DE112006000475T5 - System for changing gears with double-acting cylinders - Google Patents

Abstract

system To change gears with a gear lever, with its lower end is pivotally mounted, wherein the shift lever movement transmitted to two master cylinder each one with one side of a double-acting Cylinders are connected, the system being characterized is that a transmission structure is attached to the shift lever and in its axial direction is movable, wherein the master cylinder piston rods attached to the transfer structure are and the transmission structure with a guide part is provided with a management structure cooperates, the stationary manner with respect to the shift lever is arranged when the shift lever is moved.

Description

The The invention relates to a system for changing gears.

The System has a shift lever which pivots at its lower end is attached, wherein the movement of the shift lever transmitted to two master cylinder which is in fluid communication with one side of a double-acting cylinder stand.

As per stand In the art, a master cylinder is pressurized when the Shift lever is moved in one direction, and the other master cylinder is pressurized when the shift lever in the other direction is moved. The pressurization of one of the master cylinders causes that the side of the double-acting cylinder is pressurized with which the master cylinder is connected. By this pressurization the piston is moved in the double-acting cylinder. The piston is connected to the gear shift mechanism and the movement of the Piston causes a change to a new gear ratio depending on the direction in which the shift lever is moved.

One Disadvantage of the known solutions is that when the shift lever is moving out of one Position starts in which no pressure on any of the circuit circles exercised This shift lever movement will increase the pressure in a master cylinder and thereby also in one circle causes while the pressure in the other Master cylinder and thereby reduced in the other circle. Then, a negative pressure is generated in the other circuit, resulting in the Risk leads, that air penetrates.

In previously known solutions Attempts have been made to solve the problem of negative pressure by: the individual system was adjusted so that the pressure increase in a circle is faster than the pressure reduction in the other circle. This is achieved by the system components be designed so that at the beginning of the shift lever movement the relevant master cylinder in the circle in which the pressure rises, given a longer stroke length becomes, as the cylinder in the other circle. This design requires. however, that the stroke lengths and angle of the levers and the components used to connect the shift lever and the master cylinder individually designed and be provided with individual dimensions.

One Disadvantage of this system is that a change the design and dimensions of individual components, such as Example of diameters and stroke lengths, causes that the shift lever system from the shift lever to the master cylinders redesigned to maintain the desired effect, d. H. to avoid a negative pressure in the circuits. thats why see that a simple change, such as on a different diameter of the master cylinder, it necessary makes to redesign the entire gearshift mechanism.

It It is an object of the present invention to provide a simplified system to provide the goal that both master cylinders reach at the same time pressurized in the initial phase of the shift lever movement and at the disadvantage that simple changes on the system components, a redesign of the entire system required, is avoided.

It Another object of the present invention is to provide a change in the connection between the shift lever and the master cylinder piston Provide the ratio between the shift lever movement and the piston stroke length can be changed.

These Tasks are achieved with the invention according to claim 1, being embodiments the invention in the associated dependent claims listed are.

According to claim 1, the connection conversion has a transmission structure which attached to the shift lever and movable in the axial direction the shift lever is arranged. The piston rods of the master cylinder are at the transmission structure attached. The transmission structure is with a guide part provided with a management structure cooperates in a fixed manner with respect to the shift lever is attached when it is moved.

The Interaction between the leadership part and the leadership structure along with the design of the transfer structure and allow the movable attachment to the shift lever a simultaneous depression the master cylinder piston in an initial phase of the shift lever movement from his neutral position.

In a preferred embodiment, the transmission structure is provided with a bore in which a rod portion of the shift lever is received. The piston rods may be attached at each end to the lower lateral edge of the plate body. Those skilled in the art will appreciate that the transmission structure may be composed of various components, with the shape of the body, along with its connection to the shift lever, in accordance with the particular design conditions and the ones to be achieved Effects can be varied.

The guide part and the leadership structure can out being composed of different types of components, being the essential factor is that the right conditions for the controlled movement of the shift lever of the transmission structure created be a simultaneous initial pressurization to receive both circles.

The guide part and the leadership structure preferably capable of, according to the desired transmission ratio between the shift lever movement and the piston stroke length to be adjusted. If changed some system components can, the interaction between the management part and the management structure easily adapted to the new conditions in the system. If it he wishes is, a non-linearity to introduce in the system So this can be achieved by the leadership part or the leadership structure or both are adjusted.

The guide part preferably has the shape of a guide pin and the guide structure preferably has a guide slot on, in which the guide pin lies. As professionals will recognize, this arrangement can also be provided vice versa, in which case the guide member is a guide slot and the management structure has a Guide pin. If desired is to change the transmission ratio can this is easily done by changing the shape of the guide slot, the master cylinder stroke length changed without other constructive changes being necessary.

The management structure must be trained in a fixed way and this can be done in different ways be achieved. An embodiment can be mentioned here be where the leadership structure a guide slot that is in a plate body is provided, which is connected to the vehicle and in relation on the shifter and the transmission structure to be moved.

The Invention will now be illustrated by an example illustrated in the figures described in which:

1 shows a gear shift system according to the prior art,

2 a first embodiment of the invention shows

3 shows a second embodiment of the invention.

