The invention relates to a pedal mechanism having a four-bar parallelogram formed from an upper holding part, a lower holding link with a footplate attached thereto, and two roughly parallel legs.
In order for it to be possible to adapt the operation of pedals, for example in a motor vehicle, to the different size of drivers and thus to the different position of the optimum force introduction point for the driver, a pedal mechanism must be adjustable in the direction of travel (X) and/or in height (Z). Adaptation of the pedals to different proportions and sitting habits of the drivers can thus also be carried out.
Solutions known in the prior art for adjustable pedal mechanisms make possible adjustment of the pedal virtually steplessly along a defined, usually curved path.
The pedal mechanism described in the introduction is known from JP 71 91 773. This mechanism has the disadvantage, however, that the adjustment in the X direction takes place on a circular path which is formed by the radius of the distance from the force introduction point to the main bearing, and that, moreover, the main bearing is fixed in its position by arrangement on a support which is stationary in relation to the body. Adjustment is effected by virtue of the spindle driven by the actuating motor 66 attached to the web pressing on the extended end of the lever, as a result of which the four-bar linkage rotates counterclockwise about the pivot bearing. This leads to the pushrod bearing likewise being pivoted, clockwise, about the pivot bearing. The main bearing is fixed, as the bearing shaft is articulated on the stationary bearing block. A further disadvantage can be seen in the fact that there is no non-positive connection between the threaded rod and the lever end. In this connection, moreover, only an adjustment essentially in the X direction is brought about, so that the points for the pressure point C which can be set by the adjustment lie along a pivoting movement carried out about the main bearing with the radius L2a. The requirement of the automotive industry that the angular position of the pushrod may change by only a very narrowly dimensioned angular range on adjustment cannot be met by this arrangement.
From EP 0 936 527 A2, an adjustable pedal arrangement for motor cars is known, with an auxiliary lever which is mounted pivotably on a front shaft and is moved by a pedal lever which is mounted pivotably on a rear shaft arranged behind and below the front shaft. The auxiliary lever and the pedal lever are connected by an adjustable rod which is arranged essentially parallel to the plane in which the front shaft and the rear shaft lie. The auxiliary lever and the pedal lever form, with the adjustable rod, a parallelogram, that side of which formed by the rod is length-adjustable in order for it to be possible to modify the initial angular position of the footplate which is attached at the lower end of the pedal lever. Connected to the auxiliary lever is an operating rod for a brake or a clutch, which is moved by the forward movement of the footplate. In this way, the auxiliary lever, which moves the operating rod (pushrod), is moved by means of the pedal lever and the adjustable rod. Modification of the setting angle of the footplate makes possible greater variation of the footplate position without having to raise the arrangement in height of the footplate excessively, as the parallelogram arrangement keeps the pedal travel essentially unchanged.
A pedal mechanism described in the introduction is known from U.S. Pat. No. 3,151,499. In this pedal mechanism, the upper holding part, with an integrated pushrod bearing, is pivoted counterclockwise by a spring about the main bearing to come up against a stop fixed to the body. One of the levers, which is articulated by one end on the main bearing, can be pivoted counterclockwise by a length-adjustable spindle which is supported in relation to the body. In this way, the lower holding link, and with it the footplate, is, on a circular path, adjusted backward predominantly in the X direction and at the same time downward slightly in the Z direction. Independent height adjustment of the footplate in the Z direction is not possible with this pedal mechanism.
A technical problem underlying the present invention consists in proposing a pedal mechanism, in which the footplate is adjustable in a range, which covers any point in a horizontal and vertical extent, and, in the case of a footplate setting which can be adapted to the force introduction angle, makes possible as horizontal as possible a movement path of the footplate on operation.
The present invention provides a pedal mechanism including a four-bar parallelogram. The pedal mechanism includes an upper holding part mounted to a sliding block having a main bearing about which the pedal mechanism is capable of being pivoted. The upper holding part is capable of being adjusted in a Z-direction. The pedal mechanism also includes a lower holding link having a footplate attached thereto and first and second legs disposed roughly parallel to each other. The first and second legs are each rotatably mounted at a first end to the upper holding part and at an opposite end to the lower holding link. The pedal mechanism also includes an adjusting device configured to adjust of the footplate predominantly in an X-direction, and a length-adjustable strut disposed between the first and second legs, a first end of the strut rotatably mounted to the first leg and en opposite end of the strut rotatably mounted to the second leg.
