KR101838552B1 - Assembly type High Speed Detonate Apparatus for Removal of Fixtures - Google Patents

Abstract

The present invention relates to a high speed detonate apparatus for removal of fixtures, comprising a first spacer and a second spacer, in which a partition wall is installed in the middle of a frame penetrated with a pin, and a spacer supported by the partition wall is installed, a spacer diameter of a fire direction is large and a spacer diameter of a connector direction is small, and a frame of an integrated detonation device is separately formed into a cartridge coupler and a pin assembly portion so as to connect a gold wire having a smallest resistivity to the pin via soldering. Accordingly, the present invention is able to operate a high temperature furnace for melting glass bead, perform post-process in accordance with high temperature heating, and resolves quality instability problem. In addition, a lot of energy can be transferred to gunpowder in a short time such that high speed detonation can be implemented.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an assembly type high speed detonating apparatus for removing fixed substances,

The present invention relates to an assembled high-speed ignition device for detachment of fixtures, and more particularly, it relates to an assembled type high-speed ignition device for detaching fixtures, It is able to separate missile and launch tube in the shortest time, minimizing the amount of explosion impact transmitted to surrounding electronic equipment or sensitive sensors during the separation process, so as to prevent malfunction and failure. Speed ignition device.

Conventionally, a fixed ignition ignition device has been proposed, and a representative example thereof can be found in Korean Patent Laid-Open Publication No. 10-2011-0010915 (hereinafter referred to as "ball-type low-impact separator"; hereinafter referred to as "cited invention").

1 to 6, a housing 1110 having an upper end and a lower end opened, a housing space 1111 therein, and a plurality of hemispherical grooves 1116 formed on the inner circumferential surface at regular intervals, And an ignition device 1120 interposed between the housing 1110 and the ignition device 1120 so as to confront the housing 1110. The ignition device 1120 includes a housing 1110, A pressure cartridge 1100 comprised of a socket 1130 coupling device 1120; A bolt body 1210 inserted into the housing space through the lower end of the housing to close the lower side of the housing space and having a housing space 1211 therein, a screw portion 1212 formed at the lower end of the bolt body, A bolt 1200 having a plurality of ball insertion holes 1214 formed at regular intervals; The bolt body is provided with a plurality of transversely elongated transversely spaced longitudinally spaced slots along the circumference of the body 1310 so as to correspond to the positions of the respective ball insertion holes 1214 formed in the bolt body. A piston 1300 having a hole 1311; A ball 1400 inserted into a plurality of hemispherical grooves 116 of the housing and inserted into a plurality of ball insertion holes 1214 of the bolt body, respectively; And a control unit.

Accordingly, in the cited invention, when an electric signal is applied through the electric signal input terminal 1124 of the ignition device 1120 of the pressure cartridge 1100 to fire the guided vehicle, the ignition device 1120 is operated Heat and pressure are generated. That is, the electric signal applied through the electric signal input terminal 1124 is transmitted to the heating wire 1121f through the contact pin 1121g of the ignition device 1120, and the electric field generated by the heat generating wire 1121f, And then the pressure in the lower portion of the ignition device body 1121 is generated as the insulator 1121c explodes.

At this time, a shock wave due to the pressure generated in the ignition device 1120 is transferred to the head portion 1312 of the piston 1300, and a front end pin 1310 connecting the head portion 1312 of the piston 1300 and the housing 1110, (1115) is broken.

This causes the piston 1300 to retract axially toward the lower accommodating space of the bolt body 1210 functioning as a cylinder and the three balls 1400 located in the ball insertion hole of the bolt body 1210 Is naturally received in the transverse hole on the upper surface of the lower end portion of the piston 1300 which is moved in the axial direction without being released to the outside of the bolt body 1210 so that the bolt body 1210 moves from the engaged state with the housing 1110 The constraint is released. It is possible to separate the missile and the launch tube with only a small pressure generated inside the pressure cartridge when the missile is fired. Therefore, explosion which is transmitted to the surrounding electronic equipment or the sensitive sensor during the separation process By minimizing the amount of impact, malfunctions and failures can be prevented.

