NO116793B - - Google Patents

Description

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Sleeveless drive cartridge, especially for industrial use

devices, such as bolt guns or the like.

An advantageous use of gunpowder-powered devices for industrial use, such as bolt guns, slaughter machines and the like,

assumes that rapid recharging and especially the device's functions are not influenced by contaminants. Experience has shown that the cartridges known and used until now do not satisfy this requirement or only to an unsatisfactory degree, as due to the high pressure that occurs with these cartridges, there is constantly splintering and tearing of the wall of the cartridge case and thereby contaminating the device's cartridge chamber. Admittedly, attempts have been made in various ways to avoid these disadvantages

per, e.g. in that the cartridge case is designed with predetermined Kfr. at 66a-2/01

fracture zones, however, all these attempts have so far not shown any decisively good results.

To avoid the above-mentioned disadvantages and also to save it

in and of itself unnecessary weight of the cartridge case as well as the necessary materials and costs for this, the invention proposes a completely burning caseless cartridge, which is designed as a cast or pressed propellant body with a preferably central recess and an arranged in the area of this recess, mechanically ignitable ignition charge, where the propellant cartridge is characterized by the ignition element being designed as a gunpowder foil, which at least on one side covers the recess of the propellant body and/or is designed as a gunpowder charge that partially fills the recess.

Until now, the omission of the cartridge case was opposed by safety reasons, in particular the risk of an unwanted ignition. However, this danger is overcome by the design of the cartridge according to the invention, because then the cartridge itself does not have a counter bearing necessary for ignition, and even with the presence of such a counter bearing, an ignition can only be triggered when a blow is made against it in the area of the recess impact-sensitive gunpowder charge arranged in the propellant body, which in turn requires that there is a correspondingly arranged impact tool that can be inserted into the recess.

In an appropriate design of the invention, it is proposed to design the propellant body as a flat tablet with a central recess which extends almost over its entire height. This design can be used with particularly great advantage if castable propellant is used. As well as the use of castables such as1

other propellant, according to another proposal of the invention, the propellant body can be designed as a flat ring.

By designing the propellant body as a flat tablet with a recess, the necessity of an oriented introduction of the propellant cartridge into the launching device is avoided, if only on one end side of the propellant body, and then of course on the opening side of the recessj a gunpowder foil is applied to cover the recess, especially if the is glued on. With the design of the propellant body as a ring, however, this is only achieved if the other end surface of the propellant body is also equipped with such a powder foil that covers the recess.

To achieve the desired release of the ignition using

of sorts it can be advantageous to

design the poii of a shock-sensitive i.e. of a gunpowder that can be ignited by a blow. In order to increase ignition safety and intensify the ignition of the propellant, in addition, in the area of

no layer must be placed on the inside of the foil with a mixture that can be ignited by impact, e.g. tetrazene or tetrazene trizinate.

In the case of a cover on both sides of the recess, however, the arrangement can also be such that the recess is partially filled with loose leaf powder that can be ignited by a blow. The corresponding

end naturally also applies when the propellant body is designed as a tablet with only one opening, or with one on this opening side by means of a recess closed with gunpowder foil. Likewise, a gunpowder mixture that can be ignited by impact or a loose powder that can be ignited by impact can be used, if, according to a feature of the invention, the gunpowder foil has been produced from a gunpowder that cannot be ignited by impact, and normal gunpowder has been used instead.

Regarding the use of suitable gunpowder types, one is very free both for the propellant body and for the gunpowder foil. For the former, one can e.g. use pure NC gunpowder."A porous gunpowder is particularly appropriate. Besides a large surface, which ensures good ignition, such gunpowder has the particular advantage that even at relatively low pressure it can be continued into a solid pressed mass without thereby the pores close.For the gunpowder foil, if an impact-sensitive gunpowder is not additionally used, it must only be ensured that it is made from a gunpowder that can be safely ignited by impact.

Also, as regards the shape and dimensions of the propellant powder ring as well as the thickness of the powder foil3, one is essentially very free. Of course, the individual sizes are determined depending on them

to a prevailing requirement at any time, so that e.g. the thickness of the gunpowder foil and/or the application of gunpowder depends on the available impact energy.

In the case' - that the light opening of the ring cross-section becomes partial

filled with loose gunpowder, this should suitably consist of thin blades with a thickness of less than 0.2 mm. For the predetermined purpose, it would also be beneficial if the gunpowder had an NGL content of at least 4-0%"The amount of gunpowder to be filled also folds in here again after

the available impact energy, which must be greater the thicker the gunpowder layer, which is why the latter is kept as thin as possible, of course on the condition that the correct ignition

of the propellant thereby not being endangered.

The invention is shown in the drawing using an example

example of the execution on an enlarged scale and will be explained in more detail in the following with the help of this.

The molded or from a porous gunpowder pressed circular

the ring-cylindrical propellant body 1 is at both end surfaces to

covered with an impact-sensitive gunpowder foil 2. The light opening to ring-

the cross section 3 is partially filled with the loose leaf powder 4"

Both the cross-sectional dimensions and the height of the powder ring

1, as well as the thickness of the foil 2 and the loose leaf powder 4 are here only to be considered as an example. It is also possible, for example, to enlarge the ignition surface in such a way that the light opening of the ring cross-section is designed with a star-shaped cross-section profile.

You can also deviate from the simplest form of drive cartridges shown here.

Claims (6)

1. Sleeveless drive cartridge, especially for industrial use devices, such as bolt guns and the like, with a molded or pressed propellant body, which preferably has a central recess and a mechanically ignitable ignition element arranged in the area of this recess, characterized in that the ignition element is designed as a gunpowder foil (2), which at least on one side covers the recess of the propellant body and/or as a gunpowder charge (4), which partially fills the recess. 2. Propellant cartridge according to claim 1, with a gunpowder charge, characterized in that the gunpowder charge (4) is covered on at least one side with a gunpowder foil... which cannot be ignited by impact. 3. ]' Drive cartridge according to claim 1 or 2, characterized . in that the bottom and/or inside of the recess on the free surface' . until the gunpowder foil or the gunpowder foils are covered, particularly glued on, a gunpowder charge, e.g. tetrazene or tetrazene trizinate. 4. Drive cartridge according to claim 1 or 2, characterized by the gunpowder charge (4) which partially fills the recess closed on both sides) is a loose leaf gunpowder. 5. •'. Drive cartridge - according to one of the requirements, is characterized in that the drive housing is designed as a flat tablet with a central recess that extends almost over its entire height. - : •• ■ 1 \ 6. Propellant cartridge according to one of claims 1-4> characterized in that the propellant body is U-shaped like a flat ring.