KR100259633B1 - Transmission operating structure - Google Patents

Abstract

PURPOSE: Operating structure for a transmission is provided to easily operate the transmission with less volume by selecting a shift lug connected to a wanted gearshift lever without linearly moving a control shaft. CONSTITUTION: Transmission operating structure consists of a rotating body(3) rotated by a selector lever(2) on a control shaft(1) as a rotating shaft; a case(7) converting the rotation displacement of the rotating body to the axial displacement of the control shaft; a finger(4) not rotating but linearly moving on the control shaft with the axial displacement of the control shaft; and a coil spring(10) elastically supporting the finger in neutral. Herein, the case inserts a bending spring(8) to convert the rotation displacement of the selector lever to the linear displacement for linearly moving the finger on the control shaft. Thus, a driver easily selects a shift lug connected to a wanted gearshift lever without linearly moving the control shaft in simple operating structure by.

Description

Transmission operation structure

The present invention relates to an operating structure of a manual transmission, and more particularly, to a selecting structure for selecting a shift rail to be shifted.

In general, the manual transmission transmits the driver's shift lever to the cable to perform the shift. The selector cable and the control cable are used to operate the selector lever to select the shift rail having the shift stage to be shifted, respectively, and the selected shift rail. The shift lever is operated so that the shift lever is linearly moved so that the shift to the desired shift stage is achieved.

Here, the structure from the selector lever and the shift lever to the respective shift rails will be described with reference to FIG. 1 in order to examine the transmission mechanism in more detail.

The selector lever 51 connected to the selector cable, the shift lever 52 connected to the control cable, and the rotation shaft of the shift lever 52 are provided to rotate according to the operation of the shift lever 52 and the selector lever. A control shaft 53 linearly moved by 51, a finger 54 fixed to the control shaft 53, and a linear movement and rotational force of the finger 54 are transmitted to the shift rail 55. The shift lug 56 to be transmitted and the shift fork 57 which shifts the sleeve of each shift stage by the linear movement of the shift rail 55 by the operating force provided by the shift lug 56 are made to shift. .

As described above, the shift mechanism includes a shift lug having a desired shift stage by moving the control shaft 53 linearly when the selector lever 51 is operated so that the finger 54 moves between the plurality of shift lugs 56. 56 is selected, and when the shift lever 52 is operated in the above state, the control shaft 53 is rotated and the selected shift lug 56 is pushed to move the shift fork by linear movement of the shift rail 55. The shift is made by 57) moving the sleeve of the shift stage.

Here, in more detail the structure and operation of the finger 54 to select the shift lug 56, the finger 54 should be able to maintain a neutral state at all times when the shift stage is not selected, as shown in FIG. As shown in the figure, the control shaft 53 is fixed to the pin 60 in the state in which the shift stage is not selected by the first and second springs 58 and 59 installed above and below the control shaft 53. To maintain its neutral state, and when the selector lever 51 moves the control shaft 53 linearly by the shift lever operation of the driver, the first and second springs 58 and 59 are compressed or inflated. The shift lug 56 is to be moved.

However, as described above, when the selector lever 51 moves the control shaft 53 linearly in order to select the shift lug 56 to which the desired shift stage is connected, the operation area is large and a large amount of free space is required. Since the control shaft 53 of the linear movement and rotation should be made at the same time there is a problem that the structure is complicated.

Accordingly, the present invention has been made to solve the problems described above, it is possible to select the shift lug connected to the desired shift stage in the state of eliminating the linear movement of the control shaft occupies less volume and the operation structure is simple The purpose is to provide a transmission operating structure.

1 is a structural view of the operation of a typical manual transmission,

2 is a partial side view of FIG. 1;

3 is a structural diagram showing a transmission operating structure according to the present invention;

4 is a plan view of the case used in FIG.

FIG. 5 illustrates the structure of a control shaft and a finger used in FIG. 3.

5a is a plan view of a finger,

5b is a structural diagram of a control shaft,

6 is a structural diagram of a rotating body used in FIG.

* Explanation of symbols for main parts of the drawings

1: control shaft 2: selector lever

3: rotating body 4: finger

5: turning protrusion 6: passage

7: case 8: bending spring

9: return spring 10: coil spring

Transmission transmission structure according to the present invention for achieving the above object is a rotation body which is rotated by the selector lever with the control shaft as the rotation axis, displacement for converting the rotational displacement of the rotation body to the axial displacement of the control shaft An elastic member elastically supporting a neutral position of a finger provided with a displacement means, a finger provided with displacement from the displacement means and freeing linear movement on the control shaft and constraining rotational movement, and a finger provided with displacement of the displacement means; Characterized in that consisting of.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a view illustrating a transmission operating structure according to the present invention, wherein the rotary body 3 rotated by the selector lever 2 with the control shaft 1 as the rotary shaft, and the rotational displacement of the rotary body 3. A displacement converting means for converting the axial displacement of the control shaft 1, a finger 4 provided with a displacement from the displacement converting means, the straight movement being free on the control shaft 1 and the rotational movement being constrained; It is composed of an elastic member for elastically supporting the neutral position of the finger (4) provided with the displacement of the displacement converting means.

