KR20130007716A - Environmental test fixture for vertical-launching-system-launched missle - Google Patents

Abstract

PURPOSE: An environmental test jig for a guided missile mounted at a VLS(Vertical Launching System) is provided to form a main frame into a triangular beam truss structure so that vibration and impact amplitude on the upper part of the environmental test jig are minimized. CONSTITUTION: An environmental test jig for a guided missile mounted at a VLS comprises a main frame(10) of a beam truss structure, a lower frame(30), and an upper frame(20). The main frame is installed in the upper part of the testing machine, is vertically arranged, and supports the received guided missile. The width of the main frame becomes narrow to the upper side. The lower frame is installed on the top surface and fixes the lower end portion of the guided missile. The upper frame is installed in the upper part of the main frame and a position of the upper frame is longitudinally and horizontally adjusted. The upper frame supports an upper end portion of the guided missile.

Description

Environmental test fixture for guided missiles mounted on a vertical launching platform {Environmental Test Fixture for Vertical-Launching-System-launched Missle}

The present invention relates to an environmental test fixture for guided missiles mounted on a vertical launching platform for fixing guided missiles to perform environmental tests such as vibration and impact tests on guided missiles fired from a vertical launching platform mounted on a ship. Environmental test fixture for guided missiles equipped with vertical launchers to simulate the support structure between vertical launchers and to conduct environmental tests such as vibration and shock tests while holding guided missiles mounted vertically on the test site with vertical constraints easily and stably It is about.

In general, the conventional missile launcher installed in the ship has a structure in which one missile is loaded in one launcher, but it is not easy to reload the missile and time loss occurs when turning toward the target during the missile launch. Recently, vertical launching systems (VLS) have been mainly used as guided missile launchers.

These vertical launchers are equipped with guided missiles with the guided missiles in a vertical position, and the missiles are launched in the vertical direction when they are fired, and then change their direction in the air to face the target. In addition, the vertical launch platform is divided into a plurality of compartments called 'cells', and each of the vertical launching missiles is loaded with one vertical launching missile and supported by a restraint device provided in each cell.

However, since the vertical launch guided missile is subjected to various vibrations and impacts generated during the ship operation while being supported by the cell of the vertical launch platform, it is necessary to confirm whether safety can be ensured even under such an external environment. Accordingly, a test is conducted to determine whether the vertical launch guided missile has sufficient durability against ship vibration and shock while being supported by the cell of the vertical launch platform. Such vibration and impact test is called an environmental test.

In environmental tests such as vibration and impact tests, vibration and shocks are applied to guided missiles by using test equipment called 'vibrators'. However, due to the limitations of the test equipment's performance and laboratory space, unless the environmental tests are carried out in actual ships, vibration and shocks may be applied to the entire vertical launcher while the guided missile is loaded on the vertical launcher. It is almost impossible to carry out environmental tests. Accordingly, the environmental test fixture, which is a device that simulates the structure in which the missile is supported on the vertical launching platform, is separately designed and manufactured to conduct the environmental test of the missile. However, if the separately designed and tested environmental test fixture incorrectly simulates the supporting structure between the vertical launching missile and the cell of the vertical launching platform, the dynamic characteristics of the missile are changed and the accurate environmental test cannot be performed. If weak, the environmental test fixture itself is shaken in environmental tests such as vibration and impact tests, and more severe vibrations and shocks are applied to guided missiles than the original test standard. Therefore, special care is required in the design and manufacture of environmental test fixtures for guided missiles.

In general, in environmental tests such as vibration and impact tests on guided missiles, it is ideal to apply vibrations and impacts of the same amplitude and phase to each support of the missile as specified in the test standard.

However, it is not easy to apply vibrations and shocks of the same amplitude and phase to all supports in environmental tests of large structures such as missiles. This means that the larger the size of the test object, the larger the size of the environmental test fixture, and the larger the size of the test object. In addition, the environmental test fixture is deformed in the environmental test such as vibration and impact tests. Because it is amplified.

