは、前記揺動レバーの先端部に前記連結ロッドを連結するために設けられる。前記ボールジョイントの転動中心が前記揺動レバーの板厚の範囲内に配置されている。 In order to achieve the second object, a wiper device according to a second aspect of the present invention includes a pivot shaft, a swing lever, a connecting rod, and a ball joint. The swing lever extends from the pivot shaft in a direction perpendicular to the axial direction of the pivot shaft and rotates integrally with the pivot shaft. The connecting rod is provided to transmit a driving force to the tip of the swing lever. The ball joint is provided to connect the connecting rod to the tip of the swing lever. The rolling center of the ball joint is disposed within the thickness range of the swing lever.
 上記第3の目的を達成するため、本発明の第3の態様にかかるワイパ装置は、モータと、前記モータが固定された連結フレームと、ピボットホルダとを含む。前記ピボットホルダは、ホルダ部と、連結フレーム固定部と、ホルダ車体固定部とを有する。前記ホルダ部は、ワイパが連結される上端部を有するピボット軸を保持する。前記連結フレーム固定部は、前記ホルダ部から延出し前記連結フレームに固定される。前記ホルダ車体固定部は、前記ホルダ部から延出し車体に対して固定される。前記ホルダ部と前記連結フレーム固定部との間の延設部には、脆弱部が設けられている。 To achieve the third object, a wiper device according to a third aspect of the present invention includes a motor, a connecting frame to which the motor is fixed, and a pivot holder. The pivot holder includes a holder portion, a connecting frame fixing portion, and a holder vehicle body fixing portion. The holder portion holds a pivot shaft having an upper end portion to which a wiper is connected. The connection frame fixing part extends from the holder part and is fixed to the connection frame. The holder vehicle body fixing portion extends from the holder portion and is fixed to the vehicle body. A fragile part is provided in the extending part between the holder part and the connecting frame fixing part.
本発明の第1実施形態にかかる車両の一部斜視図。1 is a partial perspective view of a vehicle according to a first embodiment of the present invention. 図1のワイパ装置の全体模式図。FIG. 2 is an overall schematic diagram of the wiper device of FIG. 図2の第1揺動レバーと連結ロッドの連結状態を示す一部断面図。FIG. 3 is a partial cross-sectional view illustrating a connected state of a first swing lever and a connecting rod in FIG. 2. 図3のボールジョイントを説明するための一部断面図。FIG. 4 is a partial cross-sectional view for explaining the ball joint of FIG. 3. 図2の連結ロッドの位置を説明するための模式図。The schematic diagram for demonstrating the position of the connection rod of FIG. 第1実施形態の別例における第1揺動レバーと連結ロッドの連結状態を示す一部断面図。FIG. 6 is a partial cross-sectional view showing a connected state of a first rocking lever and a connecting rod in another example of the first embodiment. 第1実施形態の別例における第1揺動レバーと連結ロッドの連結状態を示す一部断面図。FIG. 6 is a partial cross-sectional view showing a connected state of a first rocking lever and a connecting rod in another example of the first embodiment. 本発明の第2実施形態にかかるワイパ装置の斜視図。The perspective view of the wiper apparatus concerning 2nd Embodiment of this invention. 図8のワイパ装置の側面図。The side view of the wiper apparatus of FIG. (a)は、図9におけるA-A線に沿った断面図。(b)は、図9におけるB-B線に沿った断面図。(c)は、図9におけるC-C線に沿った断面図。FIG. 10A is a sectional view taken along line AA in FIG. FIG. 10B is a sectional view taken along line BB in FIG. FIG. 10C is a sectional view taken along the line CC in FIG. 図9のワイパ装置の作用を説明するための模式図。The schematic diagram for demonstrating the effect | action of the wiper apparatus of FIG.
 以下、ワイパ装置の一実施形態を図1~図5に従って説明する。
 図1に示すように、車両は、フロントウインドウGと、該フロントウインドウGの車室外側の払拭面Gaを払拭するための第1及び第2ワイパW1,W2とを備える。なお、図1及び図2のワイパ装置は左ハンドル車用であり、第1ワイパW1は、運転席側(図1中、右側)の払拭面Gaを払拭し、第2ワイパW2は、助手席側(図1中、左側)の払拭面Gaを払拭するためのものである。
Hereinafter, an embodiment of a wiper device will be described with reference to FIGS.
As shown in FIG. 1, the vehicle includes a front window G and first and second wipers W1, W2 for wiping a wiping surface Ga on the outside of the passenger compartment of the front window G. 1 and 2 is for a left-hand drive vehicle, the first wiper W1 wipes the wiping surface Ga on the driver's seat side (right side in FIG. 1), and the second wiper W2 is the passenger seat. This is for wiping the wiping surface Ga on the side (left side in FIG. 1).
 図2に示すように、ワイパ装置は、第1及び第2ピボットホルダ1,2とそれらを連結する連結フレーム3とを備え、前記フロントウインドウG(図1参照)の下方の図示しないボディに対して固定される。 As shown in FIG. 2, the wiper device includes first and second pivot holders 1 and 2 and a connecting frame 3 that connects them, with respect to a body (not shown) below the front window G (see FIG. 1). Fixed.
 また、ワイパ装置は、前記第1ピボットホルダ1に対して回転可能に支持された第1ピボット軸4と、該第1ピボット軸4の下端から径方向(軸直交方向)に延びて該第1ピボット軸4と一体回動する第1揺動レバー5とを備える。尚、第1ピボット軸4の上端部には前記第2ワイパW2が固定される。 Further, the wiper device includes a first pivot shaft 4 rotatably supported with respect to the first pivot holder 1, and a first pivot shaft 4 extending in a radial direction (axial orthogonal direction) from a lower end of the first pivot shaft 4. A first swing lever 5 that rotates integrally with the pivot shaft 4 is provided. The second wiper W2 is fixed to the upper end portion of the first pivot shaft 4.
 また、ワイパ装置は、前記第2ピボットホルダ2に対して回転可能に支持された第2ピボット軸6と、該第2ピボット軸6の下端から径方向(軸直交方向)に延びて該第2ピボット軸6と一体回動する第2揺動レバー7とを備える。尚、第2ピボット軸6の上端部には前記第1ワイパW1が固定される。 Further, the wiper device includes a second pivot shaft 6 rotatably supported with respect to the second pivot holder 2, and a second pivot shaft 6 extending in a radial direction (axial orthogonal direction) from a lower end of the second pivot shaft 6. A pivot lever 6 and a second swing lever 7 that rotates together with the pivot shaft 6 are provided. The first wiper W1 is fixed to the upper end portion of the second pivot shaft 6.
 また、ワイパ装置は、一端が前記第1揺動レバー5の先端部に連結され、他端が前記第2揺動レバー7の先端部に連結された連結ロッド8を備える。この連結ロッド8は、図3~図5に示すように、中実の(非中空の)棒材よりなり、本実施形態では断面円形の金属棒材よりなる。 The wiper device further includes a connecting rod 8 having one end connected to the tip of the first swing lever 5 and the other end connected to the tip of the second swing lever 7. As shown in FIGS. 3 to 5, the connecting rod 8 is made of a solid (non-hollow) bar, and in the present embodiment, is made of a metal bar having a circular cross section.
 又、ワイパ装置は、前記連結フレーム3に固定されたモータ9と、該モータ9の出力軸10から径方向(軸直交方向)に延びて該出力軸10と一体回転するクランクアーム11とを備える。尚、本実施形態では、モータ9の出力軸10は、第2ピボット軸6よりも第1ピボット軸4に近い位置に配置されている。 The wiper device also includes a motor 9 fixed to the connection frame 3 and a crank arm 11 that extends in a radial direction (axial orthogonal direction) from the output shaft 10 of the motor 9 and rotates integrally with the output shaft 10. . In the present embodiment, the output shaft 10 of the motor 9 is disposed at a position closer to the first pivot shaft 4 than to the second pivot shaft 6.
 又、ワイパ装置は、一端が前記クランクアーム11の先端部に連結され、他端が前記連結ロッド8の中間部に連結された駆動ロッド12を備えている。本実施形態では、駆動ロッド12は、連結ロッド8における第1揺動レバー5よりも第2揺動レバー7に近い位置に連結されている。そして、第1及び第2揺動レバー5,7と連結ロッド8との各連結点(各転動中心Z)を結ぶ直線L1と、クランクアーム11及び連結ロッド8と駆動ロッド12との各連結点(各転動中心)を結ぶ直線L2とが成す角度θは鋭角に設定され、クランクアーム11の作動中、常に45度以下の範囲内となるように設定されていることが好ましい。また、前記クランクアーム11は、モータ9の動作時、即ちクランクアーム11の回転時において、前記出力軸10の軸方向から見て、前記連結ロッド8と交差する(横切る)状態が存在する。言い換えると、クランクアーム11と駆動ロッド12との連結点X1は、クランクアーム11の回転時に、出力軸10の軸方向から見て、連結ロッド8に対して出力軸10寄り(図2中、直線L1より下側)の位置に位置する状態と、連結ロッド8に対して出力軸10寄りの位置と反対側(図2中、直線L1より上側)の位置に位置する状態とに交互に移動するように設けられている。 The wiper device further includes a drive rod 12 having one end connected to the tip of the crank arm 11 and the other end connected to an intermediate portion of the connecting rod 8. In the present embodiment, the drive rod 12 is connected to a position closer to the second swing lever 7 than the first swing lever 5 in the connecting rod 8. Then, a straight line L1 connecting each connection point (each rolling center Z) between the first and second swing levers 5, 7 and the connecting rod 8, and each connection between the crank arm 11, the connecting rod 8, and the drive rod 12. The angle θ formed by the straight line L2 connecting the points (each rolling center) is set to an acute angle, and is preferably set to always be within a range of 45 degrees or less during the operation of the crank arm 11. Further, when the motor 9 is operated, that is, when the crank arm 11 is rotated, the crank arm 11 intersects (crosses) the connecting rod 8 when viewed from the axial direction of the output shaft 10. In other words, the connecting point X1 between the crank arm 11 and the drive rod 12 is close to the output shaft 10 with respect to the connecting rod 8 when viewed from the axial direction of the output shaft 10 when the crank arm 11 rotates (in FIG. It moves alternately between a state located at a position below (L1) and a state located at a position opposite to the position close to the output shaft 10 with respect to the connecting rod 8 (above the straight line L1 in FIG. 2). It is provided as follows.
 前記第1揺動レバー5と前記第2揺動レバー7と前記駆動ロッド12は、全て前記連結ロッド8の上方側(第1及び第2ピボット軸4,6の先端側)に配置されて、該連結ロッド8と連結されている。 The first rocking lever 5, the second rocking lever 7 and the drive rod 12 are all disposed above the connecting rod 8 (the tip ends of the first and second pivot shafts 4 and 6). The connecting rod 8 is connected.
 詳しくは、第1揺動レバー5と連結ロッド8、第2揺動レバー7と連結ロッド8、及び、駆動ロッド12と連結ロッド8は、それぞれボールジョイント21を介して連結されている。 Specifically, the first rocking lever 5 and the connecting rod 8, the second rocking lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via a ball joint 21, respectively.
 図3及び図4に示すように、ボールジョイント21は、連結ロッド8に固定されたボールピン22と、第1揺動レバー5に固定されたジョイントケース23と、防塵・防水カバー24とを有する。尚、ボールジョイント21は互いに同様のものであるため、第1揺動レバー5と連結ロッド8とを連結するボールジョイント21についてのみ詳細に説明し、他のボールジョイント21についての説明は省略する。 As shown in FIGS. 3 and 4, the ball joint 21 includes a ball pin 22 fixed to the connecting rod 8, a joint case 23 fixed to the first swing lever 5, and a dustproof / waterproof cover 24. . Since the ball joints 21 are similar to each other, only the ball joint 21 that connects the first swing lever 5 and the connecting rod 8 will be described in detail, and the description of the other ball joints 21 will be omitted.
