DE2112387A1 - Detonator head for explosives or pyrotechnic charges - Google Patents

Description

Detonator head for explosives or pyrotechnic charges

The invention relates to an ignition head for explosives or pyrotechnic charges, in particular to one detonator head manufactured by immersion,

A dipped detonator head for use with an explosive or pyrotechnic charge whose detonator it forms has a length of high resistance wire - commonly known as bridge wire - which is routed around an edge of a plate of insulating material and has elongated ends rest on both sides of this center and are each connected to a corresponding contact for connection to an electrical energy source. The wire or resistance wire and the adjacent end of the plate of insulating material are immersed in ejtne substance having a low ignition temperature, thereby forming a head ¹ in a similar manner as in the case matches ^. This is the first immersion.) During the second immersion, the head is immersed in a second flammable substance that has a hard shell around the

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first substance forms. After the first and second immersion, the head created by immersion can be covered in lacquer or the like »· be dived.

Such detonators manufactured by immersion are
typically provided in explosive cartridges. Some of the plasticizers used in the manufacture of explosive cartridges tend to be in those made by immersion
Penetrating the ignition head of the explosive cartridge, whereby the ignition heads soften and swell and thus the risk of the cartridges failing to ignite. Likewise, the humidity of the atmosphere can be a softening and swelling of the firing heads cause "Is a Zündkopfhülle also damaged, so the sheath can aufbersten during ignition and thereby the structure
of temperature and pressure in the envelope - this one is for you
proper ignition or detonation of the explosive charge in the
Cartridge necessary - prevent.

The invention is based on the object of providing a detonator head produced by immersion in which this
Difficulties and disadvantages of wrapping at least the
actual, ignitable head of the ignition head in a protective cap made of plastic material can be avoided.

This object is achieved according to the invention with an ignition head produced by immersion, which is characterized by a heat-shrinkable protective cap made of plastic material, for example irradiated, heat-stabilized polyolefin, which is shrunk onto at least the actual immersion head of the ignition head and on
this is firmly attached.

In a preferred embodiment of the invention is adjacent the open end in the cap a sealing ring of

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Material with a low melting point, such as polyethylene, arranged, the sealing ring forming a substantially air-impermeable seal around the ignition head, between the latter and the protective cap.

The invention also relates to a method for equipping an ignition head produced by immersion with a cap, which is characterized in that at least the actual immersion head of the ignition head is first inserted into a protective cap made of heat-earmouldable plastic material, for example irradiated, heat-stabilized polyolefin and that the protective cap is then heat-shrunk onto the ignition head and thereby brought into close contact therewith _e

Although only a specific embodiment of the invention is described here, the invention can be carried out realize various designs.

The invention and advantageous details of the invention are explained in more detail below with reference to the drawing, in which shows:

1 shows a partially sectioned ignition head produced by immersion with a protective cap; and

2 shows a protective cap before it is shrunk onto an ignition head produced by immersion,

In the illustrated embodiment of the invention is a certain length of electrical resistance wire 1 arranged in a manner around a base plate 3 made of insulating material, that dal fiSde of the resistance wire on one side in the Near one end of the base plate to an electrical connector

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clock plate 4 and the other end of the resistance wire on the opposite side of the base plate is in contact with a corresponding electrical contact plate 5, the Resistance wire is passed around one end of the base plate. Electrical lines 6, 7 are used to connect the two contact plates 4, 5 provided with an electrical energy source. A head 8 made of ignitable material is known in FIG Way formed by dipping twice around said end portion of the base plate 3 as well as around the led around its edge middle section of the resistance wire.

The head 8 produced by immersion is encased by a protective cap 9 which rests firmly on the head and around the base plate 3 with the electrical contact plates 3 and 4 forms a tight and secure fit. The protective cap 9 is shown separately in Fig. 2; it consists of irradiated, heat-shrinkable, heat-stabilized polyolefin and has a material thickness of approx. 0.25 mm (0.010 "), a length of approx. 7.5 mm (0.30") and an inner diameter of approx. 3.2 mm (0.125 "). A sealing ring made from plastic material Low melting point such as polyethylene (not heat stabilized) is in the cap shell in an annular shape Recess 12 arranged.

One for the cap 9 wärmeaufschrumpfbare suitable material is irradiated polyethylene, although polypropylene, polytetrafluoroethylene or polychlorotrifluoroethylene may be used provided that they heat by irradiation _stabil4: he _pi are t.

The actual Head 8 of the ignition head, after it has been formed by dipping twice, inserted into a protective cap 9, which then by acting for three minutes at a temperature of 150 ° it is shrunk tightly onto the head. on

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the immersion of the ignition head in paint or the like Manufacture of known firing heads normally follows the first and second immersion, if desired, in the present Case to be waived.

The product obtained is an ignition head, the actual head 8 of which has a tight fit Protective cap made of plastic material is encased, which

ie the base plate 3 by means of a sealing ring 11, tightly fitting seal is sealed, the sealing ring 11 by the heat shrinkage process of Protective cap 9 is softened and pressed onto the section of the head 8 facing towards FIG. 1 in abutment with the base plate will.

Expectations

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Claims (1)

Claims Ignition head manufactured by immersion, characterized by a heat-shrinkable protective cap (9) made of plastic material, which at least on the actual, The head (8) of the ignition head produced by immersion is shrunk on and rests firmly against it. The immersion formed primer head according to claim 1, characterized in that the plastic material forming the protective cap (9) is irradiated, heat-stabilized Is polyolefin. 3. The detonator head produced by immersion according to claim 2, characterized in that the protective cap (9) The plastic material used is polyethylene. 4. Manufactured by immersion ignition head according to claim 1 to 3, characterized in that a Sealing ring (11) made of a material with a low melting point in the protective cap (9) near its open end around the actual ignition head (8) is provided and between the actual ignition head (8) and the protective cap (9) essentially forms an air-impermeable seal around the actual ignition head (8). Immersion head according to claim 4, characterized in that the ring (11) is made of polyethylene. that the sealing 109842/1138 6. A method for providing an ignition head produced by immersion with a cap, thereby g e k e η η zei.chnet, that initially at least the actual head (8) of the ignition head produced by immersion in a Protective cap (9) made of heat-shrinkable plastic material is used and that the protective cap (9) is then heat-shrunk onto the ignition head and in close contact with it is brought. 7. The detonator head produced by immersion according to claim 6, characterized in that a protective cap (9) Shrunk on from irradiated, heat-stabilized polyolefin will. 8. The method according to claim 6, characterized in that that a protective cap (9) made of polyethylene is shrunk on. 9. The method according to claim 6 to 8, characterized in that that the ignition head (8) through a sealing ring ■ (11) made of a material with a low melting point is used, which is provided in the protective cap (9) next to its opening, the sealing ring (11) is softened by the action of heat on the protective cap (9) and around the actual ignition head (8) between this and the protective cap (9) forms an essentially air-impermeable seal. 10. The method according to claim 9, characterized in that a sealing ring (11) made of polyethylene is used. 109842/1138 Blank page