JP5816600B2 - Interlocking brake device for saddle riding type vehicles - Google Patents

Description

  The present invention relates to an interlocking brake device for a saddle riding type vehicle.

Conventionally, as an interlocking brake device for a saddle-ride type vehicle, for example, as seen in Patent Document 1 (particularly FIG. 18), when a brake pedal (7 ₂ ) is operated, a brake rod (B _R3 ) is _attached to a mechanical rear wheel brake (B _R3 ). 62) and applying the braking force through the equalizer (12 ₂ ) to the brake lever (6 ₂ ) side by the master cylinder (68) and the interlocking brake transmission system (4 ₄ ), An interlocking brake device that applies a braking force to a hydraulic front wheel brake (B _F2 ) is also known.

JP 09-058434 A

In the interlocking brake device of the saddle riding type vehicle as described above, the operating force of the brake pedal is distributed by the equalizer to the force for pulling the rear brake rod and the force for operating the master cylinder for the front wheel brake. There is a desire to appropriately ensure the ratio of the transmission force or transmission stroke to the equalizer with respect to the operation force or stroke of the brake pedal.
On the other hand, in a saddle-ride type vehicle, there is a space limitation around the brake pedal, so it is difficult to easily secure the ratio.
The subject of this invention is providing the interlocking brake apparatus of the straddle-type vehicle which can ensure an appropriate ratio.

In order to solve the above problems, a straddle-type vehicle interlocking brake device according to the present invention provides:
A hydraulic front wheel brake (BF) capable of applying a braking force to the front wheel (WF);
A mechanical rear wheel brake (BR) capable of applying a braking force to the rear wheel (WR);
A swing arm (15) that is swingably supported by the vehicle body (10) by a swing arm pivot (15p), and a rear wheel (WR) is rotatably supported at a rear end;
A power unit (E) for driving the rear wheels (WR);
A pedal arm (31) that is rotatably supported by the vehicle body (10) by a pedal pivot (33), extends forward from the pedal pivot (33), and extends upward from the pedal pivot (33). Brake pedal (30) having a transmission arm (32) rotating with
Connected to the transmission arm (32) of the brake pedal (30), one end is connected to a rear transmission member (70) that transmits operating force to the rear wheel brake (BR), and the other end is the front wheel brake (BF). An equalizer (40) connected to a master piston (51) of a master cylinder (50) for applying a braking force to
In an interlocking brake device for a saddle-ride type vehicle comprising:
In the side view, the swing arm pivot (15p) is disposed at a position surrounded by the power unit (E) on the front, the transmission arm (32) on the rear, the master cylinder (50) on the upper side, and the pedal arm (31) on the lower side. It is characterized by that.
According to the interlocking brake device for the saddle riding type vehicle, the master cylinder (50) and the pedal arm (31) are arranged above and below the swing arm pivot (15p), so that the length of the transmission arm (32) is increased. Can be secured appropriately.
Therefore, the ratio of the transmission force or transmission stroke to the equalizer (40) with respect to the operation force or stroke of the brake pedal (30) can be appropriately ensured.
Moreover, since the transmission arm (32) and the equalizer (40) can be arranged using the empty space on the rear side of the swing arm pivot (15p), the influence on the arrangement of other components can be suppressed. it can.

In this straddle-type vehicle interlocking brake device,
With respect to the front-rear direction of the vehicle body (10), the pedal pivot (33) may be arranged behind the swing arm pivot (15p).
If comprised in this way, the stroke for brake pedal (30) is ensured and the stroke for pressing the master piston (51) of a master cylinder (50) can be ensured.

In this straddle-type vehicle interlocking brake device,
The master cylinder (50) is arranged at a position overlapping the main frame (12) provided in the vehicle body (10), and the front pipe (53) for the front wheel brake (BF) extending from the master cylinder (50) is connected to the main frame ( It can be set as the structure arrange | positioned along 12).
If comprised in this way, when routing front piping (53) along a main frame (12), a master cylinder (50) overlaps with a main frame (12), and routing becomes easy.

In this straddle-type vehicle interlocking brake device,
With respect to the width direction of the vehicle body (10), the master cylinder (50) may be disposed within the width of the swing arm pivot (15p).
If comprised in this way, it will become easy to protect a master cylinder (50).

