KR100802766B1 - Experimental equipment for strength evaluation of closed and open structures subjected to internal pressure - Google Patents

Abstract

The present invention can be provided with an internal aid for the bulk of the test piece and to prevent the side pressure expansion of the rubber tube disposed between the test piece and the internal aid to reduce the pressure loss, and to perform the pressure test due to the provision of a safety device The present invention relates to an apparatus for evaluating the strength of structures in which internal pressure is applied so that not only static pressure test but also dynamic pressure test can be prevented by means of providing air pressure including pneumatic and electrical circuit diagrams.

To this end, the present invention is a pedestal of a predetermined width, the internal pressure test object fixedly mounted by the bracket and bolt on the pedestal, and the internal assistant arranged at equal intervals with the inner surface of the pressure test object, the pressure test An internal pressure test device comprising a rubber tube disposed between an inner surface of an object and an outer surface of the inner assisting device; A stainless steel housing of the upper opening type in which the pressure resistance test apparatus is built; It is provided with a strength evaluation experiment apparatus of a pressure resistant structure, characterized in that it is configured to be connected to the rubber tube to provide air pressure for providing air pressure.

Internal pressure, body, rubber tube, strength evaluation, air pressure supply means, stainless housing

Description

Experimental equipment for strength evaluation of closed and open structures subjected to internal pressure}

1 is a cross-sectional view showing an apparatus for evaluating strength of a structure to which internal pressure is applied according to the present invention;

2 is a pneumatic circuit diagram showing an apparatus for evaluating strength of a structure to which internal pressure is applied according to the present invention;

Figure 3 is a schematic diagram illustrating the structure of the stainless housing in the strength evaluation experimental apparatus configuration of the structure to which the internal pressure is applied according to the present invention,

Figure 4 is a photograph showing an apparatus for evaluating strength of a structure to which internal pressure is applied according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: pedestal 12: bolt

14; Bracket 16: Test Specimen

18: internal assistant 20: rubber tube

22: side stand 24: stainless housing

26: aluminum plate 28: air pressure providing means

30 switch 31 pneumatic circuit

32: electric circuit 34: pressure gauge

The present invention relates to an apparatus for evaluating strength of a structure to which internal pressure is applied, for example, a hermetic and open structure, and more particularly, between the test piece and the internal aid together with an internal aid for a large volume of the test piece. The pressure loss can be reduced by preventing the side expansion of the rubber tube to be disposed, and the safety device can prevent the risk of specimen breakdown during the internal pressure test, and the static pressure is provided by the air pressure providing means including the pneumatic and electrical circuit diagrams. The present invention relates to an apparatus for evaluating the strength of structures subjected to internal pressure, in addition to the internal pressure test.

Typically, there are many experimental devices for the internal pressure test of mechanical structures used as pressure vessels, but the experimental devices for the internal pressure test of closed and open structures are not well known, and bulky test subjects such as a vehicle body are included here. A method for reducing the pressure loss is also suggested for proper strength evaluation of the system.

In particular, in the case of vehicle structures such as automobiles, in many countries including Korea, many roads are being constructed to make the pressure difference between the inside and outside of the vehicle. Experimental equipment for evaluation is indispensable.

The present invention has been made in view of the above, it is possible to reduce the pressure loss by preventing the side expansion of the rubber tube disposed between the test piece and the inner brace with an inner brace for the case of a large volume of the test piece In addition, it is possible to prevent the risk of specimen breakage during the internal pressure test due to the provision of a safety device, and the internal pressure applied to enable dynamic pressure test as well as static pressure test by means of air pressure providing means including pneumatic and electric circuit diagram. The purpose is to provide a test apparatus for strength evaluation of structures.

Another object of the present invention is to be useful in the evaluation of the strength of the joint according to the pressure difference between the inside and outside of the vehicle.

The present invention for achieving the above object is a pedestal of a predetermined width, the pressure-resistant test object fixedly mounted by a bracket and a bolt on the pedestal, and the internal assistant disposed at equal intervals with the inner surface of the pressure-resistant test object; A pressure resistant test device comprising a rubber tube disposed between an inner surface of the pressure resistant test object and an outer surface of the internal assisting device; A stainless steel housing of the upper opening type in which the pressure resistance test apparatus is built; It is provided with a strength evaluation experiment apparatus of a pressure resistant structure, characterized in that it is configured to be connected to the rubber tube to provide air pressure for providing air pressure.