If the environmental test fixture itself is deformed in one part and the vibration and shock are amplified, the vibration and impact of the test standard or more is applied to the test object, thereby performing a harsher environmental test than the test standard.

In contrast, in actual ships, each support of the missile is fixed to the vertical launch platform, and the vertical launch platform is fixed to the rigid trap structure, so that the amplification of the vibration and shock caused by the deformation of the environmental test fixture as in the environmental test performed at the test site Rarely occurs. That is, in the actual ship, the vertical launcher for supporting the missile is hardly deformed, so that the same level of vibration and impact is applied to the upper support and the lower support of the vertical missile.

Accordingly, in most cases, environmental test fixtures, such as vibration and impact tests, are conducted by designing and manufacturing environmental test fixtures for only a portion of guided missiles without simulating the supporting structure between the vertically launched missiles and the cells of the vertical launchers. There was a problem with the accuracy and reliability of the test.

That is, the conventional environmental test fixture for guided missiles is intended to be a subassembly (referred to as 'complete coal' or 'basic coal'), not an entire guided coal assembly (referred to as 'charging coal') to be inserted into a cell of a vertical launching platform. However, there is a problem in that the support structure between the vertical launch cell and the missile cannot be accurately simulated.

The present invention has been made to solve the above-mentioned conventional problems, the support between the cell of the vertical launching platform and the vertical launching missile so as to be similar to the support structure of the whole missile assembly (loading coal) in the state of being loaded into the actual vertical launching cell. The purpose of this study is to provide an environmental test fixture for guided missiles equipped with a vertical launching platform to improve the accuracy and reliability of the results of environmental tests such as vibration and impact tests by simulating the structure.

In addition, the present invention is the lower frame for supporting the lower portion of the missile missile is formed in a fixed structure and the upper frame for supporting the upper portion of the missile is capable of position adjustment in front and rear left and right by vibration and shock test in a state in which the missile is completely vertical The main frame has a triangular beam truss structure to minimize the vibration and shock amplification on the upper part of the environmental test fixture, so that the same level of vibration and impact is applied to the upper support and the lower support of the vertical firing missile. To provide an environmental test fixture for guided missiles equipped with vertical launchers.

In addition, an object of the present invention is to provide an environmental test fixture for guided missiles mounted on a vertical launching table to facilitate the installation of guided missiles by forming a main frame in a multistage structure and / or a left and right divided structure.

In addition, an object of the present invention is to provide an environmental test fixture for a guided missile equipped with a vertical launching platform so that the lower frame can firmly support the lower end of the missile using a latch inserted into the groove of the missile.

In addition, an object of the present invention is to provide an environmental test fixture for a vertical launch pad mounted guided missile so that when the clasp is assembled, the position and direction of the clasp are not misaligned so that the latch can be accurately coupled to the groove of the guided missile.

In addition, the present invention is to support the upper end of the missile using the structure of the upper frame that can move back and forth and left and right according to the center position of the missile, by mounting a vertical launcher to accurately set the position of the upper end of the missile through the position adjustment of the upper frame The objective is to provide environmental test fixtures for guided missiles.

The present invention for achieving the above object is, the main frame of the beam truss structure is installed on the upper side of the test apparatus and accommodated therein to support vertically arranged missiles and the width narrower toward the upper side; A lower frame fixed to an upper surface of the test apparatus to fix a lower end of the missile; And an upper frame installed at an upper side of the main frame so as to be adjustable in front, rear, left and right and supporting an upper end of the missile.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launch platform of the present invention, the main frame is made of a multi-stage structure, each stage is characterized by having a structure that is separated and combined with each other.

