Patent Publication Number: US-2012031220-A1

Title: Pedal device for vehicle

Description:
CROSS-RELATED APPLICATIONS 
     This application claims priority from Japanese Patent Application No. 2010-176873; filed Aug. 6, 2010, the disclosure of which is incorporated herein by reference in its entirety. 
     BACKGROUND OF THE INVENTION 
     The present invention relates to a pedal device of a vehicle, which is provided with a pedal retreat suppression mechanism that turns a pedal arm to the vehicle front in association with the operation of a dash panel moving to the vehicle rear on receipt of a shock load applied from the vehicle front. 
     A brake pedal device and a clutch pedal device of a vehicle each have a pedal arm the upper end portion of which is pivotally supported on a pedal bracket attached to a dash panel. By depressing a pedal of the pedal arm, the driver performs a required braking or speed-changing operation by transmitting the displacement of the pedal to a brake master cylinder or a clutch master cylinder. 
     The master cylinder is directly mounted to the dash panel. Therefore, there arises a problem that if the dash panel is moved to the vehicle rear by a large shock load applied from the vehicle front, the master cylinder mounted to the dash panel also moves to the vehicle rear, and the push rod thereof turns the pedal atm to the vehicle rear. 
     Accordingly, there has been proposed a pedal retreat suppression mechanism that turns the pedal arm to the vehicle front in association with the operation of the dash panel moving to the vehicle rear on receipt of a shock load applied from the vehicle front (for example, refer to Patent Documents 1 to 4). Hereunder, one example of the pedal retreat suppression mechanism is explained with reference to  FIGS. 5 and 6 . 
       FIGS. 5 and 6  are views showing the pedal retreat suppression mechanism provided on the brake pedal.  FIG. 5  shows a normal state, and  FIG. 6  shows the state in which a shock load is applied from the vehicle front. In  FIGS. 5 and 6 , (a) is a side view, and (b) is a perspective view. 
     For a pedal arm  102  of a brake pedal device  101  shown in  FIGS. 5 and 6 , the upper end thereof is pivotally supported on a pedal bracket  108  by a pedal shaft  103  so that the pedal arm  102  can be turned in the front-and-rear direction of vehicle. The pedal bracket  108  is attached to a dash panel, not shown, and in the rear of the pedal bracket  108 , a vehicle body frame  130  such as a steering support member is disposed. 
     The pedal retreat suppression mechanism is configured so as to include a link mechanism  116  connecting the pedal arm  102  to the pedal shaft  103  and a trigger  115  turnably supported on the pedal bracket  108 . The link mechanism  116  consists of a first link  118  and a second link  119  connected to each other by a pin  117 . The lower end of the first link  118  is turnably connected to an intermediate portion of the pedal arm  102  by a shaft  120 . Also, at the upper end of the second link  119 , a hook-form engagement part  119   a  cut into a semicircular shape is formed. At the normal time shown in  FIG. 5 , the engagement part  119   a  engages with the outer periphery of the pedal shaft  103 . 
     To the dash panel, not shown, a brake master cylinder  109  is mounted. The end portion of a push rod  109   a  extending from the brake master cylinder  109  toward the vehicle rear is connected to an intermediate portion of the first link  118 . Also, on the outer periphery of the pedal shaft  103 , a return spring  124  is wound. One end of the return spring  124  is locked to the pedal bracket  108 , and the other end thereof is locked to the second link  119 . That is, the return spring  124  is configured so that the looseness of the link mechanism  116  is absorbed by the urging of the second link  119  caused by the return spring  124 . 
     For the trigger  115 , one end thereof is turnably attached to the pedal bracket  108  by a shaft  129 . The trigger  115  is formed with a contact piece  115   a  extending to the vehicle front, and at the normal time, the contact piece  115   a  is located in the rear of the second link  119  with a predetermined gap being provided therebetween as shown in  FIG. 5 . 
     In the brake pedal device  101  having the pedal retreat suppression mechanism configured as described above, at the normal time shown in  FIG. 5 , when the driver depresses a pedal  105  attached to the lower end of the pedal arm  102 , the pedal arm  102  turns to the vehicle front with the pedal shaft  103  being the center, and the turn of the pedal arm  102  is transmitted to the push rod  109   a  via the link mechanism  116 . Thereby, the push rod  109   a  is pushed in, and the brake master cylinder  109  is driven, whereby required braking is accomplished. 
