JPH0849728A - Clutch device - Google Patents

Abstract

PURPOSE:To enable the easy fitting/removal and replacement of an energizing member by disposing a support member for supporting this energizing member on the outside of the energizing member disposed more on the outside of a device than an output part and pressure contact means. CONSTITUTION:Torque inputted from the crankshaft of an engine is inputted to a hub flange 12 and a disc plate 13 through a driving gear 6 and gears 12c, 13a and further transmitted to side plates 15, 16 through a coil spring 14. This torque is transmitted to an output member 3 through input side and output side clutch plates 20, 21 brought into pressure contact with each other by the energizing force of a cone spring 28, and outputted to a transmission input shaft 7. In this structure, the cone spring 28 is disposed more on the outside of a device than a clutch operating member 26, and the inner peripheral end of the cone spring 28 is supported by a support plate 25 fixed by a bolt 29. The cone spring 28 can be thereby removed easily only by removing the bolt 29 so as to be fitted/removed easily.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a clutch device,
The present invention relates to a clutch device for transmitting and disconnecting power between a crankshaft on the engine side and an input shaft of a transmission.

[0002]

2. Description of the Related Art For example, a clutch device for a motorcycle is
It is located at one end of the transmission input shaft,
It is used to transmit or cut off the torque transmitted from the engine crankshaft to the transmission input shaft. Such a clutch device includes a clutch main body including an input unit connected to a member on the engine side, an output unit connected to a transmission input shaft, and a plurality of clutch plates arranged between the input unit and the output unit. And a clutch operating mechanism for pressing the clutch body to connect the clutch device.

The clutch operating mechanism includes a pressure plate for pressing a plurality of clutch plates of the clutch body against each other, a cone spring for urging the pressure plates toward the clutch body, and a lever member for releasing the pressure contact of the pressure plates. And have. In such a clutch device, the pressure plate is normally urged toward the clutch body side by the cone spring, and the clutch is in a connected state. In this case, the clutch plate on the input side and the clutch plate on the output side are pressed against each other, and torque is transmitted from the input section to the output section. On the other hand, when the lever member is operated by the release mechanism and the pressure plate is separated from the clutch body, the clutch is disengaged, and the torque transmission from the input unit to the output unit is cut off.

[0004]

In the above-mentioned conventional clutch device, the pressure plate is arranged on the outer peripheral side of the lever member, and the cone spring is arranged on the inner side of the device of the lever member so that the inner peripheral end of the pressure plate is arranged. It is biased toward the clutch body. Here, in the clutch device, it is sometimes necessary to change the setting of the pressure contact load in order to change the transmission torque capacity or change the feel of a shock or the like when the clutch is engaged. However, in the above-described conventional structure, workability at the time of assembling and disassembling the cone spring is poor, and it is difficult to change the setting of the pressure contact load by replacing the cone spring. Further, the structure of the conventional device is complicated.

An object of the present invention is to provide a clutch device,
The purpose is to facilitate replacement of the biasing member. Another object of the present invention is to simplify the structure of the clutch operating mechanism in the clutch device.

[0006]

A clutch device according to the present invention is a device for transmitting and disconnecting power between a crankshaft on the engine side and an input shaft of a transmission. An input unit for inputting, an output unit arranged concentrically with the input unit and connectable to an input shaft of a transmission, a clutch body, a pressure contact unit, a pressure contact release unit, and an urging member. The clutch main body has an input side clutch plate connected to the input section and an output side clutch plate connected to the output section. The press-contact means is a means for disposing the input-side and output-side clutch plates in pressure contact with each other, which is arranged on the outer side of the device with respect to the output part. The pressure contact releasing means is means for releasing the pressure contact of the pressure contacting means. The urging member is a member that is arranged on the outer side of the device with respect to the pressure contact means and urges the pressure contact means so that the both clutch plates are pressure contacted. The support member is a member that is arranged further outside the device than the biasing member and supports the biasing member.

In the above-mentioned clutch device, the output portion has an output member having a projecting portion that engages with the output side clutch plate and projects toward the biasing member side, and the support member is detachable from the projecting portion of the output member. It is preferably fixed freely. In the clutch device, each of the pressure contact means and the pressure contact release means is a pressure contact portion and a lever portion that are integrally formed with an annular clutch operating member that is disposed so as to be able to approach and separate from the clutch body. preferable.

