KR101887274B1 - Non-electric Delay/Pressure cartridge - Google Patents

Abstract

The non-electric type delay / pressure cartridge of the present invention separates the separation bundle (50) by using a high pressure generated when the explosive is burned without exploiting the explosive force generated when the explosive explosion occurs, and separates the wire rope (36) Since explosive shock waves and debris do not occur, it is possible to safely protect surrounding electronic equipment and sensitive sensors while safely protecting workers and surrounding structures.

Description

{Non-electric Delay / Pressure cartridge}

The present invention relates to a non-electric delay / pressure cartridge connected by a pull tube to a launch tube and connected by a wire rope to a tail gun tail wing and, more particularly, To a non-electric delay / pressure cartridge in which a wire rope constrained to a separation bundle can be separated by a high pressure generated in the combustion of a powder.

Generally, the missile is guided by the specific method until the target is reached. In normal operation, the missile is stored and moved to the launching tube. In this case, it is very important to arrange the guided missile into the launcher and separate it. Also, when transporting or operating the missile, it should be firmly and reliably restrained in the launcher tube so that the missile will not move by the external force. In case of launching the missile, it is quick, accurate and smoothly released. It should be launched with high and stable fire.

Although the bolt means was considered as a method for restraining and separating the guided car from the launch pipe, it is impossible to instantaneously separate the two mechanical parts as a usual bolt, so that a certain portion of the bolt is charged with the explosive force, Explosive bolts were developed to break up with shock waves.

An example of such a conventional explosive bolt is an explosion bolt of Korean Registered Patent No. 0084170. As shown in Fig. 1, this initial explosion bolt is provided with a detoxifying agent 3 and an explosion device 2 in the interior of the bolt body 1, and an electric signal is supplied to the detonator 2 through the lead wire 4 The explosion of the separating agent 3 is generated by the operation of the detonator 2 so that the bolt body 1 is separated along the separating line.

However, these initial explosive bolts have problems in that the shock wave is generated largely due to the impact of the explosive device (2) and the explosive, and the safety, reliability, and usability. To solve this problem, a corner cutting type explosive bolt using a pressure cartridge is developed.

As the edge cutting type explosion bolt, there is an explosion bolt of Korean Patent Registration No. 0294112. As shown in Fig. 2, this edge cutting type explosive bolt includes a bolt body 11, an explosion preventing means 13 detachably coupled to the bolt body 11, (14).

That is, when current is applied to the detonator 13, the detonator 14, which is asserted by the operation of the detonator 12, explodes, and the two detonators are momentarily separated.

The edge cutting type explosive bolt is suitable for preventing a safety accident caused by explosive explosion by separating the detonating means and the separating agent from the bolt body, and for facilitating the management.

However, such a corner cutting type explosive bolt has a problem that the shock wave is still largely generated by using the explosion device, and the moisture can not be reliably prevented, resulting in an operation failure state.

As another example of a conventional explosion bolt, there is a sleeve explosion bolt of Korean Patent Laid-Open Publication No. 2003-0066115.

3, the sleeve type explosive bolt includes a bolt body 20 having a cylindrical explosive device mounting portion 21, a bolt body 20 inserted into the explosive device mounting portion 21, A separating agent filled in the lower portion of the detachment means mounting portion 21 and an igniter 26 coupled to the tool holding portion 25 side of the bolt body 20 , The sleeve (23) and the igniter (26) are detachably coupled to the bolt body (20). A corner cutting portion 28 is formed between the screw portion 27 of the bolt body 20 and the bottom surface 29 of the explosive device mounting portion 21. [

When the electrical signal is applied to the igniter 26, the sleeve explosion bolt is ignited by the operation of the igniter 26, the charged gunpowder 24 is ignited, and the explosion bolt is separated do.

At this time, the shock wave generated in the operation of the explosion bolt concentrates on the corner cutting portion 28 of the explosion bolt, so that the explosion bolt is separated.

