KR19980031682A - Air cylinder angle adjuster - Google Patents

Abstract

The present invention is configured to adjust the mounting angle of the air cylinder used to measure the pulling force of the select lever or the parking brake lever, by performing various performance tests under various conditions, the angle of the air cylinder to obtain more accurate data It relates to an adjusting device, which is provided with a pedestal 10 disposed on the ground, a lower support 12 having a long groove 14 and mounted on the pedestal 10 by a bolt 16 so that height adjustment is possible, It has a pressure ball (36) elastically mounted in the receiving groove (12a) formed in the lower support 12 by the 40, and a plurality of angle adjustment holes (22) into which the pressure ball (36) is inserted. And, the angle adjusting plate 20 is rotatably fixed to the lower support 12 by the adjustment bolt 24, and is attached to the upper portion of the angle adjusting plate 20 by the bolt 18, the air cylinder 32 Support for supporting the rod (26 It is composed of

Description

Air cylinder angle adjuster

The present invention relates to a test air cylinder, and more particularly, by adjusting the mounting angle of the air cylinder used to measure the load or the pulling force according to the displacement of the components such as the select lever or the parking brake lever, The present invention relates to an angle adjusting device of an air cylinder that can perform operability and durability tests on various parts under conditions to obtain more accurate test values.

In general, a myriad of parts are assembled in an automobile, and these parts may function as a single unit, and a plurality of units may be combined to perform various functions as a component. Therefore, in order to test the durability and various performances of these components, various tests must be performed not only in a single state but also in a combined state. For repeated testing of these components, a test air cylinder as shown in FIG. 1 is used, and a conventional air cylinder will be described with reference to the accompanying FIG. 1 to aid in understanding of the present invention.

1 schematically illustrates a conventional test air cylinder, which shows an air cylinder 6 configured to repeatedly pull the select lever 3 to test the operability of the gear select lever. Normally, the select lever 3 installed in the automatic transmission is rotatably mounted to the detent plate 1 by the pin 2, and the detent pin (not shown) installed at the lower portion thereof moves. It is inserted into each shift stage (P, R, N, D, 2, 1) to perform a shift.

By repeatedly pulling the select lever 3 having such a configuration, the conventional air cylinder 6 for measuring the operability, durability and the like of the lever has a pedestal 5 having an inclined surface at a constant angle, as shown in FIG. It is fixed to). The piston rod 7 of the air cylinder 6 repeatedly pulls the select lever 3 through a wire 8 connected to the upper portion of the select lever 3 via a bearing 4, thereby providing a piston rod ( 7) by repeatedly pulling the wire 8 by the air inlet (6a) formed in the air cylinder 6 and the compressed air flowing in and out through the air outlet (6b), the operability and durability of the select lever (7) Will be tested.

In the conventional test air cylinder having such a configuration, since the inclination angle of the pedestal 5 is fixed, in order to change the installation angle of the air cylinder 6, the pedestal 5 must be newly manufactured, and accordingly, the test period. There is a problem that there are many restrictions in this long and various performance test at various angles.

The present invention devised to solve this problem by varying the angle of the support for supporting the air cylinder, by varying the angle of the air cylinder that can test various performances such as durability and operability over a variety of angles The purpose is to provide.

The object of the present invention described above is a resilient mounting in the supporter formed on the ground, the lower support having a long groove and mounted to the height adjustable to the support by the bolt, and the lower support formed by the spring And a plurality of angle adjustment holes into which the pressure ball is inserted, an angle adjustment plate rotatably fixed to the lower support by an adjustment bolt, and attached to an upper portion of the angle adjustment plate by a bolt. It is achieved by the angle adjusting device of the air cylinder, characterized in that it consists of an upper support for supporting.

1 is a schematic view showing a conventional test air cylinder

Figure 2 is a front view showing the angle adjusting device of the air cylinder of the present invention

3 is a cross-sectional view taken along the line A-A in FIG.

* Description of the symbols for the main parts of the drawings *

10: base 12: lower support

14: long groove 16, 18: bolt

20: angle adjustment plate 22: angle adjustment hole

24: adjusting bolt 26: upper support

28: vertical 30: horizontal

32: Air cylinder 36: Pressure ball

40: Spring 44: Bearing

Hereinafter, the angle adjusting device of the air cylinder according to a preferred embodiment of the present invention with reference to the accompanying Figures 2 and 3 will be described in detail.

Figure 2 is a front view showing the angle adjusting device of the air cylinder of the present invention, Figure 3 is a cross-sectional view taken along the line A-A in FIG.

First, as shown in FIG. 2, the angle adjusting device of the air cylinder according to the present invention is roughly, a pedestal 10 disposed on the ground, and a lower support 12 fixed to the pedestal 10 so that the height can be adjusted. And an installation angle of the air cylinder 32 can be varied while rotating at a predetermined angle between the upper support 26 supporting the air cylinder 32 and these lower support 12 and the upper support 26. It is composed of an angle control plate (20).