On the other hand, as shown in FIG. 2, the ignition device 1120 of this input cartridge assembles the glass beads 1121f with the other components in a state that the glass beads 1121f are sandwiched by the pins 1121g and put in a high- The fins 1121i are melted to electrically connect the fins 1121g to the main body of the ignition device and secure the airtight state. Thus, the ignition device having undergone such a high-temperature treatment process is contacted with the inert gas in a high temperature atmosphere, Since the surface is partially blackened, it is necessary to add a post-processing process by sanding and nickel plating.

As a result, not only the productivity is lowered but also the dimensions of the product become unstable during the surface treatment by such sanding and nickel plating. Further, in order to perform the melting process using the high temperature furnace, the equipment cost and the electric power cost are added, and the glass beads 1121i are partially melted while the glass beads 1121i are melted and the electrical characteristics are lowered. And the glass beads 1121i are heated by the melting process of the glass beads 1121i.

In addition, according to this cited invention, there is provided an ignition device comprising: a gunpowder accommodating chamber provided at one side of an ignition device frame; a screw portion formed around an outer surface of the powder accommodating chamber to engage with the pressure cartridge; and a high frequency attenuator and a rubber moisture- And a pin assembly accommodating chamber in which a rubber washer and a rubber support are coupled to both sides of the pin assembly accommodating chamber. In order to secure corrosion resistance, which is an essential element of the ignition apparatus, a heating wire made of stainless steel is used as an electric spot And welded to the tip of the pin exposed to the side of the explosive containment chamber.

Since the conductivity of the heating wire made of stainless steel is 1.10 x 10 ⁶ , if a high-speed ignition device is designed to increase the current flowing through the heating wire to transfer more thermal energy to the explosive in a short time, However, since the increase of the power supply voltage may hinder the safety of the entire system, it is difficult to manufacture a high-speed ignition device.

Korean Patent Laid-Open No. 10-2011-0010915 (entitled "Ball Type Low Impact Separation Device")

SUMMARY OF THE INVENTION It is a first object of the present invention to omit a melting process using glass beads which is carried out in order to fix a plurality of fins of the ignition device to the main body of the ignition device in an insulated and airtight state And the plurality of fins are fixed to the main body of the ignition device in an insulated and hermetic state only by the assembling process.

A second object of the present invention is to provide a method of replacing a heating wire material of a firing device with a gold wire or a whole gold-plated wire or a part of gold-plated wire having high corrosion resistance (4.10 x 10 ⁷ ) The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an assembled high-speed ignition device for detachment of fixtures by allowing a current to flow through a heating wire so that more thermal energy is transferred to the gunpowder in a short time,

In order to achieve the first object of the present invention, a plurality of fins can be firmly fixed to an ignition device frame made of a metal, which is a conductive metal, by a simple assembling process and at the same time, In order to maintain the airtight condition, a partition wall is provided in the middle of the frame through which the fins pass, and spacers supported by the partition walls are provided so that the diameter of the spacer in the firing direction is larger than the diameter of the spacer in the connector direction, When the pressure is generated in the ignition direction, the inner circumferential surface of the main bulkhead of the frame is closely contacted with the spacer and the pin so that the airtight state is maintained. In addition, by forming the bent portion and the extended portion in a part of the region where the pin passes through the spacer, To block the passage and to maintain confidentiality. It offers a modular system for high-speed ignition standing fixture separated.

