JP3737304B2 - Transmission assembly tool - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an assembly tool for assembling a transmission subassembly of an output shaft assembly, a countershaft assembly, and a shift shaft assembly to a transmission front case.
[0002]
[Prior art]
As shown in FIG. 4, a dedicated tool is used to assemble the transmission subassembly of the output shaft assembly, the countershaft assembly, and the shift shaft assembly to the transmission front case 11. This tool includes two holes 2 and 3 into which the ends of the output shaft 14 and the counter shaft 15 are respectively inserted into the main plate 1, an axial positioning portion 13 with respect to the output shaft 14, and an output penetrating the hole 2. The nut 9 is screwed into the end of the shaft 14 and fastened to the pipe 5 through which the end of the output shaft 14 passes, and the hanger 4 is provided.
[0003]
When the transmission subassembly is assembled to the transmission front case 11, an interlock block 12 for preventing double engagement of the shift shaft is assembled. As shown in FIG. 5, the interlock block 12 for preventing double engagement of the shift shaft prevents double shift of the plurality of shift shafts 10a for the forward gear and one shift shaft 10b for the reverse gear. The positioning plunger 18 and a pin 19 for actuating the plunger 18 in the axial direction by shifting the shift shafts 10a and 10b are fixed to the front case 11 of the transmission.
[0004]
[Problems to be solved by the invention]
The transmission subassembly is suspended by a hoist or the like using the above assembly tool and assembled to the front case 11 of the transmission. When the interlock block 12 for preventing double engagement of the shift shaft is assembled, a large number of each shift The shafts 10a and 10b were assembled by moving the interlock block 12 with the other hand while the operator aligned the neutral position with one hand. For this reason, it is not easy to assemble the interlock block 12 that prevents double engagement of the shift shaft.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a transmission assembly tool that facilitates assembly of an interlock block that prevents double engagement of a shift shaft and reduces work effort.
[0006]
[Means for Solving the Problems]
To achieve the above object, the present invention provides an output shaft assembly, a countershaft assembly, and a transmission subassembly of a shift shaft assembly for assembling an interlock block for preventing double engagement of the shift shaft. Is a tool for neutral positioning and assembling to the front case of the transmission, the two holes into which the output shaft and the countershaft end are respectively inserted, the axial positioning portion with respect to the output shaft, and the hole passing therethrough A hole for inserting the shift shaft end into a main plate provided with a tightening nut screwed to the output shaft end and a hanger, and a lock for locking the shift shaft inserted into the hole. It is characterized in that it has fixed the shift shaft lock plate that includes a down.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an assembly tool according to the present invention. In FIG. 1, reference numeral 1 denotes a main plate. The main plate 1 has a hole 2 into which an end of an output shaft 14 to be described later is inserted, a hole 3 into which an end of a counter shaft 15 is inserted, and an axis based on the output shaft 14. Screwed into the direction positioning portion 13 (shown in FIG. 4), the pipe 5 concentrically provided on the main plate 1 concentrically with the hole 2, and the screw at the end of the output shaft 14 passing through the hole 2 and the pipe 5. And a nut 9 to be fastened to the pipe 5 and a hanger 4.
[0008]
Further, a shift shaft lock plate 6 is fixed to the side end of the main plate 1. The shift shaft lock plate 6 has holes 7a and 7b for inserting shift shafts 10a and 10b, which will be described later, and lock pins 8a and 8b for locking the shift shafts 10a and 10b inserted into the holes 7a and 7b. And.
[0009]
In the illustrated embodiment, there are three holes 7a and one hole 7b. This is an example of a transmission using three forward shift shafts 10a and one reverse shift shaft 10b, and the holes 7a are provided corresponding to the number of forward shift shafts 10a.
[0010]