     When the vehicle receives a large shock load from the front, the dash panel moves to the vehicle rear together with the pedal bracket  108  and the brake master cylinder  109  mounted thereto. Therefore, as shown in  FIG. 6 , the trigger  115  attached to the pedal bracket  108  also moves to the vehicle rear, and the back surface portion thereof comes into contact with the front end portion of the vehicle body frame  130 . Then, the trigger  115  turns in the counterclockwise direction (the arrow-marked direction in  FIG. 6(   a )) with the shaft  129  being the center, and the contact piece  115   a  at the front end thereof presses an intermediate portion of the second link  119  to the vehicle front. Therefore, the engagement part  119   a  of the second link  119  comes off the pedal shaft  103  and becomes free. 
     When the engagement part  119   a  of the second link  119  comes off the pedal shaft  103  and becomes free as described above, the second link  119  is turned in the clockwise direction (the arrow-marked direction in  FIG. 6(   a )) by the urging force of the return spring  124 , and the push rod  109   a  pushes the first link  118  in, whereby the first link  118  is turned in the counterclockwise direction, and the pedal arm  102  is turned to the vehicle front with the pedal shaft  103  being the center. Therefore, the pedal arm  102  retracts from the position indicated by a chain line in  FIG. 6(   a ) to the position indicated by a solid line therein. 
     In the conventional pedal retreat suppression mechanism shown in  FIGS. 5 and 6 , when the vehicle receives a large shock load from the front, as shown in  FIG. 6 , the second link  119  is turned in the clockwise direction (the arrow-marked direction in  FIG. 6(   a )) by the urging force of the return spring  124 , and the push rod  109   a  pushes the first link  118  in, whereby the first link  118  is turned in the counterclockwise direction. Therefore, the first link  118  may interfere with a part such as a steering column arranged in the rear thereof. In the case in which the turn of the first link  118  is hindered by the interference, there is a fear that the pedal retreat suppression mechanism does not function normally. In order to overcome this fear, it is necessary to offset the first link  118  from the part such as the steering column to avoid the arrangement of the part such as the steering column in the rear of the first link  118 , or to provide a sufficient space between the first link  118  and the part such as the steering column, which poses a problem that the layout is restricted. 
     SUMMARY OF THE INVENTION 
     The present invention has been made to solve the above problem, and accordingly an object thereof is to provide a pedal device of a vehicle, in which the layout is not restricted, and a pedal retreat suppression mechanism can be operated reliably when the vehicle receives a large shock load from the front. 
     To achieve the above object, the first aspect of the invention provides a pedal device of a vehicle, includes a pedal arm the upper end portion of which is pivotally supported, by a pedal shaft, on a pedal bracket attached to a dash panel; a link mechanism for transmitting the turning motion of the pedal arm to a push rod of a master cylinder; and a pedal retreat suppression mechanism for turning the pedal arm to the vehicle front in association with the operation of the dash panel moving to the vehicle rear on receipt of a shock load applied from the vehicle front, the link mechanism being configured so as to include a first link pivotally supported on the pedal arm and a second link one end of which is connected to the first link and the other end of which engages detachably with the pedal shaft; the push rod being connected to the first link; and the pedal retreat suppression mechanism being configured so as to include the link mechanism and a trigger attached turnably to the pedal bracket so that the second link is disengaged from the pedal shaft by the trigger moving to the vehicle rear on receipt of a shock load applied from the vehicle front, wherein an intermediate portion of the first link of the link mechanism is pivotally supported on the pedal arm, and the push rod is connected to the lower end portion of the first link. 
     The second aspect of the invention is characterized in that, in the first aspect of the invention, the front end portion of a steering column is arranged in the vehicle rear of the first link of the link mechanism. 
     The third aspect of the invention is characterized in that, in the second aspect of the invention, in the state in which one end of the second link of the link mechanism engages with the pedal shaft, the turn of the first link is inhibited, the connection point of the first link and the second link is located between the intermediate portion of the first link and the pedal shaft in the up-and-down direction, and the front end portion of the steering column is located between the intermediate portion of the first link and the pedal shaft in the up-and-down direction. 