This sleeve type explosive bolt is very advanced compared to the initial explosive bolt, but it is not perfect yet. However, there is a problem that it is impossible to operate due to moisture penetration due to the fact that the separated explosive agent is not sealed, The separating agent 24 is prevented from being detached from the bolt body 20 even when the process of coupling the filled sleeve 23 and the igniter 26 is complicated and when the parts to be explosion- And there is a risk that a safety accident due to explosion is inherent.

In addition, since the conventional explosive bolts have a structure in which fragments are inevitably generated due to the breakage of the corners due to the explosion of the separating powder during operation, pyro shock is generated.

Therefore, since the explosion bolt according to the related art as described above is separated by cutting off (breaking principle) by explosive explosion, high-pressure shock wave generated at the time of explosion is transmitted fatal to surrounding electronic equipment or sensitive sensors, And the broken pieces due to the explosion impact not only adversely affect the performance of the guided car due to the collision with the guided car but also scattered to the workers and the surrounding structures, resulting in the risk of safety accidents.

It is an object of the present invention to solve the problems of the prior art, and it is an object of the present invention to provide a shock absorber capable of safely protecting surrounding electronic equipment and sensitive sensors by preventing explosion shock waves and debris from occurring, / RTI > and a non-electrical delay /

According to an aspect of the present invention, there is provided a non-electric delay / pressure cartridge, including: a pressure cartridge unit having a gun truck for generating a high-pressure gas by a gunpowder ignition after a delay of several seconds during operation; An assembly of the main assembly connected to the lower inner periphery of the cartridge part to ignite the powder gun train, a ball assembly coupled to the outside of the lower end of the pressure cartridge part and connected to the launch tube by a pulling string, A pair of left and right wire ropes connected to each other, and a separating block separating the pair of left and right wire ropes while the separating bundle is spaced apart from the upper and lower sides by a high pressure generated in the combustion of the powder cartridge in the pressure cartridge portion.

In another embodiment, a ring-shaped ring is installed at one end of the pulling string of the present invention so that the hole is connected to the inside of the assembly and the other end is connected to one side of the pouring tube.

According to another embodiment, the ball assembly of the present invention includes a body screwed to the lower end of the pressure cartridge portion, and a lower portion that is inserted into an inner lower portion of the body and passes through the left and right side surfaces of the body, A compression spring which is inserted and supported inside the body, a support which is supported by the upper end of the compression spring and is pulled by the pulling string and is pulled when the pulling string is cut And a ball which strikes the primer housing by the elastic force of the compression spring.

In another embodiment, the body of the present invention is provided with a pair of elongated holes formed at its middle height so that the pulling string is passed through the body and is guided to be moved in the vertical direction while being turned on, And a guide groove is formed at an outer surface which coincides with the pair of left and right elongated holes so that the pulling string is guided in a vertical direction and pulled to a predetermined depth.

According to another embodiment of the present invention, the blade of the present invention has a cylindrical shape with an open top, and a sharp blade portion is formed at an upper end of the blade so as to be easily cut when the pulling string is pulled by a constant force.

According to another aspect of the present invention, there is provided a slide fastener comprising: a slider having a center height at its center and guided by an inner circumferential surface of the body and slid vertically; a slider integrally protruding from a center of an upper surface of the slider, And a coupling surface formed integrally with a lower surface of the lower surface of the slider so as to be inserted into the upper end of the compression spring and having a tether hole for coupling the tether.

The non-electric delay / pressure cartridge of the present invention is a structure that can separate the wire rope connected to the tailgate tail wing while separating the separation bundle by using the high pressure generated when the explosive powder is burned without using the explosive force generated when explosive explosion occurs, Since shock waves and debris are not generated, it is possible to safely protect surrounding electronic equipment and sensitive sensors, and to protect workers and surrounding structures safely.

