DE3545737C1 - Cartridge for expelling fluids under pressure - Google Patents

Abstract

The present invention relates to a cartridge for expelling fluids, especially water, under pressure. The cartridge contains a cylindrical fluid chamber and a propulsion charge chamber which is allocated to this chamber. A sabot which has a weak point is arranged between these chambers. This sabot has the form of a piston which encloses a cavity. This cavity is directed towards the propulsion charge chamber. The propulsion charge chamber and fluid chamber are connected to one another; the connection can be implemented in different ways. The cartridge is used for operating apparatuses with whose aid rock can be broken up, as a consequence of the emergence of the fluid under pressure after detonation of the propulsion charge, or connecting elements (for example of machine parts) can be cleaned, released or destroyed.

Description

The present invention relates to a cartridge to expel liquids under pressure, the min At least one liquid chamber and one, this chamber upstream and separated by a partition Has propellant charge chamber. After ignition of the in propellant located in the propellant charge chamber occurs the liquid from the liquid chamber under pressure out. This escaping liquid is used for cleaning or destroy fasteners or for Zer reduction of rocks used.

Cartridges for expelling water under pressure, the one Contain water chamber and a propellant charge chamber at which the water chamber through from the propellant charge chamber a membrane is separated, e.g. in the German Patent specification 29 07 759-C 2 described. When using the drive device claimed in this patent the propellant one combustion gases in the water  Chamber located water column through a nozzle from this Chamber out. The water escaping under pressure can then to clean or destroy fasteners serve e.g. Connect machine parts together. However, this arrangement described there has the disadvantage that the developed by the combustion of the propellant Gas pressure does not level the water column evenly drives the outlet nozzle so that part of the energy the combustion gases are lost and the water jet with often insufficient and not reproducible pressure and driven at a non-adjustable speed becomes.

It was therefore the task of cartridges in Vorrich to expel liquids under pressure With the help of combustion gases from propellant charges the rivers liquid column with reproducible pressure and speed from the nozzle as completely as possible to let kick.

In fulfilling this task, a cartridge was now used Expelling liquids found under pressure that a cylindrical liquid chamber and one, this Chamber upstream and abge by a separating element contains separate propellant charge chamber, and the ge is characterized in that the separating element as one at the Inner wall of one of these chambers adjoining pistons forms, which encloses a cavity and its face facing the liquid column one or has several predetermined breaking points.  

The piston, also known as the sabot can be formed from a tubular body and an end face that this tubular bottom body at the front end. The thickness of the wall the base body is preferably over the whole body right away; however, it can also be different and gradations included. These gradations are for purpose moderately arranged so that the smallest inside knife is below the face.

The sabot can be in its starting position both in the open, facing the liquid chamber End of the propellant chamber are located in the as well Liquid chamber in front of the liquid column. His The face is always facing the liquid column tet. One or more target are in this end face breaks arranged; they cause the central axial part of the end face of the remaining part the face is cut off as soon as the sabot after ignition of the propellant charge and passage through the rivers liquid chamber on the conical end of the liquid chamber meets. This remains after breaking Part of the sabot has the shape of a ring or a tube.

The predetermined breaking point of the sabot is preferred a disc-shaped surface, the diameter of which from breaking diameter within the face speaks. At most, this diameter is the same size like the inner diameter of the body below the face. However, it is also sufficient if only ver different places of the face several, preferably predetermined breaking points distributed along their circumference or one circular groove, notch or the like are present.  It is also possible within the outer wall of the Sabot to arrange a ring that comes from a known, which are not combustible by the propellant gases Sealing material is made.

Propellant charges go into the cartridge according to the invention chamber and liquid chamber directly into each other. Both chambers have a cylindrical shape. The blowing Charge chamber has abge on that of the liquid chamber turned a bottom piece, in which an ignition Set for the propellant arranged above the bottom piece charge is located.

The opposite end of the propellant charge Liquid chamber is preferably by appropriate Folding formed as a nozzle.

The cross-sectional diameter of the liquid chamber and the propellant charge chamber can be the same or different be. With different diameters a direct transition from one chamber to the other to be guaranteed. This can be done conveniently by moving one chamber to the other chamber is firmly attached. If necessary, this is done Push on using a sealing ring.