     According to the first aspect of the invention, since the intermediate portion of the first link of the link mechanism is pivotally supported on the pedal arm, and the push rod is connected to the lower end portion of the first link, when the vehicle receives a large shock load from the front, the first link turns to the direction such as to depart from a part such as the steering column arranged in the rear of the first link (to the vehicle front), so that the turn of the first link is not hindered by the part such as the steering column, and the pedal retreat suppression mechanism operates reliably to suppress the retreat of the pedal arm. Therefore, it is unnecessary to offset the first link from the part such as the steering column to avoid the arrangement of the part such as the steering column in the rear of the first link, or to provide a sufficient space between the first link and the part such as the steering column, and therefore the layout of various parts is not restricted. 
     According to the second aspect of the invention, since the front end portion of the steering column is arranged in the vehicle rear of the first link of the link mechanism, when the vehicle receives a large shock load from the front, even if the first link of the link mechanism moving to the vehicle rear together with the dash panel comes into contact with the front end portion of the steering column that scarcely moves, the first link is turned to the operation direction (the direction in which the pedal retreat suppression mechanism operates) by the steering column, and the pedal retreat suppression mechanism operates more reliably to suppress the retreat of the pedal arm. 
     According to the third aspect of the invention, since the connection point of the first link and the second link constituting the link mechanism is arranged between the intermediate portion (the portion in which the first link is pivotally supported on the pedal arm) of the first link and the pedal shaft in the up-and-down direction, and the front end portion of the steering column is arranged between the intermediate portion of the first link and the pedal shaft in the up-and-down direction, when the vehicle receives a large shock load from the front, the first link turns reliably to the direction such as to depart from the part such as the steering column arranged in the rear of the first link (to the vehicle front), so that the turn of the first link is not hindered by the part such as the steering column. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is an exploded perspective view of a brake pedal device in accordance with the present invention; 
         FIG. 2  is a partially broken side view showing a state of a brake pedal device in accordance with the present invention at the normal time; 
         FIG. 3  is a front view showing a state of a brake pedal device in accordance with the present invention at the normal time; 
         FIG. 4  is a partially broken side view showing a state in which a shock load is applied to a brake pedal device in accordance with the present invention from the vehicle front; 
         FIG. 5(   a ) is a side view showing a state of a conventional brake pedal device at the normal time, and  FIG. 5(   b ) is a perspective view showing the same state; and 
         FIG. 6(   a ) is a side view showing a state in which a shock load is applied to a conventional brake pedal device from the vehicle front, and  FIG. 6(   b ) is a perspective view showing the same state. 
     
    
    
     DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
     The present invention now will be described more fully hereinafter in which embodiments of the invention are provided with reference to the accompanying drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. 
     The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the description of the invention and the appended claims, the singular forms “a”, “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. 
     Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. 
       FIG. 1  is an exploded perspective view of a brake pedal device in accordance with the embodiment of the present invention,  FIG. 2  is a partially broken side view showing the state of the brake pedal device at the normal time,  FIG. 3  is a front view showing the state of the brake pedal device at the normal time, and  FIG. 4  is a partially broken side view showing the state in which a shock load is applied to the brake pedal device from the vehicle front. 
     A brake pedal device  1  shown in the figures includes a pedal arm  2 . The pedal arm  2  is formed of a pipe material. To the upper end portion of the pedal arm  2 , a cylindrical pedal shaft  3  is insertedly fixed in the transverse direction as shown in  FIG. 1 , and in an intermediate portion thereof, a circular hole, not shown, is penetratingly provided in the transverse direction. In the right and left opening portions of this circular hole, bushes  4  are fitted. Also, to the lower end portion of the pedal arm  2 , a pedal  5  depressed by the driver&#39;s foot is attached. On the right-hand side under the pedal shaft  3  of the pedal arm  2 , a sheet metal-made pressing member  6  is attached to transmit the operation of the pedal arm  2  and to pressingly operate a brake lamp switch. As shown in  FIG. 1 , the pedal  5  is configured by bonding a rubber-made pedal pad  5   b  onto a substantially rectangular metal plate  5   a  connected to the lower end of the pedal arm  2 . 
     As shown in  FIG. 2 , to a dash panel  7  partitioning a vehicle compartment S 2  from an engine room S 1  of the vehicle, a pedal bracket  8  and a brake master cylinder  9  (only a portion existing in the vehicle compartment S 2  is shown) are mounted. The pedal bracket  8 , which is a sheet metal-made member, is attached to the surface on the vehicle compartment S 2  side of the dash panel  7  by fastening flanges  8   a  and  8   b  of the left and right side walls  8 A and  8 B disposed in the vehicle width direction to the surface of the dash panel  7  with bolts, not shown. 