In this straddle-type vehicle interlocking brake device,
With respect to the width direction of the vehicle body (10), a bracket (80) for supporting the brake pedal (30) on the inside can be provided, and an equalizer (40) can be arranged on the inside of the bracket (80).
If comprised in this way, since an equalizer (40) can be made hard to see by presence of a bracket (80), an external appearance property can be improved.

In this straddle-type vehicle interlocking brake device,
It can be set as the structure which has arrange | positioned the equalizer (40) inside the said swing arm (15).
If comprised in this way, since an equalizer (40) can be made hard to see by presence of a swing arm (15), an external appearance property can be improved.

In this straddle-type vehicle interlocking brake device,
The said master cylinder (50) can be set as the structure provided in the vehicle width direction inner side with respect to the crankcase (E1) of the said power unit (E).
If comprised in this way, it will become easy to protect a master cylinder (50) from external force.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a right side view illustrating an example of a saddle riding type vehicle to which a first embodiment of an interlocking brake device for a saddle riding type vehicle according to the present invention is applied. The block diagram of the interlocking brake device of a saddle riding type vehicle. The elements on larger scale of FIG. The partial abbreviation enlarged plan view of a saddle riding type vehicle. The right side view of the sub-assembly with parts omitted. The partial abbreviation top view of a subassembly. The left side of the subassembly is omitted. The right view which shows an example of the saddle type vehicle to which 2nd Embodiment of the interlocking brake device of the saddle type vehicle which concerns on this invention is applied. The block diagram of the interlocking brake device of a saddle riding type vehicle. FIG. 9 is a partially omitted enlarged view of FIG. 8. FIG. 11 is a cross-sectional view of a portion omitted 11-11 in FIG. FIG. 9 is a partially omitted enlarged view of FIG. 8. The perspective view of the principal part. FIG. 9 is a partially left omitted rear view of the motorcycle of FIG. 8 as viewed from the rear. The left side view of the subassembly partially omitted. The block diagram of other embodiment of an interlocking brake device. The block diagram of other embodiment of an interlocking brake device.

  DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment of an interlocking brake device for a saddle riding type vehicle according to the present invention will be described with reference to the drawings. It should be noted that the drawings are viewed in the direction of the reference numerals. In the following description, front and rear, left and right, and top and bottom are in accordance with the direction seen from the operator, and the front and rear of the vehicle are indicated as FR, RR and RR, respectively, as necessary. L, right side is R, upper side is U, and lower side is D. In each drawing, the same reference numerals are given to the same or corresponding parts.

(First embodiment)
FIG. 1 is a side view showing an example of a motorcycle as a saddle riding type vehicle to which the first embodiment of the interlocking brake device for a saddle riding type vehicle according to the present invention is applied.
The motorcycle 1 has a body frame 10. The vehicle body frame 10 includes a head pipe 11, a main frame 12 that extends rearward from the head pipe 11, and extends downward. And a rear frame 14 extending rearward from the main frame 12.

A handle 20 and a front fork 21 are rotatably supported by the head pipe 11, and a front wheel WF is pivotally supported at the lower end of the front fork 21. The front wheel WF can be steered by turning the handle 20.
A front end portion 15f (FIG. 3) of the swing arm 15 is supported by the swing arm pivot 15p so as to be swingable up and down below the rear portion of the main frame 12, and the rear wheel WR is rotatable at the rear end of the swing arm 15. Is pivotally supported.
An engine E as a power unit is attached in front of the main frame 12, and the output of the engine E is transmitted to the rear wheel WR.
A riding seat 22 is disposed on the upper portion of the rear frame 14.
25 is a step for placing the driver's foot, and 86 is a pillion step (passenger step) for the passenger to place his / her foot.

FIG. 2 is a configuration diagram of the interlocking brake device of the saddle riding type vehicle.
As shown in FIGS. 2 and 1, the motorcycle interlocking brake device CB1 of this embodiment includes a front wheel brake BF that can apply a braking force to the front wheel WF and a rear wheel that can apply a braking force to the rear wheel WR. The brake BR, the brake pedal 30 for operating the rear wheel brake BR, and the brake pedal 30 are connected to the brake pedal 30 to distribute the operating force F of the brake pedal 30 to the front wheel brake operating force Ff and the rear wheel brake operating force Fr. An equalizer 40 (see FIG. 7) that operates the BF and the rear wheel brake BR, and a master cylinder 50 that applies a braking force to the front wheel brake BF when the master piston 51 is pressed by the equalizer 40 are provided.

