BE544207A - - Google Patents

Description

       

   <EMI ID = 1.1>

  
fuel such as, for example carbon dioxide, enclosed, in the liquid state, in a pressure-resistant envelope, such that, upon ignition of a gas-producing composition, a gas is released which increases the internal pressure of the envelope

  
 <EMI ID = 2.1>

  
the shape of a sealing disc, is broken so that the load is expelled from the casing.

  
A gas producing composition for such exciters is described in the British patent.

  
 <EMI ID = 3.1>

  
that, when the composition is ignited by a rocket which, by itself, burns in air, it does not cause

  
not the combustion of the gas-producing composition and the consequent rupture of the envelope when the exciter is at atmospheric pressure. When using explosive cartridges fitted with exciters of the aforementioned general kind, it has been found that

  
has a minimum carbon dioxide explosive density of about 0.85 which is necessary for the correct operation of the exciter and the rupture of the shutter. This charge density requires a charge pressure of about 70 atmospheres at room temperature. For low loading pressures, for example less than 6 atmospheres, no combustion of the composition takes place. However, there is a wide range of pressures between 6 atmospheres and 70 atmospheres where the exciter can ignite, but where the

  
 <EMI ID = 4.1>

  
For whatever reason the density of the explosive charge is less than that necessary for the proper functioning of the explosive cartridge, combustion of the composition occurs, but the pressure of the charge does not rise enough to rupture the shutter. There may be several reasons for this such as, for example, leakage of the load through the seals of the casing which is usually made of steel, or insufficient filling during the initial loading operation. In these cases, the load pressure rises, but without breaking the shutter or the sealing disc and the gases produced can escape through the seals of the casing damaging the packing washers, eg. example those which are arranged at the shoulder of the casing and at the shooting or decnarge head.

   The exhaust of gases which occurs in this manner has a deleterious effect on the threads of the casing sections, causing erosion wear and possible destruction of the threads, which reduces the life of the casing and ultimately makes it unsuitable for reloading.

  
The main aim of the present invention is to avoid the aforementioned drawbacks when the combustion of the gas-producing composition takes place without the rupture of the shutter or of the shut-off disc, which prevents wear of the threaded parts of the device and, therefore, the risks and early rejection of the envelope.

  
According to the invention, an explosive cartridge driver of the specified species comprises a container

  
 <EMI ID = 5.1>

  
gases comprising edible and non-combustible constituents in proportions such as to be incapable of sustaining combustion at normal temperatures and atmospheric pressures, but which burn under the pressure of the explosive charge contained in the

  
 <EMI ID = 6.1>

  
heater or resistance in direct contact with the composition without the intermediary of an easily combustible igniter, the arrangement being such that the composition cannot be ignited by the heating wire when subjected to a substantially lower pressure at 100 atmospheres, the composition being packed in the vicinity of the heating wire or resistance to an extent sufficient to ensure ignition under the required conditions.

  
The gas-producing composition used can be that which is described for example in the patents

  
 <EMI ID = 7.1>

  
or resistor may be in the form of a shunt wire similar to those described in the UK patents? 560277, 630981 and. 617136, but without the "match head" or other easily flammable composition surrounding the wire.

  
It has been found by experience that the density of the composition immediately surrounding the heating wire is large and this density needs to be carefully adjusted in order for the cartridge to function properly and reliably.

  
The figure of the accompanying drawing shows a longitudinal section of an exciter constructed according to the inventicr

  
During the implementation of the invention, according to an advantageous mode applied, by way of example, to an exciter intended for an explosive cartridge according to British Patent N [deg.] 654958, use is made of a container of paper or cardboard in the form of a tube 1 closed at one end by a wooden plug or other 2 and, at the other end, by a metal capsule structure 3- A heating or resistance wire, of the well-known shunter, comprises a blade of paper pulp or of another insulating material 4- to the opposite faces of which are fixed metal sheets? whose ends are joined by

  
 <EMI ID = 8.1>

  
shuntage is fixed by a sleeve 7 in the internal end of the plug 2, one of the sheets 5 being connected by a wire 8 to the metal cap 3 and the other

  
 <EMI ID = 9.1>

  
(not shown) of the cartridge casing, the electrical conductors being connected in the usual manner. In the present example, the cartridge rupture sealing disc is constructed to rupture under a pressure of 12 tons per square inch.

