WO2017060262A1 - Non-pyrotechnic squib - Google Patents

Abstract

The invention relates to a squib which makes it possible to produce a flame during several minutes, outdoors, in unfavourable weather conditions, in order to ignite the oxidiser used to destroy waste. It mainly includes an open tube (1) in which steel wool (9) is placed, inside of which is placed a wire (8) which can be sublimated under electrical stress. Said wire is supplied with power by an electrical cord (6) running along the disc (3) placed on the cross-section of the open tube (1). A compressed-air intake pipe (4) passes through said disc (3) and the foam reinforcement (2) thereof in order to blow air into the open tube (1). The assembly self-destructs during the use thereof. The invention is useful in open-air waste destruction.

Description

 NON-PYROTECHNIC INFLAMMATOR

DESCRIPTION OF THE FIELD OF THE INVENTION

The invention relates to igniters, flame generators and other devices for igniting an oxidizer for the combustion of objects. It relates in particular to the field of the dismantling of installations containing pyrotechnic waste to be destroyed. In particular, one thinks of a multitude of explosives in several different forms and states. Unconfined buildings, cassettes, asphalt mixes, pulverulent materials, machining slurries, detonators and explosive-laden waste may be mentioned. Waste contaminated with explosives, objects and materials comes in the form of materials, materials, personal protective equipment, tools, machines, solvents, most of the time contaminated with explosives encountered on the site.

Prior art and problem

A pyrotechnic waste destruction technique, currently in use, is to burn this waste in the open air. The smooth running of this burning operation begins with an essential step of initiating a combustion, that is to say causing ignition.

 This ignition is done, most of the time, using devices called

"Pyrotechnic igniters". These initiator devices are, by definition, made up of two indispensable elements, which are a resistance and a pyrotechnic mixture, itself composed of a fuel and an oxidant. To form these can be used titanium, zirconium and potassium nitrate and potassium perchlorate. A drop of the pyrotechnic mixture is deposited on the resistor, which is generally made of a thin metal wire and twisted. As soon as an electric current of sufficient intensity, at about 0.6 amperes, flows through the resistor for a given time, about 0.3 ms, the pyrotechnic mixture burns. This allows the start of the combustion of the material and allows the ignition of the oxidizer soaking the material to be destroyed.

 This type of device is close to certain detonators, however, it differs in the sense that it does not function to produce a shock wave.

 The pyrotechnic igniters use a pyrotechnic mixture and thus generates several problems which are the following ones:

 transport of igniters on the site of use, with submission to the European agreements in force, relating to the international carriage of dangerous goods by road;

 implementation of the device on the site, requiring the presence of authorized and competent personnel; and

 Storage conditions and precautions when handling igniters, for example to avoid shocks, friction and away from any source of heat.

 In addition, the flame generated by such means, during the ignition of the oxidant, has a duration of only a few seconds. The operation is then delicate, when the weather conditions are unfavorable, for example in the presence of wind and / or rain.

 Various pyrotechnic igniters are known from the following documents:

 US 3,971,320, showing the use of a metal or plastic plastic envelope;

 US 4,380,958 and US 4,152,988, showing the use of a coating agent;

US 10 / 947,975, showing the use of a pyrotechnic charge. On the other hand, US Pat. No. 7,363,860 discloses a non-explosive initiator, using a heating resistor, in contact with a flammable mixture composed of metallic elements and a metal oxide, called "thermite".

 The object of the invention is to avoid the disadvantages of the aforementioned devices, and the problems they pose and lower the cost of such devices.

Object of the invention

The main object of the invention is a destructible igniter, which mainly comprises:

 an open tube;

 a piece of steel wool placed in the open tube;

 a sublimable yarn under electrical stress (commonly referred to as "flash yarn") placed in the piece of steel wool;

 a double electric cord connected to the wire put in the steel wool to supply it with electricity;

 a compressed air inlet pipe, opening at the rear of the piece of steel wool on the same side as the double electric cord; and

 a disc placed on the side of the compressed air supply pipe and the double electrical cord, the disc holding these two last in position, the electrical cord passing through the disc.

 Preferably, the tube and the disc are made of cardboard.

In a preferred embodiment, a foam cylinder placed against the disc, outside thereof, is used for the purpose of maintaining the dual electrical cord and the compressed air supply pipe. This allows the sealing of the inside of the tube at the disc. The disc also protects the foam cylinder from thermal radiation. Preferably, it is advantageous to use a spacer placed in the open tube, between the piece of steel wool and the disc. The spacer allows to have reproducibility of manufacture of the igniter.

 It is interesting that the double cord has two pods in which the ends of the sublimable wire are plugged, the pods being offset relative to each other not to be in contact with each other, once positioned in the piece of wool steel.

 It is interesting to use a silicone tip on the end of the inlet pipe to facilitate the maintenance of the latter without tearing the inlet pipe relative to the disc.

List of Figures

The invention and its various technical features will be better understood on reading the following description, which is accompanied by three figures, respectively representing:

 Figure 1, in section, the igniter according to the invention;

 Figure 2, in a cavalier view, the same igniter according to the invention; Figure 3, exploded view, the igniter according to the invention;

 Figure 4, in a cavalier view, the sublimable wire and its dual power cord;

 FIGS. 5A to 5F, the different stages of the assembly of the igniter according to the invention.