 ボールピン22は、連結ロッド8が貫通して固定される固定孔22aが形成された固定部22bと、固定部22bから固定孔22aの貫通方向と直交する方向に延びる軸部22cと、軸部22cの先端に設けられた球状部22dとを有する。即ち、ボールピン22は、連結ロッド8から、同連結ロッド8の長手方向と直交する方向に延びて、その先端部に球状部22dを有している。ボールピン22は、同ボールピン22に対して連結ロッド8が埋め込まれるような態様で設けられている。球状部22dはその外表面が球体の上下を一部除去した形状に形成されている。 The ball pin 22 includes a fixing portion 22b in which a fixing hole 22a is formed through which the connecting rod 8 is fixed, a shaft portion 22c extending from the fixing portion 22b in a direction perpendicular to the penetration direction of the fixing hole 22a, and a shaft portion. And a spherical portion 22d provided at the tip of 22c. That is, the ball pin 22 extends from the connecting rod 8 in a direction orthogonal to the longitudinal direction of the connecting rod 8 and has a spherical portion 22d at the tip. The ball pin 22 is provided in such a manner that the connecting rod 8 is embedded in the ball pin 22. The outer surface of the spherical portion 22d is formed in a shape obtained by partially removing the upper and lower parts of the sphere.
 ジョイントケース23は、その内部に前記球状部22dを転動可能に保持する球面凹部23aを有している。ジョイントケース23は、キャップ部23cと開口部23dとをさらに有している。キャップ部23cは、前記球状部22dの上部を覆うキャップ形状を有する。第1及び第2ピボット軸4,6は第1及び第2揺動レバー5,7から第1側に向かって延出している。キャップ部23cは、第1及び第2揺動レバー5,7に対して前記第1側に位置するとともに第1及び第2揺動レバー5,7の第1側の部位を覆うキャップ形状を有している。開口部23dは、ジョイントケース23の下部に位置している。開口部23dは、第1及び第2揺動レバー5,7に対して前記第1側と反対側の第2側に位置する。また、ジョイントケース23は、その外部に、第1揺動レバー5に形成された取付孔5aの内縁が嵌る環状溝23bを有している。 The joint case 23 has a spherical concave portion 23a that holds the spherical portion 22d in a rollable manner. The joint case 23 further includes a cap part 23c and an opening part 23d. The cap part 23c has a cap shape that covers the upper part of the spherical part 22d. The first and second pivot shafts 4 and 6 extend from the first and second swing levers 5 and 7 toward the first side. The cap portion 23 c has a cap shape that is located on the first side with respect to the first and second swing levers 5 and 7 and covers the first side portion of the first and second swing levers 5 and 7. is doing. The opening 23 d is located at the lower part of the joint case 23. The opening 23d is located on the second side opposite to the first side with respect to the first and second swing levers 5 and 7. In addition, the joint case 23 has an annular groove 23b on the outside of which the inner edge of the mounting hole 5a formed in the first swing lever 5 is fitted.
 防塵・防水カバー24は、前記軸部22cに外嵌される固定環状部24aと、前記ジョイントケース23の下方の開口を塞ぐように設けられる薄肉の閉塞部24bとを有する。閉塞部24bは、可撓性を有し、ボールジョイント21が転動しても(詳しくは球状部22dが球面凹部23aに対して摺動しても)ジョイントケース23の下方の開口を塞いだ状態を維持するように弾性変形して追従する。 The dustproof / waterproof cover 24 includes a fixed annular portion 24a fitted on the shaft portion 22c and a thin-walled closed portion 24b provided so as to close an opening below the joint case 23. The closing portion 24b is flexible and closes the opening below the joint case 23 even when the ball joint 21 rolls (specifically, even when the spherical portion 22d slides relative to the spherical concave portion 23a). It is elastically deformed so as to maintain the state.
 また、本実施形態のボールジョイント21は、その転動中心(即ち前記球状部22dの中心)Zが第1揺動レバー5の板厚の範囲Y内であって、その範囲Y内の中心位置に配置されて設けられている。 Further, in the ball joint 21 of the present embodiment, the rolling center (that is, the center of the spherical portion 22d) Z is within the range Y of the plate thickness of the first swing lever 5, and the center position within the range Y is It is arranged and provided.
 また、図2に示すように、全ての(3つの)ボールジョイント21の転動中心Zは、一直線上に配置されている。言い換えると、駆動ロッド12と連結ロッド8とを連結するボールジョイント21の転動中心Zは、第1揺動レバー5と連結ロッド8とを連結するボールジョイント21の転動中心Zと、第2揺動レバー7と連結ロッド8とを連結するボールジョイント21の転動中心Zとを結ぶ直線L1上に配置されている。 Further, as shown in FIG. 2, the rolling centers Z of all (three) ball joints 21 are arranged on a straight line. In other words, the rolling center Z of the ball joint 21 that connects the drive rod 12 and the connecting rod 8 is the rolling center Z of the ball joint 21 that connects the first swing lever 5 and the connecting rod 8 and the second. It is arranged on a straight line L1 connecting the rolling center Z of the ball joint 21 that connects the swing lever 7 and the connecting rod 8.
 また、図5に模式的に示すように、前記連結ロッド8は、前記モータ9と前記クランクアーム11の動作エリアとの間(出力軸10の軸方向に沿った方向の間)を通るように設けられている。「前記クランクアーム11の動作エリア」とは、出力軸10の軸の軸線周りにクランクアーム11が回転した時のクランクアーム11が占有する動作エリアを意味する。詳しくは、本実施形態の連結ロッド8は、モータ9の動作時に、連結ロッド8の長手方向(図5の紙面直交方向)にほぼ沿って移動するとともに出力軸10の直交方向(図5の左右方向)にもスライドするように移動する。連結ロッド8の移動時において、少なくとも出力軸10に連結ロッド8が最も近づく際には、連結ロッド8の少なくとも一部がモータ9とクランクアーム11の動作エリアとの間を通過する状態となっている。 Further, as schematically shown in FIG. 5, the connecting rod 8 passes between the motor 9 and the operating area of the crank arm 11 (between the directions along the axial direction of the output shaft 10). Is provided. The “operation area of the crank arm 11” means an operation area occupied by the crank arm 11 when the crank arm 11 rotates around the axis of the output shaft 10. Specifically, the connecting rod 8 of the present embodiment moves substantially along the longitudinal direction of the connecting rod 8 (the direction orthogonal to the plane of FIG. 5) during operation of the motor 9, and the direction orthogonal to the output shaft 10 (left and right in FIG. 5). Move in the direction). When the connecting rod 8 moves, at least when the connecting rod 8 approaches the output shaft 10 at least, at least a part of the connecting rod 8 passes between the motor 9 and the operating area of the crank arm 11. Yes.
 次に、第1実施形態のワイパ装置の作用について説明する。
 例えば、運転席に設けられたウォッシャスイッチが操作されると、モータ9に駆動電流が供給され、出力軸10及びクランクアーム11が回転駆動される。すると、その動力が駆動ロッド12及び連結ロッド8を介して第1及び第2揺動レバー5,7に伝達され、第1及び第2揺動レバー5,7が往復揺動することで第1及び第2ピボット軸4,6が回動され、第1及び第2ピボット軸4,6に固定された第1及び第2ワイパW1,W2が同期して往復揺動し、払拭動作が行われる。
Next, the operation of the wiper device of the first embodiment will be described.
For example, when a washer switch provided in the driver's seat is operated, a drive current is supplied to the motor 9 and the output shaft 10 and the crank arm 11 are rotationally driven. Then, the power is transmitted to the first and second swing levers 5 and 7 through the drive rod 12 and the connecting rod 8, and the first and second swing levers 5 and 7 swing back and forth to form the first. And the second pivot shafts 4 and 6 are rotated, and the first and second wipers W1 and W2 fixed to the first and second pivot shafts 4 and 6 are reciprocally swung synchronously to perform a wiping operation. .
 次に、上記実施形態の特徴的な利点を以下に記載する。
 (1)駆動ロッド12は、クランクアーム11の先端部に連結される一端と、第1揺動レバー5と第2揺動レバー7とを連結する連結ロッド8の中間部に連結される他端とを有する。よって、例えば、駆動ロッド12の他端が第2揺動レバー7の先端部に連結される構成に比べて、第2揺動レバー7の小型化を図ることができる。即ち、第2揺動レバー7の先端部に連結ロッド8及び駆動ロッド12がそれぞれボールジョイント21を介して連結される構成では、それぞれ連結するスペースを確保するために第2揺動レバー7の面積を大きくする必要がある。これに対して本実施形態では第2揺動レバー7の先端部には駆動ロッド12が連結されないため(連結ロッド8だけ連結すればよいため)、第2揺動レバー7の小型化(第2ピボット軸6の軸方向から見た面積の小型化)を図ることができる。その結果、例えば、第2揺動レバー7の材料費を低減することができる。また、例えば、駆動ロッド12の他端が第2揺動レバー7の先端部に連結される構成に比べて、駆動ロッド12の長さを短くすることが可能となる。さらに、第1揺動レバー5と第2揺動レバー7には共にボールジョイント21が1つ設けられているだけ(より詳しくはジョイントケース23が1つ設けられているだけ)であるため、第1揺動レバー5と第2揺動レバー7とを共通のレバー形状として構成することができる。また、連結ロッド8と駆動ロッド12が第2揺動レバー7の一方の面と他方の面とにそれぞれ連結される場合に比べて、第2ピボット軸6の軸方向(上下方向)における作動スペースを小さくでき、車両への搭載スペース確保が容易となる。
Next, the characteristic advantages of the above embodiment will be described below.
(1) The drive rod 12 has one end connected to the tip of the crank arm 11 and the other end connected to an intermediate portion of the connecting rod 8 that connects the first swing lever 5 and the second swing lever 7. And have. Therefore, for example, the second rocking lever 7 can be downsized as compared with the configuration in which the other end of the drive rod 12 is connected to the tip of the second rocking lever 7. That is, in the configuration in which the connecting rod 8 and the drive rod 12 are connected to the tip of the second swing lever 7 via the ball joints 21, the area of the second swing lever 7 is secured in order to secure a space for connection. Need to be larger. In contrast, in the present embodiment, the drive rod 12 is not connected to the tip of the second swing lever 7 (since only the connecting rod 8 needs to be connected), the second swing lever 7 can be downsized (second). It is possible to reduce the area of the pivot shaft 6 as viewed from the axial direction. As a result, for example, the material cost of the second swing lever 7 can be reduced. Further, for example, the length of the drive rod 12 can be shortened as compared with the configuration in which the other end of the drive rod 12 is connected to the tip of the second swing lever 7. Furthermore, since both the first rocking lever 5 and the second rocking lever 7 are provided with only one ball joint 21 (more specifically, only one joint case 23 is provided) The first rocking lever 5 and the second rocking lever 7 can be configured as a common lever shape. Compared with the case where the connecting rod 8 and the drive rod 12 are connected to one surface and the other surface of the second swing lever 7, the working space in the axial direction (vertical direction) of the second pivot shaft 6 is larger. This makes it easier to secure a mounting space on the vehicle.
