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Publication numberUS3110258 A
Publication typeGrant
Publication dateNov 12, 1963
Filing dateJun 7, 1960
Priority dateJun 7, 1960
Publication numberUS 3110258 A, US 3110258A, US-A-3110258, US3110258 A, US3110258A
InventorsEdward R Weber
Original AssigneeHercules Powder Co Ltd
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Gas-generating device
US 3110258 A
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Description  (OCR text may contain errors)

Nov. l2, 1963 E. R. WEBER GAS-GENERATING DEVICE Filed June 7, 1960 033.-! EISCHELLHVO EDWARD R. WEBER INVENTOR.

BY wmw/ United States Patent Q M 311116,25@ GAS-GENERATING DEVECE Edward R. Weber, Hueytown, Ala., assigner to Hercules Powder Company, Wilmington, Del., a corporation of Delaware Filed .lune 7, i960, Ser. No.. 34,420 6 Claims. (Cl. 1432-25) rllhis invention relates to a gas-generating device and more particularly to a gas-generating device and method of producing pressurized gas especially adapted to mining.

The need for better blasting action in the production of lump coal and other types of rocks where shattering is to be avoided has been the object of considerable research. This is particularly so in respect to coal-winning where still safer techniques are continually being sought. Heretofore the art has resorted to such well known means as blasting explosives of various types, the rapid heating of compressed or liquelied gases such as air or carbon dioxide, the connement of gas-generating compositions in pressure-resistant tubes, all of which have disadvantages of one sort or another, but all of which have a common disadvantage in respect to premature or accidental initiation.

More recently, the confinement of solid gas-generating compositions in pressure-resistant tubes or the like such as drills has gained impetus due, primarily, to advances in the art which 'have demonstrated that devices of this category may be employed in a semiautomatic or automatic manner. Nevertheless, insofar as known, all these devices have the disadvantages which characterize electrically-fired, llame-producing or spark-producing initiating means, since all such means are coniined within the pressure-resistant tube at all times after the initial loading. More objectionable, the initiating means is usually confined in the main cartridge or a primer cartridge for use in conjunction with the main cartridge which in either event is quite undesirable from the viewpoint of storage and safety prior to initial loading and firing.

For the mining of coal, or other types of mining where the possible ignition of dust or gas presents a hazard, the art has resorted to electric resistance heaters as a safety measure. However, these resistance heaters are coniined either in the main gas-generating charge or in a primer charge to be utilized in conjunction with the main charge which is undesirable. Such arrangements are not conveniently adaptable for semiautomatic or automatic operation and, moreover, are lacking in respect to economy since the resistance heater is ditlicult to properly package and it is consumed with each shot.

It is, therefore, a primary object of the present invention to provide a gas-generating device and method of producing pressurized gas of improved safety especially adapted for mining and particularly coal mining. A further object is `to provide such a device and method giving improved economy, improved ease of utility particularly in conjunction with semiautomatic and automatic operation, and positive and safe ignition control. Other Objects of the invention will appear hereinafter, the novel features and combinations being set `forth in the appended claims.

Generally described, the objects of the present invention are accomplished by heating a gas-generating com-` position in a combustion chamber having a rupturable closure at ione end of the chamber by lforce-insertion of a re-utilizable initiating heat element into the composition from the other end 'of said chamber. lt has been found that this may be conveniently accomplished in a gasgenerating device especially adapted for a pressureresistant combustion chamber which has a re-utilizable heating means at one end and a discharge oriiice at the other end of the chamber and a cartridge disposed therein Btl llltZSd Eatented Nov. 12, 1963 ICC containing a gas-generating composition and having a rupturable closure at one end thereof to seal the discharge oriice and having a penetrable nonconductive closure at the other end thereof to receive the heating means, by forcing said heating means through the penetrable nonconductive closure and into the cartridge to ignite the gasgenerating composition.