A second object of the present invention is to provide a heating wire made of a gold wire, which is a material having a low resistivity, to be welded to a fin by spot welding in order to allow a much larger amount of current to flow under the same voltage, In order to solder a heating wire to a plurality of fin tips located inside a narrow width chamber of the gunpowder, the frame of the ignition device as one body is mounted on the pin so that the heating wire soldering portion is exposed. And the peripheral portion of the through-passing frame is separated from the cartridge coupler. Accordingly, the frame is separated into the pin assembly and the cartridge coupler. After completion of the soldering, the separated pin assembly and the cartridge coupler are assembled into one frame so that the heating wire made of gold wire can be connected to the pin by soldering An assembled type high-speed ignition device for detaching fixtures is proposed.

As described above, since the operation of the high temperature furnace for melting the glass beads is not necessary, the sanding process and the nickel plating process are omitted in order to remove the contamination on the carbonized surface of the ignition apparatus, And it is possible to improve the productivity by shortening the process. Since the surface post-treatment process such as the sanding and nickel plating process is not required, the dimensional stability of the product can be maintained, and deterioration of the electrical characteristics It is possible to provide a high-quality ignition apparatus.

In addition, since the heating wire can be changed from stainless steel to gold wire or gold-plated wire made of stainless steel wire, more current can flow through the heating wire even when the same voltage power source is used. So that the explosive can be ignited in the explosive containing chamber in a short time. Accordingly, the present invention can ignite a gunpowder within a very short time when a signal voltage flows into a connector of a pin, thereby preventing damage or malfunction of the electronic device due to separation time delay by separating the fixture in the shortest time, There is a useful effect of enabling high-speed operation.

1 is a longitudinal sectional view showing a structure of a conventional ball type low-impact separator.
FIG. 2 is a partially cutaway perspective view showing an ignition device applied to a conventional ball type low-impact separator. FIG.
3 is a perspective view showing the appearance of a conventional ignition apparatus.
4 is a longitudinal sectional view showing a conventional ignition device structure.
5 is a front view showing the arrangement of a conventional ignition device heating line.
6 is an exploded cross-sectional view of an element assembled into an igniter gunpowder chamber and an assembly receptacle chamber around a conventional pin;
7 is a vertical cross-sectional view showing the overall assembling structure of the high-speed ignition device according to the present invention.
8 is a front view showing a heating line of the high-speed ignition device according to the present invention.
9 is a longitudinal sectional view showing a pin assembly of a frame separated in the present invention.
10 is a longitudinal sectional view showing a cartridge coupler detached from the present invention and coupled to a pin assembly;
11 is a longitudinal sectional view showing a first spacer according to the present invention.
12 is a side view showing a configuration of a pin according to the present invention.
13 is a longitudinal sectional view showing a state where the pin and the first and second spacers are coupled.
14 is a longitudinal sectional view showing a state in which a heating wire is soldered in a state where the pin and the first and second spacers are coupled.
15 is a longitudinal sectional view showing an example of using a gold-plated wire as a heating wire.
16 is a partially enlarged cross-sectional view of Fig.
17 is a longitudinal sectional view showing an example in which a partial gold-plated wire is used as a heating wire.
18 is a partially enlarged cross-sectional view of Fig.
19 is a longitudinal sectional view showing another embodiment of the first spacer according to the present invention.
Figure 20 is a side view of another embodiment of a pin according to the present invention coupled to the first spacer of Figure 19;
21 is a longitudinal sectional view showing another state of the pin assembly and the cartridge coupler in the present invention.
22 is a longitudinal sectional view showing the separated state of FIG. 21 according to the present invention.

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

3 is a perspective view of the fast assembling type high-speed ignition apparatus according to the present invention. In addition, the overall structure according to the specific embodiment of the present invention is shown in the sectional view of FIG.