 (2)第1揺動レバー5と第2揺動レバー7と駆動ロッド12は、全て連結ロッド8の上方側(第1及び第2ピボット軸4,6の先端側)に配置されて、該連結ロッド8と連結される。そのため、ワイパ装置の上下方向の厚み(寸法)を小さくすることができる。即ち、第1揺動レバー5と第2揺動レバー7と駆動ロッド12のいずれか1つが、連結ロッド8の上下方向の反対側に配置されて連結ロッド8と連結される構成では、反対側に配置された部材の上下方向の厚み(寸法)が加算されてワイパ装置の上下方向の厚み(寸法)が大きくなるが、これを回避して、上下方向の厚み(寸法)を小さくすることができる。 (2) The first rocking lever 5, the second rocking lever 7 and the drive rod 12 are all disposed above the connecting rod 8 (the tip side of the first and second pivot shafts 4 and 6). It is connected to the connecting rod 8. Therefore, the thickness (dimension) in the vertical direction of the wiper device can be reduced. That is, in the configuration in which any one of the first rocking lever 5, the second rocking lever 7, and the drive rod 12 is disposed on the opposite side of the connecting rod 8 in the vertical direction and connected to the connecting rod 8, the opposite side The thickness (dimension) in the vertical direction of the member arranged in the upper part is added to increase the vertical thickness (dimension) of the wiper device, but this can be avoided to reduce the vertical thickness (dimension). it can.
 (3)第1揺動レバー5と連結ロッド8、第2揺動レバー7と連結ロッド8、及び、駆動ロッド12と連結ロッド8は、それぞれボールジョイント21を介して連結され、全てのボールジョイント21の転動中心Zは、一直線(L1)上に配置される。そのため、駆動時に捩れるような動きをさせることなく、良好に動作させることが可能となる。例えば、連結ロッド8と第1揺動レバー5及び連結ロッド8と第2揺動レバー7とが連結ロッド8に対して上下方向一方側で連結され、駆動ロッド12と連結ロッド8とが連結ロッド8に対して上下方向他方側で連結された場合を考える。この場合、駆動ロッド12からの揺動推力が、連結ロッド8と第1揺動レバー5との連結点(各転動中心Z)及び連結ロッド8と第2揺動レバー7との連結点(各転動中心Z)を結ぶ直線L1を回動軸として、連結ロッド8が揺動してしまう。上記構成によれば、このような揺動を防止又は抑制できる。 (3) The first rocking lever 5 and the connecting rod 8, the second rocking lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via the ball joints 21, respectively. The rolling center Z of 21 is arrange | positioned on a straight line (L1). Therefore, it is possible to operate well without causing a twisting movement during driving. For example, the connecting rod 8 and the first swing lever 5 and the connecting rod 8 and the second swing lever 7 are connected to the connecting rod 8 on one side in the vertical direction, and the drive rod 12 and the connecting rod 8 are connected to the connecting rod. Consider a case in which 8 is connected on the other side in the vertical direction. In this case, the oscillating thrust from the drive rod 12 is a connection point between the connecting rod 8 and the first oscillating lever 5 (each rolling center Z) and a connecting point between the connecting rod 8 and the second oscillating lever 7 ( The connecting rod 8 swings about a straight line L1 connecting the rolling centers Z) as a rotation axis. According to the said structure, such rocking | fluctuation can be prevented or suppressed.
 (4)モータ9の出力軸10は、第2ピボット軸6よりも第1ピボット軸4に近い位置に配置され、駆動ロッド12は、連結ロッド8における第1揺動レバー5よりも第2揺動レバー7に近い位置に連結される。そのため、第1ピボット軸4と第2ピボット軸6との(車両幅方向の)間にモータ9や駆動ロッド12等を良好に配置することができる。また、第1及び第2揺動レバー5,7と連結ロッド8との各連結点(各転動中心Z)を結ぶ直線L1と、クランクアーム11及び連結ロッド8と駆動ロッド12との各連結点(各転動中心)を結ぶ直線L2とが成す角度θは鋭角となるように設定されている。好ましくは、角度θはクランクアーム11の作動中、常に45度以下の範囲内となるように設定されている。そのため、駆動ロッド12からの揺動推力が連結ロッド8に沿った力として効率よく伝達できる。 (4) The output shaft 10 of the motor 9 is disposed at a position closer to the first pivot shaft 4 than the second pivot shaft 6, and the drive rod 12 has a second swing relative to the first swing lever 5 in the connecting rod 8. It is connected to a position close to the moving lever 7. Therefore, the motor 9, the drive rod 12, etc. can be satisfactorily arranged between the first pivot shaft 4 and the second pivot shaft 6 (in the vehicle width direction). Also, straight lines L1 connecting the connection points (the respective rolling centers Z) of the first and second swing levers 5 and 7 and the connecting rod 8, and the connections of the crank arm 11, the connecting rod 8, and the drive rod 12. The angle θ formed by the straight line L2 connecting the points (each rolling center) is set to be an acute angle. Preferably, the angle θ is set to be always within a range of 45 degrees or less during operation of the crank arm 11. Therefore, the swinging thrust from the drive rod 12 can be efficiently transmitted as a force along the connecting rod 8.
 (5)クランクアーム11は、モータ9の動作時、即ちクランクアーム11の回転時において、出力軸10の軸方向から見て、連結ロッド8と交差する(連結ロッド8を横切る)状態を有するように構成されている。そのため、例えば、モータ9の動作時にクランクアーム11が連結ロッド8と交差する状態を有しない構成に比べて、出力軸10の軸方向から見た作動スペース(即ち、車両の搭載スペース)を小さくすることができる。 (5) The crank arm 11 has a state of intersecting the connecting rod 8 (crossing the connecting rod 8) when viewed from the axial direction of the output shaft 10 when the motor 9 is operated, that is, when the crank arm 11 is rotated. It is configured. Therefore, for example, compared to a configuration in which the crank arm 11 does not intersect the connecting rod 8 during operation of the motor 9, the operating space (that is, the vehicle mounting space) viewed from the axial direction of the output shaft 10 is reduced. be able to.
 (6)連結ロッド8は、モータ9の動作時において、モータ9とクランクアーム11の動作エリアとの間(出力軸10の軸方向に沿った方向の間)を通過する状態を有するため、例えば、モータ9とクランクアーム11との間を通過しない構成に比べて、出力軸10の軸方向から見た作動スペース(即ち、車両の搭載スペース)を小さくすることができる。 (6) Since the connecting rod 8 has a state of passing between the operating area of the motor 9 and the crank arm 11 (between the directions along the axial direction of the output shaft 10) during the operation of the motor 9, for example, Compared to the configuration in which the motor 9 and the crank arm 11 are not passed, the operating space (that is, the vehicle mounting space) viewed from the axial direction of the output shaft 10 can be reduced.
 (7)連結ロッド8は、中実の(非中空の)棒材よりなる。そのため、非中実の(中空の)パイプ材よりなるものに比べて、強度を確保しつつ細くすることができる。例えば、本実施形態のように、連結ロッド8がモータ9とクランクアーム11との間を通過する状態を有するようにワイパ装置を構成する場合を考える。この場合、パイプ材よりなる連結ロッドに比べて、モータ9とクランクアーム11との間隔をより一層小さくすることができ、ワイパ装置の出力軸10の軸方向(上下方向)の小型化を図ることができる。 (7) The connecting rod 8 is made of a solid (non-hollow) rod. Therefore, it can be made thin while ensuring strength as compared with a non-solid (hollow) pipe material. For example, consider a case where the wiper device is configured such that the connecting rod 8 has a state of passing between the motor 9 and the crank arm 11 as in the present embodiment. In this case, the distance between the motor 9 and the crank arm 11 can be further reduced as compared with the connecting rod made of pipe material, and the axial direction (vertical direction) of the output shaft 10 of the wiper device can be reduced. Can do.
 (8)クランクアーム11と駆動ロッド12との連結点は、クランクアーム11の回転時に、出力軸10の軸方向から見て、連結ロッド8に対して出力軸10寄りの位置と、連結ロッド8に対して出力軸10寄りの位置と反対側の位置とを交互に移動するように設けられる。そのため、例えば、交互に移動しない構成に比べて、出力軸10の軸方向から見た作動スペースを小さくすることができる。つまり、クランクアーム11の回動の際に、クランクアーム11に連結ロッド8が干渉しないように、常にクランクアーム11の動作エリアの外に連結ロッド8が位置するよう各構成要素を配置する必要がない。 (8) The connecting point between the crank arm 11 and the drive rod 12 is a position closer to the output shaft 10 with respect to the connecting rod 8 when viewed from the axial direction of the output shaft 10 when the crank arm 11 rotates. In contrast, the position closer to the output shaft 10 and the opposite position are provided so as to move alternately. Therefore, for example, the working space viewed from the axial direction of the output shaft 10 can be reduced as compared with a configuration that does not move alternately. That is, it is necessary to arrange each component so that the connecting rod 8 is always located outside the operation area of the crank arm 11 so that the connecting rod 8 does not interfere with the crank arm 11 when the crank arm 11 rotates. Absent.
 (9)ボールジョイント21は、その転動中心Zが、第1及び第2揺動レバー5,7の板厚の範囲Y内に配置される。そのため、第1及び第2揺動レバー5,7と連結ロッド8との間で駆動力が伝達される際に第1及び第2揺動レバー5,7にその板厚方向と直交する方向に対して傾いた方向の力が加わることを防止又は抑制することができる。これにより、第1及び第2揺動レバー5,7に変形させる力が掛かり難くなり、第1及び第2揺動レバー5,7の板厚を薄くしても剛性を確保することが可能となる。その結果、例えば、第1及び第2揺動レバー5,7の材料費を低減することができる。また、これにより、第1及び第2揺動レバー5,7とそれぞれ一体回転する第1及び第2ピボット軸4,6に軸4,6を傾けようとする力が作用するのを防止できる。 (9) The rolling center Z of the ball joint 21 is disposed within the thickness range Y of the first and second swing levers 5 and 7. Therefore, when a driving force is transmitted between the first and second swing levers 5 and 7 and the connecting rod 8, the first and second swing levers 5 and 7 are orthogonal to the plate thickness direction. It can prevent or suppress that the force of the direction inclined with respect to is added. As a result, it is difficult to apply a deformation force to the first and second swing levers 5 and 7, and it is possible to ensure rigidity even if the plate thickness of the first and second swing levers 5 and 7 is reduced. Become. As a result, for example, the material cost of the first and second swing levers 5 and 7 can be reduced. In addition, this can prevent a force from tilting the shafts 4 and 6 from acting on the first and second pivot shafts 4 and 6 that rotate integrally with the first and second swing levers 5 and 7, respectively.
 また、従来のワイパ装置では、ボールピンの軸部を第1及び第2揺動レバーにかしめて固定する際に、軸部が第1及び第2揺動レバーと直交する方向から僅かに傾く場合があった。このような理由によって、第1及び第2ピボット軸4,6の軸心と上記転動中心Zとの距離が変化して第1及び第2揺動レバーの揺動角度範囲のばらつきが大きくなり、ひいてはワイパの揺動角度範囲がばらつき易くなる虞がある。本発明によれば、このような理由によるワイパの揺動角度範囲のばらつきを回避することができる。 Further, in the conventional wiper device, when the shaft portion of the ball pin is caulked and fixed to the first and second swing levers, the shaft portion is slightly inclined from the direction orthogonal to the first and second swing levers. was there. For this reason, the distance between the axis of the first and second pivot shafts 4 and 6 and the rolling center Z changes, and the variation in the swing angle range of the first and second swing levers increases. As a result, the swing angle range of the wiper may be likely to vary. According to the present invention, it is possible to avoid variation in the swing angle range of the wiper due to such a reason.
