CN116608742A - Test equipment - Google Patents

Abstract

The application discloses a test device, comprising: the target frame comprises a target frame panel and a plurality of adjusting assemblies, wherein the target frame panel is connected with the plurality of adjusting assemblies and is used for bearing a target plate; the adjusting directions of the adjusting assemblies are different and are used for adjusting the three-dimensional angle of the target frame panel in the three-dimensional space so as to drive the target plate on the target frame panel to change the target landing angle relative to the test body; the target plate is arranged on the first surface of the target frame panel and is used for shooting the test body at different shooting angles so as to fix the test body at a shooting position corresponding to the shooting of the test body on the target plate; the target board pressing plate is arranged on the first surface of the target frame panel and used for fixing the target board, a shooting hole is formed in the target board pressing plate, and the shooting hole corresponds to at least part of the area of the target board and is used for enabling the test body to pass through so as to shoot on the target board.

Description

Test equipment

Technical Field

The application relates to test equipment, which is applied to the field of dynamic test or ammunition power test.

Background

The penetration armor-piercing problem is one of hot spots studied by various nationists, and asymmetric load in the oblique penetration process enables the projectile body to generate a bent penetration trajectory, so that penetration power and striking effect of the kinetic energy projectile are greatly weakened; in the field of three-dimensional testing of oblique penetration multilayer target projectile paths, initial landing conditions such as different penetration angles, attack angles, landing speeds and the like of projectile are involved, dynamic testing such as motion parameter extraction, penetration trajectory analysis and the like are carried out before and after a kinetic energy penetration body impacts a target plate, therefore, a multi-degree-of-freedom testing device is required to be designed so as to meet the moving freedom degree and the rotating freedom degree of X, Y, Z three-dimensional coordinate axis directions, and the corresponding different initial conditions are adjusted in a self-adaptive mode.

Disclosure of Invention

In view of this, it is desirable for an embodiment of the present application to provide a test apparatus including:

the target frame comprises a target frame panel and a plurality of adjusting assemblies, wherein the target frame panel is connected with the plurality of adjusting assemblies and is used for bearing a target plate; the adjusting directions of the adjusting assemblies are different and are used for adjusting the three-dimensional angle of the target frame panel in the three-dimensional space so as to drive the target plate on the target frame panel to change the target landing angle relative to the test body;

the target plate is arranged on the first surface of the target frame panel and is used for shooting the test body at different shooting angles so as to fix the test body at a shooting position corresponding to the shooting of the test body on the target plate;

the target board pressing plate is arranged on the first surface of the target frame panel and used for fixing the target board, a shooting hole is formed in the target board pressing plate, and the shooting hole corresponds to at least part of the area of the target board and is used for enabling the test body to pass through so as to shoot on the target board.

In the above scheme, the test equipment includes a plurality of target board clamp plate and a plurality of target board, a plurality of the target board is fixed each other between the clamp plate, and follows the first surface direction interval setting of target frame panel is formed with the accommodation space between two adjacent target board, every in the accommodation space be used for holding one the target board.

In the above aspect, the plurality of adjusting components include:

the first adjusting assembly comprises an adjusting base, and a plurality of first sliding grooves are formed in the first surface of the adjusting base along the circumferential direction of the adjusting base;

the second adjusting assembly comprises an adjusting platform, wherein the first surface of the adjusting platform is used for bearing the target frame panel, and a plurality of second sliding grooves are formed in the first surface of the adjusting platform; the second surface of the adjusting platform is provided with a plurality of first sliding columns, and the first sliding columns are arranged in the first sliding grooves and are in sliding connection with the first sliding grooves;

the first support plate and the second support plate are respectively vertically arranged on two sides of the target frame panel, the adjusting rod is arranged on the target frame panel, one end of the adjusting rod is in sliding connection with the third sliding groove in the first support plate, and the other end of the adjusting rod is in sliding connection with the third sliding groove in the second support plate;

the sliding directions of the first sliding grooves, the second sliding grooves and the third sliding grooves are different.