In addition, according to the environmental test fixture for the guided missile mounted vertical launch pad of the present invention, the main frame is characterized in that it has a structure that is separated and coupled to the left and right.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launch platform of the present invention, the lower frame is a bottom plate fixed to the upper surface of the test apparatus, a vertical frame installed vertically fixed to the bottom plate, and the vertical frame It is installed at each corner of the hook-shaped hook portion is inserted into the fixing groove provided in the missile, characterized in that it comprises a clasp for fixing the lower end of the missile and a clasp assembly bolt for fixing thereof.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launch platform of the present invention, the lower frame is characterized in that it further comprises a latch guide block is installed in the vertical frame to guide the movement of the latch.

Further, according to the environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention, the upper frame is a support plate which is horizontally movable above the main frame, and the direction of movement of the support plate from the outside of the square hole formed in the support plate. Four support blocks installed on the support plate so as to be horizontally moved in a direction orthogonal to each other and are inclined outwardly on the inner side thereof, and are installed at both ends of two support blocks facing each other among the support blocks, respectively. It characterized in that it comprises an auxiliary support for fixing.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launch pad of the present invention, the support plate is provided with a plurality of long holes in the same direction to move in the horizontal direction; The support block is provided with a plurality of long holes in the direction orthogonal to the long holes of the support plate so as to be horizontally moved in a direction orthogonal to the moving direction of the support plate, the long holes are two first to be installed in parallel with the moving direction of the support plate It is formed in the width direction of the support block, characterized in that formed in the longitudinal direction on the two second support blocks that are installed orthogonal to the moving direction of the support plate.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention, a rubber member is attached to an upper portion of the guided coal in contact with the inner surface of the support block.

The environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention simulates the support structure between the actual vertical launchers installed in the ship and the vertical launching missile, thereby improving accuracy and reliability of the results of environmental tests such as vibration and impact tests. There is an effect to improve.

In addition, according to the environmental test fixture for guided missile mounted vertical launching platform of the present invention, the lower frame for supporting the lower end of the missile is formed of a fixed structure, and the upper frame for supporting the upper end of the missile is configured to be adjustable back and forth, left and right, Environmental tests such as vibration and impact tests are conducted with the missile fully upright, and the main frame has a triangular beam truss structure to minimize vibration and shock amplification on the upper part of the environmental test fixture. The same level of vibration and shock is applied to the effect.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention, since the main frame is formed of a multi-stage structure and / or left and right split structure, the guided missiles are vertically lifted vertically without being inserted into the vertical launchers as in an actual trap. As it can be assembled as it is in an upright state, there is an effect of facilitating the installation of guided coal.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention, since the lower cladding is provided with the same latches provided on the actual vertical launching platform, it is inserted into the groove of the guided missile, so that the lower end portion of the guided missile is as firmly as in the actual trap. There is an effect to be supported.

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention, since the latch guide block is provided, the position and direction of the clasp are not misaligned when the clasp is assembled, so that the clasp is correctly coupled to the groove of the missile. .

In addition, according to the environmental test fixture for guided missiles mounted on the vertical launching platform of the present invention, since the position of the upper frame is adjusted by using a support plate movable in a horizontal direction and a support block movable in a direction orthogonal thereto, the center position of the upper frame. The position of the upper end of the missile can be accurately set by adjusting the relative position of the center position of the missile.

1 is a perspective view of an environmental test fixture for a guided missile mounted vertical launching platform according to the present invention.
Figure 2 is a cross-sectional view of a state where the guided missile is installed in the environmental test fixture for guided missile mounted vertical launching platform of the present invention.
Figure 3 is a schematic diagram showing the structure of the main frame which is the main component of the present invention.
Figure 4 is a prototype photograph of the upper frame of the main component of the present invention.
5 is an exploded view of the upper frame;
6 is a plan view of the upper frame;
7 is a prototype photograph showing the assembly form of the upper frame.
8 is a conceptual view of a missile support using the upper frame.
9 is a prototype photograph of the lower frame of the main component of the present invention.
10 is a plan view of the lower frame;
11 is a prototype photograph showing the clasp portion of the lower frame.
12 is a prototype photograph showing an inner portion of a lower frame.

Hereinafter, with reference to the accompanying drawings illustrating an environmental test fixture for a guided missile mounted vertical launch platform of the present invention.

