KR101841142B1 - Torque test apparatus - Google Patents

Abstract

The present invention relates to a torque test device. The torque test device comprises: a bottom plate for supporting a rail block and a transfer motor; a rail block installed on an upper end of the bottom plate in a lateral direction, and supporting a bearing assembly and a torsion wall; the bearing assembly fixedly installed on one side of an upper end of the rail block, and supporting rotation of a torsion shaft; the torsion wall installed on the opposite side of the bearing assembly of the rail block to be able to move in a lateral direction, and supporting an object to be tested; a transfer motor fixedly installed on one side of the rail block on an upper end of the bottom plate (110), and transferring the torsion wall in a lateral direction; a torsion arm installed on the torsion shaft in a forward and backward direction, and applying torsion action force to the torsion shaft, a test object fixing jig, and the object to be tested; and a push block detachably installed on an upper portion of the rear side of the torsion arm. Since great torsion action force can be obtained through a small capacity actuator, the structure of the device can be simplified, and the manufacturing costs of the device can be reduced.

Description

[0001] TORQUE TEST APPARATUS [0002]

The present invention relates to a torque test apparatus, and more particularly to a torque test apparatus which can apply a large torsional force to a test object with a small force by using a lever principle.

Generally, parts that perform strong twisting and high-speed rotation are used for various mechanical devices including automobiles.

For example, a propeller shaft of an automobile has a function of transmitting the driving force of an engine transmitted to a transmission to a rear wheel axle, and even if the two rotational centers are rotated at an arbitrary angle due to the displacement of the rear axle and the transmission during traveling, It is a part that enables smooth power transmission.

The propeller shaft continuously maintains static balance and dynamic balance during traveling, and it is a part that performs strong twisting and high-speed rotation. It needs a design considering inherent vibration and durability and requires perfect quality control according to manufacturing process.

In particular, the end yoke is a core of a universal joint that acts as a coupling to connect two shafts and rotate freely because the vibration of the engine and the direction of vibration of the rear axle are different from each other due to the difference in vibration direction between the propeller shaft and the propeller shaft. Parts.

In particular, the end yoke used in a propeller shaft of a heavy commercial vehicle having a heavy weight and a large load is preferably manufactured to withstand a torsional strength of 4 tonf.m or more.

It is essential to perform a torque test on the prototype through a torque tester in the process of developing a mechanical part which requires strong torsional rigidity like the end yoke.

The following Patent Document 1 discloses a torque rod durability test apparatus for inspecting the endurance performance of a torque rod used as a suspension unit of a commercial vehicle.

The torque rod durability testing apparatus of Patent Document 1 includes a local cylinder supported vertically by a cylinder adapter and applying a torsional test force to the test object.

Korean Patent Publication No. 10-2009-0030839 (published on Mar. 25, 2009)

However, the torque test apparatus according to the prior art including Patent Document 1 has a problem in that it is not suitable for testing the torque of the test object having strong torsional rigidity because the acting force of the actuator such as the local cylinder directly acts on the test object .

That is, the torque testing apparatus according to the related art has a problem in that it requires a large-capacity actuator when a large torsional acting force is required, so that the configuration of the apparatus becomes very difficult.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the torque testing apparatus according to the related art, and it is an object of the present invention to provide a torque testing apparatus that can apply a large torsional acting force required for a test object even if a small capacity actuator is used.

In order to achieve the above object, a torque testing apparatus according to the present invention comprises a bottom plate for supporting a rail block and a feed motor; A rail block installed laterally to the upper end of the bottom plate and supporting the bearing assembly and the torsion wall; A bearing assembly fixedly mounted on one side of the upper end of the rail block and supporting the rotation of the torsion shaft; A torsion wall which is provided so as to be movable in a lateral direction on the opposite side of the bearing assembly of the rail block and supports the test object; A feed motor fixedly installed on one side of a rail block on an upper end of the bottom plate, for feeding the torsion wall in the left-right direction; A torsion shaft and a test object fixing jig provided in the torsion axis in the front and rear direction, and a torsion arm for applying a torsional action force to the test object; And a push block detachably mounted on a rear upper portion of the torsion arm.