In the above scheme, a plurality of first through holes are formed along the side wall of the target frame panel, and the plurality of first through holes respectively correspond to a plurality of third sliding grooves on the first supporting plate and the second supporting plate; the adjusting rod passes through the first through hole and is respectively connected with third sliding grooves on the first supporting plate and the second supporting plate in a sliding way;

the bottom of the target plate panel is provided with a plurality of second slide columns, and the second slide columns are arranged in the second slide grooves and are in sliding connection with the second slide grooves.

In the above scheme, the target frame panel is provided with a plurality of second through holes, and the target plate pressing plate are connected with the target frame panel through the second through holes.

In the above scheme, the test device further includes:

and the test platform is connected with the target frame and used for bearing the target frame.

In the above scheme, the test device further includes:

the gun rack is arranged on the first side of the test platform and used for bearing a ballistic gun, and the distance requirement between the gun rack and the test platform is met;

a ballistic gun having a muzzle corresponding to the target plate for launching the test body.

In the above scheme, the test device further includes:

and the recovery device is arranged at the second side of the test platform and is used for recovering the test body.

In the above scheme, be provided with fourth adjusting part on the recovery unit, fourth adjusting part is used for adjusting recovery unit is relative the position of putting of test platform.

In the above scheme, the test device further includes:

the image acquisition device is arranged on the third side of the test platform and is used for acquiring frame images in the process that the test body impacts the target plate, and the frame images are used for determining the emission speed in the process that the test body impacts the target plate.

According to the testing equipment provided by the application, the target frame with various angles is arranged, so that the three-dimensional angle adjustment can be performed on the target frame panel, the requirement of multi-angle testing on a tested body in the three-dimensional testing field is met, and different targeting conditions corresponding to the tested body can be adjusted in a self-adaptive manner.

Drawings

FIG. 1 is a schematic diagram showing the structural components of a test apparatus according to the present application;

FIG. 2 is a schematic diagram showing the structural components of the test apparatus according to the present application.

Detailed Description

The technical scheme of the application is further elaborated below by referring to the drawings in the specification and the specific embodiments.

Various combinations of the features described in the embodiments may be performed without contradiction, for example, different embodiments may be formed by combining different features, and various possible combinations of the features in the present application are not described further to avoid unnecessary repetition.

In describing embodiments of the present application, unless otherwise indicated and limited thereto, the term "connected" should be construed broadly, for example, it may be an electrical connection, or may be a communication between two elements, or may be a direct connection, or may be an indirect connection via an intermediate medium, and it will be understood by those skilled in the art that the specific meaning of the term may be interpreted according to circumstances.

It should be noted that, the term "first\second\third" related to the embodiment of the present application is merely to distinguish similar objects, and does not represent a specific order for the objects, it is to be understood that "first\second\third" may interchange a specific order or sequence where allowed. It is to be understood that the "first\second\third" distinguishing objects may be interchanged where appropriate such that embodiments of the application described herein may be practiced in sequences other than those illustrated or described herein.

FIG. 1 is a schematic diagram of a first structural component of the test apparatus according to the present application, and FIG. 2 is a schematic diagram of a second structural component of the test apparatus according to the present application; as shown in fig. 1 to 2, the test apparatus includes: the target frame 10, the target plate 20 and the target plate pressing plate 30, wherein the target frame 10 comprises a target frame panel 101 and a plurality of adjusting assemblies 102, and the target frame panel 101 is connected with the plurality of adjusting assemblies 102 and used for bearing the target plate 20; the adjusting directions of the adjusting assemblies 102 are different, so as to adjust the three-dimensional angle of the target frame panel 101 in the three-dimensional space, so as to drive the target plate 20 on the target frame panel 101 to change the landing angle relative to the test body.

The fixing manner between the target plate 20 and the target frame panel 101 is not limited, and for example, the target plate 20 may be fixed to the target frame panel 101 by bolts, may be fixed to the target frame panel 101 by snaps, or may be fixed to the target frame panel by magnetic attraction.

In the present application, the target board 20 is disposed on the first surface of the target frame panel 101, and is used for the test body to shoot at different shooting angles, so as to fix the test body at the shooting position corresponding to the shooting position of the target board 20.