  The interlocking brake device CB1 shown in FIG. 2 interlocks the front wheel brake operation lever 61 that activates the hydraulic front wheel brake BF according to the brake operation, and the mechanical rear wheel brake BR and the front wheel brake BF according to the brake operation. A brake pedal 30 that can be operated is provided.

  The brake pedal 30 is rotatably supported by the vehicle body (10) by a pedal pivot 33, extends forward from the pedal pivot 33, extends upward from the pedal pivot 33, and rotates together with the pedal arm 31. And a transmission arm 32.

  The master piston 51 of the master cylinder 50 is connected to the upper end portion (the other end portion in claim 1) of the front wheel brake arm 42 of the equalizer 40 connected to the transmission arm 32 of the brake pedal 30 via the connecting portion 41. A brake rod 70 as a rear transmission member connected to the rear wheel brake BR is connected to a lower end portion (one end portion in claim 1) of the rear wheel brake arm 43 of the equalizer 40.

  The front wheel brake BF operates in response to the action of the output hydraulic pressure of the front wheel master cylinder 60 that outputs the hydraulic pressure in accordance with the operation of the front brake operation lever 61, and is the master piston of the front wheel master cylinder 60. A pipe line 64 that leads to a hydraulic chamber 63 facing 62 is connected to the front wheel brake BF.

A fluid pressure chamber 63 of the front wheel master cylinder 60 is connected to a fluid pressure output port 52 of a master cylinder 50 (also referred to as an interlocking master cylinder) driven by the equalizer 40 through a front pipe 53.
A reservoir tank 55 is connected to the master cylinder 50. 54 is a reservoir tank port, and 54 h is a hose connecting the reservoir tank port 54 and the reservoir tank 55.

  Between the hydraulic chamber 63 of the front wheel master cylinder 60 and the front pipe 53, the hydraulic pressure generated in the hydraulic chamber 63 as the master piston 62 of the front wheel master cylinder 60 is operated is linked to the interlocking master cylinder 50. A release port 65 and a replenishment port 66 are provided to prevent the fluid pressure from the output port 52 of the interlocking master cylinder 50 from reaching the front wheel brake operation lever 61 side. That is, in the front wheel master cylinder 60, an annular replenishment chamber is provided between the inner periphery of the cylinder body 60c and the outer periphery of the master piston 62 by a pair of cup seals 67, 67 'mounted on the outer periphery of the master piston 62. 68 is formed in the cylinder body 60c so that the release port 65 communicates with the hydraulic pressure chamber 63 at the retreat limit position of the master piston 62, and the replenishment port 66 always communicates with the replenishment chamber 68. It has been drilled. The front pipe 53 is connected to the interlocking master cylinder 50 so as to communicate with the release port 65 and the replenishment port 66.

This interlocking brake device CB1 operates as follows.
When the driver rotates (holds) the front brake lever 61 in the direction of arrow b, the master piston 62 of the front wheel master cylinder 60 is pushed by the front brake lever 61, and the front wheel brake BF is activated by the hydraulic pressure. Thus, a braking force is applied to the front wheel WF. In this case, the movement of the liquid until the cup seal 67 closes the release port 65 is only absorbed by the reservoir tank 55 connected to the master cylinder 50 through the front pipe 53 and the master cylinder 50. After the seal 67 closes the release port 65, no liquid movement to the front pipe 53 occurs, so that no effect is exerted on the rear wheel brake BR side.

On the other hand, when the driver depresses the rear brake pedal arm 31 and rotates the brake pedal 30 in the direction of the arrow c, the operating force F is generated by the equalizer 40 by the front wheel brake operating force Ff and the rear wheel brake operating force Fr. And distributed.
The front wheel brake operating force Ff pushes the master piston 51 of the master cylinder 50, and the hydraulic pressure is supplied to the hydraulic pressure chamber 63 of the front wheel master cylinder 60 through the front pipe 53 and the release port 65. Activate the brake BF. In this case, since the hydraulic pressure is also supplied to the supply chamber 68 through the supply port 66, the master piston 62 does not move, and therefore the front brake lever 61 does not rotate.
The rear wheel brake operation force Fr operates the rear wheel brake BR via the rear brake transmission system.

