KR0153626B1 - Compression/recovery rate test apparatus under static load - Google Patents

Abstract

The present invention relates to an apparatus for measuring compression / recovery rate under static load, and in particular, a support plate on which the test piece is positioned and mounted up and down, and a detachable thickness gauge mounted on the support plate to measure the thickness of the test piece. And lever device for continuously and uniformly applying a constant test load to the specimen by using the lever principle, so that accurate compression and recovery rate can be measured.

Description

Compression / Recovery rate measuring device under static load

1 is a view showing a schematic configuration of a compression / recovery rate measuring apparatus according to the present invention.

2 is an enlarged view of the pressure port of FIG.

* Explanation of symbols for main parts of the drawings

10: main body 20: test piece support plate

30 thickness gauge 40 test piece

50: screw portion 60: adjustment lever

70: pressure port 80: pressure port fixing plate

90: support shaft 91,92: fixed pin

93: support 100: first balance shaft

110: second balance axis 120: counterweight

130: weight 140: test load plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compression / recovery rate measuring apparatus, and more particularly to a compression / recovery rate measuring apparatus under static load for measuring the compression and recovery rate of a test piece under static load.

Typically, a manifold gasket installed between the cylinder block and the cylinder head to seal the mixer and prevent leakage of coolant and oil, and a manifold gasket used between the cylinder head and the intake manifold or exhaust manifold. For example, gasket specimens such as EGR (Exhaust Gas Recirculation) gaskets, etc., should be measured under compression load.

In order to measure the compression and recovery rate of such a gasket test piece, a universal testing machine (UTM) has conventionally been used. Universal Testing Machine (UTM) is a tester that can perform three kinds of tests: tensile test, compression test, and bending test. Amsler's Universal Teting Machine is typically used.

However, because the universal testing machine (UTM) as described above has a tolerance of the system itself, the test load may change slightly during compression and recovery rate measurement. Therefore, there was a problem that the compression and recovery rate of the gasket specimens that reacted sensitively to the change of the test load could not be accurately measured.

Accordingly, the present invention has been made to solve the above problems, and after applying a predetermined test load to the test piece continuously, the compression and recovery rate under a static load that can measure the compression and recovery rate purified by measuring the thickness at this time It is an object to provide a measuring device.

In order to achieve the above object, the present invention provides a compression / recovery rate measuring apparatus, comprising: a test piece support plate on which a test piece is positioned and which can be vertically positioned; A detachable thickness gauge mounted on the test piece support plate to measure a thickness of the test piece; And first and second support shafts which are movably mounted up and down to press the test piece in accordance with the test load, and fixed pins on the left and right sides of the support shaft to adjust the pressure port to pressurize the test piece evenly. A support that is mounted between the balance shaft and the first and second balance shafts to move the second balance shaft up and down in accordance with the test load applied to the first balance shaft, and a predetermined load attached to an end of the second balance shaft. And a lever device including a counterweight having a weight, and a test load plate movably mounted to the first balance shaft, wherein the test load plate is positioned with a means having a test load.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a configuration of a compression / recovery rate measuring device according to the present invention, and a test piece support plate 20 for positioning a gasket test piece 40 such as a head gasket, a manifold gasket, an EGR gasket, and the like is provided.

The lower portion of the test piece support plate 20 is formed with a screw portion 50 to move the test piece support plate 20 up and down according to the size of the test piece 40, the adjustment lever 60 of the test piece support plate 20 You can adjust the height.

On the other hand, in the main body 10 of the upper part of the test piece support plate 20, a pressing hole 70 as shown in FIG. 2 to apply a test load to the test piece 40 is fixed to the pressing hole fixing plate 80, and the fixing plate 80 The upper part is coupled to the support shaft 90 which is movable up and down.

The first and second balance shafts 100 and 110 are fixed to the support shafts 90 at the right and left sides by fixing pins 91 and 92, and the support 93 is disposed between the first and second balance shafts 100 and 110. The second balance shaft 110 is moved up and down according to the test load applied to the first balance shaft 100 by using the principle of the lever.

Meanwhile, a counterweight 120 having a predetermined load is mounted at an end of the second balance shaft 110, and the left and right sides on which the weight 130 used as a test load can be placed on the first balance shaft 100. The test load plate 140 which is movable to is coupled.

According to the present invention configured as described above, after placing the test piece 40 of the gaskets on the test piece support plate 20, the adjusting lever 60 is adjusted to allow the test piece 40 to contact the pressure port 70. Adjust 50.

When the test piece 40 and the pressure port 70 is in contact, the weight 130 to be used as the test load is placed on the test load plate 140. As a result, the support shaft 90 moves downward to press the test piece 40 by the pressure port 70 connected to the support shaft 90.

However, when the weight of the weight 130 is greater than the load of the counterweight 120, the first balance shaft 100 is inclined downward, and thus, between the first balance shaft 100 and the second balance shaft 110. The second balance shaft 110 is inclined upward by the supporting tool 93 mounted so that the lower surface of the pressure port 70 does not apply a uniform distribution of pressure to the test piece 40.

Accordingly, the test load plate 140 is moved to the right to adjust the first balance shaft 100 and the second balance shaft 110 to be balanced so that the lower surface of the pressure port 70 has an even distribution on the test piece 40. Apply pressure.

After the pressing device 70 pressurizes the test piece as described above, if a predetermined time elapses, the thickness gauge 30 measures the thickness of the test piece 40 at that time, and after removing the weight 130, The compression rate and recovery rate are calculated by measuring the thickness of the test piece 40 after the time elapses.

As described above, the present invention, after applying a constant load uniformly to the test piece uniformly by using the principle of the lever, it is possible to measure the compression rate and recovery rate by measuring the thickness of the test piece to determine the exact compression and recovery rate.

Claims (1)

A compression / recovery measuring device, comprising: a test piece support plate (20) on which a test piece (40) is positioned and which can be positioned up and down; A detachable thickness gauge (30) mounted on the test piece support plate (20) to measure the thickness of the test piece (40); And a support shaft 90 mounted to be movable upward and downward to pressurize the test piece 40 according to the test load, and fixed pins 91 and 92 at left and right sides of the support shaft 90. The pressing hole 70 is mounted between the first and second balance shafts 100 and 110 and the first and second balance shafts 100 and 110 to adjust the test piece 40 to be uniformly pressed. Support 93 for moving the second balance shaft 110 up and down according to the test load applied to), the counterweight 120 having a predetermined load attached to the end of the second balance shaft 110, And a lever device movably mounted on the first balance shaft, the lever device including a test load plate 140 on which a means having a test load is located. .