In the clutch device, the urging member is a cone spring whose outer peripheral portion abuts on the pressure contact portion of the clutch operating member and whose inner peripheral portion is supported by the support member. It is preferable that the point of action is arranged in a region facing the friction surfaces of both clutch plates. In the clutch device, it is preferable that a support portion that supports the outer peripheral portion of the cone spring is formed on the outer peripheral portion of the press contact portion.

[0009]

In the clutch device according to the present invention, the pressing member is biased toward the clutch body by the biasing member, so that the input side and output side clutch plates are pressed against each other. In this case, the clutch is in the engaged state, and the power from the input section is transmitted to the output section. On the other hand, when the pressure contact of the pressure contact means is released via the pressure contact release means by the release mechanism, the pressure contact of the input side and output side clutch plates is released, and the clutch connection is released. In this case, the power from the input section is not transmitted to the output section.

Here, the urging member is arranged outside the device of the output portion and the pressure contact means, and a support member for supporting the urging member is arranged further outside of the urging member. For this reason,
The urging member can be removed only by removing the supporting member, and the urging member can be easily attached and detached. When the output portion has an output member having a protrusion protruding toward the biasing member and the support member is detachably fixed to the protrusion, the biasing member can be attached and detached more easily.

In the case where each of the pressure contact means and the pressure contact release means is a pressure contact portion and a lever portion which are integrally formed with an annular clutch operating member which is arranged so as to be able to move toward and away from the clutch body, a structure is provided. Will be easier. Further, since the lever portion and the pressure contact portion are integrated, the operating force and the operating amount of the release mechanism can be efficiently transmitted. The urging member is a cone spring whose outer peripheral portion abuts on the pressure contact portion of the clutch operating member, and the cone spring is located within a region where the point of action on the pressure contact means faces the friction surfaces of the input side and output side clutch plates. When arranged so that the biasing force of the cone spring can be directly transmitted to each clutch plate. Therefore, the biasing force of the cone spring can be efficiently applied to each clutch plate.

When a support portion for supporting the outer peripheral portion of the cone spring is formed on the outer peripheral portion of the press contact portion, the cone spring can be easily positioned in the radial direction.

[0013]

1 and 2 show a clutch device 1 according to an embodiment of the present invention. In FIG. 1, O-O is a rotation axis of the clutch device 1. The overall configuration clutch device 1 is attached to the tip of a transmission input shaft 7, and has an input portion 2 to which torque is transmitted from a crankshaft (not shown) on the engine side, and an output member fixed to the transmission input shaft 7. 3, a clutch main body 4 arranged between the input section 2 and the output member 3, and a clutch operating mechanism 5 for pressing the clutch main body 4 into contact with each other.

The input unit input unit 2, the hub flange 12, a disk plate 13 disposed on the illustrated left side of the hub flange 12, a coil spring 14, the side plates 15 of a pair of supporting the coil spring 14, 16 and. The coil spring 14 includes the hub flange 12 and the disc plate 1.
It is compressible in the circumferential direction between 3 and the pair of side plates 15, 16. Thus, the input section 2 is provided with a damper mechanism for absorbing torque fluctuations from the engine.

The hub flange 12 has a central boss 12a.
And a flange portion 12b extending from the boss 12a to the outer peripheral side.
And a gear 12c provided on the outer peripheral portion of the flange portion 12b.
And have. The boss 12a is rotatably supported on the transmission input shaft 7 via a needle bearing 11. The flange portion 12b is formed with a plurality of notches 12d extending in the circumferential direction. The gear 12c is
Drive gear 6 fixed to the crankshaft on the engine side
Meshes with.

A gear 13a is provided on the outer peripheral portion of the disc plate 13.
The gear 13a meshes with the drive gear 6 like the gear 12c of the hub flange 12. A notch 13b is formed at a position corresponding to the notch 12d of the hub flange 12 in the radial middle portion of the disc plate 13. The coil spring 14 is arranged in the notches 12d and 13b.

