KR20120077076A - Shock test device - Google Patents

Abstract

PURPOSE: An impact inspecting device is provided to enable to perform an impact inspection of a product having a large volume and heavy weight so that a pyro impact inspection can be performed in respect to a space development field such as a giant satellite or logitics. CONSTITUTION: An impact inspecting device(1000) comprises a lower support(100), a guide tube(200), a hammer, an upper support(400), a contact plate(500), a resonant unit, an air feeding unit(700), and a controller(800). The lower part of the guide tube is fixed to the lower support. The guide tube is formed into a pipe shape. The hammer is comprised in the inside the guide tube. The upper support is formed into a plate form of a constant height and comprises a hollow portion in which a predetermined area is empty. The contact plate is supported to the circumference of the hollow portion of the upper support and an inspection object is placed on the top of the contact plate. The resonant unit is formed in the hollow portion of the lower part of the contact plate and the inside of the resonant unit is formed into an empty cylinder form. The air feeding unit comprises an air storing tank(710), an air transferring unit(720), and a pressure regulator(730).

Description

Shock test device {SHOCK TEST DEVICE}

The present invention relates to an impact test apparatus, and more particularly, the present invention relates to an impact test apparatus capable of impact testing of a large test object, and to increase test stability and reliability by precisely controlling an impact amount by pneumatic pressure. .

In space development, common projectiles will perform stage separation, fairing separation, satellite separation, attachments such as antennas or solar panels for mission in flight.

Separation or development as described above is caused by the operation of the separation device, at this time, a large transition acceleration (Transient Acceleration) is induced, this phenomenon is called Pyrotechnic Shock or Pyro-shock.

The Pyro impact is very different from the general vibration phenomena, the action time is very short as 10 ~ 30msec and the transition vibration caused by this is quite large (100 ~ 10KG up to the high frequency range of 10Khz or more depending on the type of separation device). It has a value of acceleration.

Since the Pyro impact phenomenon causes very high acceleration, the functions of various electronic components and optical equipment mounted on the projectile or satellite may appear abnormally or cause a malfunction, which may cause the projectile or satellite mission to fail. .

Therefore, the Pyro impact certification test for the electronic payload or satellite can be said to be essential, and an example of the impact test apparatus used therein is shown in FIG. 1.

The conventional impact test apparatus 10 shown in FIG. 1 includes a pair of guide parts 1 positioned above the installation surface; A hammer (2) guided by the guide unit (1) and moved up and down; And a conveying chain (3) for conveying the hammer (2) in an upward direction. It is formed to include.

However, the impact test apparatus has a problem that the distance between the pair of guides is narrow and that the area on which the impact test object is mounted is not sufficient.

In addition, even when the amount of impact applied increases, even if the hammer is slightly displaced, there is a problem in that a load loss occurs due to friction between the hammer and the guide part, and the impact test control becomes difficult.

That is, it is difficult to precisely control the impact amount, the test reliability is low, and there is a problem that damage of the object may occur.

Accordingly, there is a demand for an impact test apparatus capable of further improving test reliability and safety by creating an impact environment such as a load condition having a very high response for a short time such as a pyro impact.

The present invention has been made to solve the problems described above, the object of the present invention is to test the impact of a large test object, the impact that can increase the test stability and reliability by precisely controlling the impact amount by pneumatic To provide a test device.

In particular, it is an object of the present invention to provide an impact test apparatus capable of performing an impact test in a space development field such as a large satellite or a bulky military development product by enabling an impact test of a bulky and heavy development product.

In addition, an object of the present invention is to provide an impact test apparatus capable of precisely controlling the movement of the hammer by providing a plurality of position sensors in the height direction of the guide tube.

Impact test apparatus 1000 of the present invention is the lower support portion 100; A guide pipe 200 having a lower side fixed to the lower support part 100 and formed in a tubular shape; A hammer (300) provided inside the guide tube (200); An upper support part 400 in which a hollow part 401 in which a predetermined area is hollow is formed in a plate shape having a predetermined height; A contact plate 500 which is supported around the hollow part 401 of the upper support part 400 and on which the test object is seated; A resonance part 600 formed in a hollow part 401 region below the contact plate 500 and formed in a hollow cylindrical shape; An air supply unit 700 including an air storage tank 710, an air transfer unit 720, and a pressure adjuster 730, for transferring the hammer 300 inside the guide tube 200 in an up and down direction; And a controller 800 connected to the air supply unit 700 to adjust the impact amount of the hammer 300. Characterized in that it comprises a.

In addition, the impact test apparatus 1000 is provided with a plurality of position sensors 210 in the height direction of the guide tube 200, characterized in that the control unit 800 is interlocked with the position sensor 210. .