In a preferred embodiment, the inner supporter and the side of the rubber tube and the pressure-resistant test object is located on the side support to block the lateral expansion of the rubber tube, characterized in that the side support is mounted on the pedestal by bolting.

In a preferred embodiment, the open upper portion of the stainless housing is characterized in that the aluminum plate with good energy absorption capacity is mounted.

In a more preferred embodiment, the open upper predetermined position of the stainless housing is characterized in that the switch is further contacted during the breakdown or maximum expansion trajectory of the pressure-resistant test object, the switch for turning off the power of the air pressure providing means.

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

The present invention focuses on the fact that it is possible to conduct experiments for evaluating the internal pressure strength of a large volume such as a vehicle body, and in particular, to test the strength evaluation of the joint due to the internal and external pressure difference of the vehicle body.

First, the terms used below are defined as follows.

1) The term 'internal assistor' is a term used to mean an auxiliary device that supports and inserts a bulky test piece into a test piece when performing a pressure test.

2) The term 'open structure' refers to a structure in which pressure leaks to the outside when there is no auxiliary device when performing a pressure resistance test, and vice versa, the term 'sealed structure' is used.

1 is a cross-sectional view showing an apparatus for evaluating strength of a structure subjected to internal pressure according to the present invention, and FIG. 2 is a pneumatic circuit diagram illustrating an apparatus for evaluating strength of a structure subjected to internal pressure according to the present invention.

The experimental apparatus of the present invention is largely divided into a pressure test apparatus, an upper open stainless housing in which the pressure test apparatus is built, and an air pressure providing means connected to a rubber tube of the pressure test apparatus to provide air pressure.

First, look at the configuration of the pressure resistance test apparatus as follows.

The pressure-resistant test object, that is, the test piece 16, is fixedly mounted on the pedestal 10 having a predetermined width by using the bolt 12 and the bracket 14.

The test piece 16 used in the experimental apparatus of the present invention is a vehicle body in which a phenomenon such as deformation or separation of a joint due to an internal and external pressure difference may occur.

In addition, while the internal aid 18 is assembled on the pedestal 10 by bolting, the internal aid 18 is arranged at equal intervals with the inner surface of the test piece 16 as the pressure test object, and the internal aid 18 is a bulky test piece. In order to transfer the even expansion pressure of the rubber tube to the inner surface of the machined shape, the inner surface of the test piece 16 is processed at equal intervals, and it is advantageous to use wood that is light in weight and easy to process. In this case, the size is determined in consideration of the thickness of the rubber tube 20 to be inserted between the test piece 16 and the internal aid 18, but the processing is such that there is no sharp part.

The rubber tube 20 is disposed in a space forming an equal interval between the inner surface of the test piece 16, which is the pressure resistance test object, and the outer surface of the inner assistor 18, and the rubber tube 20 is subjected to pressure. Selected to be slightly wider than the width of the inner brace 18 in anticipation of swelling at a time, and sufficiently large to reach both surfaces without applying pressure when inserted between the brace 18 and the specimen 16. Select it so that there is no pressure loss.

On the other hand, the side support 22 to block the lateral expansion of the rubber tube 20 is located across the side of the inner aid 18, the rubber tube 20 and the test piece 16 which is the pressure resistance test object, this side stand 22 is mounted on the pedestal 10 by bolting.

That is, when pressure expansion of the rubber tube 20 is performed while the test piece 16 and the internal assistor 18 are mounted and the rubber tube 20 is inserted therebetween, both sides of the test tube 16 and the internal assistor 18 are prevented from causing pressure loss. The side stand 22 is installed on the side, and the thickness of both side stand 22 should be determined by the beam analysis according to the magnitude of the pressure to be applied and should not be opened to both sides.

The pressure-resistance test apparatus provided in such a configuration is disposed inside the stainless housing 24 of the upper opening type, and as illustrated in FIGS. 3 and 4, the test piece 16 is opened on the upper portion of the stainless housing 24. An aluminum plate 26 having good energy absorbing capacity which can easily prevent fragments from being scattered is mounted.

Preferably, in consideration of the safety during the experiment, the test piece that is the pressure resistance test object at an open upper predetermined position of the stainless housing 24 (preferably, a position corresponding to the junction of the vehicle body test piece in which breakage is most likely to occur) A switch 30 is provided which is switched in contact with the breakdown to the maximum expansion trajectory 16 so as to turn off the power of the air pressure providing means 28.