The pair of side plates 15 and 16 are both made of sheet metal and are formed by press molding. One side plate 15 is arranged on the left side of the disc plate 13 in the drawing. In addition, the side plate 15 has a pressing portion 1 at a position corresponding to the coil spring 14.
5a is formed. The pressing portion 15a is cut and raised in the axial direction and regulates the movement of the coil spring 14 in the axial direction. The other side plate 16
Is arranged on the right side of the hub flange 12 in the drawing,
The disc portion 16a and the disc portion 16a on the outer periphery of the disc portion 16a.
And a cylindrical portion 16b integrally formed with the. A pressing portion 16c is formed on the disc portion 16a so as to correspond to the coil spring 14. The holding portion 16c is cut and raised in the axial direction and regulates the movement of the coil spring 14 in the axial direction. Also, both side plates 1
5, 16 are connected by a plurality of stop pins 17. The stop pin 17 penetrates through holes 12e and 13c formed in the hub flange 12 and the disc plate 13, respectively. Since the holes 12e and 13c are formed to be long in the circumferential direction, the side plates 15 and 16 can rotate relative to the hub flange 12 and the disc plate 13 by a predetermined angle. Further, a plurality of inner teeth 16d are formed on the inner peripheral side of the cylindrical portion 16b of the side plate 16. The inner teeth 16d are formed by pressing the cylindrical portion 16b. Further, the cylindrical portion 16b is formed with a hole 16e communicating from the outer peripheral surface to the inner tooth 16d.

Here, since the side plate 16 is made of sheet metal, the cylindrical portion 16b can be easily formed while forming a part of the damper mechanism. Further, since the inner teeth 16d can be formed by press working, the inner teeth 16d can be formed easily and inexpensively as compared with the case where teeth such as splines are formed by cutting. The coil spring 14 is arranged in the notches 12d and 13b of the hub flange 12 and the disc plate 13, and each plate 15 is formed with the notches 12d and 13b and the pressing portions 15a and 16c at both ends in the circumferential direction. 1
The window holes 6 are in contact with both ends in the circumferential direction. for that reason,
The coil spring 14 is circumferentially compressed when relative rotation occurs between the input side member (the hub flange 12 and the disc plate 13) and the output side member (the side plates 15 and 16).

Between the inner peripheral portion of the disc plate 13 and the inner peripheral portion of one side plate 15, a cone spring 18 for generating a hysteresis torque in the input portion 2 is arranged in a compressed state. ing. Output Member The output member 3 is a member mainly formed of a boss 30, a flange portion 31 that extends from the boss 30 to the outer peripheral side, and a cylindrical portion 32 that extends from an intermediate portion in the radial direction of the flange portion 31 to the right in the drawing. . Boss 30 and boss 12a of hub flange 12
A thrust plate 40 is arranged between the and. External teeth 33 are formed on the outer peripheral side of the cylindrical portion 32. The cylindrical portion 32 has a hole 3 communicating with the groove between the inner peripheral surface and the outer tooth 33.
4 are formed. A spline 35 is formed on the inner peripheral portion of the boss 30, and the spline 35 meshes with a spline shaft formed at the tip of the transmission input shaft 7. Six protrusions 3 are provided on the inner peripheral side of the cylindrical portion 32.
6 are formed at equal intervals in the circumferential direction so as to project rightward in the drawing. A screw hole 37 is formed in each protrusion 36.

Clutch main body The clutch main body 4 includes a cylindrical portion 16b of the side plate 16.
And the cylindrical portion 32 of the output member 3 are arranged in an annular space. The clutch body 4 includes a spacer plate 19
And a plurality of input side clutch plates 20 and a plurality of output side clutch plates 21. The spacer plate 19 is arranged so as to contact the flange portion 31 of the output member 3. Further, the input side and output side clutch plates 20 and 21 are alternately arranged. Friction facings 2 are provided on both sides of the input side clutch plate 20.
0a is attached. External teeth 20b are formed on the outer periphery of the input side clutch plate 20.
(See FIG. 2) meshes with the inner teeth 16d of the side plate 16. In this way, the input side clutch plate 20 is fixed so as not to rotate relative to the side plate 16, and is movable in the axial direction. A plurality of inner teeth 21 a are formed on the inner peripheral side of the output side clutch plate 21. The internal teeth 21 a are provided on the cylindrical portion 32 of the output member 3.
Meshes with the outer teeth 33 formed on the. This allows
The output side clutch plate 21 is fixed so as not to rotate relative to the output member 3 and is movable in the axial direction.