 (10)ボールジョイント21は、その転動中心Zが第1及び第2揺動レバー5,7の板厚の範囲Y内の中心位置に配置される。そのため、第1及び第2揺動レバー5,7に第1及び第2揺動レバー5,7を変形させる力がより掛かり難くなり、ひいては、第1及び第2揺動レバー5,7の板厚をより薄くすることが可能となる。 (10) The ball joint 21 has its rolling center Z located at the center position within the thickness range Y of the first and second swing levers 5 and 7. Therefore, it becomes more difficult for the first and second swing levers 5 and 7 to be subjected to a force for deforming the first and second swing levers 5 and 7, and consequently the plates of the first and second swing levers 5 and 7. It becomes possible to make the thickness thinner.
 (11)ボールジョイント21は、連結ロッド8に設けられるボールピン22と、第1及び第2揺動レバー5,7に設けられるジョイントケース23とを有している。ボールピン22は連結ロッド8が埋め込まれる部位と球状部22dとを有している。球状部22dがジョイントケース23に転動可能に収容されている。第1及び第2ピボット軸4,6は第1及び第2揺動レバー5,7から第1側に向かって延出している。ジョイントケース23は、キャップ部23cと開口部23dとを有している。キャップ部23cは、第1及び第2揺動レバー5,7に対して前記第1側に位置するとともに第1及び第2揺動レバー5,7の前記第1側の部位を覆うキャップ形状を有している。開口部23dは、第1及び第2揺動レバー5,7に対して前記第1側と反対側の第2側に位置する。球状部22dは開口部23dからジョイントケース23内に収容される。そのため、例えば、雨滴等がワイパ装置の上方(ワイパ装置における前記第1側の部位)からワイパ装置内に浸入してボールジョイント21に到達してもジョイントケース23内部に浸入することが防止又は抑制される。 (11) The ball joint 21 has a ball pin 22 provided on the connecting rod 8 and a joint case 23 provided on the first and second swing levers 5, 7. The ball pin 22 has a portion where the connecting rod 8 is embedded and a spherical portion 22d. The spherical portion 22d is accommodated in the joint case 23 so as to be able to roll. The first and second pivot shafts 4 and 6 extend from the first and second swing levers 5 and 7 toward the first side. The joint case 23 has a cap part 23c and an opening part 23d. The cap part 23 c is located on the first side with respect to the first and second swing levers 5 and 7 and has a cap shape that covers the first side portion of the first and second swing levers 5 and 7. Have. The opening 23d is located on the second side opposite to the first side with respect to the first and second swing levers 5 and 7. The spherical portion 22d is accommodated in the joint case 23 through the opening 23d. Therefore, for example, even if raindrops or the like enter the wiper device from above the wiper device (the first side portion in the wiper device) and reach the ball joint 21, they are prevented or suppressed from entering the joint case 23. Is done.
 第1上記実施形態は、以下のように変更してもよい。
 ・上記実施形態では、第1揺動レバー5と第2揺動レバー7と駆動ロッド12は、全て連結ロッド8の上方側(第1及び第2ピボット軸4,6の先端側)に配置されて、該連結ロッド8と連結されるとしたが、これに限定されず、他の配置で連結してもよい。
The first embodiment may be modified as follows.
In the above embodiment, the first rocking lever 5, the second rocking lever 7, and the drive rod 12 are all disposed above the connecting rod 8 (the tip side of the first and second pivot shafts 4 and 6). The connecting rod 8 is connected, but the present invention is not limited to this, and the connecting rod 8 may be connected in another arrangement.
 例えば、図6に示すように、第1揺動レバー5は、連結ロッド8の下方側に配置されて、該連結ロッド8と連結されるようにしてもよく、この場合、第2揺動レバー7と駆動ロッド12においても連結ロッド8の下方側に配置されて、該連結ロッド8と連結されるようにしてもよい。 For example, as shown in FIG. 6, the first rocking lever 5 may be disposed below the connecting rod 8 and connected to the connecting rod 8. In this case, the second rocking lever 7 and the drive rod 12 may be arranged below the connecting rod 8 so as to be connected to the connecting rod 8.
 また、例えば、第1揺動レバー5と第2揺動レバー7と駆動ロッド12のいずれか1つが、連結ロッド8の上下方向の反対側に配置されて連結ロッド8と連結されるように変更してもよい。 Further, for example, any one of the first rocking lever 5, the second rocking lever 7, and the drive rod 12 is arranged on the opposite side of the connecting rod 8 in the vertical direction so as to be connected to the connecting rod 8. May be.
 ・上記実施形態では、ボールジョイント21におけるボールピン22は、連結ロッド8が貫通して固定される固定孔22aが形成された固定部22bを有するとしたが、球状部22dを有するボールピン22と連結ロッド8とは他の構成で連結してもよい。 In the above embodiment, the ball pin 22 in the ball joint 21 has the fixing portion 22b formed with the fixing hole 22a through which the connecting rod 8 is fixed, but the ball pin 22 having the spherical portion 22d You may connect with the connection rod 8 by another structure.
 例えば、図7に示すように、ボールピン22の軸部22cに連結ロッド8の折り曲げられた端部が(溶接や圧入によって)固定された構成としてもよい。
 ・上記実施形態では、第1揺動レバー5と連結ロッド8、第2揺動レバー7と連結ロッド8、及び、駆動ロッド12と連結ロッド8は、それぞれ同様のボールジョイント21を介して連結されるとしたが、これに限定されず、他の構成のジョイントを介して連結してもよい。
For example, as shown in FIG. 7, the bent end portion of the connecting rod 8 may be fixed to the shaft portion 22 c of the ball pin 22 (by welding or press fitting).
In the above embodiment, the first swing lever 5 and the connecting rod 8, the second swing lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via the same ball joint 21. However, the present invention is not limited to this, and may be connected via a joint having another configuration.
 ・上記実施形態では、第1揺動レバー5と連結ロッド8、第2揺動レバー7と連結ロッド8、及び、駆動ロッド12と連結ロッド8は、それぞれボールジョイント21を介して連結され、全てのボールジョイント21の転動中心Zは、一直線上に配置されるとしたが、これに限定されず、前記一直線上に配置されていない構成に変更してもよい。 In the above embodiment, the first swing lever 5 and the connecting rod 8, the second swing lever 7 and the connecting rod 8, and the drive rod 12 and the connecting rod 8 are connected via the ball joints 21, respectively. Although the rolling center Z of the ball joint 21 is arranged on a straight line, the present invention is not limited to this and may be changed to a configuration not arranged on the straight line.
 ・上記実施形態では、ボールジョイント21は、その転動中心Zが、第1及び第2揺動レバー5,7の板厚の範囲Y内に配置されるとしたが、これに限定されず、転動中心が第1及び第2揺動レバー5,7の板厚の範囲Yの外側に配置された構成としてもよい。例えば、上記実施形態とは逆に、第1及び第2揺動レバー5,7にボールピン22が固定され、連結ロッド8にジョイントケース23が固定された構成としてもよい。 In the above embodiment, the ball joint 21 has its rolling center Z disposed within the thickness range Y of the first and second swing levers 5 and 7, but is not limited thereto. The rolling center may be arranged outside the thickness range Y of the first and second swing levers 5 and 7. For example, contrary to the above embodiment, the ball pin 22 may be fixed to the first and second swing levers 5 and 7, and the joint case 23 may be fixed to the connecting rod 8.
 ・上記実施形態では、クランクアーム11は、モータ9の動作時、即ちクランクアーム11の回転時において、出力軸10の軸方向から見て、連結ロッド8と交差する状態を有するように構成しているとしたが、これに限定されず、回転時に交差しないように設けてもよい。 In the above embodiment, the crank arm 11 is configured to have a state of intersecting the connecting rod 8 when viewed from the axial direction of the output shaft 10 when the motor 9 is operating, that is, when the crank arm 11 is rotating. However, the present invention is not limited to this, and it may be provided so as not to intersect at the time of rotation.
 ・上記実施形態では、連結ロッド8は、モータ9の動作時にモータ9とクランクアーム11との間(出力軸10の軸方向に沿った方向の間)を通過する状態を有するように設けられるとしたが、これに限定されず、モータ9とクランクアーム11との間を通らない(駆動時に通ることがない)ように設けてもよい。 In the above embodiment, the connecting rod 8 is provided so as to pass between the motor 9 and the crank arm 11 (between the directions along the axial direction of the output shaft 10) during operation of the motor 9. However, the present invention is not limited to this, and it may be provided so as not to pass between the motor 9 and the crank arm 11 (does not pass during driving).
 ・上記実施形態では、連結ロッド8は、中実の(非中空の)棒材であって、断面円形の金属棒材よりなるとしたが、これに限定されず、他の形状に変更してもよい。例えば、連結ロッド8は、中実の(非中空の)棒材であって、断面略円形で外周に多数の凹凸を有する金属棒材よりなるものとしてもよい。また、例えば、連結ロッド8は、非中実の(中空の)パイプ材よりなるものとしてもよい。 In the above embodiment, the connecting rod 8 is a solid (non-hollow) bar and is made of a metal bar having a circular cross section. However, the present invention is not limited to this, and the connecting rod 8 may be changed to another shape. Good. For example, the connecting rod 8 may be a solid (non-hollow) bar, and may be made of a metal bar having a substantially circular cross section and a large number of irregularities on the outer periphery. For example, the connecting rod 8 may be made of a non-solid (hollow) pipe material.
 ・上記実施形態では、第1揺動レバー5と連結ロッド8、及び、第2揺動レバー7と連結ロッド8とを連結するボールジョイント21は、その転動中心Zが、第1及び第2揺動レバー5,7の板厚の範囲Y内に配置されるとしたが、少なくとも一方の組(例えば第1揺動レバー5と連結ロッド8の組)を上記した配置とすれば、他の構成に変更してもよい。 In the above embodiment, the ball joint 21 that connects the first swing lever 5 and the connecting rod 8 and the second swing lever 7 and the connecting rod 8 has a rolling center Z that is the first and second. The rocking levers 5 and 7 are disposed within the thickness range Y. However, if at least one pair (for example, the pair of the first rocking lever 5 and the connecting rod 8) is disposed as described above, The configuration may be changed.
 ・上記実施形態では、ボールジョイント21は、その転動中心Zが第1及び第2揺動レバー5,7の板厚の範囲Y内の中心位置に配置されるとしたが、これに限定されず、板厚の範囲Y内の中心位置からずれた位置に配置してもよい。 In the above embodiment, the ball joint 21 has the rolling center Z disposed at the center position within the range Y of the plate thickness of the first and second swing levers 5 and 7, but is not limited thereto. Instead, it may be arranged at a position shifted from the center position within the thickness range Y.
 ・上記実施形態では、一端がクランクアーム11の先端部に連結される駆動ロッド12は、その他端が第1揺動レバー5と第2揺動レバー7とを連結する連結ロッド8の中間部に連結されるとしたが、これに限定されず、例えば、駆動ロッド12の他端が第2揺動レバー7の先端部に連結される構成としてもよい。 In the above embodiment, the drive rod 12 having one end connected to the tip of the crank arm 11 is connected to the intermediate portion of the connecting rod 8 that connects the first swing lever 5 and the second swing lever 7 at the other end. Although connected, it is not limited to this, For example, it is good also as a structure by which the other end of the drive rod 12 is connected with the front-end | tip part of the 2nd rocking lever 7. FIG.