As can be seen from the foregoing, the present invention includes a cartridge coupler 110 having a gunpowder storage chamber 112 at one side of a frame 100, A rubber washer 123 and a rubber bearing 124 are provided on both sides of the high frequency attenuator 121 and the rubber moisture-impermeable plate 122 around the pin 200 to be inserted into the frame 100, In the ignition apparatus in which the assembling section 120 is configured,

A stop wall 103 of the frame 100 having a through hole 101 for penetrating the pin 200 is provided in the pin assembly 120,

An inclined surface 102 formed between the explosive chamber 112 and the stop wall 103 at an angle decreasing toward the stop wall 103,

A first spacer 300 having a through hole 301 for a pin 200 through which an inclined surface 302 having an angle equal to the inclined surface 102 is formed on the outer circumference so as to coincide with the inclined surface 102,

A threaded portion 104 is formed at one end of the pin assembly 120 of the frame 100 through which the pin 200 penetrates. The cartridge coupler 110 is provided with a recessed threaded portion 111, So that the pin assembly 120 and the cartridge coupler 110 can be separated and engaged with each other.

In order to assemble the present invention, the pin 200 and the first and second spacers 300 and 400 must be coupled to each other. FIG. 11 shows the first and second spacers 300 and 400.

FIG. 12 shows the pin 200 coupled with the pin 200, and FIG. 13 shows the coupled state. As can be seen from the above description, the present invention is characterized in that the fin 200 has a bend jaw 201 formed therebetween and an extended portion 202 is provided therebetween, and the first spacer 300 coupling the pin 200 There are provided the same number of extended through holes 303 as the pins 200. A through hole 401 is provided at a corresponding position of the second spacer 400 so that the second space 400 is coupled to the protruding portion of the pin 200 inserted into the extended through hole 303 of the first spacer 300 .

As can be seen, the present invention does not use a glass bead to secure the pin 200 to the pin assembly 120, and the first spacer 300, which is compressed by the explosion pressure, The pin 200 is firmly inserted in the pin assembly 120 and the pin 200 is forcibly inserted into the first spacer 300 by means of a press or the like to join the pin 200 to the first spacer 300, .

Particularly, in the present invention, the stopper wall 103 of the frame 100 is exposed by rotating the threaded portion 104 of the pin assembly 120 and the recessed threaded portion 111 of the cartridge coupler 110. An inclined surface 102 is formed on the cartridge coupler 110 side of the stop wall 103 and an inclined surface 302 is formed around the first spacer 300 at the same angle as the inclined surface 102 .

7 and 9, when the first spacer 300 to which the pin 200 is coupled is inserted into the stop wall 103 from the cartridge coupler 110 side, The angle of the inclined surface 102 on the right side of the stop wall 103 and the outer circumferential surface angle of the first spacer 300 are the same.

In addition, as will be described later, a high pressure due to the explosive explosion in the explosive chamber 112 is applied to the first and second spacers 300 and 400, and even in this case, The coupling state of the frame 100, the first and second spacers 300 and 400 and the pin 200 must be maintained in a sealed state.

To this end, in the present invention, an adhesive for air-tightness is coated on the surface of the fin 200 and then bonded to the first spacer 300, and if necessary, an adhesive is applied to the peripheral surface of the first spacer 300 By assembling, a further improved sealing effect can be obtained.

As shown in Fig. 14, the present invention should be carried out to connect the gold wire 503 as the heating wire 500 between the pins 200 as shown in Fig.

That is, in the present invention, the heating wire 500 of the ignition device is prevented from being corroded even in long-term storage and harmful environments, and in order to generate a high temperature momentarily during operation, the resistance value of the heating wire 500 connecting between the pins 200 It is necessary to make it possible to lower the temperature to the maximum level.

To this end, the end of the fin 200 can be exposed by separating the pin assembly 120 from the cartridge coupler 110, thereby enabling a soldering operation. Therefore, as shown in FIG. 14, both ends of the gold wire 503 are soldered to the tip of the fin 200 by using the single-wire gold wire 503 as the heating wire 500. After the soldering operation is performed, the engaging threaded portion 111 of the cartridge coupler 110 is screwed into the threaded portion 104 of the pin assembly 120 so as to be screwed into the state shown in FIG.