A particularly favorable implementation form for under different diameters of propellant charge chamber and Liquid chamber is that the outside the wall of one of the chambers to the inside diameter of the  whose chamber corresponds and the chamber with the larger one Inner diameter is attached to the other chamber. In these cases, the sabot is preferably in the liquid chamber and its outside knife is equal to the inside diameter of the liquid chamber. In the case of the smaller inner diameter the Propellant chamber, the sabot is preferred axially on the propellant charge chamber, if necessary under Use of double-sided adhesive tape, attached or glued.

The propellant charge chamber is preferably one in itself known propellant charge cartridge used with the Liquid chamber and the sabot in the specified benen form is connected.

It is also possible according to the invention that Propellant charge chamber and liquid chamber are the same inside have diameter. Both chambers are then through an inserted or attached sleeve together connected whose outer diameter is the inner diameter corresponds to both chambers or their inner diameter corresponds to the outside diameter of both chambers if both chambers have the same outside diameter. Im too the latter case, the sabot can also are inside the propellant charge chamber.

Another possible implementation of the present Invention provides a single cylinder in which Firing charge in succession (within a base piece), Propellant charge, sabot and liquid column are ordered.  

As liquid that is in the liquid column mainly serves water. Can in the water however, salts may also be present in solution. It can also Water with other water-miscible liquids be mixed, e.g. with glycerin. As liquids other media can also serve as water, mainly Lich those that have a higher density than water, such as. Silicone oils. It is important that the liquid caused by the combustion of the propellant charge the hot gases cannot be ignited.

The liquid is inside the liquid chamber conveniently in a bag from easily Pressure destructible material. Such a bag then has if possible, the shape of the propellant charge chamber.

Referring to Figs. 1 to 3, the present OF INVENTION dung will be described by way of example.

Fig. 1 shows - partly in section - a cartridge according to the Invention, in which the propellant charge chamber 13 is attached to the liquid chamber 8 . In the bottom part 2 of the propellant charge there is a central charge 1 . The chamber contains the propellant charge 7 . Their outer diameter corresponds to the inner diameter of the liquid chamber, which is filled with water 10 and folded into a nozzle 11 at the front end. The sabot 4 (made of thermoplastic material (eg poly vinylidene fluoride) has a predetermined breaking point 9 ; its wall includes an auxiliary volume 6. Inside its wall there is an O-ring 5 made of sealing material. The propellant 7 is known per se Closure 12 made of combustible or destructible material, the bottom part 2 of the propellant charge chamber is preferably made of metal or a metal alloy, the outer wall 14 of the propellant charge chamber is made of thermoplastic, such as for shotgun cartridges, and the wall of the liquid chamber is preferably made of the same material like the outer wall of the propellant chamber.

FIG. 2 shows an embodiment in which the sabot 4 is placed on the propellant charge chamber 13 , which is designed as a propellant charge cartridge. The numbers have the same meaning as in FIG. 1.

Fig. 3 shows a further embodiment of the sabot in axial section in enlargement. The wall of the base body 15 has different thicknesses. An O-ring 5 is embedded in the wall. The predetermined breaking point 9 is located within the end face of the sabot; it is formed out as a disk-shaped surface; the diameter of this area is smaller than the inside diameter of the base body below the end face.

Claims (4)

1. Cartridge for expelling liquids, in particular water, under pressure, with a cylindrical liquid chamber and a chamber upstream of this chamber and separated by a separating propellant charge chamber, characterized in that the separating device acts as a piston resting against the inner wall of one of these chambers ( 4 ), which includes a cavity ( 6 ), is formed, the end of which is directed towards the liquid chamber ( 8 ) and has one or more predetermined breaking points ( 9 ). 2. Cartridge according to claim 1, characterized in that the outer diameter of the wall of the liquid chamber ( 8 ) corresponds to the inner diameter of the propellant charge chamber ( 13 ), the liquid chamber ( 8 ) is partially inserted into the propellant charge chamber ( 13 ) at its open end and the piston ( 4 ) is arranged inside the liquid chamber ( 8 ). 3. Cartridge according to claim 1, characterized in that the propellant charge chamber ( 13 ) is designed as a separate propellant cartridge, on the liquid chamber ( 8 ) directed end of the piston ( 4 ) is placed axially. 4. Cartridge according to one of claims 1 to 3, characterized in that the predetermined breaking point ( 9 ) inside half of the end face of the piston ( 4 ) is centrally disc-shaped.