     As shown in  FIG. 1 , at the opposed positions on the left and right side walls  8 A and  8 B of the pedal bracket  8 , bolt insertion holes  8   c  (only one of these holes is shown in  FIG. 1 ) are formed. The right side wall  8 B is formed with a bracket  10 . In a circular engagement hole  10   a  formed in the bracket  10 , the brake lamp switch, not shown, is fixedly fitted to light a brake lamp of the vehicle by sensing the movement of the pedal arm  2  by using the pressing member  6 . 
     The upper end portion of the pedal arm  2  is supported on the pedal bracket  8  so as to be turnable in the front-and-rear direction of the vehicle by the mounting structure described below. 
     As shown in  FIG. 1 , in the pedal shaft  3  insertedly fixed in the transverse direction to the upper end portion of the pedal arm  2 , a cylindrical collar  11  is inserted through, and on the outer peripheries in both end portions in the axial direction of the collar  11 , bushes  12  for reducing sliding resistance and for positioning are fitted. While this state is maintained, the upper end portion of the pedal arm  2  is fitted in between the left and right side walls  8 A and  8 B of the pedal bracket  8 , a bolt  13  that is inserted from the right-hand side into the bolt insertion hole  8   c  formed in the right side wall  8 B of the pedal bracket  8  is inserted through the collar  11 , and a nut  14  that threadedly engages with the threaded portion of the bolt  13  projecting to the left-hand side from the bolt insertion hole  8   c  formed in the left side wall  8 A of the pedal bracket  8  is tightened, whereby the upper end portion of the pedal arm  2  is attached to the pedal bracket  8  so as to be turnable in the front-and-rear direction of vehicle with the bolt  13  being the center. 
     The brake pedal device  1  in accordance with this embodiment is provided with a pedal retreat suppression mechanism for suppressing the rearward movement of the pedal arm  2  by turning the pedal aim  2  to the vehicle front when the vehicle receives a strong shock from the front. This pedal retreat suppression mechanism is configured so as to include a trigger  15  attached to the pedal bracket  8  and a link mechanism  16  that connects the pedal arm  2  to the pedal shaft  3  and the brake master cylinder  9 . 
     The link mechanism  16  is arranged in the left-hand side portion of the pedal arm  2 , and is formed by a first link  18  and a second link  19  that are connected to each other by a pin  17 . At the upper end of the second link  19 , a hook-form engagement part  19   a  (refer to  FIG. 1 ) cut into a semicircular shape open to the rear is formed. At the normal time shown in  FIGS. 2 and 3  (when a strong shock is not applied from the vehicle front), the engagement part  19   a  engages with the outer periphery of the pedal shaft  3  from the front side of vehicle. The lower end of the second link  19  is connected to the upper end of the first link  18  by the pin  17 . Also, the intermediate portion of the first link  18  is turnably connected to the pedal arm  2  by inserting a shaft  20  projectingly provided in the transverse direction in the intermediate portion of the first link  18  into the right and left bushes  4  and a circular hole, not shown, formed in the pedal arm  2  and by locking snap ring  21  to the end portion of the shaft  20 . 
     The trigger  15  is a flat member formed into a U shape in side view by press molding a sheet metal, and is disposed between the left and right side walls  8 A and  8 B of the pedal bracket  8  as shown in  FIG. 3 . At the normal time shown in  FIGS. 2 and 3 , a contact piece  15   a  projectingly provided in the transverse direction (the right-and-left direction of vehicle) in the tip end portion of the trigger  15  and formed so as to have a wide width is located in the rear of the second link  19  in the state in which a predetermined gap is provided between the contact piece  15   a  and the second link  19 . 