The environmental test fixture for the guided missile equipped with the vertical launcher according to the present invention, as shown in FIGS. 1 and 2, is installed on the upper side of the test apparatus 40 and vertically disposed to support the guided coal 50 accommodated therein and to the upper side. A main frame 10 having a beam truss structure that is narrower in width; A lower frame 30 installed on an upper surface of the test apparatus 40 to fix a lower end of the missile 50; And an upper frame 20 installed on the upper side of the main frame 10 so as to be adjustable in front, rear, left and right and supporting the upper end of the missile 50.

Here, the main frame 10 is made of a multi-stage structure, as shown in Figure 3, each stage preferably has a structure that is separated and combined with each other. In addition, the main frame 10 is formed in a structure divided into a left frame portion (A portion) and a right frame portion (B portion), so as to be separated and combined from side to side. That is, it has a three-stage structure consisting of the first end (11a, 11b), the second end (12a, 12b) and the third end (13a, 13b) in the vertical direction, while the left frame portion (A) in the left and right directions Part) and the right frame part (B part) to be divided into six small structures, and the main frame 10 is configured by their assembly.

9 and 12, the bottom frame 31 is fixed to an upper surface of the test apparatus 40, and the bottom frame 30 is vertically installed and fixed to the bottom plate 31. A frame 32, a reinforcing frame 33 installed at right angles to the vertical frame and fixed to the bottom plate, and a hook-shaped hook portion respectively installed at corners of the vertical frame 32 and hooked to the guided coal 50. The clasp 35 inserted into the fixing groove provided to fix the lower end of the guided missile 50, the clasp assembly bolt 36 for fixing the cap, and the vertical frame 32 are installed on the clasp 35. And a latch guide block 34 for guiding movement.

In addition, as illustrated in FIGS. 4 to 8, the upper frame 20 includes a support plate 21 installed on the upper side of the main frame 10 so as to be movable horizontally, and a square hole formed in the support plate 21. Four support blocks 22 which are installed on the support plate 21 so as to be horizontally moved in a direction orthogonal to the moving direction of the support plate 21 from the outside and formed to be inclined outward on the inner side thereof, and among the support blocks 22 It is provided on each of the two ends of the support block facing each other comprises an auxiliary support 23 for fixing the position of the support block 22.

In addition, in order to allow the upper frame 20 to move in the left and right directions with respect to the main frame, a plurality of long holes 21 ′ in the same direction are formed in the support plate 21 to move in the horizontal direction. In addition, the support block 22 is formed with a plurality of long holes 22 'in a direction orthogonal to the long holes 21' of the support plate 21 so as to be horizontally moved in a direction orthogonal to the moving direction of the support plate 21. do.

Specifically, the long hole 22 'is formed in the width direction in the two first support blocks 22b installed in parallel with the moving direction of the support plate 21, and is perpendicular to the moving direction of the support plate 21. The two second support blocks 22a to be installed are formed in the longitudinal direction. In addition, a rubber member 24 is attached to the upper portion of the missile 50 in contact with the inner surface of the support block 22.

The environmental test fixture for guided missiles mounted on the vertical launching table of the present invention configured as described above is capable of testing the effects of acting on the guided missiles by vibration or shock generated from a ship in flight by structurally simulating only one cell of the vertical launching platform. To help.

After installing the lower frame 30 on the upper surface of the test device 40, such as a vibrator table for the environmental test for the vertical firing missile 50, the main frame 10 is installed and the missile is assembled, The upper frame 20 is installed above the main frame 10. At this time, the main frame 10 is installed on one side of the left frame portion (A portion) and the right frame portion (B portion) first, and then installed in a manner of assembling the other side after the guided coal 50 is assembled.