In addition, the upper support portion 400 is characterized in that the impact relief unit 430 is provided around the hollow portion 401 is provided with the contact plate 500.

In addition, the impact test apparatus 1000 is provided with a safety sensor (not shown) for detecting that the contact plate 500 is raised above a predetermined height by the impact of the hammer 300, the control unit 800 is It is characterized in that the interlock with the safety sensor.

The safety sensor may be a means for detecting the position of the contact plate through a sensor recognizable to the contact plate 500.

In addition, the air supply unit 700 is characterized in that it is further provided with a filter 740 for removing foreign matter in the air.

In addition, the impact test apparatus 1000 is characterized in that the ladder 410 on which the worker can climb on one side of the upper support part 400, and the handrail 420 is formed in the upper peripheral portion.

In addition, the impact test apparatus 1000 is characterized in that the display unit 900 for displaying the overall state is provided.

Accordingly, the impact test apparatus of the present invention is capable of impact testing of a large test object, and has an advantage of increasing test stability and reliability by precisely controlling the impact amount by pneumatic pressure.

In particular, the impact test apparatus of the present invention has the advantage of being able to perform the impact test of a large and heavy development product in the space development field such as a large satellite or a bulky military development product can perform a Pyro impact test.

In addition, the impact test apparatus of the present invention has an advantage of precisely controlling the movement of the hammer by providing a plurality of position sensors in the height direction of the guide tube.

1 is a view showing a conventional impact test apparatus.
Figure 2 is a perspective view of the impact test apparatus according to the present invention.
Figure 3 is a partial perspective view of the impact test apparatus according to the present invention.
4 is a cross-sectional view showing an impact test apparatus according to the present invention.
5 is a partial cross-sectional view showing an impact test apparatus according to the present invention.

Hereinafter, the impact test apparatus 1000 of the present invention having the characteristics as described above will be described in detail with reference to the accompanying drawings.

Impact test apparatus 1000 of the present invention, the lower support portion 100, the guide tube 200, the hammer 300, the upper support portion 400, the contact plate 500, the resonance unit 600, the air supply unit 700 , And the controller 800 is formed.

The lower support part 100 is configured to support the impact test apparatus 1000 of the present invention at the lower side, and supports the guide tube 200.

The lower support part 100 may be provided with a moving wheel at the lower side to facilitate movement, and in this case, it is preferable that all remaining components are provided to be movable at the same time by the movement of the lower support part 100.

The guide tube 200 is a portion for guiding the upward and downward movement of the hammer 300 (Hammer), the lower side is fixed to the lower support portion 100, the inside is formed long in the height direction in the form of a hollow tube. .

The guide tube 200 is provided with a plurality of position sensors 210 for detecting the position of the hammer 300 in the height direction.

Through this, the impact test apparatus 1000 of the present invention has the advantage of accurately detecting the position of the hammer 300 to precisely adjust the amount of impact.

The hammer 300 is provided inside the guide tube 200 to apply an impact and is guided by the guide tube 200 and moved in the height direction.

In the drawings, the hammer 300 is illustrated in the form of a cylindrical shape so as to correspond to the guide tube 200, but the impact test apparatus 1000 of the present invention is not limited thereto.

The upper support portion 400 is in the form of a plate having a predetermined height, a hollow portion 401 in which a predetermined area is hollow is formed.

The hollow part 401 is located in the resonance unit 600 that is impacted by the upward movement of the hammer (300).

On the upper side of the upper support 400 is a contact plate 500 on which the test object is seated.

The contact plate 500 is formed to have a larger area than the hollow part 401 and is supported around the hollow part 401 of the upper support part 400.

Since the impact test apparatus 1000 of the present invention can be formed largely without limitation by the other structure, the space of the upper support portion 400 in which the test object can be located, there is an advantage that can be applied to a test object of a larger size than the conventional have.

To this end, the upper support portion 400 is provided with a ladder 410 so that the worker can stand on one side, the handrail 420 may be further formed on the upper circumference to ensure the safety of the worker.

In other words, the upper support part 400 not only supports the contact plate 500 on which the test object is seated, but also secures an area in which the test object itself can be located and an operator's working area.

On the other hand, the contact plate 500 is provided with an impact relief unit 430 on the upper side of the upper support 400, it is preferably located above.

The shock absorbing part 430 is a part that can alleviate the impact by pneumatic pressure, when the impact is applied, the contact plate 500 is moved upwards to ensure the durability of the entire impact test apparatus 1000. Make sure

In FIG. 5, (A) shows a case in which there is no impact by the hammer 300, and the upper side of the upper support part 400 and the lower side of the contact plate 500 are separated by H1 by the impact relaxing part 430. It is formed to have.