     From the brake master cylinder  9  mounted to the dash panel  7 , a push rod  9   a  extends toward the vehicle rear. The rear end of the push rod  9   a  is connected to the lower end portion of the first link  18  by a pin  22 . As shown in  FIG. 2 , the connection point at which the first link  18  and the second link  19  constituting the link mechanism  16  are connected to each other by the pin  17  is located between the shaft  20  in the intermediate portion of the first link  18  and the pedal shaft  3  in the up-and-down direction. More specifically, as shown in  FIG. 2 , the shafts are arranged in the order of the pin  22 , the shaft  20 , the pin  17 , and the engagement part  19   a  (the pedal shaft  3 ) from the downside, the pin  22  is arranged on the vehicle front side of the shaft  20 , and the pin  17  is arranged on the vehicle rear side of the line connecting the shaft  20  to the pedal shaft  3 . 
     Also, on the periphery of the pedal shaft  3 , two springs  23  and  24  consisting of coil springs are wound. As shown in  FIGS. 2 and 3 , one end of the one spring  23  is locked to the pedal arm  2 , and the other end thereof is locked to the second link  19 . Therefore, by the spring  23 , the second link  19  is urged to the direction in which the engagement part  19   a  engages with the pedal shaft  3  and the position of the pin  17  is further located on the vehicle rear side, whereby the looseness of the link mechanism  16  is absorbed. One end of the other spring  24  is locked to a position lower than the shaft  20  of the first link  18 , and the other end thereof is locked to the left side wall  8 A of the pedal bracket  8 . Therefore, by the spring  24 , the pedal arm  2  is urged in the counterclockwise direction in  FIG. 2  with the pedal shaft  3  (the bolt  13 ) being the center, and the first link  18  is urged so as to be turned in the counterclockwise direction in  FIG. 2  with respect to the shaft  20 . Against the rotation in the counterclockwise direction in  FIG. 2  caused by the urging force of the spring  24  and the reaction force received from the push rod  9   a , the second link  19  engaging with the pedal shaft  3  regulates the movement. 
     As shown in  FIG. 2 , in the vehicle compartment S 2 , a steering column  25  is disposed by being attached to a steering support member in a state of tilting to the slantwise downside toward the front, and a rotatable steering shaft  26  is insertedly supported in the steering column  25 . The upper end (rear end) of the steering shaft  26  is connected with a steering wheel, not shown, and the lower end (front end) thereof is connected with the upper end of an intermediate shaft  28  via a universal joint  27 . The intermediate shaft  28  is arranged on the left-hand side of the pedal arm  2 , and although not shown in the figures, the lower end of the intermediate shaft  28  is connected to a steering gear box. 
     At the normal time shown in  FIGS. 2 and 3  (when the vehicle does not receive a large shock load from the front), as described above, the contact piece  15   a  projectingly provided in the transverse direction at the lower end of the trigger  15  is located in the rear of the second link  19  in the state in which the predetermined gap is provided between the contact piece  15   a  and the second link  19 . Also, the front end portion (the universal joint  27  and the like) of the steering column  25  is located between the intermediate portion of the first link  18  and the pedal shaft  3  in the up-and-down direction. More specifically, the front end portion of the steering column  25  is located between the shaft  20  of the first link  18  and the pedal shaft  3 , and the universal joint  27  is arranged at almost the same height as that of the shaft  20  of the first link  18 . 
     Next, the operation of the brake pedal device  1  having the pedal retreat suppression mechanism configured as described above is explained. 
     At the normal time shown in  FIGS. 2 and 3 , as shown in the figures, the engagement part  19   a  of the second link  19  engages with the pedal shaft  3 , so that the second link  19  and the first link  18  are inhibited from turning. When the driver depresses, using the driver&#39;s foot, the pedal  5  attached to the lower end of the pedal arm  2 , the pedal arm  2  turns to the vehicle front with the pedal shaft  3  (the bolt  13 ) being the center. This turn of the pedal arm  2  is transmitted to the push rod  9   a  by the link mechanism  16 , and the push rod  9   a  moves linearly and is pushed in. Therefore, the brake master cylinder  9  is driven, and a braking force required for the vehicle is generated, whereby the vehicle is stopped or decelerated. 
     When the vehicle receives a large shock load from the front, the dash panel  7  moves to the vehicle rear together with the pedal bracket  8  and the brake master cylinder  9  mounted thereto. Therefore, the trigger  15  attached to the pedal bracket  8  also moves integrally to the vehicle rear, and the trigger  15  comes into contact with a part on the vehicle body side (for example, the steering support member). Then, as shown in  FIG. 4 , the contact piece  15   a  projectingly provided at the lower end of the trigger  15  comes into contact with an intermediate portion of the second link  19  of the link mechanism  16  and presses it. Therefore, the engagement part  19   a  at the upper end of the second link  19  comes off the pedal shaft  3  and becomes free. 