Detailed description of an embodiment of the invention

Referring to Figure 1, the igniter according to the invention mainly comprises an open tube 1, inside which is placed a piece of steel wool 9, occupying the entire inner section of the open tube 1. A L ' Inside this piece of steel wool 9, is placed a sublimable wire 8. This sublimable 8 wire is powered in electricity by a double electrical cord 6, which arrives at the piece of steel wool 9 and is equipped with two lugs, not shown in this figure.

 On the left of Figure 1, there is a disc 3 occupying the entire inner section of the open tube 1 and outside which is applied a foam cylinder 2. A spacer 10 placed inside the open tube 1 allows to spacing this disk 3 from the piece of steel wool 9. The sublimable wire 8 may be made of stainless steel, for example Z8 CN 25 20.

 The disk 3 is made of cardboard, as is the open tube 10.

 The disk 3 and the foam cylinder 2 are crossed at their center by a compressed air inlet pipe 4 which activates the combustion of the steel wool 9. It is completed with a nozzle 5 which surrounds it, preferably silicone and placed at the disc 3. This makes it possible not to tear the compressed air inlet pipe 4 of the disc 3.

 A power cord runs along or passes through the foam cylinder 2 and runs along or through the disk 3. This double power cord 6 has its end positioned on the side of the piece of steel wool 9. The wire 8 is crimped on means of two lugs 7 to this electrical cord 6.

 Figure 2 shows this mounted assembly. It distinguishes the inlet pipe 4, the electric cord 6, the open tube 1 and a radial surface of the piece of steel wool 9.

 Figure 3 shows all these parts exploded. It has included a lug 7 connecting the electrical cord 6 to the wire 8.

FIG. 4 shows the connection of the wire 8 to the electrical cord 6, by means of two lugs 7. Each lug 7 is placed at the end of one of the two parts of the double electrical cord 6 and allows one end of the wire 8 to be fixed there. Note that the position of the two lugs 7 is shifted longitudinally, if we bring the two parts of the electrical cord 6. This is intended so that the two lugs 7 are not in contact with each other, once set to the inside of the piece of steel wool 9, the mounting does not necessarily ensure a precise and separate positioning of these two lugs 7. This avoids a risk of short circuit in the igniter. The operating principle of the igniter is as follows. A current of sufficient intensity implodes the wire 8 sublimable. Thus, the piece of steel wool burns. The supply of compressed air through the inlet tube 4 makes it possible to maintain this combustion and the formation of an intense flame for a period of several minutes. Thus, the combustion of the materials inside the open tube 1 continues.

 The composition of the whole of the igniter, partly in cardboard, allows its almost complete destruction at the end of the operation.

 When using, simply connect the igniter to a power supply and a compressed air supply. The igniter is then placed in front of the waste to be destroyed. The opening of a service valve for supplying compressed air is then opened. The wire 8 is then energized. A voltage of 25 volts can be used at an intensity of between 10 and 20 amperes. The pressure of the compressed air to be sent inside the igniter can be of the order of 1 bar. Once these conditions are fulfilled, the firing can then take place.

 The igniter according to the invention is easy to develop. The mounting principle is as follows.

 With reference to FIG. 5A, a first phase consists in crimping the wire 8 on the two terminals 7.

 Referring to Figure 5B, the second operation is the establishment of the electrical cord 6 in the piece of steel wool 9, which has been precut.

 With reference to FIG. 5C, a third operation consists in introducing this assembly into the open tube 1, which is preferably made of cardboard.

 With reference to FIG. 5D, the following operation consists of placing the open tube 10, which serves as a spacer, inside the open tube 1.

 With reference to FIG. 5E, the following operation consists of preparing the inlet pipe 4 with compressed air, equipped with a protective cap and mounted on the disc 3 and the foam disc 2.

With reference to FIG. 5F, the last phase consists in introducing this assembly prepared during the preceding operation into the end of the open tube 1. Advantage of the invention

The igniter according to the invention makes it possible to improve the temporal conditions of the burning of the waste. On the other hand, the igniter according to the invention is reliable, allows a remote firing and the generation of a flame for several minutes and can withstand the weather during use.

Claims

1) destructible igniter,  characterized in that it comprises:  an open tube (1);  a piece of steel wool (9) placed inside the open tube (D;  a wire (8) sublimable under electrical stress placed in the piece of steel wool (9);  - a double electrical cord (6) connected to the wire (8) for powering and passing inside the open tube (1);  an inlet pipe (4) of compressed air opening inside the open tube (1), on the same side as the double electric cord (6); and  - a disk (3) placed on the entire section of the open tube (1) and through which the inlet pipe (4) with compressed air and the double electric cord (6).  2) Inflammator according to claim 1, characterized in that it comprises a foam cylinder (2) placed against the disc (3), outside thereof to maintain the double electrical cord (6) and the pipe of arrival (4) compressed air and improve the sealing of the inside of the open tube (1) relative to the disc (3).  3) Inflammator according to claim 1, characterized in that it comprises a spacer (10), placed in the open tube (1) and between the piece of steel wool (9) and the disc (3). 4) Inflammator according to claim 1, characterized in that the double power cord (6) has two lugs (7) in which the ends of the wire (8) are plugged, the lugs (7) being shifted one by relationship to each other not to be in contact with each other when placed in the piece of steel wool 5) Inflammator according to claim 1, characterized in that the open tube (1) is cardboard.  6) Inflammator according to claim 1, characterized in that the disc (3) is cardboard.  7) Inflammator according to claim 1, characterized in that it uses a tip (5) of silicone, placed around the tube of the compressed air inlet pipe (4), at the disc (3) to maintain the inlet hose (4) without tearing it away from the disc (3).