 以下、ワイパ装置の第2実施形態を図8~図11に従って説明する。
 図8に示すように、ワイパ装置Uは、2つのピボットホルダ111と、連結フレームとしての連結フレーム112と、モータMと、連結ロッドR1と、駆動ロッドR2とを備える。
Hereinafter, a second embodiment of the wiper device will be described with reference to FIGS.
As shown in FIG. 8, the wiper device U includes two pivot holders 111, a connection frame 112 as a connection frame, a motor M, a connection rod R1, and a drive rod R2.
 連結フレーム112は、長手方向に直交する断面形状がC字状に形成されている。詳細には、ピボット軸113の軸線A1方向に対向する一対の対向面と、該一対の対向面を連結する背板面とにより連結フレーム112の断面形状がC字状を成している。連結フレーム112の長手方向両端部には、それぞれピボットホルダ111が固定され、長手方向中間部には、モータMが固定されている。各ピボットホルダ111は、ワイパWが連結される上端部を有するピボット軸113を回動自在に保持する略円筒状のホルダ部111aと、ホルダ部111aの外周部の一部から径方向外方に延出したホルダ車体固定部111bと、ホルダ部111aの外周部の一部であってホルダ車体固定部111bとは反対側から延出した連結フレーム固定部としてのフレーム固定部111cとを有する。ホルダ車体固定部111bは、前記ピボット軸113の軸線A1方向に沿った方向に貫通する固定孔を有し、該固定孔にはゴムブッシュ114が装着固定されている。ホルダ車体固定部111bは、ゴムブッシュ114及び固定孔を貫通するボルト等によって車体に対して固定される。また、各フレーム固定部111cは、連結フレーム112の長手方向に沿って延びている。図9に示すように、各フレーム固定部111cの先端部には、連結フレーム112の位置決め孔112aに嵌入される位置決め突起111dが設けられている。そして、フレーム固定部111cは、位置決め突起111dが位置決め孔112aに嵌入された状態で連結フレーム112の背板面を貫通してフレーム固定部111cの基端部に螺合されるねじ115によって連結フレーム112に固定されている。また、各ピボット軸113において前記ホルダ部111aの下端から突出した下端部には、それぞれその軸直交方向に延びる揺動レバー113aが固定されている。 The connecting frame 112 has a C-shaped cross section perpendicular to the longitudinal direction. Specifically, the cross-sectional shape of the connecting frame 112 is formed in a C shape by a pair of facing surfaces facing the axis A1 direction of the pivot shaft 113 and a back plate surface connecting the pair of facing surfaces. Pivot holders 111 are fixed to both ends of the connecting frame 112 in the longitudinal direction, and a motor M is fixed to an intermediate portion in the longitudinal direction. Each pivot holder 111 includes a substantially cylindrical holder portion 111a that rotatably holds a pivot shaft 113 having an upper end portion to which the wiper W is connected, and a radially outer portion from a part of the outer peripheral portion of the holder portion 111a. The holder body fixing portion 111b extends, and a frame fixing portion 111c as a connecting frame fixing portion that is a part of the outer periphery of the holder portion 111a and extends from the opposite side of the holder body fixing portion 111b. The holder body fixing portion 111b has a fixing hole that penetrates in a direction along the axis A1 direction of the pivot shaft 113, and a rubber bush 114 is attached and fixed to the fixing hole. The holder vehicle body fixing portion 111b is fixed to the vehicle body by a rubber bush 114 and a bolt passing through the fixing hole. In addition, each frame fixing portion 111 c extends along the longitudinal direction of the connection frame 112. As shown in FIG. 9, a positioning protrusion 111 d that is fitted into the positioning hole 112 a of the connection frame 112 is provided at the tip of each frame fixing portion 111 c. The frame fixing portion 111c is connected to the connecting frame by screws 115 that pass through the back plate surface of the connecting frame 112 with the positioning protrusions 111d inserted into the positioning holes 112a and are screwed to the base end portion of the frame fixing portion 111c. 112 is fixed. Further, on each pivot shaft 113, a swing lever 113a extending in a direction perpendicular to the axis is fixed to a lower end portion protruding from the lower end of the holder portion 111a.
 モータMは、モータ本体121と、減速部122とを備える。モータ本体121は、外部電源からの駆動電流の供給によりモータ本体121の内部の図示しないロータを回転駆動する。減速部122は、モータ本体121に固定されたギヤハウジング123と、ギヤハウジング123の内部に設けられ前記ロータの回転を減速する図示しないウォーム減速機等の減速機構と、該減速機構と連結されギヤハウジング123から突出する出力軸124とを有する。出力軸124の先端部には、平板状のクランクアーム125の基端部が固定されている。尚、出力軸124の軸線A2(図9参照)は前記ピボット軸113の軸線A1と略平行な方向に延びており、本実施形態では出力軸124及びピボット軸113の突出する方向を上方とする。 The motor M includes a motor main body 121 and a speed reduction unit 122. The motor main body 121 rotationally drives a rotor (not shown) inside the motor main body 121 by supplying a drive current from an external power source. The speed reduction unit 122 includes a gear housing 123 fixed to the motor main body 121, a speed reduction mechanism such as a worm speed reduction gear (not shown) that is provided inside the gear housing 123 and decelerates the rotation of the rotor, and a gear connected to the speed reduction mechanism. And an output shaft 124 protruding from the housing 123. A proximal end portion of a flat crank arm 125 is fixed to the distal end portion of the output shaft 124. Note that the axis A2 (see FIG. 9) of the output shaft 124 extends in a direction substantially parallel to the axis A1 of the pivot shaft 113. In this embodiment, the direction in which the output shaft 124 and the pivot shaft 113 project is upward. .
 ギヤハウジング123は、前記出力軸124の軸線A2と直交する方向であって且つモータ本体121のロータの軸線A3と直交する方向を向く側面を有している。ギヤハウジング123のこの側面には一対の取付脚123a(図8参照)が設けられる。言い換えれば、一対の取付脚123aは、ギヤハウジング123に収容されたウォーム減速機において、ウォームが配置された位置とは反対側の位置に設けられている。そして、ギヤハウジング123は、連結フレーム112を貫通するボルト126(図9参照)と取付脚123aに保持されたナットとの螺合によって連結フレーム112に締結固定されている。 The gear housing 123 has a side surface that faces in a direction orthogonal to the axis A2 of the output shaft 124 and in a direction orthogonal to the axis A3 of the rotor of the motor body 121. A pair of mounting legs 123 a (see FIG. 8) is provided on this side surface of the gear housing 123. In other words, the pair of mounting legs 123a is provided at a position opposite to the position where the worm is disposed in the worm reduction gear housed in the gear housing 123. The gear housing 123 is fastened and fixed to the connection frame 112 by screwing a bolt 126 (see FIG. 9) penetrating the connection frame 112 and a nut held by the mounting leg 123a.
 連結ロッドR1は、その一端が一方(運転席側であって、図8中、右側)の揺動レバー113aの先端部に連結され、他端が他方(助手席側であって、図8中、左側)の揺動レバー113aの先端部に連結されている。 One end of the connecting rod R1 is connected to the tip of the swing lever 113a on the one side (driver seat side, right side in FIG. 8), and the other end (on the passenger seat side, in FIG. 8). , And the left side) is connected to the tip of the swing lever 113a.
 また、駆動ロッドR2は、一端が前記クランクアーム125の先端部に連結され、他端が前記連結ロッドR1の中間部における一方の揺動レバー113a(図8中、右側の揺動レバー113a、即ち二つの揺動レバー113aのうちモータMから遠い揺動レバー113a)に近い部位に連結されている。詳細には、図8に示されるように、駆動ロッドR2の他端は、連結ロッドR1の中間部における右側の揺動レバー113aに近い部位に連結されている(即ち二つの揺動レバー113aのうちモータMから遠い揺動レバー113aに近い部位に連結されている)。尚、連結ロッドR1及び駆動ロッドR2の各端部は、それぞれボールジョイントを介して他の部材に駆動連結されている。 The drive rod R2 has one end connected to the tip of the crank arm 125, and the other end connected to one swing lever 113a (the right swing lever 113a in FIG. The two swing levers 113a are connected to a portion near the swing lever 113a) far from the motor M. Specifically, as shown in FIG. 8, the other end of the drive rod R2 is connected to a portion near the right swing lever 113a in the intermediate portion of the connecting rod R1 (that is, the two swing levers 113a are connected to each other). (It is connected to a portion near the swing lever 113a far from the motor M). Each end of the connecting rod R1 and the driving rod R2 is drivingly connected to another member via a ball joint.
 ここで、本実施形態のピボットホルダ111における前記ホルダ部111aと前記フレーム固定部111cとの間の延設部111eには、脆弱部111fが設けられている。尚、本実施形態では、一方(図8中、右側)と他方(図8中、左側)のピボットホルダ111は、サイズや形状が若干異なるが、一方(図8中、右側)のピボットホルダ111についてのみ詳細に説明して、他方(図8中、左側)のピボットホルダ111については同様の機能を有する部位について同様の符号を付してその詳細な説明を省略する。 Here, a fragile portion 111f is provided in the extending portion 111e between the holder portion 111a and the frame fixing portion 111c in the pivot holder 111 of the present embodiment. In the present embodiment, one (right side in FIG. 8) and the other (left side in FIG. 8) pivot holder 111 are slightly different in size and shape, but one (right side in FIG. 8) pivot holder 111 is different. The other (left side in FIG. 8) pivot holder 111 will be described in detail with the same reference numerals assigned to parts having similar functions, and detailed description thereof will be omitted.
 詳しくは、ピボットホルダ111は金属材料よりなる一体成形品(例えば、アルミニウム合金等のダイキャスト成形部品)である。そして、ピボットホルダ111において、ホルダ部111aとフレーム固定部111cとの間に設けられそれらを接続する延設部111eは、ホルダ部111aからピボット軸113の軸線A1と直交する方向に沿って延びる側方延出部111gと、該側方延出部111gの先端から下方に延びてフレーム固定部111cに接続された上下方向延出部111hとを有する。そして、側方延出部111gの全体が脆弱部111fを構成している。 Specifically, the pivot holder 111 is an integrally molded product made of a metal material (for example, a die-cast molded part such as an aluminum alloy). In the pivot holder 111, an extending portion 111e provided between the holder portion 111a and the frame fixing portion 111c and connecting them is a side extending from the holder portion 111a along a direction orthogonal to the axis A1 of the pivot shaft 113. A side extending portion 111g and a vertically extending portion 111h that extends downward from the tip of the side extending portion 111g and is connected to the frame fixing portion 111c. And the whole side extension part 111g comprises the weak part 111f.
 即ち、図10(a)に示すように、ホルダ部111aとホルダ車体固定部111bとの間に設けられそれらを接続する車体側延設部111jは、ピボット軸113の軸線A1と直交する方向に沿って延びるとともに、その長手方向に直交する断面形状がL字断面形状とされている。尚、本実施形態では、車体側延設部111jは、ベースとなる板状部の幅方向端部からその幅方向と直交する方向(本実施形態では下方)に突出するリブ111kを有することでL字断面形状とされている。また、このリブ111kは、車体側延設部111jの幅方向の二つの端部のうち、前記揺動レバー113aの揺動範囲B(図8参照)から遠い幅方向の端部(揺動レバー113aの先端から遠い幅方向の端部)に設けられている。 That is, as shown in FIG. 10A, the vehicle body side extending portion 111j provided between the holder portion 111a and the holder vehicle body fixing portion 111b is connected in a direction perpendicular to the axis A1 of the pivot shaft 113. The cross-sectional shape that extends along the direction perpendicular to the longitudinal direction is an L-shaped cross-sectional shape. In addition, in this embodiment, the vehicle body side extending part 111j has a rib 111k that protrudes in a direction perpendicular to the width direction (downward in the present embodiment) from the end in the width direction of the plate-like part serving as a base. It is L-shaped cross-sectional shape. The rib 111k is an end portion in the width direction farther from the swing range B (see FIG. 8) of the swing lever 113a (the swing lever) of the two end portions in the width direction of the vehicle body side extending portion 111j. 113a in the width direction far from the tip of 113a.