     When the engagement part  19   a  of the second link  19  comes off the pedal shaft  3  and becomes free as described above, by the urging force of the spring  24 , the first link  18  is turned in the arrow-marked direction in  FIG. 4  (the counterclockwise direction) with the shaft  20  being the turning center. Also, because the push rod  9   a  pushes the first link  18  in to the vehicle rear, the first link  18  turns in the arrow-marked direction in  FIG. 4  (the counterclockwise direction) with the shaft  20  being the turning center. Thereby, the position of the pin  22  connecting the rear end of the push rod  9   a  to the lower end portion of the first link  18  and the position of the shaft  20  of the first link  18  are reversed, and the pedal arm  2  is turned to the vehicle front with the pedal shaft  3  (the bolt  13 ) being the center. Therefore, the pedal arm  2  turns to the vehicle front with the pedal shaft  3  (the bolt  13 ) being the center, and turns and retracts from the position indicated by a chain line in  FIG. 4  to the position indicated by a solid line therein, so that the retreat of the pedal arm  2  is suppressed reliably. In  FIG. 4 , to illustrate the state of the first link  18 , the universal joint  27  and the intermediate shaft  28  are shown broken. 
     As described above, in this embodiment, the intermediate portion of the first link  18  of the link mechanism  16  is pivotally supported on the pedal arm  2  by the shaft  20 , and the push rod  9   a  is connected to the lower end portion of the first link  18 . Therefore, when the vehicle receives a large shock load from the front, as shown in  FIG. 4 , the upper portion of the first link  18  turns to the direction such as to depart from the part such as the steering column  25  arranged in the rear of the first link  18  (to the vehicle front), so that the turn of the first link  18  is not hindered by the part such as the steering column  25 , and the pedal retreat suppression mechanism operates reliably to suppress the retreat of the pedal arm  2 . As a result, it is unnecessary to offset the first link  18  from the part such as the steering column  25  to avoid the arrangement of the part such as the steering column  25  in the rear of the first link  18 , or to provide a sufficient space between the first link  18  and the part such as the steering column  25 , and therefore the layout of various parts is not restricted. 
     Also, in this embodiment, the front end portion (the universal joint  27 ) of the steering column  25  is arranged in the vehicle rear of the first link  18  of the link mechanism  16 . Therefore, when the vehicle receives a large shock load from the front, even if the upper portion of the first link  18  of the link mechanism  16  moving to the vehicle rear together with the dash panel  7  comes into contact with the front end portion (the universal joint  27 ) of the steering column  25  that scarcely moves, the first link  18  is turned to the operation direction (the direction in which the pedal retreat suppression mechanism operates) by the steering column  25 , and the pedal retreat suppression mechanism operates more reliably to suppress the retreat of the pedal arm  2 . 
     Furthermore, in this embodiment, the connection point at which the first link  18  and the second link  19  constituting the link mechanism  16  are connected to each other by the pin  17  is located between the intermediate portion of the first link  18  (the portion in which the first link  18  is pivotally supported on the pedal arm  2  by the pin  20 ) and the pedal shaft  3  in the up-and-down direction, and the front end portion (the universal joint  27 ) of the steering column  25  is arranged between the intermediate portion (the shaft  20 ) of the first link  18  and the pedal shaft  3  in the up-and-down direction. Therefore, when the vehicle receives a large shock load from the front, the first link  18  turns reliably to the direction such as to depart from the part such as the steering column  25  arranged in the rear of the first link  18  (to the vehicle front), so that there is achieved an effect that the turn of the first link  18  is not hindered by the part such as the steering column  25 , and the pedal retreat suppression mechanism operates reliably. 
     The above is a description of a mode in which the present invention is applied to the brake pedal device. Of course, the present invention can also be applied similarly to a clutch pedal device. 
     Having thus described certain embodiments of the present invention, it is to be understood that the invention defined by the appended claims is not to be limited by particular details set forth in the above description as many apparent variations thereof. are possible without departing from the spirit or scope thereof as hereinafter claimed. The following claims are provided to ensure that the present application meets all statutory requirements as a priority application in all jurisdictions and shall not be construed as setting forth the full scope of the present invention.