1 is a cross-sectional view of explosive explosion-type explosive bolts according to a first embodiment of the present invention,
FIG. 2 is a cross-sectional view of explosive explosion-type explosive bolts according to a second embodiment of the present invention,
3 is a cross-sectional view of explosive explosion type explosive bolt according to a third embodiment of the prior art,
4 is an exploded perspective view of a non-electric delay / pressure cartridge according to the present invention,
FIG. 5 is a perspective view of a non-electric delay / pressure cartridge according to the present invention,
Figure 6 is an engaging cross-sectional view of a non-electric delay / pressure cartridge in accordance with the present invention,
7 is a perspective view showing a state before the operation of the non-electric delay / pressure cartridge according to the present invention,
8 is a perspective view showing a state after the operation of the non-electric delay / pressure cartridge according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 4 to 8. FIG.

The non-electric type delay / pressure cartridge of the present invention includes a pressure cartridge section 30 having a gunpowder train 30a that generates a high-pressure gas by a gun powder combustion after a delay of several seconds during operation, A primer housing 32 screwed to the lower inner periphery of the pressure cartridge 30 to ignite the propellant train 30a and a ball screw assembly screwed to the outer periphery of the lower end of the pressure cartridge assembly 30 and connected to the launch tube by a pull cord 34 A separating bundle 50 which is screwed to the upper end of the pressure cartridge portion 30 and restrains a pair of right and left wire ropes 36 connected to the tailbone tail wing and restrains the bundle 50, The piston 60 is moved upward to be separated from the pair of left and right wire ropes 36 while being separated from the upper and lower sides by the high pressure generated by the pressure of the powder cartridge 30 in the pressure cartridge portion 30, Lt; / RTI >

That is, one end of the pulling string 34 is connected to the inside of the assembly 40, and the other end is provided with a ring-shaped hook 34a so as to be easily connected to one side of the launching pipe.

The cavity assembly 40 includes a cylindrical body 42 having an upper portion opened to be screwed to the outside of the lower end of the pressure cartridge portion 30 and a cylindrical body 42 inserted into the lower portion of the body 42, A cylindrical blade 44 having an upper portion opened so as to abut and cut when the pulling string 34 pierced through the right and left side surfaces of the blade 44 is pulled and moved downward; A compression spring 46 having a coil shape protruding to the outside of the blade 44 and an upper side being elastically fitted into the upper end of the compression spring 46 and supported elastically upward, And a ball 48 which contacts the lower center of the primer housing 32 and is pulled down by the pulling string 34.

At this time, a pair of elongated holes 42a are formed in the body 42 so as to guide the pulling string 34 to be moved vertically while passing through the pulling string 34 at a middle height thereof. Guide grooves 42b are formed at a predetermined depth so that the pulling string 34 is pulled and guided in the vertical direction on the outer surface that coincides with the left and right elongated holes 42a.

The blade 44 has a sharp blade portion 44a formed at an upper end thereof so as to be easily cut when the pulling string 34 is pulled by a constant force and abuts against the blade.

The ball 48 has a slider 48a which is vertically slid on the inner surface of the body 42 at a center height thereof and a slider 48a integrally protruded from the center of the upper surface of the slider 48a, The striking surface 48b integrally protrudes from the center of the lower surface of the slider 48a and is fitted to the upper end of the compression spring 46 so as to be connected to the striking line 34, And a coupling surface 48d in which a hole 48c is formed.

The separation bundle 50 includes a stationary bracket 52 having a shaft hole 52a penetrating upward and downward at an inner center thereof so that the piston 60 is inserted into the outer periphery of the upper portion of the pressure cartridge 30, A lid 54 which is positioned on the upper portion of the fixing bracket 52 and is screwed with an upper end of the piston 60 protruded upward through a shaft hole 52a of the fixing bracket 52, And a pair of right and left restraining pins 56 for restraining the left and right wire ropes 36 while being hinged to the left and right of the fixing bracket 52 so as to be coupled to or separated from the left and right sides of the upper surface of the fixing bracket 52, respectively.

