KR100270606B1 - Pressure cartridge - Google Patents

Abstract

The present invention relates to a pressure cartridge used to operate a piston or to break a diaphragm by releasing a high pressure gas in a short time by combustion of an explosive by an electrical signal. Conventionally, there is a possibility of accidental ignition due to high frequency and static electricity, as well as a problem of lack of reliability of operation in a 2-pin single circuit type. In addition, the pressure cartridge used in Korea is not only dependent on imports as described above, but also has a problem that the price is high and causes a deterioration of national economic power due to foreign currency outflow. Therefore, the present invention provides a stainless steel body having a spiral formed on an outer surface thereof; A zirconium potassium perchromide (Zr-KClO ₄ ) detonating agent provided in one space inside the body and causing an initial ignition reaction by heat; Boron potassium nitride (B-KNO ₃ ) claimant which generates final output energy by the initiator; A separation membrane separating the initiator and the assertive drug; A protective film welded to one side space inlet side of the body in which the detonating agent and the assertive medicine are embedded; Four nickel alloy contact pins spaced apart from each other in the other space portion of the body such that one end portion is close to the detonation side; A nickel-chromium heating wire connected between the contact pin and the detonation agent by a fine line to convert electrical energy transferred by the contact pin into thermal energy; A glass bead for fixing the contact pins and maintaining airtightness at high pressure while insulating between the body and the contact pins; A boron nitride spacer provided with a space between the detonating agent and the contact pin to increase thermal conductivity; A spark gap formed between each of the contact pins and the body to introduce the static electricity introduced therebetween; A ferrite core provided in contact with the contact pin on the other space of the body as a high frequency attenuation filter; By constructing the ignition circuit unit connecting the four contact pins in two sets, not only can the safety be more improved, but also the four-pin two-circuit type minimizes the ignition delay time and the maximum pressure reaching time, which can further increase the reliability of the operation. Will have an effect. In addition, the production cost is less than 50% of the imported goods, resulting in import substitution and cost reduction effect.

Description

Pressure cartridge

The present invention relates to a pressure cartridge used to operate a piston or to break a diaphragm by releasing a high pressure gas in a short time by combustion of an explosive by an electrical signal.

In general, the pressure cartridge is provided with a detonating agent inside the body is configured to ignite by receiving the heat of the heating wire that generates heat by an electrical signal input from the outside, the heat of the detonating agent is transferred back to the claiming drug to ignite the claim drug In this way, the pressure is formed by the combustion gas of the anticoagulant. As such, the pressure cartridge is affected by various high-frequency and static electricity because electrical energy is converted into thermal energy to burn explosives. In other words, the pressure cartridge may be accidentally ignited by high frequency or static electricity generated in the human body, and thus preparation of the pressure cartridge may be an important issue. In addition, the pressure cartridge is a key component mainly applied to precision guided weapons, aviation, and aerospace industries, and the safety and reliability of operation are also important issues. The pressure cartridge is a two-pin single circuit type. And pressure cartridges used in Korea are mostly dependent on imports.

As described above, the conventional pressure cartridge not only exists the possibility of accidental ignition by high frequency and static electricity, but also has a problem in that two-pin single circuit type lacks reliability of operation. In addition, the pressure cartridge used in Korea is not only dependent on imports as described above, but also has a problem that the price is high and causes a deterioration of national economic power due to foreign currency outflow. Accordingly, an object of the present invention is to increase the reliability of operation while preventing accidental ignition by high frequency and static electricity. Another object of the present invention is to reduce the cost with the import replacement effect of the pressure cartridge that is dependent on the import.

1a and 1b shows the internal structure of the present invention,

Figure 1a is a partially cutaway perspective view.

1B is a longitudinal sectional view.

2 is a circuit diagram of the present invention.

Figure 3 is a pressure-time curve showing the performance of the pressure cartridge according to the present invention.

4 is an operating time curve according to the supply current of the pressure cartridge according to the present invention.