  
 <EMI ID = 10.1>

  
one of those described in British patents? &#65533; 80330 and 668277. A typical composition contains, for example, the following proportions ..., your parts by weight in 100 parts:

  

 <EMI ID = 11.1>
 

  
 <EMI ID = 12.1>

  
The gas-producing composition takes place under a pressure of about 100 atmospheres, but if the pressure is significantly lower than this value, the heating wire does not ignite the composition. It follows that if the pressure of the explosive cartridge is sufficient for the heating wire to cause combustion of the composition, this pressure is sufficient to ensure operation; correct cartridge. It is also found that it is necessary that around the heating wire, and in contact with the latter, the composition is somewhat packed or crushed to produce a certain density of the composition there. In the above arrangement,

  
 <EMI ID = 13.1>

  
present in the half inch in length of the portion of tube 1 which surrounds wire 6. If there is not a certain degree of compactness, malfunction and production composition may result.

  
 <EMI ID = 14.1>

  
exceeding 100 atmospheres. As stated above, this compaction of the composition should only be created in the vicinity of the heating wire. In practice, however, it is found convenient to pack the composition throughout tube 1 at about the same density.

  
In another example of an exciter for an explosive cartridge of the species described in

  
 <EMI ID = 15.1>

  
A sealant that bursts under a pressure of 8 tons per square inch, tube 1 of paper or cardboard has an <EMI ID = 16.1>

  
of a gas-producing composition of the aforementioned species. The composition is packed around the heating wire to such an extent that no less than 8 grams of composition is contained within one-half inch in length of the portion of the paper tube which surrounds the heating wire. It is understood that the whole composition can be packed to this density if desired.

  
The heating wire employed is of the kind of wire generally employed in explosive cartridges of the species specified and which has previously been used with a match head or similar igniter. The wire may for example have a length of 1 mm. and is made of nickel-chromium resistance wire having an electrical resistance of 1000 to 2000 ohms per meter. It is understood that the dimensions and characteristics of the resistance wire can be modified from those mentioned above, to adapt to particular conditions.

  
Although in the previous example the exciter is described as comprising a tube of paper or cardboard and a wooden plug, other materials, eg, suitable synthetic plastics may be employed. Likewise, while the exciter according to the invention "has been described with reference to a

  
 <EMI ID = 17.1>

  
 <EMI ID = 18.1>

  
the exciter and separate from the main load, the exciter can also be used with cartridges having only one compartment.

CLAIMS.

  
1. Explosive cartridge exciter of the specified species ,. comprising a paper or other container containing a gas-producing composition comprising

  
combustible and non-combustible constituents in proportions such that they are unsuitable to maintain

  
combustion under normal temperatures and atmospheric pressures, but burns under the pressure of the

  
explosive charge contained in the cartridge, in combination with a heating or resistance electric wire

  
in direct contact with the composition without the intermediary of an easily combustible ignition substance, the arrangement being such that the composition cannot

  
be lit by the heating wire when it is

  
subjected to a pressure substantially less than 100 atmospheres, the composition being packed in the

  
vicinity of the heating or resistance wire in a

  
sufficient to ensure ignition within

  
required conditions.


    

Claims (1)

2. Exciter according to claim 1, in which the heating or resistance wire has the shape of a shunt wire connecting the ends of two parts metal or metal sheets fixed on both sides the other of an insulating blade. <EMI ID = 19.1> wherein the gas-producing composition is enclosed in a paper tube or the like and the heating or resistance wire is carried by a plug secured in one end of the tube. <EMI ID = 20.1> pressure resistant containing a non-combustible charge, for example carbon dioxide, and having a shutter to be ruptured, and comprising an exciter for the explosive charge and according to claims 1, 2 or 3. <EMI ID = 21.1> ment as described above with reference to the accompanying drawing. <EMI ID = 22.1> intended for the explosive charge and substantially as described above with reference to the accompanying drawing