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Head-flying-resisting gas expansion device and manufacturing method and application of expansion pipe

A technology of gas expansion device and expansion tube, which is applied in the direction of weapon accessories, blasting barrels, offensive equipment, etc., can solve the problems of high defective rate, flying heads, unusable problems, etc., achieve small force bearing surface, solve flying heads, and be easy to obtain Effect

Inactive Publication Date: 2017-08-04
郭远军
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The existing gas expansion device (cracking device) is hereinafter referred to as the expansion device, such as: CN201611099345.2, CN201520283079.3, CN201510489513.8, CN201510556527.7 The connection part usually adopts the thread method (the thread needs to be machined) or the welding method or the butt welding method For connection, no matter which of the above methods is used for manufacturing, there will be weak points in the connection between the inflation head, the energy release head and the expansion tube, which will cause the connection part to crack first when the expansion device expands, and the flying head will appear.
[0003] The existing expansion device (fracturing device) still has many components, and the technical problems of complex processing and assembly processes for each component
[0004] For example, the patent document with the notification number CN205858345U discloses "plug, expansion tube, activator, liquid filling hole and lock valve, the plug is provided with an activator installation port, and the plug or expansion tube is provided with a liquid filling hole." ", although it saves a lot of parts and assembly steps compared with other expansion devices, there are still two processings at both ends of the expansion tube, that is, one end needs to be welded during assembly, and the other end needs to be threaded and sealed, or both ends are connected by welding. The welding master's technical level is extremely high. Less than 20% of the joints are welded with a constant thickness and no gaps. Thread processing, the two ends of the expansion tube after thread processing are weaker than the unprocessed tube body, so that there is a whole circle of weak points in the connection between the plug and the expansion tube, because there are stress weak points in the connection, and the use of plugs (full When the plug (filling head or discharge head) is threaded, the diameter of the plug (filling head or energy-discharging head) is slightly smaller than the diameter of the expansion tube body, resulting in a large force-bearing surface of the plug, large volume, and heavy weight. When the expansion device expands, the connection part will first Cracks and flying heads
[0008] Regardless of whether the gas cracking device in the prior art uses an activator, the lead wire needs to be connected to the expansion tube, and the lead wire needs to be sealed under high pressure, which directly leads to the shortage of large volume and heavy weight of the filling head.
[0009] The existing necking process uses rollers for necking, which is not easy to achieve uniform thickness. If it is used for mass production of expansion tubes, it will produce a high defective rate

Method used

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  • Head-flying-resisting gas expansion device and manufacturing method and application of expansion pipe
  • Head-flying-resisting gas expansion device and manufacturing method and application of expansion pipe
  • Head-flying-resisting gas expansion device and manufacturing method and application of expansion pipe

Examples

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Embodiment 1

[0055]An anti-flying head gas expansion device, comprising an expansion tube 1 and an inflatable ignition head 2, one end of the expansion tube 1 is shrunk and sealed, and the other end is shrunk with an inflatable ignition head 2, and the shrinkage sealing end 104 is connected to the inflatable ignition head 2 An energy storage chamber 13 is formed between them; the inflatable ignition head 2 includes an inflatable seat body 201, a through hole 202, a valve chamber 203, an ignition chamber 204, an inflatable nozzle 4, a conductive valve 5, an insulating layer 6, a heating wire 8, and a retaining ring 10 and the first sealing ring 11, an inflatable nozzle 4 is provided at the middle of the upper end of the inflatable seat body 201, a through hole 202 is provided below the inflatable nozzle 4, a valve chamber 203 is provided below the through hole 202, and an ignition chamber is provided below the valve chamber 203 204, a conductive valve 5 and a first sealing ring 11 are provid...

Embodiment 2

[0059] As the anti-flying head gas expansion device described in Embodiment 1, in order to facilitate the connection of the heating wire 8, one end of the conductive valve 5 is an inflatable conductive thimble 501, the other end is a conductive needle 503, and when the middle part is a conductive valve core 502, the conductive needle 503 One end of the heating wire 8 is connected, and the other end of the heating wire 8 is connected to the inflatable seat body 201; the expansion tube is made of non-ferrous metal material or metal alloy or ABS or steel or copper alloy or aluminum alloy; the material strength of the conductive valve 5 is the same as that of the energy storage chamber The energy storage pressure in the 13 bottles is directly proportional; the material strength of the conduction valve 5 is slightly greater than the energy storage pressure in the 13 bottles of the energy storage cavity.

Embodiment 3

[0061] As the anti-flying head gas expansion device described in embodiment 1 or 2, the bottle mouth 101 is provided with a sealing groove 105, and the sealing groove 105 is provided with a second sealing ring 12; the inner wall of the ignition chamber 204 is provided with an internal thread 205 , the outer wall of the baffle ring 10 is provided with an external thread 206 matched with the internal thread 205; the thickness of the bottle mouth 101 is 20mm, the thickness of the necked sealing end 104 is 6mm, and the thickness of the bottle body 103 is 3mm; the expansion tube The bottleneck 102 and the necked sealing end 104 of 1 are thickened through necking processing; the second sealing ring 12 is an O-ring.

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Abstract

The invention discloses a manufacturing method and application of an anti-flying head gas expansion device and an expansion tube. The expansion device includes an expansion tube and an inflatable ignition head. The processing method is to fix the expansion tube through the clamp first, then rotate the expansion tube and heat the end of the expansion tube through the clamp, heat the end of the expansion tube until it is close to or reach plastic deformation, and then the front part of the shrinking mold touches the end of the expansion tube. , the end of the expansion tube moves from the front to the tail of the shrinking die, the shrinking die extrudes and thickens the end of the expansion tube, and then uses a through-hole knife to make a through hole at the end of the expansion tube to fix the aperture; the other end is Extrusion thickening molding, fixed hole diameter through holes, or sealing thickening molding. The expansion tube is made into a pressure vessel by shrinking. The utility model has the advantages of simple structure, easy processing of structural components, low manufacturing cost, no flying head, no air leakage, safe transportation, no hidden danger of squib, and large expansion force.

Description

technical field [0001] The invention belongs to the technical field of expansion devices, and in particular relates to a manufacturing method and application of an anti-flying head gas expansion device and an expansion tube. Background technique [0002] The existing gas expansion device (cracking device) is hereinafter referred to as the expansion device, such as: CN201611099345.2, CN201520283079.3, CN201510489513.8, CN201510556527.7 The connection part usually adopts the thread method (the thread needs to be machined) or the welding method or the butt welding method For connection, no matter which of the above-mentioned methods is used for manufacturing, there will be weak points in the connection between the inflation head, the energy release head and the expansion tube, which will cause the connection part to crack first when the expansion device expands, resulting in flying heads. [0003] The existing expansion device (fracturing device) still has technical problems of...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F42B3/04
CPCF42B3/04
Inventor 郭远军
Owner 郭远军
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