The target board pressing board 30 may also be disposed on the first surface of the target frame panel 101, for fixing the target board 20, where the target board pressing board 30 has a firing slot 301, and the firing slot 301 corresponds to at least a partial area of the target board 20, and is used for passing the test body to fire on the target board 20.

Here, the plurality of adjustment assemblies 102 includes: a first adjustment assembly 102A, a second adjustment assembly 102B, and a third adjustment assembly 102C, wherein the first adjustment assembly 102A has a first surface, and a plurality of first sliding grooves 102A1 are formed along a circumferential direction of the first surface; the second adjusting component 102B is disposed on the first adjusting component 102A and connected to the first adjusting component 102A; the second adjusting component 102B has a first surface and a second surface that are disposed opposite to each other, wherein the first surface is used for carrying the target frame panel 101, and a plurality of second sliding grooves 102B1 are formed in the first surface of the second adjusting component 102B, and the sliding directions of the second sliding grooves 102B1 and the first sliding grooves 102A1 are different. For example, the first chute 102A1 may rotationally slide along the Z-axis direction, and the second chute 102B1 may slide along the X-axis direction.

Here, the second surface of the second adjusting component 102B further has a plurality of first sliding posts 102B2, and the plurality of first sliding posts 102B2 are disposed in the plurality of first sliding grooves 102A1 and slidably connected to the plurality of first sliding grooves 102 A1. The third adjusting component 102C is disposed on the second adjusting component 102B, the third adjusting component 102C includes a first supporting plate 102C1, a second supporting plate 102C2 and an adjusting rod 102C3, wherein a plurality of third sliding grooves 102C4 are respectively formed in the first supporting plate 102C1 and the second supporting plate 102C2, the sliding ranges of the third sliding grooves 102C4 are different, the first supporting plate 102C1 and the second supporting plate 102C2 are respectively vertically disposed on two opposite sides of the target frame panel 101, the adjusting rod 102C3 is disposed on the target frame panel 101, one end of the adjusting rod 102C3 is slidably connected with the third sliding groove 102C4 on the first supporting plate 102C1, and the other end of the adjusting rod 102C3 is slidably connected with the third sliding groove 102C4 on the second supporting plate 102C 2.

Here, the sliding directions of the third sliding groove 102C4, the second sliding groove 102B1, and the first sliding groove 102A1 may be different.

As shown in fig. 2, the first adjustment assembly 102A may be a circular swivel adjustment base. The second adjustment assembly 102B may be an adjustment platform having an angle of inclination; the third adjustment assembly 102C may be a side support bracket with angular adjustment.

In the present application, a plurality of first through holes 1011 may be further formed along the side wall of the target frame panel 101, and the plurality of first through holes 1011 respectively correspond to the plurality of third sliding grooves 102C4 on the first support plate 102C1 and the second support plate 102C 2; the adjusting rod 102C3 passes through the first through hole 1011 and is respectively connected with the first support plate 102C1 and the third chute 102C4 on the second support plate 102C2 in a sliding manner. Here, the bottom of the target board panel 101 may further have a plurality of second sliding posts 1012, and the plurality of second sliding posts 1012 are disposed in the plurality of second sliding grooves 102B1 and slidably connected to the plurality of second sliding grooves 102B 1.

According to the testing equipment provided by the application, the rotation angle of the target frame panel along the Z-axis direction can be adjusted through the first adjusting component, the height of the target frame panel and the distance and the height of the target plate on the target frame panel can be adjusted through the second adjusting component, and the inclination angle of the target frame panel along the X-axis can be adjusted through the third adjusting component, so that the testing requirements of a testing body on different targeting conditions in the three-dimensional field can be realized.

In the present application, a plurality of second through holes (not shown) are formed along the first surface direction of the target frame panel 101, and the target plate 20 and the target plate pressing plate 30 are connected to the target frame panel 101 through the second through holes.

Here, the connection relationship between the target 20, the target platen 30, and the target frame panel 101 is not limited, and may be, for example, a bolt connection, a snap connection, or the like, so as to facilitate the detachment and installation of the target 20, the target platen 30, and the target frame panel 101.