Here, the displacement converting means is a rotary projection (5) integrally formed on the lower side of the rotating body (3) with reference to Figures 4 and 7, the rotation projection (5) is inserted so as to move It is mounted in the circumferential direction of the control shaft (1) located on the lower side of the rotating body, one side thereof is integrally extended and the case (7) smoothly connected in the axial direction of the control shaft (1), and from the rotating projection (5) Between the bending spring 8 inserted into the passage 6 of the portion along the axial direction of the control shaft 1 and the end of the portion along the circumference of the control shaft 1 from the rotary projection 5. It consisted of the return spring 9 installed.

The rotating protrusion 5 is formed to protrude on the lower side of the rotating body 3 to be rotated like the rotating body, and is inserted to slide in the case.

The case 7 is one side is mounted in the circumferential direction of the lower control shaft 1 of the rotary body 3, the upper side is made of a cylindrical shape of the open shape, the other side is integrally extended from the one side And a cylindrical shape extending in the axial direction of the control shaft 1.

The bending spring 8 is fixed to one side of the rotary protrusion 5 while being inserted into the case 7, and the other end of the bending spring 8 is deformable in the form of a band connected to the finger 4. It consists of a belt. The bending spring 8 is a belt shape that can transmit a pushing force while being deformable in a curved shape.

The return spring (9) is interposed between the other side of the rotary protrusion (5) and the end partition of the case (7) in the state fitted to the case (7) to the elastic force to return to the original position after the rotary protrusion (5) Grant.

Here, the elastic member supporting the neutral position of the finger (4) used a coil spring (10), such as the first spring (58 in Fig. 2), connecting the finger 4 and the control shaft (1) The structure is as shown in Figs. 5 and 6 to allow linear movement of the finger 4 on the control shaft 1 but no rotational movement.

Referring to the operation of the present invention configured as described above are as follows.

When the selector cable is operated by the shift lever operation of the driver and the selector lever 2 is rotated, the rotating body 3 is rotated, and the rotational displacement of the rotating body 3 is controlled by the case 7. It is converted to an axial displacement of the shaft 1 so that the finger 4 is linearly moved on the control shaft 1 to a position where the desired shift lug can be selected.

That is, when the rotary body 3 is rotated, the rotary protrusion 5 integrally connected to the rotary body 3 also rotates in the circumferential direction. Then, the bending spring 8 connected to the rotary protrusion 5 is pulled and the finger 4 is moved upwards to perform the shift stage selection operation.

As described above, the movement of the finger 4 to the upper side of the control shaft 1 is performed when the rotary protrusion 5 of the rotating body 3 compresses the return spring 9 to the banding spring to the case 7. Space (8) is secured and the force to push the bending spring (8) into the space is transmitted through the finger (4) in the coil spring 10, so that the finger (4) is raised.

In addition, maintaining the neutral state of the finger 4 in the above structure is to achieve the return spring 9 and the coil spring 10 to balance the elastic force to each other.

As described above, the present invention converts and provides a rotational displacement of the selector lever 2 to a linear displacement amount for linearly moving the finger 4 on the control shaft 1 with the case 7 in which the bending spring 8 is inserted. As a result, it is possible to obtain an effect of easily selecting a shift lug connected with a desired shift stage while avoiding the required space and the complexity of the operating mechanism due to the linear movement of the control shaft 1.

Claims (2)

A rotating body rotated by the selector lever with the control shaft as the rotation shaft, displacement converting means for converting the rotational displacement of the rotating body into the axial displacement of the control shaft, and a displacement from the displacement converting means being provided on the control shaft. And a resilient member for elastically supporting the neutral position of the finger provided with the displacement of the displacement converting means, and the finger installed so that the linear movement is free and the rotational movement is constrained. According to claim 1, wherein the displacement converting means is a rotation projection formed in the rotating body, a portion along the circumference of the control shaft and a portion along the axial direction of the control shaft is smoothly connected and the rotation projection is the circumference of the control shaft A case fixed to the control shaft and providing a passage adapted to rotate the following portion, a bending spring inserted into the passage of the portion along the axial direction of the control shaft from the rotating projection, and the control shaft from the rotating projection. A transmission operating mechanism, characterized in that consisting of a return spring provided between the ends of the portion along the circumference.