Here, a long groove 14 is formed in the lower support 12 fixed to the pedestal 10. Therefore, in order to adjust the height of the air cylinder 32, the lower support 12 is moved up and down in a state where the bolt 16 is loosened and adjusted to an appropriate height, and then the bolt 16 is tightened again to fix the air cylinder. Enable height adjustment of (32).

The lower support 12 is coupled to the angle adjuster 20 by an adjustment bolt 24. The angle adjusting plate 20 is formed with a plurality of angle adjusting holes 22 extending in the circumferential direction, so that the air cylinder 32 can be rotated at a predetermined angle. The upper support 26 which supports the air cylinder 32 is fixed to the upper part of the angle adjusting plate 20 by the bolt 18.

In order to initially set the reference position of the air cylinder 32, the upper support 26 was attached with the horizontal system 30 which can set a horizontal state, and the vertical system 28 which can set a vertical state. Therefore, the horizontal and vertical states of the air cylinder 32 can be accurately matched using these horizontal systems 30 and the vertical systems 28.

As such, after accurately positioning the air cylinder 32 using the horizontal system 30 and the vertical system 28, the angle adjusting plate 20 is rotated to adjust the installation angle of the air cylinder 32. A description with reference to FIG. 3 is as follows.

FIG. 3 is a cross-sectional view taken along the line A-A in FIG. 2, in which the angle adjusting plate 20 is mounted.

As shown, the lower support 12 is fixed to the pedestal 10 by a bolt 16 rotatably installed via a bearing 44, the angle adjustment plate 20 by the adjustment bolt 24 It is fixed to this lower support 12. In addition, the lower support 12 is provided with a receiving groove 12a, in which the pressing ball 36 is elastically supported by a spring 40.

Here, the pressure ball 36 is pressed into one of the plurality of angle adjusting holes 22 formed in the angle adjusting plate 20 to serve as a stopper for stopping the rotation of the angle adjusting plate 20, the angle adjusting plate 20 At the time of rotation, the angle adjusting plate 20 is smoothly slid by the elastic force of the spring 40.

That is, when the operator rotates the angle adjusting plate 20 in a state in which the operator loosens the adjusting bolt 24 slightly to adjust the inclination angle of the air cylinder 32, the angle adjusting plate 20 is pressed by the pressure ball 36. The slide is moved. At this time, as the angle adjustment plate 20 is rotated, the pressure ball 36 starts to push the spring 40 into the receiving groove 12a. As the angle adjusting plate 20 rotates, the pressing ball 36 detached from the existing angle adjusting hole 22 is pressed by the spring 40 again at a moment coinciding with the next angle adjusting hole, and moves to the new angle adjusting hole. It is press-fitted to restrain the rotation of the angle adjuster 20.

In this way, by rotating the angle adjusting plate 20 to insert the pressing ball 36 into the angle adjusting hole 22, the air cylinder 32 is rotated at a predetermined angle. Next, the researcher completes the angle adjustment of the air cylinder 32 by engaging the adjusting bolt 24 with the nut 42, and then, as described with reference to FIG. 1, the air inlet 32a formed in the air cylinder 32. And compressed air is supplied or discharged through the air outlet 32b. Accordingly, the piston rod 34 repeatedly tests the performance by pulling the select lever repeatedly through a wire connected to the hole 34a.

In the present invention described so far, the process of adjusting the height of the air cylinder has been described, but to those skilled in the art, it is necessary to repeatedly move various operation levers or links including the select lever, and to improve the durability and displacement thereof. Since the test method for measuring the load and the method for recording the test value are well-known matters, detailed description thereof will be omitted.

The angle adjusting device of the air cylinder according to the present invention described above can vary the installation angle of the upper support for supporting the air cylinder in various ways, thereby obtaining accurate test values by testing the durability, operability, etc. of components over various angles. Has the effect.

Claims (3)

A lower support 12 having a pedestal 10 disposed on the ground, a long groove 14 and mounted to the pedestal 10 by a bolt 16 so that height adjustment is possible, and by a spring 40 It has a pressure ball (36) elastically mounted in the receiving groove (12a) formed in the lower support 12, and a plurality of angle adjustment holes (22) into which the pressure ball 36 is inserted, adjustment bolt An angle adjusting plate 20 rotatably fixed to the lower support 12 by means of 24 and attached to the upper portion of the angle adjusting plate 20 by bolts 18 to support the air cylinder 32. Angle adjusting device of the air cylinder, characterized in that consisting of the upper support (26). The apparatus of claim 1, wherein the lower support (12) is further provided with a bearing (44) rotatably supporting the adjustment bolt (24). According to claim 1, wherein the upper support 26 is characterized in that the level gauge 30 for measuring the horizontal state of the air cylinder 32, and the vertical gauge 28 for measuring the vertical state is attached. Adjusting angle of air cylinder