Here, the side plate 16 of the input section 2 is used.
The cylindrical portion 16b constitutes a case of the clutch main body 4, and the input side clutch plate 20 is engaged with the cylindrical portion 16b. That is, one of the members forming the damper mechanism is also used as the clutch case of the multi-plate clutch device, which reduces the number of parts and simplifies the structure.

Clutch Operating Mechanism The clutch operating mechanism 5 is mainly composed of a clutch operating member 26, a cone spring 28 for urging the clutch operating member 26 toward the clutch body 4, and a support plate 25 supporting the cone spring 28. Is configured.
The clutch operating member 26 is disposed on the right side of the clutch body 4 in the drawing, and the inner peripheral portion thereof is rotatably supported by the release mechanism 9 via the bearing 8. Clutch operating member 26
Is a pressure contact portion 2 that is integrally formed with the lever portion 26a on the inner peripheral side and continuously extends from the lever portion 26a to the outer peripheral side.
6b and. The lever portion 26a is a portion for transmitting the operating force from the release mechanism 9 to the pressure contact portion 26b. The pressure contact portion 26b has a pressure contact surface on the clutch body 4 side. A plurality of raised portions 26c extending in the circumferential direction are formed on the side surface opposite to the pressure contact surface. Ridge 26c
Are formed at substantially the same positions as the effective radial positions of the input side clutch plate 20 and the output side clutch plate 21. Further, the protrusion 36 of the output member 3 is provided on the lever portion 26a.
A hole is formed therethrough. Due to the engagement of this hole and the projection 36, the clutch operating member 26 is non-rotatable relative to the output member 3 and movable in the axial direction.
Further, at the outer peripheral end of the clutch operating member 26, a protrusion 2 for supporting the cone spring is provided on a side surface opposite to the pressure contact surface.
6d is formed in a plurality of places. The projection 26d allows the cone spring 28 to be positioned in the radial direction.

Here, since the clutch operating member 26 rotates together with the output member 3, the pressure contact surface of the clutch operating member 26 can function as a power transmission surface. The support plate 25 is fixed to the tip of the protrusion 36 of the output member 3 with a bolt 29. The inner peripheral end of the cone spring 28 is supported by the support plate 25. The cone spring 28 is arranged at substantially the same position as the press contact portion 26b of the clutch operating member 26 in the radial direction, and the outer peripheral portion presses the raised portion 26c of the clutch operating member 26. That is, cone spring 2
8 is arranged such that the point of action on the clutch body 4 is located in a region facing the friction surfaces of the input side clutch plate 20 and the output side clutch plate 21. Therefore, the biasing force of the cone spring 28 directly acts on the pressure contact portion 26b and the clutch body 4, and the clutch body 4 can be efficiently pressure contacted.

When the power transmission operation release operation is not performed, the clutch operating member 26 is urged toward the clutch body 4 side by the urging force of the cone spring 28, whereby the input side and output side clutch plates 20, 21. Are pressed together. When torque is input from the crankshaft (not shown) of the engine in such a state, this torque is input to the hub flange 12 and the disc plate 13 via the drive gear 6, the gears 12c and 13a, and further, It is transmitted to the side plates 15 and 16 via the coil spring 14. The torque transmitted to the side plate 16 is applied to the input side and output side clutch plates 20, which are in pressure contact with each other,
It is transmitted to the output member 3 via 21 and is output to the transmission input shaft 7.

When the above clutch is engaged, the cone spring 28 is in contact with the raised portion 26c and presses the press contact portion 26b. The raised portion 26c is for each clutch plate 2
Since it is formed at substantially the same position as the effective radial positions of 0 and 21, the biasing force of the cone spring 28 efficiently acts on the press contact portion 26b. Operation during release When the clutch is released, the release mechanism 9 is pulled to the right in FIG. 1, whereby the clutch operating member 26 moves in the same direction against the biasing force of the cone spring 28. As a result,
The pressure contact between the input side and output side clutch plates 20 and 21 is released, and the torque transmission is cut off.