At this time, the stationary bracket 52 is a cross-shaped block body viewed from the front, and a stepped surface 52b is formed on the inner upper side so that the upper outlet is narrower than the lower inlet of the shaft hole 52a. A pair of right and left restraining grooves 52c are formed at a predetermined depth so that the lower ends of the pair of right and left restraining pins 56 are respectively engaged or disengaged from the left and right sides of the upper surface, The fixing hole 52d is formed such that the piston 60 and the fixing bracket 52 are fixed and the fixing pin 58, which is cut by the high-pressure energy generated when the powder is burned, passes through the fixing hole 52d.

The lid 54 has a screw hole 54a vertically penetrating the center of the lid 54 so that the upper end of the piston 60 is screwed and the upper end of the pair of right and left restraint pins 56 And a riveting hole 54b is formed so as to be hinged by the rivet 56a.

The left and right pair of restraining pins 56 are hinged so that their upper ends can be pivoted laterally when they are riveted by rivets 56a to the left and right of the lid 54, respectively.

When the piston 60 is inserted into the shaft hole 52a through the lower portion of the stationary bracket 52, a high pressure is applied to the shaft hole 52a at a lower outer diameter of the piston 60, An O-ring 62 is fitted so as not to leak to the upper portion of the cover 52a and a screw surface 60a is formed at an upper end of the O-ring 62 to be screwed into the screw hole 54a at the center of the cover 54, And a fixing hole 60b is formed at the lower end of the upper small outer diameter so as to be fixed to a fixing pin 58 passing through the fixing hole 52d of the fixing bracket 52. [

The following describes the operation and effect of the non-electric delay / pressure cartridge of the present invention thus constituted.

6, in which the non-electric delay / pressure cartridge of the present invention is applied, when the missile is fired from the launch tube, the ball in the assembly 40 is pulled by the pull cord 34 connected to one side of the launch tube via the ring 34a, (48) is pulled downward to compress the compression spring (46).

At this time, the pulling string 34 connected to the ball 48 is guided by the elongated hole 42a and the guide groove 42b formed on the right and left sides of the body 42 by the momentary pulling force of the ring 34a, And is momentarily cut as shown in FIG. 7 by being caught by the sharp blade portion 44a on the upper end side of the blade 44 provided in the lower side of the body 42.

As a result, the compression spring 46 is resilient to return to the upper part as the pressing force is released by the ball 48. The ball 48, which is coupled to the upper end of the compression spring 46 by this elastic force, So that the powder container 30a filled in the pressure cartridge portion 30 is ignited by hitting the primer housing 32. [

At this time, the gunpowder train 30a in the pressure cartridge unit 30 discharges the high-pressure energy generated while being gradually burned, as shown by the arrow in FIG. 8, ) To a strong pressure.

The piston 60 is moved along the shaft hole 52a of the stationary bracket 52 to the upper side of the stationary bracket 52 while cutting the stationary pin 58 temporarily fixed to the piston 60 and the stationary bracket 52, So that the lid 54 screwed to the upper end of the piston 60 is spaced a certain distance from the upper portion of the fixing bracket 52. As a result, The pair of left and right restraining pins 56 hinged by the rivets 56a are simultaneously raised on the right and left sides.

At this time, the pair of left and right restraining pins 56 are simultaneously released from the restraining grooves 52c formed on the right and left sides of the fixing bracket 52, and simultaneously rotated outward from the pair of left and right wire ropes 36 And is separated from a pair of right and left wire ropes 36 that are exiting through the wire rope 36.

As a result, the pair of wire ropes 36 of the pair of left and right wires lose their binding force from the restraining pin 56, so that they do not interfere with each other when the tailgate tail wing launched from the launching tube is extended to a predetermined angle, .

