EP0848313A2 - Accelerator pedal - Google Patents

Abstract

The foot pedal (5) arm is mounted at the end of a compound lever (1) that is formed by a pair of leaf spring plates (3,4) that are embedded into a block (2) attached to the vehicle frame. Mounted on the lever are strain gauges (7) that provide a means of measuring the displacement. A third leaf spring (6) engages a stop (12) after a specific displacement and provides a kick down function.

Description

The invention relates to an accelerator pedal with one held by a holding part Pedal arm, which can be deflected by a foot force via a pedal plate and can be swung back into a basic position by two return springs, with a setpoint generator for generating an electrical signal depending from the position of the pedal arm and with a hysteresis link to Generation of a hysteresis when the pedal arm is reversed.

Such accelerators are used, for example, in a motor vehicle and are known with it. The pedal arm is rigid and in attached to a hinge arranged on the holding part. The two return springs are arranged to the pedal arm even in the event of a break to swing one of the return springs back into the basic position. The Hysteresis link usually has a friction block that is against a friction surface is biased. When the accelerator pedal is pressed, the friction block slides over the friction surface and thus prevents a reversal of movement of the Pedal arm of the accelerator pedal immediately transferred to the setpoint device will. However, such a hysteresis link is very complex and prone to failure. Furthermore, such an accelerator pedal consists of a great many Components that are complex to manufacture and assemble.

The invention is based on the problem of designing an accelerator pedal of the type mentioned at the outset in such a way that it is as simple to manufacture and assemble.
This problem is solved in accordance with the invention in that the pedal arm and the return springs are formed by two leaf springs lying one above the other and clamped in the holding part.

With this design, the leaf springs when the accelerator pedal is pressed bent. Therefore, the accelerator pedal according to the invention does not need Bearing to hold the pedal arm, which is why there is no bearing wear can arise. Furthermore, there is none in the accelerator pedal according to the invention Hysteresis link to be installed separately. The hysteresis required is by sliding the leaf springs outside of the holding part generated and can for example by a surface treatment the leaf springs are changed. The accelerator pedal according to the invention exists thus from a particularly few, easily manufactured components, which also are easy to assemble and can be either hanging or standing in the Motor vehicle to be attached. As with the well-known accelerator pedal, the Pedal arm of the accelerator pedal according to the invention even in the event of a break the leaf springs reliably pivoted back into their basic position. A Another advantage of the accelerator pedal according to the invention known accelerator pedal is that if one of the leaf springs breaks returned to its basic position with reduced damping. This is advantageous because the damping on the forces of both Return springs must be designed and if a return spring breaks there could be a danger that the strength of the remaining Return spring is not sufficient to put the accelerator pedal in the basic position bring.

In the case of an accelerator pedal, the pedal plate is preferably on the leaf springs to be attached in such a way that they are necessary for the hysteresis of the accelerator pedal The leaf springs do not interfere with each other. This is according to an advantageous development of the invention simply achieved in that the pedal plate on one the front leaf spring in the area of one in the longitudinal direction of the elongated hole penetrating bolt attached and that the bolt is connected to the rear leaf spring. Hereby the front leaf spring is through the bolt and the pedal plate performed so that the leaf springs unimpeded when pressed on the pedal plate slide over each other.

The attachment of the pedal plate is designed according to an advantageous Development of the invention structurally particularly simple if the pedal plate is attached to a bolt connected to the front leaf spring and if the bolt is in the area of one of the rear leaf springs Longitudinal extending hole penetrates and with a radial reaches behind the extended head area.

The leaf springs can make unwanted movements near the pedal plate that must not be transferred to the setpoint generator. Of the Setpoint generator generates the electrical signals according to an advantageous Development of the invention only from damped movements of the accelerator pedal, when close to detecting the degree of bending of the leaf springs the holding part of the rear leaf spring is formed.

As a result, the setpoint generator works even if the front one breaks Leaf spring reliable.

The detection of the position of the accelerator pedal can, as in the known Accelerator pedal using a potentiometer. The setpoint generator designed However, it is particularly inexpensive if it is on the rear leaf spring arranged strain gauge is. A used as setpoint generator Strain gauges also have the advantage of being particularly insensitive to contamination to be.

A measurement error of the strain gauge, for example due to a temperature-related Change in length of the leaf springs could occur simply compensate if there is a strain gauge on each side of the rear leaf spring is arranged. As a result, when the accelerator pedal is pressed the strain gauge on the front of this leaf spring is stretched and on the back of the leaf spring compressed. The ratio of electrical The signals of the strain gauges to one another are therefore temperature-independent Measure of the degree of bending of the leaf springs.

In a motor vehicle with an automatic transmission, it is advantageous if the Driver with increased resistance when the accelerator pedal is almost depressed feels. This resistance signals the so-called kick-down attack. If the accelerator pedal is moved beyond this kick-down stop, it switches the automatic transmission usually goes down a gear. Such a Kick-down stop is easy with the accelerator pedal according to the invention generate in that the rear leaf spring a projecting to the rear Has a nose and a third leaf spring is arranged on the holding part, which runs at an acute angle to the rear leaf spring and at almost depressed accelerator pedal against the nose. The resistance of the Kick-down stop can be varied depending on the shape of the nose Simply set the request.