5 (B) shows when the impact by the hammer 300 is applied, it was shown an example in which the contact plate 500 is raised by H2 by the impact mitigator 430.

At this time, when the height (H2) that the contact plate 500 is raised is a predetermined height or more, the fixing with the contact plate 500 may be dismantled, the impact test apparatus 1000 of the present invention is the hammer It is preferable that a safety sensor (not shown) for detecting that the contact plate 500 is raised above a predetermined height by the impact of 300 is provided.

The shock absorbing unit 430 should be used to the extent that the configuration to offset the height (H2) of the contact plate 500, the height of the detection by the safety sensor may be appropriately adjusted in consideration of the amount of impact. .

The resonance unit 600 is provided below the contact plate 500 to allow resonance to occur when an impact caused by the hammer 300 occurs, and is formed in a hollow cylindrical shape. do.

In more detail, the resonance unit 600 is formed in such a way that the upper side is opened so that the open side is closed by the lower side of the contact plate 500.

The air supply unit 700 includes an air storage tank 710, an air transfer unit 720, and a pressure adjuster 730 to transfer the compressed air into the guide tube 200 to transport the hammer 300. Transfer in the up and down direction.

The air storage tank 710 is a space in which air is stored, and one or more are provided.

The air transfer unit 720 is a portion for transferring the air by connecting the air storage tank 710 and the guide tube 200.

At this time, the air transfer unit 720 may be further provided with a filter 740 for removing foreign matter in the air to be transferred.

In addition, the air supply unit 700 may use the compressed air stored in the air storage tank 710, it may be further provided with a compressor for forming the compressed air.

The control unit 800 is connected to the pressure adjusting unit 730 of the air supply unit 700 to adjust the impact amount of the hammer 300, connected to the position sensor 210 and the safety sensor can determine the overall operating state. Make sure

In addition, the impact test apparatus 1000 of the present invention is further provided with a display means for displaying the entire state.

The overall state refers to a variety of information that can determine the state of the impact test apparatus 1000, including the current hammer 300 position, the amount of impact.

As described above, the impact test apparatus 1000 of the present invention can smoothly proceed the impact test even when the test object of a large size is formed as the upper support portion 400 is formed, and easily adjust the amount of impact using compressed air. There is an advantage to increase the reliability of the impact test.

In addition, the impact test apparatus 1000 of the present invention has the advantage of being able to prevent the damage of the test object to further increase the test safety.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: impact tester
100: lower support part
200; Guide pipe 210: position sensor
300: hammer
400: upper support portion 401: hollow portion
410: ladder 420: railing
430: shock absorber
500: contact plate
600: resonance
700: air supply 710: air storage tank
720: air transfer unit 730: pressure adjusting unit
740: filter
800: control unit
900 display unit

Claims (7)

Lower support part 100;
A guide pipe 200 having a lower side fixed to the lower support part 100 and formed in a tubular shape;
A hammer (300) provided inside the guide tube (200);
An upper support part 400 in which a hollow part 401 in which a predetermined area is hollow is formed in a plate shape having a predetermined height;
A contact plate 500 which is supported around the hollow part 401 of the upper support part 400 and on which the test object is seated;
A resonance part 600 formed in a hollow part 401 region below the contact plate 500 and formed in a hollow cylindrical shape;
An air supply unit 700 including an air storage tank 710, an air transfer unit 720, and a pressure adjuster 730, for transferring the hammer 300 inside the guide tube 200 in an up and down direction; And
A control unit 800 connected to the air supply unit 700 to adjust an impact amount of the hammer 300; Impact test apparatus comprising a.
The method of claim 1,
The impact test apparatus 1000 is
A plurality of position sensors 210 are provided in the height direction of the guide tube 200, the impact control device, characterized in that the control unit 800 is interlocked with the position sensor 210.
The method of claim 2,
The upper support portion 400 is an impact test device, characterized in that the impact relief unit 430 is provided around the hollow portion 401 is provided with the contact plate 500.
The method of claim 3,
The impact test apparatus 1000 is provided with a safety sensor for detecting that the contact plate 500 is raised above a predetermined height by the impact of the hammer 300, the control unit 800 is interlocked with the safety sensor Impact test apparatus, characterized in that.
The method of claim 1,
The air supply unit 700 is a shock test device, characterized in that further provided with a filter 740 for removing foreign matter in the air.
The method of claim 1,
The impact test apparatus 1000 is
The impact test apparatus, characterized in that the ladder 410 and the handrail 420 is formed on the upper circumference of the ladder, the operator can climb on one side of the upper support (400).
The method according to any one of claims 1 to 6,
The impact test apparatus 1000 is an impact test apparatus, characterized in that the display unit 900 for displaying the overall state is provided.

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