In 1 is a gear lever 1 illustrated, which is pivotally mounted at its lower end to the vehicle. The shifter 1 is with bars 1a and 1b provided with the ends of the piston rods 2a . 3a connected to the first and second master cylinders 2 and 3 belong. The shift lever can be moved in the direction indicated by the arrows A and B.

When the shift lever 1 is moved in the direction illustrated by the arrow A, this causes the piston rod 2a is pushed down and that the fluid in the master cylinder 2 is pressurized. Then fluid from the master cylinder 2 through the pipe 4 to the double-acting cylinder 6 on the side 6a , promoted and the piston 7 is moved in the direction corresponding to the direction A '. Accordingly, movement of the shift lever in direction B causes the piston 7 is moved in the direction of B '. The piston 7 is with the gearshift mechanism 8th by a transmission device 7a connected and the movement of the piston 7 therefore, leads to a gear change by the gear change mechanism 8th changed its position and thereby changes the engagement with a second Getrieberadkombination. When the shift lever is moved in direction A from a position where pressure does not exist in any of the circuits, it is moved to a position where the hydraulic piston rams 2 and the line 4 as well as the page 6a of the double-acting cylinder 6 pressurized, the pressure in the second circuit is reduced. This is because the piston rod 3a is pulled up when the shift lever 1 is moved in the direction R, whereby a negative pressure is generated in the circuit. Negative pressure in the circuit is undesirable because it creates the proper conditions for the ingress of air into the circuit.

The problems that arise when using the system 1 occur in the invention as in a first embodiment in 2 shown is solved. In 2 you can see that the shifter 1 at its lower end in a pivot bearing 9 is stored. The directions of movement of the shift lever 1 are indicated by arrows A and B. A transmission structure 10 is on the shifter 1 attached by the shift lever 1 through one in the transmission structure 10 provided bore is passed. The transmission structure 10 is formed so that it can be moved in the axial direction of the shift lever. The transmission structure 10 is with a guide part 12 provided in the form of a guide pin, in a cooperating guide structure 13 lies, which is provided here in the form of a guide slot. In 2 is the guide slot in a plate body 14 shown. The plate body 14 may be designed as an approximately triangular body which widens outwardly from the shift lever. Further, the piston rods 2a . 3a leading to the main cylinders 2 . 3 belong to the transmission structure 10 attached. The master cylinder 2 and 3 are with a double-acting cylinder 6 according to the in 1 connected.

The transmission structure 10 acts as a lever to transfer the shift lever movement to the piston rods 2a and 3a the master cylinder. When the shift lever movement from a neutra len initial position, as in 2 shown, starts and the lever is moved in the direction of A or B, causes the interaction between the guide member 12 and the leadership structure 13 along with the design of the transfer structure that both piston rods 2a and 3a are pressed down and that both circles are pressurized in the initial phase of the movement of the shift lever. The problems associated with the formation of negative pressure in one of the circuits are thereby avoided. Upon further movement of the shift lever, a greater pressure is applied against the piston in the cylinder 2 as against the piston in the cylinder 3 is applied, whereby a movement of the piston in the double-acting cylinder for gear change according to the direction of the shift lever movement is achieved.

In the in 2 In the illustrated embodiment, the change in the shape of the slot may be used to determine the transmission ratio between the shift lever movement and the stroke length of the pistons 2 B . 3b to change. It is therefore possible to have a non-linear transmission ratio between the shift lever movement and the stroke length of the pistons 2 B . 3b to achieve by adjusting the shape of the slot.

An example of a second slot shape is in a second embodiment of the invention in FIG 3 shown. The remaining components of the invention are the same and are in 3 shown with the same reference numerals.

Summary

A gear change system includes a shift lever ( 1 ), which at its lower end ( 9 ) is pivotally mounted. The shift lever movement is applied to two master cylinders ( 2 . 3 ), each in fluid communication with one side ( 6a . 6b ) of a double-acting cylinder ( 6 ) stand. The system is characterized in that a transmission structure ( 10 ) is mounted on the shift lever and is arranged to be movable in the axial direction thereof, wherein the piston rods ( 2a . 3a ) of the master cylinder are fixed to the transfer structure. The transmission structure is provided with a guide part ( 12 ) provided with a management structure ( 13 ) which is arranged in a stationary manner with respect to the shift lever when it is moved.

Claims (4)

A gear change system comprising a shift lever pivotally attached at a lower end thereof, the shift lever movement being transmitted to two master cylinders, each connected to one side of a double-acting cylinder, the system being characterized as having a transfer structure the shift lever is mounted and is movable in the axial direction thereof, wherein the master cylinder piston rods are fixed to the transfer structure and the transfer structure is provided with a guide member which cooperates with a guide structure which is fixedly arranged with respect to the shift lever when the shift lever is moved becomes. System for changing gear according to claim 1, characterized characterized in that the guide part and the leadership structure in accordance with the desired gear ratio is adjusted between the shift lever movement and the piston stroke length. System for gear change according to claim 1 or 2, characterized characterized in that the guide part in the form of a guide pin is provided. System for gear change according to one of claims 1 to 3, characterized in that the guide structure is a guide slot in which the guide part or the guide pin is included.