The rear brake transmission system in this embodiment is constituted by a brake rod 70 connected to the rear wheel brake arm 43 of the equalizer 40.
As shown in FIG. 7, a connection fitting 71 is fixed to the tip of the brake rod 70, and the rear wheel brake arm 43 of the equalizer 40 is attached to the bifurcated (planar U shape) of the connection fitting 71. The lower end is inserted, and the connection fitting 71 (and hence the brake rod 70) and the rear wheel brake arm 43 of the equalizer 40 are connected by a pin 72 so as to be relatively rotatable.
In FIG. 2, the rear wheel brake operation force Fr rotates the brake arm 73 in the direction of the arrow c <b> 1 via the brake rod 70. As a result, a braking force is applied to the rear wheel WR.

As is clear from the above description, the motorcycle interlocking brake device CB1 operates as follows according to the operation of the driver.
When the driver operates the front brake lever 61, only the front wheel brake BF is activated by the front wheel brake operating force.
When the driver depresses the pedal arm 31 for the rear brake, the operating force F is distributed to the front wheel brake operating force Ff and the rear wheel brake operating force Fr by the equalizer 40, and the front wheel brake BF is generated by the front wheel brake operating force Ff. The rear wheel brake BR is operated with the rear wheel brake operation force Fr.
When the driver operates the front brake lever 61 and the brake pedal 30, the front wheel brake BF is activated by the resultant force of the front wheel brake operating force Ff1 based on the front brake lever 60 and the front wheel brake operating force Ff based on the brake pedal 30 and the equalizer 40. At the same time, the rear wheel brake BR is operated by the rear wheel brake operation force Fr.

  As shown in FIGS. 1 and 3, the interlocking brake device for the saddle riding type vehicle according to this embodiment is a side view, and the swing arm pivot 15 p has a power unit E on the front side, a transmission arm 32 on the rear side, and a master cylinder on the upper side. 50, the lower part is arranged at a position surrounded by the pedal arm 31.

According to such a configuration, since the master cylinder 50 and the pedal arm 31 are arranged above and below the swing arm pivot 15p, the length of the transmission arm 32 can be ensured appropriately.
Therefore, the ratio of the transmission force or transmission stroke to the equalizer 40 with respect to the operation force or stroke of the brake pedal 30 can be appropriately ensured.
Further, since the transmission arm 32 and the equalizer 40 can be arranged using the empty space S1 (see FIGS. 3 and 4) on the rear side of the swing arm pivot 15p, the influence on the arrangement of other parts is suppressed. can do.

As shown in FIGS. 1 and 3 and the like, the pedal pivot 33 is disposed rearward of the swing arm pivot 15p in the longitudinal direction of the vehicle body (10).
If comprised in this way, the stroke of the brake pedal 30 can be ensured and the stroke for pressing the master piston 51 of the master cylinder 50 can be ensured.

As shown in FIGS. 1 and 3, the master cylinder 50 is disposed at a position overlapping the main frame 12 provided in the vehicle body (10), and the front pipe 53 for the front wheel brake BF extending from the master cylinder 50 is provided on the main frame 12. Are arranged along.
With this configuration, when the front pipe 53 is routed along the main frame 12, the master cylinder 50 overlaps with the main frame 12, thereby facilitating the routing.

As shown in FIG. 4, the master cylinder 50 is disposed within the width of the swing arm pivot 15p in the width direction of the vehicle body.
If comprised in this way, it will become easy to protect the master cylinder 50. FIG.

The master cylinder 50 is provided on the inner side in the vehicle width direction with respect to the crankcase E1 of the power unit E.
If comprised in this way, it will become easy to protect the master cylinder 50 from external force.

As shown in FIGS. 4 to 7, this straddle-type vehicle interlocking brake device has a bracket 80 for supporting the brake pedal 30 on the inner side in the width direction of the vehicle body. 40 is arranged.
If comprised in this way, since the equalizer 40 can be made hard to see by presence of the bracket 80 (refer FIG. 1), an external appearance property can be improved.

  As shown in FIGS. 1 and 3 to 7, the bracket 80 is detachably supported on the vehicle body (vehicle body frame 10) on the outer side in the width direction of the swing arm 15 (arrow R side in FIG. 4). Further, the brake pedal 30 and the master cylinder 50 are supported.