Here, the air pressure providing means 28 for supplying air pressure is connected to the rubber tube 20, as shown in FIG. 2, the air pressure providing means 28 includes an air pressure tank and a solenoid valve. It comprises a pneumatic circuit 31 and the electric circuit 32 for cutting off the power of the air pressure providing means 28 in response to the signal of the switch 30.

More specifically, a pneumatic circuit 31 for providing pneumatic pressure to the rubber tube 20 to apply pressure to the test piece 16, and an electric circuit 32 for controlling the pneumatic process is included, pneumatic circuit In order to prevent an error occurring along the line, a pressure gauge 34 may be installed near the rubber tube to measure a pressing force, and a solenoid valve may be used to perform a dynamic experiment.

At this time, the rubber tube 20 arranged between the inner brace 18 and the test piece 16 made of a wooden pneumatic hose (not shown) through the hole of the pedestal 10 is mounted on the test piece 16 Is connected to.

Here, looking at the operating state of the experimental apparatus of the present invention made of the above configuration as follows.

As described above, as a preparatory step for the test, the internal aid 18 is installed inside the test piece 16 for the internal pressure test, and the rubber tube 20 is provided between the test piece 16 and the internal aid 18. Insert it.

Subsequently, the air pressure providing means 28 is driven, and the air pressure is supplied to the rubber tube 20 via an air pressure hose connected to the rubber tube 20 through a hole provided in the pedestal 10, while the rubber tube ( 20) will expand.

When the air pressure flows into the rubber tube 20, the rubber tube 20 swells and comes into close contact with the test piece 16 and the internal aid 18, and the air pressure applied to the rubber tube 20 is internal pressure to the test piece 16. If the specimen breaks eventually, the test is stopped.

That is, when the test piece is broken, the switch 30 is provided at the open upper predetermined position of the stainless housing 24 (preferably, the position corresponding to the junction of the vehicle body test piece in which breakage is most likely to occur). The switch is turned off while reaching the maximum expansion trajectory while the power supply of the air pressure providing means 28 is cut off and the experiment ends.

At this time, when the test piece 16 is broken, by reading the air pressure value of the pressure gauge 34 installed at the inlet of the rubber tube 20, the shape of the different test pieces while measuring the magnitude of the air pressure supported when the test piece 16 is broken And strength evaluation is performed about manufacturing conditions.

That is, when evaluating the strength of the vehicle body test piece, which is a large structure having a joint, the air pressure at the time when the joint is disconnected can be measured, which can be usefully used for the joint strength evaluation according to the pressure difference between the inside and the outside of the vehicle.

As described above, according to the strength evaluation experimental apparatus of the structure to which the internal pressure is applied according to the present invention, through the design of the experimental apparatus for the strength evaluation of the sealed and open structure subjected to the internal pressure to a large test object such as a vehicle body Also, joint strength evaluation by internal pressure can be conveniently performed.

Based on the present invention, it is possible to carry out strength assessment for open structures as well as hermetic structures that are existing pressure vessels.

In addition, when the strength evaluation experiment by the internal pressure, the breakage of the test piece and at the same time, the air pressure providing means is automatically stopped and the scattering during the breakage of the test piece has the advantage of enhancing the safety.

Claims (4)

A pedestal of a predetermined width, a pressure-resistant test object fixedly mounted on the pedestal by brackets and bolts, an internal assistant arranged at equal intervals from an inner surface of the pressure-resistant test object, and an inner surface of the pressure-resistant test object and the An internal pressure test device comprising a rubber tube disposed between the outer surfaces of the internal assist device; A stainless steel housing of the upper opening type in which the pressure resistance test apparatus is built; An apparatus for evaluating strength of a structure to which internal pressure is applied, comprising an air pressure providing means connected to a rubber tube to provide air pressure. The pressure gauge according to claim 1, wherein a side stand for blocking the lateral expansion of the rubber tube is positioned on the side of the inner supporter, the rubber tube and the pressure resistant test object, and the side stand is mounted on the pedestal by bolting. Test device for strength evaluation of applied structure. The apparatus of claim 1, wherein the open upper portion of the stainless housing has an aluminum plate having good energy absorption capability. 2. The structure of claim 1, wherein a switch is disposed at an upper upper predetermined position of the stainless housing so as to be touched and switched during breakdown or maximum expansion trajectory of the pressure resistant test object, thereby to switch off the air pressure providing means. Strength evaluation tester.

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