1. Field of the Invention
The invention relates to a pressuretight contact connection for the programming and power supply for fuze electronics, which is provided in a housing.
2. Discussion of the Prior Art
Plug connections are known for temporarily making contact for the programming and power supply for fuze electronics. Plug connections such as these may have defects in terms of pressure tightness.
A contact connection such as this is used to maintain the appropriate electrical contact until completion of the programming and power supply. In this case, this temporary electrical contact is intended to withstand environmental loads and, in particular, supply loads. The known plug connections may also have defects in this respect.
With the knowledge of these characteristics, the invention is based on the object of providing a contact connection, which is pressuretight for gases, of the type mentioned initially, which withstand the propellant charge gas pressure that occurs during firing, with the contact being reliably ensured, that is to say maintained, against environmental and supply loads, until completion of the programming and power supply.
According to the invention, this object is achieved by the features of the disclosure, as claimed herein. Preferred refinements and developments of the contact connection according to the invention, which is pressuretight for gases, are set forth in the dependent claims.
One exemplary embodiment of the contact connection according to the invention, which is pressuretight for gases, is described in the following details with reference to the drawing figures, wherein:
The insulating housing 14 is formed with a stepped through-hole 18, which has a first hole section 20 and a second hole section 22. The contact surface element 16 is formed with contact fingers 24 in the area of the through-hole 18 in the insulating housing 14, which contact fingers 24 are spaced apart from one another uniformly in the circumferential direction, as can be seen in
The housing 10 for the fuze electronics (which are not illustrated) is formed with a stepped hole 24. A pressed body 26 is fixed in the stepped hole 24 such that it cannot move axially. The pressed body 26 may be composed of a metal, a metal alloy or an insulating material. This insulating material may be glass or ceramic. If the pressed body 26 is composed of a metal or a metal alloy, then an insulating layer 32 is provided between the outer surface 28 of the pressed body 26 and the inner surface 30 of the housing 10 in order to electrically isolate it from the housing 10 of the fuze electronics. This insulating layer 32 can be provided on the outer surface 28 of the pressed body 26 and/or on the inner surface 30 of the housing 10.
A contact pin 34 projects from the pressed body 26 and is electrically conductively connected to the fuze electronics (which are not shown).
When the connecting element 12 is in the mated contact state with the housing 10 of the fuze electronics, as is illustrated in
The housing 10 of the fuze electronics has a recess 38 (see
The insulating housing 14 of the connecting element 12 has a cutout 40 for a contact section 42 of the contact surface element 16. A connecting cable 44 is connected to the contact section 42. This connection is a fixed connection 46, for example a welded joint.
In FIGS. 1 to 3, the same details are in each case provided with the same reference numbers, so that there is no need to describe all of the details in conjunction with each of the figures.
Number | Date | Country | Kind |
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10 2005 029 325.5 | Jun 2005 | DE | national |