If comprised in this way, since the brake pedal 30 and the master cylinder 50 are supported by the bracket 80, as shown in FIGS. 5-7, the brake pedal 30 and the master cylinder 50 are previously attached to the bracket 80, and subassembly SA is attached. It can be in a state.
At the time of attachment work, by attaching the subassembly SA, the brake pedal 30 and the master cylinder 50 can be attached together to the vehicle body (10), so that the number of assembling steps can be reduced.
In addition, since the bracket 80 is located on the outer side in the width direction of the swing arm 15, the mounting operation of the bracket (subassembly SA) 80 can be easily performed, and productivity is improved.

  The equalizer 40 is connected to a transmission arm 32 of the brake pedal 30 so as to be pivotable, a front wheel brake arm 42 extending upward from the connection part 41, and curved downward from the connection part 41. The connecting portion 41 is rotatably supported by a shaft 34 provided on the transmission arm 32 of the brake pedal 30 so as to be able to rotate on the transmission arm 32 of the brake pedal 30. It is connected to.

A push rod 51r that pushes the master piston 51 of the master cylinder 50 is connected to the upper end of the front wheel brake arm 42 in the equalizer 40 by a pin 56p via a connection member (connection fitting) 56, and the lower end of the rear wheel brake arm 43 is connected. As described above, the tip of the brake rod 70 is connected by the pin 72 via the connection fitting 71.
Therefore, in this embodiment, in addition to the brake pedal 30 and the master cylinder 50, the equalizer 40 and the brake rod 70 can also be configured as a subassembly SA that is attached to the bracket 80 in advance, thereby further reducing assembly man-hours and further improving productivity. Can be achieved.

In this embodiment, the brake pedal 30 is supported on the lower part of the bracket 80, and the master cylinder 50 is supported on the upper part of the bracket 80.
If comprised in this way, it will become easy to ensure the stroke for pressing the master cylinder 50. FIG.
The master cylinder 50 is fastened and fixed by bolts 50 b and 50 b near the upper edge of the bracket 80.

As shown mainly in FIG. 7, the delay spring DS that can delay the braking timing of the front wheel brake BF with respect to the rear wheel brake BR has one end DS1 supported by the equalizer 40 and the other end DS2 supported by the bracket 80. ing.
With this configuration, the equalizer 40 and the delay spring DS, in addition to the brake pedal 30 and the master cylinder 50, can be configured as a subassembly SA that is attached to the bracket 80 in advance, thereby further reducing assembly man-hours and further improving productivity. Can be planned.

One end DS1 of the delay spring DS is engaged with a hole 42h provided at the upper end of the front-wheel brake arm 42 in the equalizer 40, and the other end DS2 is passed through an adjuster DS3 for adjusting the initial tension of the delay spring DS. Are supported by the bracket 80.
The adjuster DS3 is attached to an adjuster attachment portion 85 provided integrally with the bracket 80.

The return spring RS for returning the operated brake pedal 30 to the original position has one end RS1 supported by the brake pedal 30 and the other end RS2 supported by the bracket 80.
With this configuration, in addition to the brake pedal 30 and the master cylinder 50, the return spring RS for returning the brake pedal 30 to the original position can also be configured as a subassembly SA that is attached to the bracket 80 in advance. Productivity can be further improved.

One end RS1 of the return spring RS is engaged with a hole 32h provided at the upper end of the transmission arm 32 in the brake pedal 30, and the other end RS2 is connected via an adjuster RS3 for adjusting the initial tension of the return spring RS. It is supported by the bracket 80.
The adjuster RS3 is attached to an adjuster attachment portion 85 that is provided integrally with the bracket 80.

The bracket 80 is composed of a step bracket on which a passenger can put his / her foot.
If comprised in this way, it will become unnecessary to provide a special bracket separately.
As shown mainly in FIG. 5, the bracket 80 includes a substantially Y-shaped plate portion 81 that is detachably fixed to the vehicle body (10), and extends rearwardly from the plate portion 81, respectively, and the rear ends 82r Are integrally connected to the upper and lower pipes 82u, 82d, the reinforcing pipe 83 that integrally connects the middle parts of the upper and lower pipes 82u, 82d, and the passengers fixed integrally to the outside of the rear end 82r. And a step support portion 84. An appropriate structure, such as welding, can be used for the connecting portion and the fixing portion of each portion in the bracket 80.
A passenger's step 86 is attached to the passenger's step support portion 84 so as to be rotatable by a pin 86p as indicated by an imaginary line.