In order to maintain the fastened state even after various vibrations and shocks applied to the high-speed ignition device, it is preferable to perform TIG (Tungsten Insert Gas Welding) welding at a position shown at A in FIG. So that the fastened state can be maintained.

After this, the high frequency attenuator 121, the rubber moisture-proof plate 122, and the rubber washer 123 and the rubber bearing 124 are disposed on both sides of the pin assembly 120 and pushed to be engaged with the pin 200 The assembly is completed in a state as shown in FIG.

Then, the gunpowder is inserted into the gunpowder chamber 112 of the cartridge coupler 110, the engaging threaded portion 113 of the frame 100 is screwed into a corresponding portion of the cartridge, When the connector is coupled to one side of the frame 100 protruding outwardly, the attachment is completed. In this state, when the firing button is operated, the connector of the high-speed ignition apparatus according to the present invention is operated to supply power to the power source, and the power source is caused to flow the soldering heating line 500 through the fin 200 at the tip of the fin 200 . Since the heating wire 500 according to the present invention is made of the gold wire 503, the resistance value thereof is the lowest level, and thus a large current flows, and such a large current transfers a large amount of energy to the explosive.

Therefore, the explosive force of the explosive is applied to the cartridge, and the bolts coupled to the cartridge are detached from the cartridge, and the missile is discharged from the explosive tube while being separated from the explosive tube. In the present invention, The bolts as shown in the cited invention are separated at a high speed so that the various devices are prevented from malfunctioning or being damaged due to vibration or impact caused by the emission of the guided missile.

Particularly, in the present invention, unlike in the past, a method of making the pin 200 and the frame 100 to be joined, sealed, and insulated by using glass beads is not a simple assembly method, So that it can be blocked from reaching the side of the unit 120. That is, when the explosive pressure in the explosive chamber 112 is generated, the explosive pressure is applied to the wide side of the first spacer 300, and the explosive pressure is applied to the oblique face 103 around the stop wall 103 of the narrow- The first spacer 300 can be deformed by the explosion pressure and can be more closely attached to the pin 200 and the stop wall 103 by pushing the first spacer 300 to the stopper wall 102, It is impossible to pass through.

In addition, according to the present invention, since the folding step 201 and the extension part 202 of the pin 200 are in close contact with the extended through hole 303 of the first spacer 300, the passage of the explosion pressure becomes more difficult, The experimental results show that when the glass beads are used, the internal pressure is in the range of 20,000 psi to 30,000 psi, whereas the present invention has a sufficient pressure resistance performance in the range of 25,000 psi to 35,000 psi.

Also, in the present invention, epoxy may be used as a representative adhesive for improving the hermeticity between the pin 200 and the first spacer 300 and the frame 100 and securing the adhesive force, and other materials may be used . As a result of the actual experiment, it was found that the angles of the inclined surfaces 102 and 302 of the frame 100 and the spacer are preferably in the range of 5 ° to 10 °, as shown in FIG.

In addition, in the present invention, the insertion threaded portion 111 of the cartridge coupler 110 is fastened to the threaded portion 104 of the frame 100. However, the fastened threaded portion 111 may be fastened by various means other than screws. So that they can be fixed in various forms.

In the present invention, the gold wire 503 is used as the heating wire 500. However, since the gold wire 503 has a large burden of cost increase, 16, when a heating wire 500 is prepared with an inexpensive stainless steel wire 501 and its skin is plated with gold, a large current flows to the gold-plated wire 502 due to the skin effect, A large amount of energy due to a large current may be transferred to the gunpowder at a time to improve the ignition speed at a high speed.

18, the heating wire 500 is prepared as a stainless steel wire 501, but not the gold wire, and only the remaining portion except for both ends is used as the gold-plated wire 502, It is possible to weld the heating wire 500 to the tip of the fin 200 by arc welding, but to increase the current during operation to enable high-speed ignition.

