JPS6225780Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a reversing operation device for a transmission, which is provided with a reversing lever for reversing a shift pattern.

As is well known, a transmission in a vehicle is composed of a plurality of mainshaft gears attached to a mainshaft and a plurality of countershaft gears on a countershaft installed parallel to the mainshaft. Depending on how the gears are engaged, first to fourth speeds or reverse speeds can be obtained. The engagement of these gears is performed by selecting and shifting the change lever, and as shown in Figure 1, the shift pattern of this lever is as shown in Fig. 1. 3rd gear is on the opposite side, and 2nd and 4th gears are on the opposite side, or conversely, 1st and 3rd gears are on the lower side as shown in Figure 2.
The second and fourth gears are located on the upper side to facilitate gear shifting operations and to prevent erroneous operations.

By the way, when it is desired to obtain more gear stages in such a transmission, the number of combinations of gears is increased to obtain the fifth or sixth speed. By the way, if the gear ratio of this 6th gear is less than 1,
If you try to operate a transmission, etc. with a single change lever, the shift pattern will be reversed in 5th and 6th gears due to the combination of gears, resulting in incorrect operation. Therefore, a reversing device is provided so that the shift pattern shown in FIG. 4 can be obtained.

Prior to explaining the embodiments of the present invention, a conventional reversing operation device will be explained with reference to FIG. One shaft 31 of two shift shafts 31 and 32 placed side by side on the transmission cover 30 is provided with a shifter 34 that engages with a shift lever 33, so that a shift operation in the axial direction can be performed. There is. A shifter 36 that engages with the reversing lever 35 is also attached to the shift shaft 31. Note that this shifter 36 is configured such that it can only be moved in the axial direction by a guide bolt 37 provided on the cover 30 and cannot be rotated.
A shift fork 38 is attached to the shift shaft 32, and the boss 39 of this fork 38
is engaged with one end 41 of the reversing lever 35, which is pivotally supported at the center by a pivot pin 40. The other end 42 is engaged with the shifter 36. The reversing operation device configured in this manner operates a change lever (not shown), selects the shifter 34 with the shift lever 33, and performs a shift operation in the direction of arrow A, for example. Then, the shift shaft 32 to which the shift fork 38 is attached is reversed by the reversing lever 35 and moved in the direction shown by arrow B, so that the desired shift pattern shown in FIG. 4 is obtained.

By the way, this conventional reversing operation mechanism requires two shift shafts, shifters, etc., and also requires guide bolts, etc., which increases the number of parts, increases costs, and increases the size of the entire operation mechanism. It had the following drawback.

Therefore, the present applicant devised a transmission reversing operation mechanism that can obtain the desired shift pattern shown in FIG. 4 using one shift shaft and one shifter, and filed a separate application. The device of the separate application is shown in FIGS. 6 and 7, and is composed of one shift shaft 1, one shifter 2 attached to this shaft, and one reversing lever 10. has been done. That is, a shifter 2 is fixed to a shift shaft 1 which is supported movably in the axial direction by a transmission cover K, and a boss 4 of a shift fork 3 is fixed to the shifter at a constant interval.

As shown in FIG. 7, the reversing lever 10 is supported by a cover K around a vertical shaft 11 at its substantially central portion, so that both ends thereof can rotate within a horizontal plane. A spherical portion 1 is provided at one end of the reversing lever 10.
2 is formed and engages with the recess 5 of the shifter 2 attached to the shift shaft 1, and the other end is formed with a notch 13 so as to directly engage with the shift lever 20. . The shift lever 20 is supported by the inner shaft 21 via a boss 20' so as to be swingable.

Although the invention shown in FIGS. 6 and 7 is effective in itself, as shown in FIG. Since the ends are directly engaged, the shift lever 20 is moved from the dotted line position to the solid line position in the direction of arrow _S1 by operating the select shaft (not shown) using the change lever (not shown), and then the groove of the reversing lever 10 is moved. 1
3 (select operation) and then, for example, move the shift lever 20 in the direction of arrow a (shift operation), a predetermined gear can be selected.
At this time, as shown in FIG. 9, during the shift operation (indicated by arrow a), the shift lever 20 is subjected to a reaction force F that presses the side wall 13' of the groove 13 of the reversing lever 10.
and the component f moving away from the vertical axis 11
also works. Therefore, the shift lever 20 is subjected to a force in the direction of being removed from the groove during a shift operation. This may cause the shift lever to come off, which may impair the operating feeling.

Therefore, an object of the present invention is to provide a reversing operation device for a transmission in which the shift lever engages with the groove of the reversing lever, in which no force is applied to the shift lever in the direction of pulling it out of the groove. It's about doing.

According to the present invention, a tapered engagement groove is formed in the reversing lever so as to expand in the direction of the vertical axis that is the rotation axis of the reversing lever, and therefore the shift lever 20
A force component is acting in the direction of engagement.

Embodiments of the present invention will be described below with reference to FIGS. 10 and 11.

According to the present invention, the engagement groove 13a of the reversing lever 10 is formed so as to taper in width toward the vertical axis 11 (rotation center), as shown in FIG. That is, its side wall 13b tapers outwardly toward the vertical axis 11.

Therefore, as shown in FIG. 11, when shifted in the direction of arrow a after the selection operation,
Components F' and f' of the reaction force acting on the shift lever 20 both point toward the center of rotation. Therefore, during a shift operation, the change lever receives a force that pulls it in the select direction, preventing the shift lever from coming off and improving the shift feeling.

As described above, according to the present invention, in a reversing operation device using one shift shaft, the shift lever does not come out of the groove of the reversing lever, and therefore driving is safe and the operation feeling is good. It is very suitable for the device.

[Brief explanation of the drawing]

Figures 1, 2, 3 and 4 are diagrams showing various shift patterns, Figure 5 is a cross-sectional view showing the reversing operation mechanism of a conventional transmission in plan, and Figure 6 is a diagram showing the reversing operation mechanism of the present invention. FIG. 7 is a cross-sectional view showing the reversing operation device of the transmission to be implemented, excluding the inner shaft portion, and FIG. 7 is a cross-sectional view of FIG. 6 taken along the arrow direction, with the inner shaft portion added. FIG. 8 is an enlarged view of the rectangular engagement groove portion of the reversing lever, FIG. 9 is a view showing its function, FIG. 10 is an enlarged view of the engaging groove portion of the reversing lever implementing the present invention, and FIG. The figure is a diagram for explaining the effect. 1...Shift shaft, 2...Shifter, 3...
Shift fork, 10... Reversing lever, 11...
Vertical axis, 12... Spherical portion (one end), 13a...
Engagement groove (other end), 20...shift lever, 13
b...Tapered side wall.

Claims (1)

[Scope of utility model registration request] In a transmission in which the swinging direction of the shift lever and the direction of movement of at least one shift fork are reversed by a rotatably supported reversing lever in order to correct the shift pattern of the change lever, the above-mentioned One end of the reversing lever is configured to engage with the shifter of a shift shaft to which a shift fork is attached, and the other end of the reversing lever is tapered toward the center of rotation. 1. A reversing operation device for a transmission, characterized in that an engagement groove is formed, and the shift lever is configured to directly engage with the groove.