An illustrative embodiment, in which the adjusting device for the footplate is formed by a threaded rod which passes through nuts mounted by cardan means on both legs and has an oppositely directed thread in each case in the engagement region with the two nuts, has the advantage that it makes it possible in a simple manner to modify the four-bar parallelogram by strutting. In this way, adjustability of the footplate in or counter to the direction of travel (positive or negative X direction) is possible.
An illustrative embodiment with a threaded rod integrated in the guide rocker, which rod is in engagement with the upper holding part and the sliding block by means of oppositely directed threads, has the advantage that with it adjustment of the parts, holding part or sliding block, displaced in the vertical direction (Z direction) is made possible in a simple manner.
An illustrative embodiment, in which the ratio which the pitches of the right-hand thread and of the left-hand thread bear to one another is the transmission ratio, has the advantage that, by virtue of the different pitches, the modification of the distance between the pressure point and the main bearing can be converted into a corresponding modification of the distance between the main bearing and the pushrod bearing, so that the transmission ratio is retained on adjustment of the footplate also. In this way, it is advantageously guaranteed that, with the same force action on the footplate, the same output force is active on the pushrod bearing. The retention of the height position of the pushrod bearing makes it possible, moreover, for the angular position of the pushrod bearing to be retained advantageously virtually unchanged.
An illustrative embodiment, in which the upper holding part and the sliding block are interconnected via a cable pull and a deflection mechanism, constitutes an alternative for the compensation of the lever arm lengths corresponding to the transmission ratio. The design of the deflection mechanism in the manner of a pulley block constitutes a simple adaptation possibility for taking account of the transmission ratio.
If the rear leg in the X direction is slightly longer than the front leg, the holding link, and with it the footplate attached to it, is pivoted slightly counterclockwise on adjustment of the pedal in the −X direction, so that a movement coordinate pointing in the +Z direction is compensated and the footplate is adjusted on a virtually horizontal path.
An illustrative embodiment, in which the lengths of the two connecting rods are of corresponding size, the height position of the largely horizontal path, in which the line of action of the pressure point C runs on operation, can be lowered as required.
An embodiment, in which at least one of the threaded rods for the adjustment in the X direction and the Z direction is motor-driven, has the advantage that the adjustment can be introduced in a simple manner from the control panel by corresponding control signals.
The adjustability, according to the invention, of the pedal mechanism advantageously allows the attachment of the pedal mechanisms to be removed from the splashboard which is at risk of deformation in the event of a crash, and the attachment to be carried out to crash-independent cross struts instead.
An illustrative embodiment, in which an adjustable footrest is provided for the pedal mechanism, the adjustability of which is appropriately adapted to the position of the footplate, has the advantage that the driver will find an ergonomically favorable support possibility for the foot according to the adjustment of the footplate, so that unfavourable fatigue or cramp is avoided when the footplate is adjusted.
The advantages mentioned and other advantages are explained in the description of an illustrative embodiment shown in the accompanying drawing, in which
In
Articulated approximately parallel to one another from the holding part 8 mounted displaceably on the guide rocker 6 are two legs 9, 10 which are articulated by their other end on the holding link 11. The holding part 8, the two legs 9, 10 and the holding link 11 form a four-bar parallelogram. The footplate 12 is attached to the holding link 11. A first nut 21 and a second nut 22 are each mounted by cardan means in the two legs 9, 10, the nuts 21, 22 being passed through by a second threaded rod 13, wherein the second threaded rod 13 comprises a first thread 23 being in engagement with the first nut 21 and a second thread 24 being in engagement with the second nut 22. A pushrod 14, for example for a brake booster, is mounted rotatably in the pushrod bearing A, which forms the output point of the pedal mechanism.
In
In
The operational interrelation for compensation of the lever transmission ratio is explained with reference to the illustration in
It can be seen in
The adjusting arrangement is designed in such a manner that no adjustment is possible during operation of the pedal mechanism. After adjustment, the structure from footplate to sliding block, and thus from C to B, is to be regarded as rigid.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCTDE01/01365 | 4/5/2001 | WO | 00 | 9/26/2002 |
Publishing Document | Publishing Date | Country | Kind |
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WO0177772 | 10/18/2001 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3151499 | Roe | Oct 1964 | A |
5884532 | Rixon et al. | Mar 1999 | A |
6019015 | Elton | Feb 2000 | A |
6212970 | Bortolon | Apr 2001 | B1 |
Number | Date | Country |
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0936527 | Aug 1999 | EP |
07191773 | Jul 1995 | JP |
08042612 | Feb 1996 | JP |
Number | Date | Country | |
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20030047022 A1 | Mar 2003 | US |