KR100849115B1 - O-ring tester - Google Patents

Abstract

The present invention relates to an O-ring test equipment, which has been created to improve the quality of an O-ring product by providing test equipment driven through an automated device so as to accurately and easily grasp the characteristics of the O-ring. ,

The o-ring test equipment (1),

The control unit 20 for driving the O-ring test equipment through the electronic control to form a box-shaped through the frame,

Interposed on a flat lower plate 31, a heater 37 for setting a temperature therein is built in, and a fixed plate 32 having a groove 38 having a trapezoidal cross section formed at the top thereof;

Upper plate 33 and the fixed plate 32 is mounted on the fixed plate 32 and the flat plate of the standard corresponding to the fixed plate 32, the operating mechanism 35 is a power source Characterized in that it consists of a test unit 30 consisting of an up / down plate 36 interposed through a guide shaft 34 connecting the lower plate 31.

O-rings, test equipment, compression set, wear resistance

Description

O-ring tester

1 is a view showing an example of a conventional O-ring test equipment,

Figure 2 is a front view and side view showing the O-ring test equipment to which the present invention is applied,

3 is a plan view showing a part of the enlarged view and the groove shape showing the test part of the O-ring test equipment to which the present invention is applied,

Figure 4 is a state diagram showing the operational relationship between the test portion of the O-ring test equipment to which the present invention is applied and partly enlarged view.

* Description of the symbols used in the main parts of the drawings *

1; O-ring test equipment 20; control unit

30; test part 31; lower plate

32; fixed plate 33; upper plate

34; guideshape 35; implement

36; up / down plate 37; heater

38; groove

The present invention relates to an o-ring test equipment, and more particularly, to an o-ring interposed in various mechanical equipment and the like; An improvement on o-ring test equipment for testing the mechanical properties required for the actual mounting of the o-ring.

In general, the o-ring is applied to maintain the airtightness to prevent the leakage of various fluids in the machine or the operating portion, and has a variety of materials and diameter cross-section according to the application in an annular frame shape having a predetermined thickness.

Such O-rings undergo various performance tests for quality improvement as well as post-production performance tests. Especially, the O-rings undergo the compression deformation test and the wear resistance test that are most applied to the O-rings.

Separate test equipment is required for the compression deformation test and the abrasion resistance test as described above, and the drawing shown in FIG. 1 is an example of the test equipment for the compression deformation test.

To test this compression deformation, first remove the bolt / nut clamped test equipment, then place an o-ring sample for testing between phases, and then manually retighten the bolt / nut to maintain a constant pressure. -Applied to the ring.

Subsequently, after inputting into the heat treatment machine in this state, the O-ring sample placed in the test equipment is separated and the compressive strain is measured to complete the compressive strain test of the O-ring.

However, the compression deformation test as described above shows a lot of deviations in the accuracy, which has the disadvantage that it is impossible to apply an accurate load because the progress of the manual work by the operator when tightening by bolts / nuts.

In addition, the entire test process was performed manually, which contributed to an increase in test time and inconvenience.

Therefore, the present invention has been created to solve the above problems and is equipped with test equipment driven through an automated device to accurately and easily grasp the characteristics of the O-ring to improve the quality of the O-ring product It is done.

Hereinafter, the configuration and operation of the present invention together with the accompanying drawings will be described.

2 is a front view and a side view showing the O-ring test equipment to which the present invention is applied, FIG. 3 is a partially enlarged view showing a test part of the O-ring test equipment to which the present invention is applied, and FIG. The operational state showing the operational relationship of the test section of the ring test equipment and the partial enlarged view will be described together.

O-ring test equipment 1 of the present invention is composed of a control unit 20 and the test unit 30 to form a box-shaped through the frame as shown in Figures 2 and 3 large.

The control unit 20 is integrated with a variety of electrical equipment for controlling the test unit 30, the driving parts are integrated, and employs a conventional electronic control method such as a microcomputer, and a detailed description thereof will be omitted.

The test unit 30, which is the main part of the present invention, has a fixed plate 32 for fixing the O-ring 100 for testing on the flat lower plate 31 as shown in FIG. 3, and the fixed plate ( Up / down reciprocating movement of the lower plate 31 and the upper plate 33 through the guide shaft 34 connecting the lower plate 31 and up and down by the operation mechanism 35 such as an air cylinder. It consists of a downplate 36.

The fixed plate 32 is formed on the lower plate 31, and the heater 37 for setting the same temperature as the actual mounting environment of the o-ring inside the built-in, the upper end of the cross section is A trapezoidal groove 38 is formed.

The up / down plate 36 interposed above the fixed plate 32 is a flat plate of a standard corresponding to the fixed plate 32, and an operating mechanism that is a power source for reciprocating the up / down plate 36. The upper plate 33 on which the 35 is mounted and the lower plate 31 on which the fixed plate 32 is mounted are interposed through the guide shaft 34.

In addition, the up / down plate 36 also includes a heater (not shown) to meet the O-ring test conditions, such as the fixed plate 32.

O-ring test equipment 1 of the present invention as described above,

First, the O-ring 100 specimen to be tested is fixed to the groove 38 formed on the lower plate 31 as shown in FIG. 4, and then the operator inputs the control part 20 according to the test contents. Then run the test equipment.

In this case, the lower plate 31 and the up / down plate 36 are raised to about 200 ° C., which is a temperature suitable for the test through the built-in heater 37, and applied to the O-ring 100 through the control unit 20. The pressure is adjusted to drive the air cylinder which is the operating mechanism 35.

As the air cylinder operates as described above, the up / down plate 36 descends above the fixed plate 32 and presses the O-ring 100 interposed in the fixed plate 32 groove 38 at a predetermined pressure for a predetermined time. do.

In the above situation, when the test content is the compression performance test, the load is transferred to the up / down plate 36 through the air cylinder for a predetermined time at the set pressure to the O-ring 100 mounted to the fixed plate 32. Allow compressive loads to be applied.

Thereafter, the up / down plate 36 is spaced apart from the fixed plate 32, and the o-ring 100 mounted on the fixed plate 32 groove 38 is removed to test the o-ring before the test and the after-test. Measure changes in mechanical properties such as ring deformation and dimensions.

In addition, when the test content is a wear resistance test, the up / down plate 36 is repeatedly contacted with the O-ring mounted on the fixed plate 32 at a constant pressure to measure the degree of wear of the O-ring.

O-ring test equipment of the present invention as described above enables the O-ring test performed through the existing manual operation by automation by electronic control, it is possible to facilitate the operation of the test equipment as well as to improve the reliability of the test results.

Furthermore, it is a useful invention that can implement the compression deformation test and the abrasion resistance test at the same time using a single device to realize a shortening of time for test and ease of operation.

Claims (1)

O-ring test equipment; The o-ring test equipment (1), The control unit 20 for driving the O-ring test equipment through the electronic control to form a box-shaped through the frame, A fixed plate 32 interposed on the flat lower plate 31 and having a heater 37 for setting a temperature therein, and having a groove 38 having a trapezoidal cross section at the top thereof; Upper plate 33 and the fixed plate 32 is mounted on the fixed plate 32 and the flat plate of the standard corresponding to the fixed plate 32, the operating mechanism 35 is a power source O-ring test equipment, characterized in that consisting of a test unit 30 consisting of an up / down plate 36 interposed through a guide shaft (34) for connecting the lower plate (31).

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