In this case, since the clutch operation member 26 in which the lever portion and the pressure contact portion are integrally formed releases the pressure contact between the clutch plates 20 and 21, the release mechanism 9
The operating force and the operating amount of directly act on the press contact portion. Therefore, the efficiency at the time of release operation is good, and the number of defective clutch disconnections is reduced. Concerning workability of assembling the cone spring In this structure, the cone spring 28 is arranged outside the device with respect to the clutch operating member 26. The inner peripheral end of the cone spring 28 is supported by a support plate 25 fixed by bolts 29. Therefore, the cone spring 28 can be easily removed by simply removing the bolt 29, and the attachment / detachment is easy. Therefore, the setting of the pressure contact load of the clutch can be easily changed.

[0027]

In the clutch device according to the present invention, the urging member is arranged outside the device of the output portion and the pressure contact means, and the supporting member for supporting the urging member is arranged further outside of the urging member. Therefore, the urging member can be removed only by removing the supporting member, and the urging member can be easily attached and detached.

In the above clutch device, when the support member is detachably fixed to the projecting portion of the output member, the urging member can be easily attached and detached. In the above-mentioned clutch device, when each of the pressure contact means and the pressure contact release means is a pressure contact portion and a lever portion which are integrally formed with the clutch operating member, the structure becomes simple. Further, since the lever portion and the pressure contact portion are integrated, the operating force and the operating amount of the release mechanism can be efficiently transmitted.

In the above clutch device, when the urging member is a cone spring and the point of action of the cone spring with respect to the pressure contact means is located in the area facing the friction surfaces of the input side and output side clutch plates, the cone spring The biasing force can be directly transmitted to each clutch plate, which is efficient. In the above-mentioned clutch device, when the support portion for supporting the cone spring is formed on the outer peripheral portion of the press contact portion, the cone spring can be easily positioned in the radial direction.

[Brief description of drawings]

FIG. 1 is a schematic vertical sectional view of a clutch device in which an embodiment of the present invention is adopted.

FIG. 2 is a partially cutaway plan view of the clutch device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Clutch device 2 Input part 3 Output member 4 Clutch main body 5 Clutch operating mechanism 7 Transmission input shaft 9 Release mechanism 20 Input side clutch plate 21 Output side clutch plate 25 Support plate 26 Clutch operating member 26a Lever part 26b Pressure contact part 26d Protrusion 28 Cone spring

Claims (5)

[Claims] 1. A clutch device for transmitting and disconnecting power between an engine-side crankshaft and an input shaft of a transmission, the input device receiving power from the crankshaft, and the input device. A clutch body that is arranged concentrically with the section, has an output section that can be connected to the input shaft of the transmission, an input side clutch plate that is connected to the input section, and an output side clutch plate that is connected to the output section; Pressure contact means arranged on the device outer side of the output part for pressing the both clutch plates against each other, pressure contact releasing means for releasing the pressure contact of the pressure contact means, and the device contact side of the pressure contact means. An urging member that is disposed and that urges the pressure contact means so that the two clutch plates are in pressure contact with each other; A clutch device comprising: a support member that supports the biasing member. 2. The output portion has an output member having a protrusion that engages with the output side clutch plate and protrudes toward the biasing member, and the support member is detachable from the protrusion of the output member. The clutch device according to claim 1, wherein the clutch device is freely fixed. 3. The pressure contact means and the pressure contact release means are a pressure contact portion and a lever portion which are integrally formed with an annular clutch operating member which is disposed so as to approach and separate from the clutch body. The clutch device according to claim 1 or 2. 4. The urging member is a cone spring, the outer peripheral portion of which is in contact with the pressure contact portion of the clutch operating member, and the inner peripheral portion of which is supported by the support member, the cone spring being against the pressure contact means. The clutch device according to claim 3, wherein the point of action is arranged in a region facing the friction surfaces of the clutch plates. 5. The clutch device according to claim 4, wherein a support portion that supports the outer peripheral portion of the cone spring is formed on the outer peripheral portion of the press contact portion.