The torque test apparatus according to the present invention includes a torsion arm guide installed at a rear side of the bottom plate and guiding the rotation of the torsion arm.

The torque tester according to the present invention is characterized in that a torsion axis is supported by a bearing on the torsion wall side of the bearing assembly and the test object fixing jig is mounted on the torsion axis.

The torque tester according to the present invention is characterized in that a test object fixing chuck and a torque sensor are installed on the bearing assembly side of the torsion wall.

The torque test apparatus according to the present invention is characterized in that the rotating screw provided at the tip of the driving shaft of the forward and backward driven conveying motor is connected to the torsion wall.

The torque tester according to the present invention is characterized in that a plurality of push block connecting holes for varying the position of the push block in the torsion arm are formed in forward and backward directions.

According to the torque test apparatus of the present invention, since a large torsional action force can be obtained through a small capacity actuator, it is possible to simplify the apparatus configuration and reduce the manufacturing cost of the apparatus.

According to the torque tester of the present invention, a stable torsional force can be applied to the test object, and the torque applied to the test object can be accurately measured, so that the reliability of the torque test can be improved.

1 is a perspective view of a torque testing apparatus according to a preferred embodiment of the present invention,
Fig. 2 is a front view of the torque tester according to the preferred embodiment; Fig.
3 is a plan view of the torque test apparatus according to the preferred embodiment,
4 is a perspective view of a test object test state of the torque test apparatus according to the preferred embodiment.

Hereinafter, a torque test apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the following, the terms "upward", "downward", "forward" and "rearward" and other directional terms are defined with reference to the states shown in the drawings.

FIG. 1 is a perspective view of a torque testing apparatus according to a preferred embodiment of the present invention, FIG. 2 is a front view of the torque testing apparatus according to the preferred embodiment, and FIG. 3 is a plan view of the torque testing apparatus according to the preferred embodiment.

The torque test apparatus 100 according to the preferred embodiment of the present invention includes a bottom plate 110, a rail block 120, a bearing assembly 130, a torsion wall 140, a feed motor 150, a torsion arm 160, A push block 170, and a torsion arm guide 180.

The bottom plate 110 supports the rail block 120 and the feed motor 150.

The rail block 120 is for supporting the bearing assembly 130 and the torsion wall 140 and is installed laterally at the upper end of the bottom plate 110.

The bearing assembly 130 supports the rotation of the torsion shaft 131 and is fixed to one side of the upper end of the rail block 120.

A torsion shaft 131 rotatably supported by a bearing is protruded on the inner side of the bearing assembly 130 and a test object fixing jig 132 is mounted on the torsion axis 131.

In this case, the inside of the bearing assembly 130 refers to the torsion wall 140 side.

The torsion wall 140 is for supporting the test object P and is provided so as to be movable in the left and right direction on the opposite side of the bearing assembly 130 of the rail block 120.

A test object fixing chuck 141 and a torque sensor 142 are installed inside the torsion wall 140.

In this case, the inside of the torsion wall 140 refers to the bearing assembly 130 side.

The feed motor 150 is fixed to one side of the rail block 120 at the upper end of the bottom plate 110 to transfer the torsion wall 140 in the left and right directions.

The feed motor 150 is driven in the forward and reverse directions and the rotary screw 151 provided at the tip of the drive shaft of the feed motor 150 is connected to the torsion wall 140.

When the feeding motor 150 is driven in one direction, the torsion wall 140 is conveyed toward the bearing assembly 130. When the feeding motor 150 is driven in the opposite direction, the torsion wall 140 is conveyed to the opposite side of the bearing assembly 130 do.

The torsion arm 160 applies a torsional force to the torsion axis 131 and the test object fixing jig 132 and the test object P and is installed in the torsion axis 131 in the forward and backward directions.

A plurality of push block connecting holes 161 are formed in the torsion arm 160 in the forward and backward directions.

The push block 170 is detachably installed at a rear upper portion of the torsion arm 160 that allows the rear portion of the torsion arm 160 to be pressed and rotated.

A pushing portion 171 is provided at an upper portion of the push block 170 and a torsion arm connecting portion 172 is provided at a lower portion of the push block 170.

The torsion arm guide 180 guides the rotation of the torsion arm 160 and is installed at a rear side of the bottom plate 110.