 また、図10(b)に示すように、前記上下方向延出部111hは、その長手方向(上下方向)に直交する断面形状がL字断面形状とされている。尚、本実施形態では、上下方向延出部111hは、ベースとなる板状部の幅方向端部から更に幅方向に突出しつつその幅方向直交方向(本実施形態では側方延出部111gの基端側)に突出するリブ111mを有することでL字断面形状とされている。また、このリブ111mは、上下方向延出部111hの幅方向の二つの端部のうち、前記揺動レバー113aの揺動範囲B(図8参照)から遠い幅方向の端部(揺動レバー113aの先端から遠い幅方向の端部)に設けられている。 Further, as shown in FIG. 10 (b), the vertical extending portion 111h has an L-shaped cross-sectional shape that is perpendicular to the longitudinal direction (vertical direction). In the present embodiment, the vertically extending portion 111h further protrudes in the width direction from the end portion in the width direction of the plate-like portion serving as the base, and is orthogonal to the width direction (in this embodiment, the side extending portion 111g). By having a rib 111m protruding on the base end side, an L-shaped cross section is formed. Further, the rib 111m has a width direction end portion (swing lever) which is far from the swing range B (see FIG. 8) of the swing lever 113a, of the two end portions in the width direction of the vertically extending portion 111h. 113a in the width direction far from the tip of 113a.
 そして、図10(c)に示すように、前記側方延出部111gは、その長手方向に直交する断面形状が、長方形断面形状(すなわち、ベースとなる板状部の形状がそのまま維持された形状)とされることで、上記したL字断面形状の車体側延設部111jや上下方向延出部111hに比べて相対的に脆弱な脆弱部111fとされている。言い換えれば、L字断面形状の車体側延設部111jや上下方向延出部111hは、ベースとなる板状部のままの側方延出部111gよりも相対的に高強度部として形成されている。 And as shown in FIG.10 (c), as for the said side extension part 111g, the cross-sectional shape orthogonal to the longitudinal direction maintained the rectangular cross-sectional shape (namely, the shape of the plate-shaped part used as a base). In other words, the fragile portion 111f is relatively weaker than the vehicle body side extending portion 111j or the vertically extending portion 111h having the L-shaped cross section. In other words, the vehicle body side extending portion 111j and the vertically extending portion 111h having an L-shaped cross-sectional shape are formed as relatively high-strength portions than the side extending portion 111g that remains a plate-like portion serving as a base. Yes.
 次に、第2実施形態のワイパ装置Uの作用について説明する。
 例えば、運転席に設けられたワイパスイッチが操作されると、モータ本体121に駆動電流が供給され、出力軸124及びクランクアーム125が回転駆動される。すると、その動力が連結ロッドR1及び駆動ロッドR2を介して各揺動レバー113aに伝達され、各揺動レバー113aが往復揺動することで各ピボット軸113が往復回動され、各ピボット軸113に固定されたワイパWが同期して往復揺動し、払拭動作が行われる。
Next, the operation of the wiper device U of the second embodiment will be described.
For example, when a wiper switch provided in the driver's seat is operated, a drive current is supplied to the motor main body 121, and the output shaft 124 and the crank arm 125 are rotationally driven. Then, the power is transmitted to each swing lever 113a via the connecting rod R1 and the drive rod R2, and each pivot shaft 113 is reciprocally rotated by reciprocally swinging each swing lever 113a. The wiper W fixed on the back and forth rocks in synchronism and performs a wiping operation.
 そして、図11に示すように、例えば、車両走行中等に、何らかの物体の衝突によってピボット軸113(ワイパWの基端部)に軸方向下向きの外力が掛かると、脆弱部111fが破断しつつ、ピボット軸113及びホルダ部111aがホルダ車体固定部111bを中心として回動して、ピボット軸113及びホルダ部111aが下方に変位する。よって、衝突した物体に掛かる衝撃が吸収されて抑えられることになる。 Then, as shown in FIG. 11, for example, when an external downward force is applied to the pivot shaft 113 (base end portion of the wiper W) due to a collision of an object during traveling of the vehicle, the fragile portion 111f is broken, The pivot shaft 113 and the holder portion 111a rotate about the holder body fixing portion 111b, and the pivot shaft 113 and the holder portion 111a are displaced downward. Therefore, the impact applied to the collided object is absorbed and suppressed.
 次に、第2実施形態の特徴的な利点を以下に記載する。
 (12)ピボットホルダ111におけるホルダ部111aとフレーム固定部111cとの間の延設部111eには、脆弱部111fが設けられる。よって、例えば、何らかの物体の衝突によってピボット軸113に軸方向下向きの外力が掛かったとき、モータMや連結フレーム112の下方にスペースが無くても、脆弱部111fが破断しつつピボット軸113及びホルダ部111aが下方に変位することが可能となる。よって、図11に示されるように、ワイパ装置が配置されるスペースを小さくしながらも(底の浅いスペースとしながらも)、物体に掛かる衝撃を抑えることができる。
Next, characteristic advantages of the second embodiment will be described below.
(12) In the extending portion 111e between the holder portion 111a and the frame fixing portion 111c in the pivot holder 111, a fragile portion 111f is provided. Therefore, for example, when an axial downward force is applied to the pivot shaft 113 due to some object collision, the fragile portion 111f is broken and the pivot shaft 113 and the holder are broken even if there is no space below the motor M or the connecting frame 112. The portion 111a can be displaced downward. Therefore, as shown in FIG. 11, the impact on the object can be suppressed while the space where the wiper device is disposed is reduced (even though the space is shallow at the bottom).
 特に、ピボットホルダ111が上下方向延出部111hを有する。そのため、ピボット軸113よりも下方の位置(車両内方位置)において連結フレーム112とフレーム固定部111cとを固定する場合、その連結フレーム112に固定される重量物としてのモータMも下方の位置に配置することができる。しかも、従来のようにホルダ部111aとホルダ車体固定部111bとの間が破断すると、上下方向延出部111hがピボット軸113の下方への変位を妨げてしまう。これに対し、上記実施形態ではホルダ部111aとフレーム固定部111cとの間の延設部111eの脆弱部111fが破断するので、図11に示すようにホルダ車体固定部111bを支点としてホルダ部111aとともにピボット軸113を下方へ変位させることができる。 In particular, the pivot holder 111 has a vertically extending portion 111h. Therefore, when the connection frame 112 and the frame fixing portion 111c are fixed at a position below the pivot shaft 113 (vehicle inward position), the motor M as a heavy object fixed to the connection frame 112 is also positioned below. Can be arranged. Moreover, when the gap between the holder portion 111a and the holder body fixing portion 111b is broken as in the prior art, the vertically extending portion 111h hinders the downward displacement of the pivot shaft 113. On the other hand, in the above embodiment, since the weakened portion 111f of the extending portion 111e between the holder portion 111a and the frame fixing portion 111c is broken, as shown in FIG. 11, the holder body portion 111a using the holder body fixing portion 111b as a fulcrum. At the same time, the pivot shaft 113 can be displaced downward.
 (13)延設部111eは、ホルダ部111aから車体側延設部111jとは反対側にピボット軸113の軸線A1と直交する方向に沿って延びる側方延出部111gと、側方延出部111gの先端から下方に延びてフレーム固定部111cに接続された上下方向延出部111hとを有している。脆弱部111fは側方延出部111gに設けられる。よって、例えば脆弱部111fの下方のスペースを大きく確保することが容易となり、ひいてはピボット軸113及びホルダ部111aの下方への変位量を大きく確保することが容易となる。何らかの物体の衝突によってピボット軸113に軸方向下向きの外力が掛かった場合、脆弱部111fが破断してピボット軸113及びホルダ部111aがホルダ車体固定部111bを中心として回動しながら下方に変位する。この場合、脆弱部111fは極力高い位置にある方がピボット軸113及びホルダ部111aの下方への変位量を大きくすることができる。そして、上記構成では、脆弱部111fはホルダ部111aからピボット軸113の軸線A1と直交する方向に沿って延びる側方延出部111gに設けられる。例えば、延設部が斜めに延びる場合、すなわち延設部が下方の連結フレーム112に向かって直線的に延びる場合、であってその途中に脆弱部が設けられた場合に比べて、脆弱部111fの位置を高い位置にすることができる。これにより、ピボット軸113及びホルダ部111aの下方への変位量を大きくすることができる。 (13) The extending portion 111e includes a side extending portion 111g extending from the holder portion 111a on the side opposite to the vehicle body side extending portion 111j along a direction orthogonal to the axis A1 of the pivot shaft 113, and a side extending portion. It has a vertically extending portion 111h that extends downward from the tip of the portion 111g and is connected to the frame fixing portion 111c. The weak part 111f is provided in the side extension part 111g. Therefore, for example, it is easy to secure a large space below the fragile portion 111f, and as a result, it is easy to secure a large amount of downward displacement of the pivot shaft 113 and the holder portion 111a. If an axial downward force is applied to the pivot shaft 113 due to some object collision, the fragile portion 111f is broken and the pivot shaft 113 and the holder portion 111a are displaced downward while rotating around the holder body fixing portion 111b. . In this case, the amount of downward displacement of the pivot shaft 113 and the holder portion 111a can be increased when the fragile portion 111f is located as high as possible. In the above configuration, the fragile portion 111f is provided in the laterally extending portion 111g extending from the holder portion 111a along the direction orthogonal to the axis A1 of the pivot shaft 113. For example, when the extending portion extends obliquely, that is, when the extending portion extends linearly toward the lower connecting frame 112, the fragile portion 111f is compared to the case where the fragile portion is provided in the middle. The position of can be made high. Thereby, the downward displacement amount of the pivot shaft 113 and the holder portion 111a can be increased.
 (14)ホルダ部111aとホルダ車体固定部111bとの間の車体側延設部111j、及び上下方向延出部111hは、L字断面形状とされる。そのため、車体側延設部111j及び上下方向延出部111hの剛性を高めることができ、脆弱部111f(側方延出部111g)を本実施形態のように長方形断面形状の単純な板形状とすることができる。これにより、L字断面形状の車体側延設部111jや上下方向延出部111hに比べて相対的に脆弱な脆弱部111fを構成することができる。言い換えれば、L字断面形状の車体側延設部111jや上下方向延出部111hは、ベースとなる板状部のままの側方延出部111gよりも相対的に高強度部とすることができる。 (14) The vehicle body side extending portion 111j and the vertical extending portion 111h between the holder portion 111a and the holder vehicle body fixing portion 111b have an L-shaped cross-sectional shape. Therefore, the rigidity of the vehicle body side extending portion 111j and the vertically extending portion 111h can be increased, and the fragile portion 111f (side extending portion 111g) has a simple plate shape with a rectangular cross section as in this embodiment. can do. Thereby, the weak part 111f which is relatively weak compared with the vehicle body side extension part 111j and the up-down direction extension part 111h of L-shaped cross-section can be comprised. In other words, the vehicle body side extending portion 111j and the vertically extending portion 111h having an L-shaped cross-section are made to be relatively high-strength portions than the side extending portion 111g that is a plate-like portion serving as a base. it can.