The nose for the kick-down stop is designed according to an advantageous Development of the invention structurally particularly simple if it from one angled out of the rear leaf spring Spring tongue is formed.

The bending of the leaf springs can be according to an advantageous development simply limit the invention when an end stop on the pedal plate is arranged.

Fig. 1

eine Seitenansicht eines erfindungsgemäßen Fahrpedals in einer Grundstellung,

Fig.2

eine Darstellung eines Kick-Down-Anschlags des Fahrpedals von Position II aus Fig. 1.

The invention permits numerous embodiments. To further clarify its basic principle, one of these is shown in the drawing and is described below. This shows in

Fig. 1

a side view of an accelerator pedal according to the invention in a basic position,

Fig. 2

a representation of a kick-down stop of the accelerator pedal from position II of FIG. 1st

FIG. 1 shows an accelerator pedal according to the invention with a pedal arm 1 and a holding part 2. The pedal arm 1 has a front leaf spring 3 and one rear leaf spring 4. The leaf springs 3, 4 are at one end on the holding part 2 attached. At the second end of the leaf springs 3, 4 is a pedal plate 5 arranged. Furthermore, a third leaf spring 6 is fastened to the holding part 2, which runs towards the rear leaf spring 4 at an acute angle.

The leaf springs 3, 4 of the pedal arm 1 are loose outside the holding part 2 on top of each other. When depressing the pedal plate 5, the bend Leaf springs 3, 4 and slide over each other. On the leaf spring 4 is as a setpoint generator for an electrical signal depending on the degree of bending of the pedal arm 1 near the holding part 2 on each side Strain gauges 7, 8 attached. When the accelerator pedal is pressed the rear strain gauge 8 compressed and the front strain gauge 7 stretched. The strain gauges 7, 8 generate electrical signals in Dependence on the degree of bending of the leaf springs 4. A temperature-dependent Change in length of the strain gauges 7, 8 is easy to determine since it would affect both strain gauges 7, 8 equally. On An end stop 9 is arranged on the pedal plate 5, which has an overextension the leaf springs 3, 4 and the strain gauges 7, 8 prevented if that Accelerator pedal is mounted, for example, in a motor vehicle.

The pedal plate 5 is connected to the rear leaf spring 4 Bolt 10 attached. This bolt 10 penetrates the front leaf spring 3, which has an elongated hole 11 in this area. For clarification, they are Leaf springs 3, 4 shown cut open in this area. Through this Design is the sliding of the leaf springs 3, 4 when pressed of the accelerator pedal is not hindered.

One end of the third leaf spring 6 lies in the basic position against the rear one Leaf spring 4 on. When the pedal plate 5 is depressed, the end slides the third leaf spring 6 via the rear leaf spring 4 and finally arrives against a protruding nose 12. This nose 12 serves as Kick-down stop. If the third leaf spring 6 against the nose 12 arrives, a more or less large resistance is necessary to the pedal plate 5 further down.

FIG. 2 shows a view of the rear leaf spring 4 in the area of the Nose 12 from Figure 1. It can be clearly seen here that the nose 12 as part a spring tongue 13 machined out of the rear leaf spring 4 is.

Claims (9)

Accelerator pedal with a pedal arm held by a holding part, which can be deflected by a foot pedal via a pedal plate and pivoted back into a basic position by two return springs, with a setpoint generator for generating an electrical signal depending on the position of the pedal arm and with a hysteresis element for generating a hysteresis when the movement of the pedal arm is reversed, characterized in that the pedal arm (1) and the return springs are formed by two leaf springs (3, 4) lying one above the other and clamped in the holding part (2). Accelerator pedal according to Claim 1, characterized in that the pedal plate (5) is fastened on a bolt (10) penetrating the front leaf spring (3) in the region of an elongated hole (11) extending in the longitudinal direction thereof, and in that the bolt (10) with the rear Leaf spring (4) is connected. Accelerator pedal according to claim 1, characterized in that the pedal plate (5) is fastened to a bolt connected to the front leaf spring (3) and that the bolt penetrates the rear leaf spring (4) in the region of an elongated hole extending in the longitudinal direction thereof and with a reaches radially enlarged head area. Accelerator pedal according to at least one of the preceding claims, characterized in that the setpoint device (strain gauges 7, 8) is designed to detect the degree of bending of the leaf spring (4) near the holding part (2) of the rear leaf spring (4). Accelerator pedal according to at least one of the preceding claims, characterized in that the setpoint generator is a strain gauge (7, 8) arranged on the rear leaf spring (4). Accelerator pedal according to claim 6, characterized in that a strain gauge (7, 8) is arranged on each side of the rear leaf spring (4). Accelerator pedal according to at least one of the preceding claims, characterized in that the rear leaf spring (4) has a nose (12) projecting to the rear and on the holding part (2) a third leaf spring (6) is arranged which is at an acute angle to the rear Leaf spring (4) runs in and comes against the nose (12) when the accelerator pedal is almost depressed. Accelerator pedal according to claim 7, characterized in that the nose (12) is formed by an angled spring tongue (13) machined out of the rear leaf spring (4). Accelerator pedal according to at least one of the preceding claims, characterized in that an end stop (9) is arranged on the pedal plate (5).

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