** description of the symbols for the main parts of the drawings **

A, B, C, D: Contact pin 1: Body

1A: Helix 2: Detonator

3: heating wire 4: medicine

5: Separation 6: Shield

6A: etching part 7: mica membrane

8: Glass Beads 9: Spacer

10: spark gap 11: ferrite core

Stainless steel body formed with a spiral on the outer surface to achieve the object of the present invention; A zirconium potassium perchromide (Zr-KClO ₄ ) detonating agent provided in one space inside the body and causing an initial ignition reaction by heat; Boron potassium nitride (B-KNO ₃ ) claimant which generates final output energy by the initiator; A separation membrane separating the initiator and the assertive drug; A protective film welded to one side space inlet side of the body in which the detonating agent and the assertive medicine are embedded; Four nickel alloy contact pins spaced apart from each other in the other space portion of the body such that one end portion is close to the detonation side; A nickel-chromium heating wire connected between the contact pin and the detonation agent by a fine line to convert electrical energy transferred by the contact pin into thermal energy; A glass bead for fixing the contact pins and maintaining airtightness at high pressure while insulating between the body and the contact pins; A boron nitride spacer provided with a space between the detonating agent and the contact pin to increase thermal conductivity; A spark gap formed between each of the contact pins and the body to introduce the static electricity introduced therebetween; A ferrite core provided in contact with the contact pin on the other space of the body as a high frequency attenuation filter; A pressure cartridge is provided, comprising an ignition circuit portion connecting two pairs of four contact pins. In addition, the separator is characterized in that the compression molding of boron nitride powder. The protective film is laser welded to the body by a stainless steel sheet which is electrically etched to a certain thickness in a cross shape.

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

Figure 1a, Figure 1b, Figure 1c shows the internal structure of the present invention, Figure 2 is an ignition circuit diagram of the present invention, Figure 3 is a pressure-time curve showing the performance of the pressure cartridge according to the present invention, Figure 4 The operating time curve according to the supply current of the pressure cartridge according to the invention, as shown therein, the body 1 of the present invention is formed of a stainless material to withstand the internal pressure, helix on the outer surface to be assembled to the application device 1A is formed. In addition, one side space inside the body (1) is provided with a detonation agent (2) to cause the first ignition reaction, the detonation agent (2) together with the heating line (3) the maximum pressure reaching time and the ignition delay time and As a heat sensitive high energy material that influences performance such as ignition / non-ignition current, the present invention provides a certain amount of Zr-KClO ₄ to improve conductivity in the stoichiometric composition of Zr-KClO ₄ . Graphite is added. And one side of the detonating agent (2) is provided with the claim drug (4), the claim drug (4) is a material that emits a main energy source after the operation of the detonator (2) as boron forteium nitride ( B-KNO ₃ ) is used. In addition, between the detonation agent (2) and the claimed drug (4) is configured to be mutually isolated by the separator 5, wherein the separator 5 is press-molded with boron nitride powder. At the same time, the protective film 6 is welded to one space portion inlet side of the body 1 in which the detonating agent 2 and the antiperspirant 4 are embedded. The protective film 6 is a stainless metal thin plate, which prevents moisture absorption of the detonating agent (2) and the insisting drug (4) as well as further improves combustibility and forms a constant output pressure, wherein the protective film (6) of the stainless thin plate Is formed to a thickness of 0.15 mm to form a reproducible pressure, a cross-shaped etching portion (6A) having a thickness of 0.05 mm is formed as shown in Figure 1c, and sufficient welding safety and airtightness by laser welding Configured to maintain a pressure range of 50 ± 5 kg / cm ² . The Pyrotechnics' protective film is usually a polymer adhesive that is not used at high curing temperature due to the problem of ignition of the gunpowder, the airtight method by the polymer adhesion is difficult to have a performance reproducibility, to solve this problem To this end, the present invention is a laser welded to the cross-etched stainless steel plate as described above. As an example, when the protective film 6 of the present invention is bonded with epoxy and tested in a 10 cc sealed container, a considerable deviation occurs in a forming pressure range of 50 ± 15 kg / cm ² . That is, as shown in FIG. 3 and FIG. 4, the maximum pressure arrival time is 15 msec or less and the ignition delay time is 5 msec or less when 5 amperes of DC power is applied per circuit of the heating wire 3. In addition, the other space portion of the body (1) is provided with four nickel alloy contact pins (A) (B) (C) (D) spaced from each other so that one end thereof is close to the detonating agent (2), the contact pin (A) (B) (C) (D) and detonation agent 2 are connected by the heating line 3 which is a fine line. Since the heating line 3 generates heat by electrical resistance, it is more preferable to select the heating line 3 in consideration of thermal characteristic factors such as heat capacity, heat loss rate, and thermal time constant of the material. Accordingly, the heating line 3 of the present invention An alloy of 80% nickel (Ni) and 20% chromium (Cr) with a resistivity of 650 Ω (cm) ^-1 at 25 ° C is used. On the other hand, the pressure cartridge must be hermetically bonded for the characteristics used at high pressure and high temperature and for long-term storage, and in the related art, a general method such as an adhesive cannot withstand high pressure and high pressure and cannot satisfy the required airtightness. . Accordingly, in the present invention, glass beads 8, which are glass-tight joints, are applied to satisfy the requirements as described above, which is insulated between the body 1 and the contact pins A, B, C, and D. In addition, the contact pins (A) (B) (C) (D) serves to fix the body 1, and improves the airtightness and long-term storage at high temperature and high pressure. That is, the glass bead 8 is a manufacturing process to minimize the stress between the contact pin (A) (B) (C) (D)) and the glass interface, the air tightness of 10 ^-6 cc, He / sec or more Can maintain the degree, and configured to withstand the pressure of 350kg / cm ² or more. In addition, a spacer 9 is provided in the space portion between the detonation agent 2 and the contact pins A, B, C, and D, which disperses and absorbs heat generated by the incidental noise. The boron nitride can be made of a material to protect the heating wire (3) and the detonation agent (2), and to have electrical safety that does not ignite even if the power supply of 1 amp (Amp)-1 watt (Watt) for 5 minutes. Configured. A spark gap 10 is formed between the contact pins A, B, C, D, and the body 1, or between the contact pins A, B, C, D as a spark discharge passage. do. The spark gap 10 may apply 25,000 volts of static electricity between the contact pins (A) (B) (C) (D) and the body 1 or between the contact pins (A) (B) (C) (D). The non-ignition as well as induced static electricity from the human body between the contact pin (A) (B) (C) (D) and the body (1) is configured to prevent accidental ignition. In addition, the ferrite core 11 is provided in the other space portion of the body 1 in contact with the contact pins (A), (B), (C) and (D) as a high frequency attenuation filter. The ferrite core 11 is made of iron oxide, zinc oxide, nickel oxide, and copper oxide, and has radiation resistance to 200 volt / m electric field strength, such as E.I.E (EMI) and high frequency. To prevent accidental ignition. The four contact pins (A) (B) (C) (D) are connected to two sets of heating wires (AB, CD) (BC) as shown in FIG. 2 to form an ignition circuit. Even if only one of the circuits is operated, the operation is performed normally so that the reliability of the operation is achieved. Here, reference numeral 7 is a mica membrane. In the operation of the present invention configured as described above, an electrical signal is first input to the heating line 3 from the outside through the contact pins A, B, C, and D, similarly to a normal pressure cartridge. As a result, the heating line 3 generates heat. Accordingly, the heat of the heating wire (3) is transferred to the detonation agent (2), the detonation agent (2) is ignited when the temperature of the detonation agent (2) receiving the heat reaches the auto-ignition temperature. As the detonating agent 2 is ignited as described above, the detonating agent 2 ignites the captive drug 4, and the captive drug 4 is operated through a series of chain processes in which pressure is formed of combustion gas.