 (15)ピボット軸113の下端には揺動レバー113aが設けられている。前記上下方向延出部111hは側方延出部111gの基端側に延びるリブ111mを有することでL字断面形状とされる。リブ111mは、上下方向延出部111hの幅方向の二つの端部のうち揺動レバー113aの揺動範囲Bから遠い幅方向の端部に設けられている。そのため、上下方向延出部111hの剛性を高めつつ、リブ111mが揺動レバー113aの揺動範囲Bを狭くしてしまうことを避けることができる。 (15) At the lower end of the pivot shaft 113, a swing lever 113a is provided. The vertically extending portion 111h has an L-shaped cross section by having a rib 111m extending to the base end side of the side extending portion 111g. The rib 111m is provided at the end in the width direction far from the swing range B of the swing lever 113a, out of the two ends in the width direction of the vertically extending portion 111h. Therefore, it is possible to prevent the rib 111m from narrowing the swing range B of the swing lever 113a while increasing the rigidity of the vertically extending portion 111h.
 (16)ピボット軸113の下端には揺動レバー113aが設けられている。前記車体側延設部111jは、下方に延びるリブ111kを有することでL字断面形状とされる。リブ111kは、車体側延設部111jの幅方向の二つの端部のうち揺動レバー113aの揺動範囲Bから遠い幅方向の端部に設けられている。そのため、車体側延設部111jの剛性を高めつつ、リブ111kが揺動レバー113aの揺動範囲Bを狭くしてしまうことを避けることができる。 (16) A swing lever 113a is provided at the lower end of the pivot shaft 113. The vehicle body side extending portion 111j has an L-shaped cross section by having a rib 111k extending downward. The rib 111k is provided at the end in the width direction far from the swing range B of the swing lever 113a, out of the two ends in the width direction of the vehicle body side extending portion 111j. Therefore, it is possible to prevent the rib 111k from narrowing the swing range B of the swing lever 113a while increasing the rigidity of the vehicle body side extending portion 111j.
 (17)ホルダ車体固定部111bにはゴムブッシュ114が固定されている。ホルダ車体固定部111bは、前記ゴムブッシュ114を介して車体に対して固定される。そのため、ワイパ装置Uと車体との間で振動の伝搬が抑えられる。また、何らかの物体の衝突によってピボット軸113に軸方向下向きの外力が掛かった際、脆弱部111fが破断すると、ゴムブッシュ114が弾性変形して潰れることでピボット軸113及びホルダ部111aがホルダ車体固定部111bを中心として容易に回動することが許容され、ピボット軸113及びホルダ部111aが下方に変位することが可能となる。よって、ゴムブッシュ114が弾性変形する際に衝撃を吸収することも含め、物体に掛かる衝撃を抑えることができる。 (17) A rubber bush 114 is fixed to the holder body fixing portion 111b. The holder vehicle body fixing portion 111b is fixed to the vehicle body via the rubber bush 114. Therefore, propagation of vibration is suppressed between the wiper device U and the vehicle body. Further, when an external downward force is applied to the pivot shaft 113 due to some object collision, if the fragile portion 111f is broken, the rubber bush 114 is elastically deformed and crushed, whereby the pivot shaft 113 and the holder portion 111a are fixed to the holder body. It is allowed to easily rotate around the portion 111b, and the pivot shaft 113 and the holder portion 111a can be displaced downward. Therefore, it is possible to suppress the impact applied to the object, including absorbing the impact when the rubber bush 114 is elastically deformed.
 第2実施形態は、以下のように変更してもよい。
 ・上記実施形態では、ホルダ部111aとフレーム固定部111cとの間の延設部111eは、側方延出部111gと上下方向延出部111hとを有し、脆弱部111fは側方延出部111gに設けられるとしたが、延設部111eの形状は他の形状に変更してもよく、その場合、勿論、脆弱部111fの位置も延設部の他の位置に変更してもよい。
The second embodiment may be modified as follows.
In the above embodiment, the extending part 111e between the holder part 111a and the frame fixing part 111c has a side extending part 111g and a vertically extending part 111h, and the weak part 111f extends sideways. Although it is provided in the portion 111g, the shape of the extending portion 111e may be changed to another shape. In that case, of course, the position of the fragile portion 111f may be changed to another position of the extending portion. .
 ・上記実施形態では、車体側延設部111j、及び上下方向延出部111hは、L字断面形状とされるとしたが、脆弱部111fよりも相対的に高い剛性を有する形状であれば、他の断面形状に変更してもよい。また、リブ111mは揺動レバー113aの揺動範囲Bに影響しなければ、上下方向延出部111hの幅方向の二つの端部のうち揺動レバー113aの揺動範囲Bと近い幅方向の端部に設けられてもよい。同様に、リブ111kは、車体側延設部111jの幅方向の二つの端部のうち揺動レバー113aの揺動範囲Bと近い幅方向の端部に設けられてもよい。 In the above embodiment, the vehicle body side extending portion 111j and the vertical extending portion 111h are L-shaped cross-sectional shapes, but if the shape has relatively higher rigidity than the fragile portion 111f, You may change into another cross-sectional shape. If the rib 111m does not affect the swing range B of the swing lever 113a, the width of the two ends in the width direction of the vertically extending portion 111h is close to the swing range B of the swing lever 113a. It may be provided at the end. Similarly, the rib 111k may be provided at the end in the width direction close to the swing range B of the swing lever 113a, out of the two ends in the width direction of the vehicle body side extending portion 111j.
 ・上記実施形態では、ホルダ車体固定部111bは、ゴムブッシュ114を介して車体に対して固定される構成としたが、脆弱部111fが破断した際にピボット軸113及びホルダ部111aが下方に変位することを許容できれば、ホルダ車体固定部111b及び車体側延設部111jは他の構成に変更してもよい。 In the above embodiment, the holder vehicle body fixing portion 111b is fixed to the vehicle body via the rubber bush 114. However, when the fragile portion 111f is broken, the pivot shaft 113 and the holder portion 111a are displaced downward. If it can accept | permit, the holder vehicle body fixing | fixed part 111b and the vehicle body side extension part 111j may be changed into another structure.
 ・上記実施形態では、連結フレーム112を長手方向に直交する断面形状がC字状のものとしたが、これに限定されず、例えば、中空のパイプ状のものとしてもよいし、その他の断面形状の連結フレームとしてもよい。 In the above embodiment, the connecting frame 112 has a C-shaped cross section orthogonal to the longitudinal direction, but is not limited thereto, and may be, for example, a hollow pipe shape or other cross sectional shapes. It is good also as a connection frame.

Claims (19)

  1.  第1ピボット軸と、
     該第1ピボット軸から同第1ピボット軸の径方向に延びて該第1ピボット軸と一体回動する第1揺動レバーと、
     第2ピボット軸と、
     該第2ピボット軸から同第2ピボット軸の径方向に延びて該第2ピボット軸と一体回動する第2揺動レバーと、
     前記第1揺動レバーの先端部に連結された第1端と、前記第2揺動レバーの先端部に連結された第2端と、を有する連結ロッドと、
     モータの出力軸から同出力軸の径方向に延びて該出力軸と一体回転するクランクアームと、
     前記クランクアームの先端部に連結された第1端と、前記連結ロッドの中間部に連結された第2端と、を有する駆動ロッドと
    を備えるワイパ装置。
    A first pivot shaft;
    A first swing lever that extends from the first pivot shaft in a radial direction of the first pivot shaft and rotates integrally with the first pivot shaft;
    A second pivot axis;
    A second swinging lever extending from the second pivot shaft in the radial direction of the second pivot shaft and rotating integrally with the second pivot shaft;
    A connecting rod having a first end connected to the tip of the first swing lever and a second end connected to the tip of the second swing lever;
    A crank arm extending in a radial direction of the output shaft from the output shaft of the motor and rotating integrally with the output shaft;
    A wiper device comprising: a drive rod having a first end connected to a tip end portion of the crank arm and a second end connected to an intermediate portion of the connecting rod.
  2.  請求項1に記載のワイパ装置であって、
     前記第1揺動レバーと前記第2揺動レバーと前記駆動ロッドは、全て前記連結ロッドの上下方向の一方側に配置されて、該連結ロッドと連結されているワイパ装置。
    The wiper device according to claim 1,
    The wiper device in which the first swing lever, the second swing lever, and the drive rod are all arranged on one side of the connecting rod in the vertical direction and are connected to the connecting rod.
  3.  請求項1又は2に記載のワイパ装置であって、
     前記第1揺動レバーと前記連結ロッド、前記第2揺動レバーと前記連結ロッド、及び、前記駆動ロッドと前記連結ロッドは、それぞれボールジョイントを介して連結され、
     全てのボールジョイントの転動中心は、一直線上に配置されているワイパ装置。
    The wiper device according to claim 1 or 2,
    The first swing lever and the connecting rod, the second swing lever and the connecting rod, and the drive rod and the connecting rod are respectively connected via a ball joint,
    A wiper device in which the rolling centers of all ball joints are arranged in a straight line.
  4.  請求項1乃至3のいずれか1項に記載のワイパ装置であって、
     前記モータの出力軸は、前記第2ピボット軸よりも前記第1ピボット軸に近い位置に配置され、
     前記駆動ロッドは、前記連結ロッドにおける前記第1揺動レバーよりも前記第2揺動レバーに近い位置に連結されているワイパ装置。
    The wiper device according to any one of claims 1 to 3,
    An output shaft of the motor is disposed closer to the first pivot shaft than the second pivot shaft;
    The wiper device, wherein the drive rod is connected to a position closer to the second swing lever than the first swing lever in the connecting rod.
  5.  請求項1乃至4のいずれか1項に記載のワイパ装置であって、
     前記クランクアームは、前記モータの動作時において、前記出力軸の軸方向から見て、前記連結ロッドと交差するワイパ装置。
    The wiper device according to any one of claims 1 to 4,
    The wiper device, wherein the crank arm intersects the connecting rod when viewed from the axial direction of the output shaft during operation of the motor.
  6.  請求項1乃至5のいずれか1項に記載のワイパ装置であって、
     前記連結ロッドは、前記モータの動作時において、前記モータと前記クランクアームの動作エリアとの間を通過するワイパ装置。
    The wiper device according to any one of claims 1 to 5,
    The connecting rod is a wiper device that passes between the motor and an operating area of the crank arm during operation of the motor.
  7.  請求項1乃至6のいずれか1項に記載のワイパ装置であって、
     前記連結ロッドは、中実の棒材よりなるワイパ装置。
    The wiper device according to any one of claims 1 to 6,
    The connecting rod is a wiper device made of a solid bar.
  8.  請求項1乃至7のいずれか1項に記載のワイパ装置であって、
     前記第1揺動レバー及び前記第2揺動レバーのうちの少なくとも一方と前記連結ロッドとは、ボールジョイントを介して連結され、
     前記ボールジョイントは、その転動中心が前記第1揺動レバー及び前記第2揺動レバーの板厚の範囲内に配置されているワイパ装置。
    The wiper device according to any one of claims 1 to 7,
    At least one of the first swing lever and the second swing lever and the connecting rod are connected via a ball joint,
    The ball joint is a wiper device in which a rolling center is disposed within a thickness range of the first swing lever and the second swing lever.
  9.  請求項1乃至8のいずれか1項に記載のワイパ装置であって、
     前記クランクアームと前記駆動ロッドとの連結点は、前記クランクアームの回転時に、前記出力軸の軸方向から見て、前記連結ロッドに対して前記出力軸寄りの位置と、連結ロッドに対して前記出力軸寄りの位置と反対側の位置とを交互に移動するように設けられるワイパ装置。
    The wiper device according to any one of claims 1 to 8,
    The connecting point between the crank arm and the drive rod is a position closer to the output shaft with respect to the connecting rod and the connecting rod when viewed from the axial direction of the output shaft when the crank arm rotates. A wiper device provided to alternately move between a position near the output shaft and a position on the opposite side.