In addition, in order to prevent the passage of pressure even if a pressure is infiltrated through a fine gap between the pin 200 and the first spacer 300, The bent portion 203 and the inclined portion 204 are formed as shown in FIGS. 19 and 20, and a plurality of the bent portions 203 and the inclined portions 204 are formed as necessary, So that the sealing ability can be improved.

21 and 22, in the present invention, the tapped screw 111 may be formed at the end of the pin assembly 120 and the screw 104 may be formed in the cartridge coupler 110. Alternatively, It will be appreciated that the combination may be implemented in various forms and configurations.

The heating wire 500 is wound on the pin 200 protruding from the end of the pin assembly 120 and the heating wire 500 is wound on the pin 200 through the pin 200 The heating wire 500 can be configured to have a sufficient length for heat generation and can occupy a minimum space in the explosive chamber 112 as well as with the end of the fin 200 wound around the heating wire 500 Heat is generated and high-speed ignition becomes possible.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

100: frame 101: through hole 102: inclined surface
103: stop wall 104: threaded portion 110: cartridge coupler
111: lapped thread 112: explosive chamber 113: engaging thread
120: pin assembly part 121: high frequency attenuator 122: rubber moisture-proof plate
123: rubber washer 124: rubber bearing 200: pin
201: folding jaw 202: extension part 203:
204: an inclined portion 300: a first spacer 301: a through hole
302: sloped surface 303: extended aperture 400: second spacer
401: Through hole 500: Heating wire 501: Stainless steel wire
502: Gold Plating Line 503: Gold Plating

Claims (12)

A cartridge coupler provided with a gunpowder accommodating chamber at one side of the frame, a coupling screw formed at the cartridge coupler, and a pin assembly for accommodating a rubber washer and a rubber bearing on both sides of the high frequency attenuator and the rubber moisture- However,
Wherein a stop wall having a through hole for passing the pin is provided in the pin assembly,
A first spacer having an inclined face formed between the powder containing chamber and the stop wall at an angle with which the diameter is reduced toward the stop wall and a through hole for the pin having an inclined face formed on the outer periphery so as to coincide with the inclined face,
Wherein a screw portion is formed in the pin assembly with reference to an outer circumference of a frame through which the pin passes, and the cartridge coupler is provided with a recessed thread portion separable and engageable with the threaded portion, and the threaded portion and the recessed threaded portion are fastened or separated, And the cartridge coupler can be coupled to and separated from the cartridge fastener. The method according to claim 1,
Wherein a bent portion and an extension portion are formed in a part of a section where the pin is coupled with the first spacer and an extended hole is formed in a corresponding portion of the first spacer. The method according to claim 1,
Wherein an adhesive layer is applied to the pin before assembling the pin and the first spacer. The method according to claim 1,
Wherein an adhesive layer is applied to an outer circumferential surface of the first spacer. The method according to any one of claims 3 to 5,
Wherein the adhesive layer is an epoxy. The method according to claim 1,
Wherein a screw portion and a tangent thread portion are selectively formed at a portion where the pin assembly portion and the cartridge coupler are in contact with each other. The method according to claim 1,
And a heating wire made of gold is soldered to the tip of the pin protruding from the one end of the pin assembly portion. The method according to claim 1,
Wherein the heating wire connected to the tip of the fin is entirely plated with gold. The method according to claim 1,
Wherein the heating wire connected to the tip of the fin is made of stainless steel and the other parts except for the both ends are plated with gold. The method according to claim 1,
Wherein the TIG welding is performed at an interface between the pin assembly and the cartridge coupler. The method according to claim 1,
Wherein an extension portion having an inclined step is formed in a section where the pin is coupled with the first spacer. 12. The method of claim 11,
Wherein the inclined step of the section where the pin is engaged with the first spacer is installed in the direction of the pin assembly portion and the stop surface is installed in the direction of the explosive chamber.

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