KR100415302B1 - Pad Pressure Release Device - Google Patents

Abstract

The present invention enables to apply a compressive load to the load pad by changing the direction so that the applied tensile load is applied in the opposite direction of the test object when applying the load to the test specimen in the aircraft structural test, thereby applying a load greater than the adhesive force of the load pad The present invention relates to a load pad load direction change device for structural test using a linkage device to be applied while maintaining a load application direction.

In general, the structural test of the test body uses a load pad and a load lever for distributing one large concentrated load to several small loads, but when a load greater than the peel strength of the adhesive is applied, the length ratio of the lever is adjusted or the load is increased. It has the disadvantage of changing to the compressive load type.

Therefore, in the present invention, the connecting bolt 8 'of the link 8 connected to the load lever 9 is connected to the upper threaded hole 1' of the load converting table 1 formed in the shape of an X-shape to load lever 9 The tensile load of is connected to the load conversion stage (1) through the link (8), and finally through the lower pickup 5 installed on the lower side of the load conversion stage (1) in the axial direction to the lower load pad (3) The compressive load of is added to the test specimen 10 so that the tensile load is changed to the opposite compression direction so that the structural test can be performed.

Description

Load Pad Load Direction Change Device for Structural Testing {Pad Pressure Release Device}

The present invention enables to apply a compressive load to the load pad by changing the direction to apply the applied tensile load in the opposite direction of the test object when applying the load to the test specimen in the aircraft structural test, thereby applying a load greater than the adhesive force of the load pad The present invention relates to a load pad load direction change device for structural test using a linkage device to be applied while maintaining a load application direction.

In general, in the structural test of the test body, load pads (2), (3), load levers (9) and links are frequently used as a basic configuration for distributing one large concentrated load into several small loads.

That is, the test body 10 is installed between the upper load pad 2 and the lower load pad 3, and the load pads 2 and 3 are connected to the test body 10 by using an adhesive. (3) is pulled out.

If a load of such a configuration is subjected to a load greater than the peel strength of the adhesive in the system, it has the disadvantage of adjusting the length ratio of the lever or changing the load in the form of compressive load.

However, there is no time to use such a solution because there is no time for aircraft structural tests.

In other words, the whistle tree for tension / compression is installed in the opposite direction, it takes a long time and has a complicated defect.

The present invention is to change the load in the tensile direction greater than the adhesive force of the load pad in the opposite compression direction to reposition the load to shorten the development time, which is an important factor in the aircraft test, or to use the tensile load without using complicated tension / compression whip tree It is to be able to perform the structural test using only the whiple tree.

The present invention removes the upper load pad and the upper pick-up in the screw hole of the load converter is installed, the upper load pad and the lower load pad is connected to the lower load pad, and the link is connected to the load lever here through the lower load pad It is characterized in that it is composed of a load converter to allow structural test of the connected test body.

1 is a perspective view of the use state of the present invention

2 is another perspective view of the use state of the present invention

3 is an assembled state of use of the present invention

4 is another assembled state of use of the present invention

[Description of Symbols for Main Parts of Drawing]

1: Load conversion table 2: Upper load pad

3: lower load pad 4: upper pick-up

5: lower pickup 6: conversion station upper pickup

7: Sub-pickup 8: Link

8 ': Connecting bolt 9: Load lever

10: test body

According to the present invention, the load is transmitted to the load conversion stage 1 through a link 8 having a degree of freedom perpendicular to the load direction by connecting the tension load path using a load lever 9 which is commonly used. The lower pick-up (5) is finally changed to the axial compressive load on the load pad (3) so that the load is added to the test body (10) as the test body.

The load conversion stage 1 of the present invention is formed in a generally shaped shape, and the upper stage pickup 6 and the lower stage pickup 7 of the conversion stand are installed, and the screw holes 1 'are formed to be symmetrical on both sides in the forward direction. do.

The screw hole 1 ′ has an upper pick up 4 and a lower pick up 5 assembled therein, the upper pick 4 is connected to an upper load pad 2, and the lower pick up 5 is a lower load. It is connected to the pad (3) so that the test body 10 is inserted between the upper load pad (2) and the lower load pad (3) to be connected through an adhesive.

In order to change the tensile load higher than the adhesive force with the test body 10 in the opposite compression direction, the upper load pad 2 and the upper pick up 4 are removed from the threaded hole 1 'of the load converter 1 and then loaded. The connecting bolt 8 'of the link 8 connected through the lever 9 and the connecting hole 9' is screwed into the threaded hole 1 'and fixed with a conventional nut to fix the load conversion table 1 To allow structural testing to be performed.

According to the present invention, when the structure of the test body 10 is tested by using the compression whiff tree using the upper load pad 2 and the lower load pad 3, the upper load pad 2 has a load greater than the peel strength of the adhesive. In this case, it is to solve the drawback of the time-consuming adjustment of the length ratio of the lever or to convert the load into the compression load type

If the link 8 connected to the connecting hole 9 'of the load lever 9 is connected to the screw hole 1' as shown in Figs. 2 and 4, the load lever 9 is pulled and the load lever 9 is pulled out. The tension load path is connected through and through the link 8 having a degree of freedom in the direction perpendicular to the load direction, the load converter 1 is pulled out.

The load transmitted to the load conversion table 1 is finally changed to the axial compressive load on the lower load pad 3 through the lower pickup 5 on the opposite side, so that the load is applied to the test body 10 so that the load can be applied to the tensile load. In other words, when the load lever 9, which is used in general, is used, the linkage 8 and the lower pick-up which have a tension load acting upward and a degree of freedom perpendicular to the load direction are used. Finally, the tensile load on the lower load pad 3 is changed to an axial compressive load, and the load is added to the test body 10 through 5).

According to the present invention, by changing the load in the tensile direction greater than the adhesive force of the load pad in the opposite direction of compression, it is possible to perform a structural test using only the tensile load waffle tree without using complicated tension / compression whip-trees. Is to implement

Claims (1)

When the load lever 9 is connected to the link 8 to perform a structural test of the test body 10, The load lever 9 is connected to the load conversion stage 1 is formed in a ⊃ shape and formed with a screw hole (1 '), Load pad load direction for structural testing, characterized in that it consists of a lower load pad (3) to which an axial compressive load is applied to the test body (10) above the load pick-up (5) provided below the load conversion table (1). Change device.