In the present application, the test apparatus may include a plurality of target board pressing boards 30 and a plurality of target boards 20, each target board pressing board 30 has a third through hole 302, the plurality of target board pressing boards 30 may be fixed to each other by bolts passing through the third through holes 302 and are disposed at intervals along the first surface direction of the target frame panel 101, and a receiving space may be formed between two adjacent target board pressing boards 30, and each receiving space may be used for receiving one target board 20.

Here, the second through holes on the target holder panel may be disposed corresponding to the third through holes.

The test equipment provided by the application not only can realize the installation of the multi-layer target plates, but also can realize the adjustment of the intervals among the multi-layer target plates, and can meet different test requirements of a test body under different target conditions such as continuous target attachment, spaced target attachment and the like.

In the present application, the test apparatus further comprises: and the test platform 40 is connected with the target frame 10, and the test platform 40 is used for bearing the target frame 10.

Here, the test platform 40 may be formed of a rigid material having a plurality of triangular structures for improving the stability of the test platform 40.

Here, a pulley (not shown) may be further provided at the bottom of the test platform 40, by which the current position of the test platform 40 may be adjusted so as to enable the test body to be more precisely impacted onto the target plate.

The type of the test body in the present application is not limited, and may be a bullet from a ballistic gun or a small-mass object such as a warhead fragment on a bullet. The ballistic gun may be part of the test apparatus or may be independent of the test apparatus, and may not be limited thereto. The test body can be matched with the bullet holder with matched size, and the bullet holder with matched size can achieve good air-tightness of the test body in the ballistic gun, so that more stable and controllable launching speed is obtained.

In the present application, the test apparatus may further include: a gun rack 50 and a ballistic gun 60, wherein the gun rack 50 is arranged on a first side of the test platform 40 and is used for bearing the ballistic gun 60, and the distance requirement between the gun rack 50 and the test platform 40 is met; the ballistic gun 60 has a muzzle 601, which muzzle 601 corresponds to the target plate 20 for launching the test body.

Here, the ballistic gun 60 can also control the launching speed of the test body, and can meet the launching requirements of the test bodies with different speeds.

In one example, the distance between the ballistic gun 60 and the target plate may be 600mm and the height from the ground may be 1155mm.

In the present application, the test apparatus further includes a recycling device (not shown) disposed on the second side of the test platform 40, for recycling the test body. For example, the recovery device may be disposed near the target plate so as to accurately recover the test body on the target plate.

Here, the recovery device may be a water tank, a water pool, a water bucket, and a liquid may be loaded in the water tank, and the liquid is used for buffering the impact speed of the test body, so as to prevent the test body from falling off from the target plate and causing secondary damage.

Here, a fourth adjusting assembly (not shown) may be further provided on the water tank for adjusting the placement position of the recovery device with respect to the test platform 40. For example, the fourth adjustment assembly may be a slide rail, a pulley, or the like.

The test equipment provided by the application can realize nondestructive recovery of the test body and reduce secondary damage of the test body by arranging the recovery device.

As shown in fig. 1 to 2, the test apparatus further includes an image capturing device (not shown) disposed on a third side of the test platform 40, for capturing frame images of the test body before and after the test body impacts the target plate during the emission process, so as to obtain a state change of the test body before and after the test body impacts the target plate.

Here, the image pickup device may be specifically a high-speed camera dedicated to photographing a fast moving object. The frame image is used for determining the movement distance and the movement path of the test body in preset time, and the emission speed of the test body in the process of impacting the target plate can be determined based on the movement distance and the movement path.

According to the testing equipment provided by the application, the adjusting assemblies with a plurality of adjusting angles are arranged, so that the moving freedom degree and the rotating freedom degree of the target frame panel in the direction of a X, Y, Z coordinate axis can be met, different initial conditions of target attachment of a corresponding testing body can be adjusted in a self-adaptive manner, and different testing requirements can be met; meanwhile, by arranging the multilayer target plate pressing plate, the rapid loading and unloading of the single-layer integral target, the multilayer continuous target or the multilayer interval target can be realized. The whole universal standardized design of the test equipment provided by the application is convenient to operate, and the test efficiency of the test body under different test conditions is obviously improved.

The above description is only a specific embodiment of the present application, but the scope of the present application is not limited thereto.