As shown in FIG. 3, the bracket (subassembly AS) 80 is detachably fixed to the vehicle body (10) with bolts 87 and 88.
The bolt 87 is also used as a bolt constituting the swing arm pivot 15 p of the swing arm 15.

(Second Embodiment)
FIG. 8 is a side view showing an example of a motorcycle as a saddle riding type vehicle to which the second embodiment of the interlocking brake device for the saddle riding type vehicle according to the present invention is applied.
This motorcycle includes a main frame 213 extending downward and rearward from a head pipe 212 that supports a steering wheel 216 in a steerable manner, a rear frame 217 extending upward and rearward from a rear end 213r of the main frame 213, and a rear of the main frame 213. A vehicle body frame (vehicle body) 10 having a pivot frame 214 extending downward from the end 213r is provided.

  A front fork 211 is supported by the head pipe 212 so as to be steerable by the handle 216, and a front wheel WF is pivotally supported at the lower end of the front tok 211. A front end 15f of the swing arm 15 is supported by the pivot frame 214 so as to be swingable up and down by a pivot shaft 15p, and a rear wheel WR is rotatably supported at the rear end of the swing arm 15. A rear cushion 218 is provided between the swing arm 15 and the rear frame 217. An engine E as a power unit is attached below the main frame 213, and the output of the engine E is transmitted to the rear wheel WR. A riding seat 221 is disposed above the rear wheel WR.

  A synthetic resin vehicle body cover 222 that covers the vehicle body frame 10 and a part of the engine E is attached to the vehicle body frame 10. The vehicle body force bar 222 includes front and rear side covers 223 disposed on the left and right sides of the main frame 213, leg shields 224 connected to the front portions of the front side covers 223 so as to cover the rider's legs from the front, A front top cover 225 connected to both leg shields 224 so as to cover the head pipe 212 from the front, and a main frame top connected to the front top cover 225 so as to cover the head pipe 212 from the rear side and cover the main frame 213 from above. A cover 226, an under cover 227 that is continuous with the lower portions of the front side covers 223, extends rearward and rearward and covers the rear frame 217, and a rear side cover 228 on which the riding seat 221 is disposed. have.

FIG. 9 is a configuration diagram of the interlocking brake device of the saddle riding type vehicle.
Since the basic configuration and operation of the interlocking brake device CB2 of this embodiment are the same as those of the interlocking brake device CB1 described above, the description thereof is omitted.

As shown in FIGS. 8 and 10, the interlocking brake device for the saddle riding type vehicle according to this embodiment also has a swing arm pivot 15 p having a power unit E on the front side, a transmission arm 32 on the rear side, and a master cylinder on the upper side. 50, the lower part is arranged at a position surrounded by the pedal arm 31.
Therefore, the ratio of the transmission force or transmission stroke to the equalizer 40 with respect to the operation force or stroke of the brake pedal 30 can be appropriately ensured.
Further, since the transmission arm 32 and the equalizer 40 can be arranged using the empty space S2 (see FIG. 11) on the rear side of the swing arm pivot 15p, the influence on the arrangement of other parts can be suppressed. it can.

As shown in FIGS. 8 and 10 and the like, also in this embodiment, the pedal pivot 33 is disposed rearward of the swing arm pivot 15p in the longitudinal direction of the vehicle body (10).
Therefore, the stroke of the brake pedal 30 can be ensured and the stroke for pressing the master piston 51 of the master cylinder 50 can be ensured.

As shown in FIGS. 8 and 10, the master cylinder 50 is disposed at a position overlapping the main frame 213 provided in the vehicle body (10), and the front piping 53 for the front wheel brake BF extending from the master cylinder 50 is connected to the main frame 213. Are arranged along.
Therefore, when the front pipe 53 is routed along the main frame 213, the master cylinder 50 overlaps the main frame 213, so that the routing becomes easy.

As shown in FIG. 11, the master cylinder 50 is arranged within the width of the swing arm pivot 15p in the width direction of the vehicle body.
Therefore, it becomes easy to protect the master cylinder 50.

As shown in FIGS. 8, 10, and 11, in this embodiment, an equalizer 40 is disposed inside the swing arm 15 in the vehicle width direction.
If comprised in this way, since the equalizer 40 can be made hard to see by presence of the swing arm 15, an external appearance property can be improved.