A guide hole 181 through which the torsion arm 160 is inserted is provided on the front surface of the torsion arm guide 180 in a vertical direction.

The torque test apparatus 100 according to the preferred embodiment of the present invention is configured such that when the test object P is mounted between the bearing assembly 130 and the torsion wall 140 and then the rear portion of the torsion arm 160 is pressed, The torsion action force can be applied to the object P.

4 is a perspective view of a test object test state of the torque test apparatus according to the preferred embodiment.

A process of testing the torque applied to the test object P through the torque testing apparatus 100 according to the preferred embodiment of the present invention will be described below.

One end of the test object P is mounted on the stationary chuck 141 of the torsion wall 140 in which the torque wall 140 is far away from the bearing assembly 130 fixed to the rail block 120.

Next, the transfer motor 150 is driven in one direction to transfer the torsion wall 140 and the test object P mounted thereon to the bearing assembly 130.

Next, the other end of the test object P is connected to the test object fixing jig 132 of the bearing assembly 130.

The push block 170 provided on the rear upper portion of the torsion arm 160 is pressed by the vertical pressing means 200 and the torque applied to the test object P through the torque sensor 142 of the torsion wall 140 .

When the rear portion of the torsion arm 160 is pressed through the push block 170, a torsional force is applied to the torsion axis 131 of the bearing assembly 130, the test fixture jig 132, and the test object P It gets caught.

After the torque test for the test object P is completed, the other end of the test object P is separated from the test object fixing jig 132, and the transfer motor 150 is driven in the other direction, It is possible to separate the test object P from the torsion wall 140 after the test object P mounted thereon is transferred in the direction opposite to the bearing assembly 130.

The torque test apparatus 100 according to the preferred embodiment of the present invention presses the rear portion of the long torsion arm 160 without applying a torsional action force directly to the test object P, A torsional action force is applied to the test object P connected to the region.

Even if a small force is applied to the push block 170 at the rear portion of the torsion arm 160 via the vertical pressing means 200, the large torsion force is applied to the test object P connected to the front portion of the torsion arm 160. [ It is possible to apply an action force.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

100: Torque test apparatus
110: bottom plate
120: Rail block
130: Bearing assembly
140: Torsion wall
150: Feed motor
160: Torsion arm
170: push block
180: Torsion arm guide

Claims (6)

A bottom plate 110 supporting the rail block 120 and the feed motor 150;
A rail block 120 installed horizontally at the upper end of the bottom plate 110 and supporting the bearing assembly 130 and the torsion wall 140;
A bearing assembly 130 fixed to one side of the upper end of the rail block 120 and supporting the rotation of the torsion shaft 131;
A torsion wall 140 which is installed on the opposite side of the bearing assembly 130 of the rail block 120 so as to be movable in the lateral direction and which supports the test object P;
A feed motor 150 fixed to one side of the rail block 120 at the upper end of the bottom plate 110 and for feeding the torsion wall 140 in the left and right direction;
A torsion arm (160) installed in the front and rear direction on the torsion axis (131), a torsion axis (131), a test fixture jig (132) and a torsion action force applied to the test object (P);
And a push block (170) detachably mounted on a rear upper portion of the torsion arm (160);
And a torsion arm guide 180 installed at a rear side of the bottom plate 110 to guide rotation of the torsion arm 160,
A torsion shaft 131 is supported on the torsion wall 140 of the bearing assembly 130 by a bearing and a test object fixing jig 132 is mounted on the torsion axis 131.
A test object fixing chuck 141 and a torque sensor 142 are installed on the bearing assembly 130 side of the torsion wall 140,
The feed motor 150 is driven in the forward and reverse directions and the rotary screw 151 provided at the end of the drive shaft of the feed motor 150 is connected to the torsion wall 140,
A plurality of push block connecting holes 161 are formed in the front arm and the rear arm so as to allow the position of the push block 170 to be varied in the torsion arm 160;
A pushing portion 171 is provided at an upper portion of the push block 170 and a torsion arm connecting portion 172 is provided at a lower portion of the push block 170,
Wherein a torsion arm (160) is inserted in a front surface of the torsion arm guide (180) in a vertical direction.
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