  10.  ピボット軸と、
     該ピボット軸から同ピボット軸の軸方向と直交する方向に延びて該ピボット軸と一体回動する揺動レバーと、
     前記揺動レバーの先端部に駆動力を伝達するための連結ロッドと、
     前記揺動レバーの先端部に前記連結ロッドを連結するためのボールジョイントと、
    を備えたワイパ装置であって、
     前記ボールジョイントの転動中心が前記揺動レバーの板厚の範囲内に配置されているワイパ装置。
    A pivot axis,
    A swing lever that extends from the pivot shaft in a direction orthogonal to the axial direction of the pivot shaft and rotates integrally with the pivot shaft;
    A connecting rod for transmitting a driving force to the tip of the swing lever;
    A ball joint for connecting the connecting rod to the tip of the swing lever;
    A wiper device comprising:
    A wiper device in which a rolling center of the ball joint is disposed within a thickness range of the swing lever.
  11.  請求項10に記載のワイパ装置であって、
     前記ボールジョイントの転動中心が前記揺動レバーの板厚の範囲内の中心位置に配置されているワイパ装置。
    The wiper device according to claim 10,
    A wiper device in which a rolling center of the ball joint is arranged at a center position within a range of a plate thickness of the swing lever.
  12.  請求項10又は11に記載のワイパ装置であって、
     前記ボールジョイントは、前記連結ロッドに設けられるボールピンと、前記揺動レバーに設けられるジョイントケースとを有しており、
     前記ボールピンは前記連結ロッドが埋め込まれる部位と球状部とを有しており、
     前記球状部が前記ジョイントケースに転動可能に収容されており、
     前記ピボット軸は前記揺動レバーから第1側に向かって延出しており、
     前記ジョイントケースは、キャップ部と開口部とを有しており、
     前記キャップ部は、前記揺動レバーに対して前記第1側に位置するとともに前記揺動レバーの第1側の部位を覆うキャップ形状を有しており、
     前記開口部は、前記揺動レバーに対して前記第1側と反対側の第2側に位置するワイパ装置。
    The wiper device according to claim 10 or 11,
    The ball joint has a ball pin provided on the connecting rod and a joint case provided on the swing lever;
    The ball pin has a portion where the connecting rod is embedded and a spherical portion,
    The spherical portion is accommodated in the joint case so as to be rollable,
    The pivot shaft extends from the swing lever toward the first side,
    The joint case has a cap part and an opening part,
    The cap portion has a cap shape that is located on the first side with respect to the swing lever and covers a first side portion of the swing lever;
    The wiper device is located on a second side opposite to the first side with respect to the swing lever.
  13.  請求項10又は11に記載のワイパ装置であって、
     前記ボールジョイントは、前記連結ロッドに設けられる球状部と、前記揺動レバーに設けられるジョイントケースとを有しており、
     前記球状部の球面中心が前記転動中心である
    ワイパ装置。
    The wiper device according to claim 10 or 11,
    The ball joint has a spherical portion provided on the connecting rod, and a joint case provided on the swing lever,
    A wiper device in which a spherical center of the spherical portion is the rolling center.
  14.  モータと、
     前記モータが固定された連結フレームと、
     ピボットホルダであって、
      ワイパが連結される上端部を有するピボット軸を保持するホルダ部と、
      該ホルダ部から延出し前記連結フレームに固定された連結フレーム固定部と、
      前記ホルダ部から延出し車体に対して固定されるホルダ車体固定部とを有する、
     前記ピボットホルダと、
    を備えたワイパ装置であって、
     前記ホルダ部と前記連結フレーム固定部との間の延設部には、脆弱部が設けられているワイパ装置。
    A motor,
    A connecting frame to which the motor is fixed;
    A pivot holder,
    A holder portion for holding a pivot shaft having an upper end to which the wiper is connected;
    A connection frame fixing part extending from the holder part and fixed to the connection frame;
    A holder body fixing portion that extends from the holder portion and is fixed to the vehicle body,
    The pivot holder;
    A wiper device comprising:
    The wiper apparatus in which the weak part is provided in the extension part between the said holder part and the said connection frame fixing | fixed part.
  15.  請求項14に記載のワイパ装置であって、
     前記延設部は、前記ホルダ部から前記ピボット軸の軸線と直交する方向に沿って延びる側方延出部と、該側方延出部の先端から下方に延びて前記連結フレーム固定部に接続された上下方向延出部とを有し、
     前記脆弱部は、前記側方延出部に設けられているワイパ装置。
    The wiper device according to claim 14,
    The extending portion extends from the holder portion along a direction orthogonal to the axis of the pivot shaft, and extends downward from the tip of the side extending portion to connect to the connecting frame fixing portion. And a vertically extending portion that is
    The weak part is a wiper device provided in the side extension part.
  16.  請求項15に記載のワイパ装置であって、
     前記ホルダ部と前記ホルダ車体固定部との間には車体側延設部が設けられており、
     前記車体側延設部及び前記上下方向延出部の各々は、L字断面形状を有しているワイパ装置。
    The wiper device according to claim 15,
    A vehicle body side extending part is provided between the holder part and the holder body fixing part,
    Each of the said vehicle body side extension part and the said up-down direction extension part is a wiper apparatus which has L-shaped cross-sectional shape.
  17.  請求項15又は16に記載のワイパ装置であって、
     前記ピボット軸の下端には、該ピボット軸と一体回転可能で動力を入出力可能な揺動レバーが設けられ、
     前記上下方向延出部は、前記側方延出部の基端側に延びるリブを有することでL字断面形状とされており、
     前記リブは、前記上下方向延出部の幅方向の二つの端部のうち前記揺動レバーの揺動範囲から遠い幅方向の端部に設けられているワイパ装置。
    The wiper device according to claim 15 or 16,
    At the lower end of the pivot shaft, a swing lever that can rotate integrally with the pivot shaft and can input and output power is provided.
    The vertically extending portion has an L-shaped cross-section by having a rib extending to the base end side of the side extending portion,
    The said rib is a wiper apparatus provided in the edge part of the width direction far from the rocking | fluctuation range of the said rocking lever among the two edge parts of the width direction of the said up-down direction extension part.
  18.  請求項14乃至16のいずれか1項に記載のワイパ装置であって、
     前記ピボット軸の下端には、該ピボット軸と一体回転可能で動力を入出力可能な揺動レバーが設けられ、
     前記ホルダ部と前記ホルダ車体固定部との間には車体側延設部が設けられており、
     該車体側延設部は、下方に延びるリブを有することでL字断面形状とされており、
     前記リブは、前記車体側延設部の幅方向の二つの端部のうち前記揺動レバーの揺動範囲から遠い幅方向の端部に設けられているワイパ装置。
    The wiper device according to any one of claims 14 to 16,
    At the lower end of the pivot shaft, a swing lever that can rotate integrally with the pivot shaft and can input and output power is provided.
    A vehicle body side extending part is provided between the holder part and the holder body fixing part,
    The vehicle body side extending portion has an L-shaped cross section by having a rib extending downward,
    The said rib is a wiper apparatus provided in the edge part of the width direction far from the rocking | fluctuation range of the said rocking lever among the two edge parts of the width direction of the said vehicle body side extension part.
  19.  請求項14乃至18のいずれか1項に記載のワイパ装置であって、
     前記ホルダ車体固定部にはゴムブッシュが固定され、
     前記ホルダ車体固定部は、前記ゴムブッシュを介して車体に対して固定されているワイパ装置。
    The wiper device according to any one of claims 14 to 18,
    A rubber bush is fixed to the holder body fixing part,
    The wiper device, wherein the holder body fixing portion is fixed to the vehicle body via the rubber bush.
PCT/JP2016/074787 2015-09-08 2016-08-25 Wiper device WO2017043324A1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
CN201680039352.5A CN107835765A (en) 2015-09-08 2016-08-25 Wiper device
US15/741,617 US20180201228A1 (en) 2015-09-08 2016-08-25 Wiper device
DE112016004067.9T DE112016004067T5 (en) 2015-09-08 2016-08-25 wiper device

Applications Claiming Priority (8)

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JP2015176874A JP6544159B2 (en) 2015-09-08 2015-09-08 Wiper device
JP2015176873 2015-09-08
JP2015-176873 2015-09-08
JP2015-176874 2015-09-08
JP2015-224981 2015-11-17
JP2015224981A JP2017088132A (en) 2015-11-17 2015-11-17 Wiper unit
JP2016-082347 2016-04-15
JP2016082347A JP2017052503A (en) 2015-09-08 2016-04-15 Wiper device

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US20030101529A1 (en) * 2000-07-19 2003-06-05 Ulrich Metz Windscreen wiper system
JP2004306845A (en) * 2003-04-09 2004-11-04 Asmo Co Ltd Electric windshield wiper device and frame for electric windshield wiper device
US20050097700A1 (en) * 2003-11-11 2005-05-12 Asmo Co., Ltd. Vehicular wiper device having motor and internal space
JP2006123574A (en) * 2004-10-26 2006-05-18 Jidosha Denki Kogyo Co Ltd Wiper device
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JP2009227016A (en) * 2008-03-21 2009-10-08 Mitsuba Corp Wiper device
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EP2738054A2 (en) * 2012-12-03 2014-06-04 Bosch Automotive Products (Changsha) Co., Ltd Vehicle wiper system and crank and connecting rod mechanism thereof

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* Cited by examiner, † Cited by third party
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JPH07309212A (en) * 1994-05-17 1995-11-28 Nissan Motor Co Ltd Ball joint structure
JP2001520606A (en) * 1998-02-19 2001-10-30 ローベルト ボツシユ ゲゼルシヤフト ミツト ベシユレンクテル ハフツング Wiper support
US20030101529A1 (en) * 2000-07-19 2003-06-05 Ulrich Metz Windscreen wiper system
JP2002200969A (en) * 2000-12-28 2002-07-16 Fuji Heavy Ind Ltd Wiper device for vehicle
JP2004306845A (en) * 2003-04-09 2004-11-04 Asmo Co Ltd Electric windshield wiper device and frame for electric windshield wiper device
US20050097700A1 (en) * 2003-11-11 2005-05-12 Asmo Co., Ltd. Vehicular wiper device having motor and internal space
US7199541B2 (en) * 2004-10-25 2007-04-03 Iqi S.R.O. Method of controlling an electric motor with oscillating output shaft, particularly for automobile wiper systems, and the arrangement of that electric motor
JP2006123574A (en) * 2004-10-26 2006-05-18 Jidosha Denki Kogyo Co Ltd Wiper device
JP2006273200A (en) * 2005-03-30 2006-10-12 Toyota Motor Corp Wiper mounting structure
JP2009184525A (en) * 2008-02-06 2009-08-20 Asmo Co Ltd Vehicular windshield wiper device
JP2009227016A (en) * 2008-03-21 2009-10-08 Mitsuba Corp Wiper device
JP2010285115A (en) * 2009-06-12 2010-12-24 Kanto Auto Works Ltd Wiper pivot structure
US20130042427A1 (en) * 2010-02-16 2013-02-21 Robert Bosch Gmbh Wiper linkage
EP2738054A2 (en) * 2012-12-03 2014-06-04 Bosch Automotive Products (Changsha) Co., Ltd Vehicle wiper system and crank and connecting rod mechanism thereof

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