Further, one lock pin 8a engages with a notch groove for neutral positioning formed in each forward shift shaft 10a fitted in the three holes 7a, and the other lock pin 8b is a reverse shift shaft. It is engaged with a notch groove for neutral positioning formed in 10b. Since the reverse shift shaft 10b is eccentrically positioned with respect to each forward shift shaft 10a, a dedicated locking pin 8b for the reverse shift shaft 10b is required. In the case where all of the shaft 10a and the reverse shift shaft 10b are arranged concentrically, it can be locked in common by one lock pin, and the number of lock pins is the same as that of the shift shaft. It is set according to the arrangement form.
[0011]
An assembly procedure using the tool of the present invention having the above structure will be described.
As shown in FIG. 4, the end of the output shaft 14 is fitted into the hole 2 and the pipe 5 of the main plate 1, and the end of the shift shaft 10a is fitted into the hole 7a of the shift shaft lock plate 6 as shown in FIGS. The shift pin 10a is inserted and locked at the neutral position, and the end of the shift shaft 10b is also inserted into the hole 7b of the shift shaft lock plate 6 and locked at the neutral position by the lock pin 8b. And the nut 9 is screwed into this using the screw currently formed in the output shaft 14 edge part, and it tightens to the pipe 5 end. Thus, the main plate 1 is positioned in the axial direction by the positioning portion 13 coming into contact with the gear mounted on the output shaft 14, and the main plate 1 is coupled and integrated with the output shaft 14.
[0012]
Next, the end of the countershaft 15 is fitted into the hole 3 of the main plate 1, and the end of the countershaft 15 is engaged with the main plate 1 by the snap ring 20. The output shaft assembly, the counter shaft assembly, and the shift shaft assembly are now fixed to the tool. In this state, the transmission assembly is lifted by the hoist 4 and attached to the transmission front case 11.
[0013]
When the transmission subassembly of the output shaft assembly, the countershaft assembly and the shift shaft assembly is attached to the transmission front case 11 and the interlock block 12 for preventing double engagement of the shift shaft is assembled, the shift shafts 10a and 10b are in the neutral position. It is necessary to be placed.
[0014]
In the present invention, since all of the shift shafts 10a and 10b are locked to the shift shaft lock plate 6 at the neutral position, as in the prior art, the operator is required to neutralize the multiple shift shafts 10a and 10b with one hand. Therefore, it is not necessary to move the interlock block 12 with the other hand and assemble it, and the interlock block 12 can be easily assembled.
[0015]
【The invention's effect】
As described above, according to the present invention, it is easy to assemble the interlock block that prevents the double engagement of the shift shaft when the output subassembly of the output shaft assembly, the countershaft assembly, and the shift shaft assembly is assembled to the transmission front case. As a result, the assembly work efficiency is improved and the operator's hands required for the assembly work of the interlock block are freed, so the workers' hands move the alignment to assemble the transmission subassembly to the transmission front case. The assembly work can be performed in a safe state.
[Brief description of the drawings]
1 is a perspective view of the assembly tool of the present invention. FIG. 2 is a plan view of the assembly tool of the present invention. FIG. 3 is a side view of the assembly tool of the present invention with a shift shaft locked. Sectional view of the assembled state with the assembly tool [Fig. 5] Front view showing the interlock block [Explanation of symbols]
1 Main plate 2 Hole 3 Hole 4 Hanger 5 Pipe 6 Shift shaft lock plate 7a Hole 7b Hole 9 Nut 10a Shift shaft 10b Shift shaft 11 Front case 12 Interlock block 13 Positioning section 14 Output shaft 15 Counter shaft

Claims (1)

This is a tool for neutrally positioning the shift shaft in the front case of the transmission in order to assemble the interlock block that prevents the double engagement of the shift shaft with the transmission subassembly of the output shaft assembly, counter shaft assembly and shift shaft assembly. And
Two holes into which the output shaft end and the counter shaft end are respectively inserted, an axial positioning portion with respect to the output shaft, a tightening nut screwed to the output shaft end penetrating the hole, and a hanger On the main plate
An assembly tool for a transmission comprising a shift shaft lock plate having a hole for inserting the shift shaft end and a lock pin for locking the shift shaft inserted in the hole.

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