Therefore, according to the present invention, the piston 60 and the stationary bracket 52 are urged to discharge the high pressure generated in the gunpowder train 30a in the pressure cartridge 30, without using the explosive force generated in the explosion of the gunpowder, A structure in which the fixed fixing pin 58 is cut and the piston 60 is raised and a structure in which the cover 54 screwed to the upper end of the piston 60 is separated from the fixing bracket 52 by a certain distance, And a pair of right and left restraining pins 56 are simultaneously detached from the restraining grooves 52c formed on the right and left sides of the fixing bracket 52, At the same time, since the left and right pair of wire ropes (36) connected to the tailgate tail wing are rotated outward by the pulling force and separated from the pair of right and left wire ropes (36), explosion shock waves and debris are not generated Therefore, there is an advantage that it is possible to safely protect surrounding electronic equipment and sensitive sensors while safely protecting workers and surrounding structures.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. You must see.

30: Compression cartridge portion 30a: Gunpowder train
32: Primer housing 34:
34a: ring 36: wire rope
40: ball assembly 42: body
42a: Long hole 42b: Guide groove
44: blade 44a: blade portion
46: compression spring 48: ball
48a: slider 48b: striking face
48c: line connecting hole 48d: connecting surface
50: separation bundle 52: fixed bracket
52a: shaft hole 52b:
52c: restraining groove 52d: fixing hole
54: cover 54a: screw hole
54b: riveting hole 56: restraining pin
56a: rivet 58: fixing pin
60: piston 60a:
60b: Fixing hole 62: O-ring

Claims (6)

A pressure cartridge unit 30 incorporating a powder gun train 30a generating a high-pressure gas by a gun powder combustion after a delay of several seconds in operation,
A primer housing (32) coupled to an inner periphery of the lower end of the pressure cartridge part (30) to ignite the gunpowder train (30a)
An assembly 40 coupled to the outside of the lower end of the pressure cartridge section 30 and connected to the launch tube by a pulling string 34,
A pair of right and left wire ropes 36 connected to the outer periphery of the upper portion of the pressure cartridge portion 30 and connected to the tailbone tail wing are restrained and restrained by the high pressure generated when the powder cartridge is burned. (50) separated from the pair of left and right wire ropes (36) while being separated from each other by upper and lower sides of the separating bundle (50). The method according to claim 1,
Characterized in that one end of the pulling string (34) is connected to the inside of the assembly (40) and the other end is provided with a ring-shaped ring (34a) to be connected to one side of the pouring tube. The method according to claim 1,
The ball assembly (40)
A body 42 screwed to the lower end of the pressure cartridge portion 30,
A knife portion 44a is formed at an upper portion of the body 42 so as to be engaged and cut when the pulling string 34 is pulled and inserted under the body 42 through the right and left side surfaces of the body 42, A blade 44 formed with the blade 44,
A compression spring 46 inserted and supported in the body 42,
A ball which is supported at the upper end of the compression spring 46 and is pulled by the pulling cord 34 and then hits the primer housing 32 by the elastic force of the compression spring 46 when the pulling cord 34 is cut, Lt; RTI ID = 0.0 > (48). ≪ / RTI > The method of claim 3,
In the body 42,
A pair of elongated holes 42a are formed at the intermediate height so as to guide the pulling string 34 to be moved in the vertical direction while passing through the U-
And the guide groove 42b is formed at a certain depth so that the pulling string 34 is pulled and guided in the vertical direction on the outer surface corresponding to the pair of right and left long holes 42a between the middle height and the bottom portion Non-electrical delay / pressure cartridge. The method of claim 3,
The blade 44 is formed in a cylindrical shape with an open top and is formed with a sharp blade portion 44a toward the top so that the pulling string 34 can be easily cut when the pulling string 34 is pulled by a certain force. Non-electrical delay / pressure cartridge. The method of claim 3,
The cavity (48)
A slider 48a slid vertically at its center height under the guidance of the inner circumferential surface of the body 42,
A striking surface 48b integrally protruded from the center of the upper surface of the slider 48a and having a rounded end to strike the primer housing 32,
And a coupling surface 48d integrally protruding from the center of the lower surface of the slider 48a and fitted in the upper end of the compression spring 46 to form a line connection hole 48c to connect the pulling string 34 Non-electrical delay / pressure cartridge.

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