  As shown in FIGS. 8 and 10 to 15, this embodiment includes a bracket 280 that can be attached to and detached from the vehicle body 10, and the brake pedal 30 and the master cylinder 50 are supported by the bracket 280.

According to such a configuration, since the brake pedal 30 and the master cylinder 50 are supported by the bracket 280, the brake pedal 30 and the master cylinder 50 are previously attached to the bracket 280 as shown in FIG. Can be left as
At the time of attachment work, by attaching this subassembly SA, the brake pedal 30 and the master cylinder 50 can be attached together to the vehicle body (10), so that the number of assembling steps is reduced and the productivity is improved.

  The equalizer 40 of this embodiment has a substantially linear lever shape, and the connecting portion 41 can be rotated with respect to the transmission arm 32 of the brake pedal 30 by a connecting member (in the drawing, a bolt nut) 34. By being supported, it is rotatably connected to the transmission arm 32 of the brake pedal 30.

A push rod 51r that pushes the master piston 51 of the master cylinder 50 is coupled to the upper end of the front wheel brake arm 42 in the equalizer 40 by a bolt 56b via a connection member (connection fitting) 56, and the lower end of the rear wheel brake arm 43 is connected. The tip 71 of the brake rod 70 is connected to the front end.
As shown in FIG. 11, the tip 71 of the brake rod 70 is bent in an L shape, and this bent portion (71) is engaged with an engagement hole 43h provided at the lower end of the rear wheel brake arm 43 of the equalizer 40. Match.
In this embodiment, in addition to the brake pedal 30 and the master cylinder 50, the equalizer 40 and the brake rod 70 can also constitute the subassembly SA (FIG. 15) previously attached to the bracket 280, which further reduces the assembly man-hours and increases the productivity. Further improvement can be achieved.

In this embodiment, the brake pedal 30 is supported on the lower portion 284 of the bracket 280, and the master cylinder 50 is supported on the upper portion 283 of the bracket 280.
If comprised in this way, it will become easy to ensure the stroke for pressing the master cylinder 50. FIG.
The master cylinder 50 is fastened and fixed by bolts 50b and 50b near the upper edge of the bracket 280.

As shown in FIGS. 13 and 14, the master cylinder 50 and the equalizer 40 are disposed inside the swing arm 15 in the vehicle width direction (left side in FIG. 14).
If comprised in this way, since the swing arm 15 is located in the vehicle width direction outer side of the master cylinder 50 and the equalizer 40, it becomes possible to protect the master cylinder 50 and the equalizer 40 with the swing arm 15.

As shown in FIGS. 13 to 15, the brake pedal 30 and the master cylinder 50 are attached to the bracket 280 from the outside in the vehicle width direction.
If comprised in this way, the maintenance operation | work which removed the master cylinder 50 and the greasing operation | work to the rotation part (the pedal pivot 33 and its periphery) of the brake pedal 30 will become easy.

As shown in FIG. 11, the vehicle body (10) is provided with a cylindrical support portion 16 that supports a swing arm pivot 15p that rotatably supports the swing arm 15, and the bracket 280 has a cylindrical shape. A penetration part 281 through which the support part 16 penetrates is provided, and a positioning part 282 for positioning the bracket 280 is provided in the penetration part 281.
If comprised in this way, the positioning at the time of attaching the bracket 280 to a vehicle body (10) will become easy.

The cylindrical support portion 16 is integrally provided so as to be horizontally mounted on the pivot frame 214 in the vehicle body frame 10.
The bracket 280 is a plate-like member in which an outer peripheral portion (outer edge portion) 285 is bent inward in the vehicle width direction.
The through portion 281 of the cylindrical support portion 16 in the bracket 280 is configured by a hole (see FIG. 15), and the positioning portion 282 is configured by an edge portion 282 of the hole (281).

As shown in FIGS. 10 and 11, the bracket (subassembly AS) 280 is detachably fixed to the vehicle body (10) by an upper part 283 with bolts 283b and a lower part 284 with bolts 284b.
The bolts 283b and 284b are both used as bolts for fixing the engine E to the vehicle body frame 10, and the bracket 280 is fastened and fixed to the vehicle body frame 10 by the bolts 283b and 284b together with the engine E. The
In FIG. 11, 284n is a nut fastened to the bolt 284b. Such a nut is similarly provided to the bolt 283b.