Claims (10)

1. A test apparatus, the test apparatus comprising:

the target frame comprises a target frame panel and a plurality of adjusting assemblies, wherein the target frame panel is connected with the plurality of adjusting assemblies and is used for bearing a target plate; the adjusting directions of the adjusting assemblies are different and are used for adjusting the three-dimensional angle of the target frame panel in the three-dimensional space so as to drive the target plate on the target frame panel to change the target landing angle relative to the test body;

the target plate is arranged on the first surface of the target frame panel and is used for shooting the test body at different shooting angles so as to fix the test body at a shooting position corresponding to the shooting of the test body on the target plate;

the target board pressing plate is arranged on the first surface of the target frame panel and used for fixing the target board, a shooting hole is formed in the target board pressing plate, and the shooting hole corresponds to at least part of the area of the target board and is used for enabling the test body to pass through so as to shoot on the target board.

2. The test apparatus of claim 1, wherein the test apparatus comprises a plurality of target board pressing plates and a plurality of target boards, the plurality of target board pressing plates are fixed with each other and are arranged at intervals along the first surface direction of the target frame panel, and a containing space is formed between two adjacent target board pressing plates, wherein each containing space is used for containing one target board.

3. The test apparatus of claim 1, wherein the plurality of adjustment assemblies comprises:

the first adjusting component is provided with a first surface, and a plurality of first sliding grooves are formed in the circumferential direction of the first surface;

the second adjusting assembly is arranged on the first adjusting assembly and is provided with a first surface and a second surface which are oppositely arranged, the first surface is used for bearing the target frame panel, and a plurality of second sliding grooves are formed in the first surface; the second surface is provided with a plurality of first sliding columns, and the first sliding columns are arranged in the first sliding grooves and are in sliding connection with the first sliding grooves;

the third adjusting assembly is arranged on the second adjusting assembly and comprises a first supporting plate, a second supporting plate and an adjusting rod, a plurality of third sliding grooves are respectively formed in the first supporting plate and the second supporting plate, the sliding ranges of the third sliding grooves are different, the first supporting plate and the second supporting plate are respectively and vertically arranged on two opposite sides of the target frame panel, the adjusting rod is arranged on the target frame panel, one end of the adjusting rod is in sliding connection with the third sliding grooves in the first supporting plate, and the other end of the adjusting rod is in sliding connection with the third sliding grooves in the second supporting plate;

the sliding directions of the first sliding grooves, the second sliding grooves and the third sliding grooves are different.

4. The test apparatus of claim 3, wherein a plurality of first through holes are formed along a sidewall of the target frame panel, the plurality of first through holes corresponding to a plurality of third sliding grooves on the first support plate and the second support plate, respectively; the adjusting rod passes through the first through hole and is respectively connected with third sliding grooves on the first supporting plate and the second supporting plate in a sliding way;

the bottom of the target plate panel is provided with a plurality of second slide columns, and the second slide columns are arranged in the second slide grooves and are in sliding connection with the second slide grooves.

5. The test apparatus of claim 1, wherein a plurality of second through holes are provided along the first surface direction of the target frame panel, the target plate and the target plate platen being connected to the target frame panel through the second through holes.

6. The test apparatus of claim 1, wherein the test apparatus further comprises:

and the test platform is connected with the target frame and used for bearing the target frame.

7. The test apparatus of claim 6, wherein the test apparatus further comprises:

the gun rack is arranged on the first side of the test platform and used for bearing a ballistic gun, and the distance requirement between the gun rack and the test platform is met;

a ballistic gun having a muzzle corresponding to the target plate for launching the test body.

8. The test apparatus of claim 6, wherein the test apparatus further comprises:

and the recovery device is arranged at the second side of the test platform and is used for recovering the test body.

9. The test apparatus of claim 8, wherein a fourth adjustment assembly is provided on the recovery device, the fourth adjustment assembly being configured to adjust a placement position of the recovery device relative to the test platform.

10. The test apparatus of claim 6, wherein the test apparatus further comprises:

the image acquisition device is arranged on the third side of the test platform and is used for acquiring frame images in the process that the test body impacts the target plate, and the frame images are used for determining the emission speed in the process that the test body impacts the target plate.