That is, after installing the lower frame 30 on the upper surface of the test device 40, the first stage 11a of the left side of the main frame 10 is installed, and the left two stages 12a and the left three stages thereon. Installation of the said left frame part (part A) is completed by assembling 13a sequentially. Then, the guided coal 50 is slightly lifted and assembled to the lower frame 30, and then the right first stage 11b, the right two stages 12b, and the right three stages 13b of the main frame 10 are mounted. By assembling one by one, the installation of the right frame part (B part) is completed. Subsequently, the main frame 10 is completed by assembling the left frame part A and the right frame part B together. Of course, the right frame part (B part) is first installed, then the missile 50 is assembled, and then the left frame part (A part) is installed, and the left frame part (A part) and the right frame part (B). ) May be assembled with each other.

When assembling the missile 50 to the lower frame 30, the latches 35 respectively provided at four corners of the vertical frame 32 are pushed into the fixing grooves of the missile 50 to prevent the Fix the bottom part. At this time, the position, shape and material of the clasp 35 should be the same as that of the clasp provided in the actual vertical launcher installed in the trap. However, the four clasps provided on the actual vertical launch platform are assembled in cooperation with each other, but the four clasps 35 installed on the lower frame 30 are assembled individually. Thereafter, the clasp assembly bolt 36 is inserted into and fastened to the clasp 35 to fix the clasp 35 to the vertical frame 32, and the clasp guide block 34 mounted to the vertical frame 32. The position and direction of the clasp 35 is not misaligned in the process of assembling the clasp 35.

On the other hand, the reason why the main frame 10 is divided into floors and left and right is to avoid lifting the guided coal 50 in order to assemble the environmental test fixture. When the vertical launching missile is loaded on the vertical launching platform installed in the ship, the vertical launching missile is vertically lifted up and inserted into the cell of the vertical launching platform. You will need a ceiling and a crane. Therefore, in the present invention, the main frame 10 is separated into layers and left and right so as not to cause such a problem. Accordingly, it is possible to assemble the environmental test fixture as it is, while standing vertically to the test apparatus 40 without lifting the guided coal 50 high.

When the assembling of the main frame 10 is completed, the upper frame 20 is assembled to the upper side of the main frame 10 to support the upper portion of the missile 50. At this time, since the support plates 21 and the support blocks 22 constituting the upper frame 20 are formed with long holes 21 'and 22' orthogonal to each other, the support plate 21 and the support block 22 are respectively formed. By adjusting the position of the) it is possible to adjust the relative position with respect to the center of the missile 50 and the center of the upper frame 20. That is, the support plate 21 and the support block 22 in the process of assembling the support plate 21 on the upper surface of the main frame 10 and assembling the four support blocks 22 on the support plate 21. It is to adjust the position using the long holes (21 ', 22') formed in each. And when assembling the support block 22 is configured to press the rubber member 24 attached to the upper side of the missile 50 using the inclined inner surface.

The assembly process of the upper frame 20 will be described in more detail as follows.

First, the support plate 21 is assembled to the upper surface of the main frame 10. At this time, the position of the support plate 21 is adjusted so that the center of the support plate 21 coincides with the center of the guided coal 50 in the long hole direction by using the long hole 21 'of the support plate 21. In addition, while assembling the second support block (22a) that is installed orthogonal to the moving direction of the support plate 21 to the support plate 21, and assembled to compress the rubber member attached to the upper side of the missile 50 In order to prevent the second support block 22a from being pushed by the rubber member 24, the second support block 22a is supported by the auxiliary support 23.

Subsequently, the first support block 22b installed in parallel with the moving direction of the support plate 21 is assembled to the support plate 21 and the second support block 22a, and the first support block 22b is also The rubber member 24 is assembled to be compressed. In this case, the supporting blocks 22a and 22b may be formed so that the centers of the supporting blocks 22a and 22b coincide with the centers of the missile 50 in the long hole direction. 22a, 22b) is adjusted.

As such, the support plate 21 is horizontally moved so that the center of the missile 50 and the center of the support plate 21 coincide with each other, and the center of the missile 50 is coincided with the center of the support block 22. Since the positions of the support blocks 22a and 22b are horizontally moved in a direction orthogonal to the moving direction of the support plate 21, the center positions of the guided bombs 50 can be accurately set.