  As shown in FIG. 15, FIG. 11, and FIG. 14 are provided integrally on the left side), and the inner side surfaces of these cylindrical portions 283t and 284t abut on the outer side surface of the pivot frame 214.

In FIG. 10 and the like, 90 is a delay spring capable of delaying the braking timing of the front wheel brake BF with respect to the rear wheel brake BR. The delay spring 90 also serves as a return spring that returns the operated brake pedal 30 to its original position.
The delay spring / return spring 90 has one end 91 connected to the front wheel brake arm 42 of the equalizer 40 and the other end 92 connected to a spring hook 15 k provided on the swing arm 15.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and can be appropriately modified within the scope of the gist of the present invention.
For example, in the interlocking brake device CB shown in FIG. 2, the master cylinder 50 is configured to operate the front wheel brake BF via the front wheel master cylinder 60. However, as shown in FIG. The front wheel brake BF may be operated directly through the front pipe 53 without going through the master cylinder 60.
Similarly, in the interlock brake device CB shown in FIG. 9, the master cylinder 50 is configured to operate the front wheel brake BF via the front wheel master cylinder 60. However, as shown in FIG. The front wheel brake BF may be directly actuated through the front pipe 53 without using the master cylinder 60.

  WF: Front wheel, WR: Rear wheel, BF: Front wheel brake BF, BR: Rear wheel brake BR, 10: Body frame (vehicle body), 12, 213: Main frame, 15: Swing arm, 30: Brake pedal, 40: Equalizer , 50: master cylinder, 51: master piston, 80, 280: bracket, 90: delay spring / return spring, DS: delay spring, RS: return spring.

Claims (7)

A hydraulic front wheel brake (BF) capable of applying a braking force to the front wheel (WF);
A mechanical rear wheel brake (BR) capable of applying a braking force to the rear wheel (WR);
A swing arm (15) that is swingably supported by the vehicle body (10) by a swing arm pivot (15p), and a rear wheel (WR) is rotatably supported at a rear end;
A power unit (E) for driving the rear wheels (WR);
A pedal arm (31) that is rotatably supported by the vehicle body (10) by a pedal pivot (33), extends forward from the pedal pivot (33), and extends upward from the pedal pivot (33). Brake pedal (30) having a transmission arm (32) rotating with
Connected to the transmission arm (32) of the brake pedal (30), one end is connected to a rear transmission member (70) that transmits operating force to the rear wheel brake (BR), and the other end is the front wheel brake (BF). An equalizer (40) connected to a master piston (51) of a master cylinder (50) for applying a braking force to
In an interlocking brake device for a saddle-ride type vehicle comprising:
In the side view, the swing arm pivot (15p) is disposed at a position surrounded by the power unit (E) on the front, the transmission arm (32) on the rear, the master cylinder (50) on the upper side, and the pedal arm (31) on the lower side. An interlocking brake device for a saddle-ride type vehicle. In claim 1,
The straddle-type vehicle interlocking brake device according to claim 1, wherein the pedal pivot (33) is disposed rearward of the swing arm pivot (15p) in the longitudinal direction of the vehicle body (10). In claim 1 or 2,
The master cylinder (50) is arranged at a position overlapping the main frame (12) provided in the vehicle body (10), and the front pipe (53) for the front wheel brake (BF) extending from the master cylinder (50) is connected to the main frame ( 12) The interlocking brake device for a saddle-ride type vehicle, characterized by being arranged along the line 12). In any one of Claims 1-3,
A straddle-type vehicle interlocking brake device, wherein the master cylinder (50) is disposed within the width of the swing arm pivot (15p) in the width direction of the vehicle body (10). In any one of Claims 1-4,
A straddle characterized by having a bracket (80) that supports a brake pedal (30) on the inside in the width direction of the vehicle body (10), and an equalizer (40) is arranged inside the bracket (80). Type vehicle interlocking brake device. In any one of Claims 1-5,
An interlocking brake device for a saddle riding type vehicle, wherein an equalizer (40) is arranged inside the swing arm (15). In any one of Claims 1-6,
The master cylinder (50) is provided on the inner side in the vehicle width direction with respect to the crankcase (E1) of the power unit (E).

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