As described above, the present invention maintains high airtightness, and also has an effect of further improving safety by blocking accidental ignition by high frequency and static electricity in advance. In addition, the 4-pin 2-circuit type minimizes the ignition delay time and the maximum pressure reaching time, further increasing the reliability of operation. Of course, the manufacturing cost is less than 50% of the imported goods, resulting in import substitution and cost reduction effects.

Claims (4)

A stainless body having a spiral formed on an outer surface thereof; A zirconium potassium perchromide (Zr-KClO ₄ ) detonating agent provided in one space inside the body and causing an initial ignition reaction by heat; Boron potassium nitride (B-KNO ₃ ) claimant which generates final output energy by the initiator; A separation membrane separating the initiator and the assertive drug; A protective film welded to one side space inlet side of the body in which the detonating agent and the assertive medicine are embedded; Four nickel alloy contact pins spaced apart from each other in the other space portion of the body such that one end portion is close to the detonation side; A nickel-chromium heating wire connected between the contact pin and the detonation agent by a fine line to convert electrical energy transferred by the contact pin into thermal energy; A glass bead for fixing the contact pins and maintaining airtightness at high pressure while insulating between the body and the contact pins; A boron nitride spacer provided with a space between the detonating agent and the contact pin to increase thermal conductivity; A spark gap formed between each of the contact pins and the body to introduce the static electricity introduced therebetween; A ferrite core provided in contact with the contact pin on the other space of the body as a high frequency attenuation filter; The pressure cartridge, characterized in that consisting of the ignition circuit unit connecting the four contact pins in two sets. The pressure cartridge according to claim 1, wherein the separator is press-molded with boron nitride powder. The pressure cartridge according to claim 1, wherein the protective film is laser welded to the body by a stainless steel sheet which is electrically etched to a certain thickness in a cross shape. The pressure cartridge according to claim 1, wherein the ferrite core is made of iron oxide, zinc oxide, nickel oxide, and copper oxide as main raw materials.