Therefore, it is possible to fix the upper end of the missile 50 to maintain the vertical state of the missile 50 by using the upper frame 20, the test in a state that the assembly of the upper frame 20 is completed Environmental tests such as vibration and shock tests are performed using the device 40.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Changes will be possible.

10: main frame
11a: left first stage 11b: right first stage
12a: left two stages 12b: right two stages
13a: left three stages 13b: right three stages
Part A: Left frame part B: Right frame part
20: upper frame
21: support plate 21 ': longevity
22 (22a, 22b): support block 22 ': long hole
23: auxiliary support 24: rubber member
30: lower frame
31: bottom plate 32: vertical frame
33: reinforcement frame 34: latch guide block
35: Clasp 36: Clasp Assembly Bolt
40: test apparatus
50: missile

Claims (8)

A main frame of a beam truss structure installed at an upper side of the test apparatus 40 and vertically arranged to support the missile 50 accommodated therein and to be narrowed toward an upper side thereof;
A lower frame 30 installed on an upper surface of the test apparatus 40 to fix a lower end of the missile 50;
Environmental test fixture for a vertical launcher mounted guided bomb, characterized in that it comprises a; upper frame 20 to be installed in the upper side of the main frame 10 to adjust the position in front, rear, left and right to support the upper end of the missile 50 . The method of claim 1,
The main frame 10 is made of a multi-stage structure, each stage is an environmental test fixture for a guided missile mounted vertical launch pad, characterized in that the structure has a structure that is separated and combined with each other. The method according to claim 1 or 2,
The main frame 10 is an environmental test fixture for a guided missile mounted vertical launch pad, characterized in that it has a structure that is separated and coupled to the left and right. The method of claim 1,
The lower frame 30 may include a bottom plate 31 fixed to an upper surface of the test apparatus 40, a vertical frame 32 installed vertically and fixed to the bottom plate 31, and the vertical frame ( 32, each of which is installed at the corner of the hook-shaped hook portion is inserted into the fixing groove provided in the missile 50, the latch 35 for fixing the lower end of the missile 50, and the latch bolt for fixing the ( Environmental test fixture for guided missile mounted vertical launch platform, characterized in that it comprises a 36). 5. The method of claim 4,
The lower frame 30 is installed on the vertical frame 32, the environmental test fixture for guided missiles, characterized in that it further comprises a latch guide block 34 for guiding the movement of the clasp (35). The method of claim 1,
The upper frame 20 may include a support plate 21 installed on the upper side of the main frame 10 so as to be movable horizontally, and a direction of movement of the support plate 21 outside the square hole formed in the support plate 21. Four support blocks 22 installed on the support plate 21 so as to be horizontally movable in an orthogonal direction and formed to be inclined outward on an inner surface thereof, and on both ends of two support blocks facing each other among the support blocks 22, respectively. Environmental test fixture for a guided missile mounted vertical launch pad, characterized in that it comprises an auxiliary support 23 is installed to fix the position of the support blocks (22). The method according to claim 6,
The support plate 21 is formed with a plurality of long holes 21 'in the same direction so as to move in the horizontal direction,
A plurality of long holes 22 'are formed in the support block 22 in a direction orthogonal to the long holes 21' of the support plate 21 so as to be horizontally moved in a direction orthogonal to the moving direction of the support plate 21. The long hole 22 'is formed in the width direction in two first support blocks 22b installed in parallel with the moving direction of the support plate 21, and is installed perpendicular to the moving direction of the support plate 21. Two second support block (22a) is an environmental test fixture for a guided missile mounted vertical launch pad, characterized in that formed in the longitudinal direction. 8. The method according to claim 6 or 7,
An environmental test fixture for a guided missile mounted on a vertical launcher, characterized in that a rubber member (24) is attached to an upper portion of the guided coal (50) in contact with the inner surface of the support block (22).

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