DE552576C - Explosive cartridge - Google Patents

Description

The invention relates to the special design of an explosive cartridge that essentially a cylindrical steel smelter with a gas chamber arranged inside for receiving highly compressed or liquefied gas and one in this chamber used electrical heating device consists. The electric heater is on connected to an electrode that

* ° through a wall of the steel shell in the gas chamber is enough. On the one hand, this electrode must be reliably removed from the steel shell be isolated, on the other hand it must also allow a good seal. The fulfillment

“5 of both conditions has so far caused great difficulties with regard to the high pressure generated in the gas chamber, which is approximately 2900 kg per cm ² during discharge, since this high pressure

so the insulating packing has so far been completely blown out or at least has been destroyed to such an extent that a gas-tight seal no longer existed between the electrode and the sheath.

»5 The invention remedies this problem by the fact that the at the edge of the cartridge supporting area of the electrode is at least equal to or greater than the cross-sectional area of the electrode on which the pressure in the gas-filled chamber acts in the axial direction. In order to keep the high internal pressure from the electrode, 'is the ring flange A nut screwed into the cartridge body is placed in front of the electrode.

In the drawing, an embodiment of the invention is shown, for example, the figure showing a longitudinal section of such an explosive cartridge.

The explosive cartridge consists of a cylindrical metal body r containing a gas, 40 Chamber 2 includes, the open end of which is sealed by a break disk 3 is. This disc rests against a ring extension 4 of the body and is on the The rear side is supported by a shear ring 5. The washer and the shear ring will be held in their position by the hood 7 which is screwed into the cartridge body and is provided with outlet channels 8 and 9.

At the other end, a protruding into the gas chamber 2 is in the bottom 14 of the cartridge Electrode 10 is used by insulating pieces 18 from the cartridge housing is isolated. Behind the bottom 14, the electrode carries an annular flange 17, the inside a cylindrical recess 15 of the cartridge housing. In this cylindrical Turning a nut 21 is inserted in front of the annular flange, which the annular flange 17 presses against the bottom 14. For isolation &>

of the electrode, insulating bodies 19, 20 are arranged between it and the nut.

The head of the nut 20 is polygonal, so that the nut can be tightened with a suitable wrench so that the required pressure is created between the adjacent surfaces of the flange 17, the wall 14 and the insulating bodies in between, and an effective, tight seal the gas chamber 2 is achieved. This arrangement ensures that the pressure occurring inside the gas chamber is held back by the annular flange 17 of the electrode and is transmitted directly to the cartridge body by the nut. This also makes it possible to design the area of the electrode 10 supported on the cartridge body wall 14 to be at least equal to or larger than the area of the electrode which is also exposed to the pressure in the chamber 2. This means, however, that the load on the support surface can be significantly reduced compared to previously known bearings for the electrode. and as a result, the stress on the insulating material is significantly reduced and the electrode can be sealed better and with simpler means.

The free end of the electrode 10 protruding into the gas chamber carries a sleeve-like one Part 41 in which one end of an electric heating cartridge 13 (dotted in figure indicated) is plugged in. The other end of the heating cartridge is supported medium or directly against the break disk 3 and is in conductive connection with it.

The electrode passes through an axial channel 23 which extends as far as a transverse bore 24 which connects the channel 23 with the interior of the gas chamber. To the zn & tre. A valve body 25 is screwed onto the end of the electrode, which receives a screw valve 11 and is isolated from the cartridge body by an insulating washer 27. With the valve 11 open, the liquid gas can then be filled into the gas chamber 2 through the filling channel 26 and the channels 23, 24. The rear end of the explosive cartridge is then covered by a dome attached to the cartridge body which contains means for connecting a source of electricity to the electrode or the cartridge housing.

Claims (2)

Patent claims: ι. Explosive cartridge with a chamber for receiving highly compressed gas and an electrode fastened in a transverse wall with an insulating and sealing insulating material in between, characterized in that the area of the electrode (10) supported on the cartridge body wall (14) is equal to or larger than the cross-sectional area the electrode (10) on which the pressure in the ⁶ S gas-filled chamber (2) of the cartridge body (1) acts in the axial direction. 2. explosive cartridge according to claim 1, wherein the electrode with an annular flange is provided, which is in a cylindrical recess on the inside of the cartridge body wall and is then mounted on the passage opening for the electrode, characterized in that a nut (21) is placed in front of the ring flange (17) of the electrode. 1 sheet of drawings