A preferred embodiment of the inveniton has been chosen for purposes of illustration and description and is shown in the accompanying drawing wherein reference symbols refer to like parts wherever they occur.

ln the drawing, which is a part sectional, part elevational view of apparatus illustrating application of the invention, support members l, forming a part of an automatic blasting apparatus, for example, are rigidly secured to a cylindrical combustion chamber 2- having an aft or yfeed end for ingress of thermally decomposable cartridges containing a gas-generating composition and a forward end of reduced diameter for the egress of pressurized gas. Threadedly secured to the combustion chamber 2 is a retainer ring 3 which in turn compressively secures a head insert ring i between the ring 3 and the chamber 2 with an O riuU-seal Zrs providing a gas-seal therebetween. A reciprocating tiring head 5 slides into the head insert ring 4 and is gas-sealed by an O ring-seal Srs. The ring head 5 is provided with a rigid electrical igniter 6 which is secured to the firing head by a retainer nut 7 which is threaded into the firing head. A compression assembly is then provided by insulated washer S, socket connector 9, and spacers l@ each `side of plastic seal lll. This oompression assembly is quite important since it prevents any blow-back of high pressure gas through the ignition system since the retainer nut 7 is utilized to impart considerable precompression on the assembly to insure that the plastic seal is sufficiently tight about the lead wires and is firmly seated to withstand the pressures generated in the combustion chamber. A compression spring l2 has one end secured to the retainer nut 7 and its other end provided with a thrust washer i3. The spring in its fully extended position extends to approximately the point of the igniter t5. i

ln operation of the device, it will be understood, of course, that the reciproca'ole firing head 5 and the assembly aixed thereto retract into an automatic feed chamber (not shown) whereupon the point of the igniter 6 and the thrust `washer i3 engage a cartridge 14 and push it forward to engage a thrust seat 15, which in turn supports a shear ring 16. The thrust seat l5 is gas-sealed to the combustion `chamber 2 by an O ring-seal lSrs. A cartridge guide t7 athxed to the head insert ring 4 Iinsures that the cartridge is guided 4to properly engage the shear ring le. The cartridge ld comprises a paper shell l, a heat-resistant rupturable closure element 19 afxed to its fonwarld end, a main gas-generating charge 2t), a primer charge 2l., and a penetrable fiuted end crimp 18C for closing its `aft or ignition end. When the cartridge d4 is operatively positioned in the combustion chamber 2, the rigid electrical igniter 6 Vhas been forced through the penetrable uted and crimp l8r: `into the cartridge and has penetrated the cartridge to a depth of about 1% inches. The ring head 5 is then locked by suitable means (not shown) and the `device is ready for tiring. Electric firing current is then delivered via lead wires 22 and 23 to the rigid electrical igniter 6 which ignites the ignition or priming charge 2l which in turn ignites the main gasgenerating charge 29; This results in a self-sustained decomposition of the cartridge including its shell and when the resulting high pressure gases reach a predetermined pressure, the rupturable closure element 19 ruptures and disintegrates with sudden release of the `gases from the combustion chamber 2 via a discharge Or-ilice 24 to perform useful work, particularly in conjunction with blastaliases ing apparatus such as that disclosed in copending application of Robert W. Lawrence and Robert J. Shiel, Serial No. 783,867, filed December 30, 1958, now US. Patent Number 3,055,648.

The rigid electrical igniter 6 which is shown represents one type of heating means and has a tapered body member made from an asbestos phenolic molded rod. Eight transverse apertures were provided through the body member and a round pointed steel tip was airixed to the top thereof. Two longitudinal apertures were divergently drilled from the base of the body member and emerged from the body member Within the lower half thereof. A resistance element was then Wound about the body member and through alternate of the transverse apertures, having each end thereof passing through the longitudinal apertures and connected to socket connector 9 which in turn provided connection to lead wires 22 and 23. rThe resistance element was No. 22 (.0254q Nichrome wire, the projected base portion of the igniter 6 was compatible with and rigidly held by the retainer nut 7, and the lead Wires were connected to a suitable source of electrical energy (not shown).

An example of operation of the invention is given for ring a gas-generating device in accordance with the invention wherein the device is especially adapted and safe for `coal mining as will be evident by the following. A primer `charge essentially consisting orf 42 grams of co1- loided smokeless powder composition was packed into a llame-retardant paper container. rille charge was ignited with a non-flaming initiator and did not flame in the atmosphere and would not ignite an exposive mixture ot methane and air. The composition was as follows:

Nitroglycerin Nitrocellulose llitroguanidine 51%.

Cellulose acetate 7%.

Ethyl centralite 7%.

Calculated flame temp 2330 K. Particle size 0.053" diameter x 0.9" long.

Percent Ammonium nitrate 49.0 Magnesium nitrate hexahydrate 34.0 Wood Hour 17.0

Main charge weight 360 grams These cartridges were initiated as hereinbefore described in a combustion chamber having a volume of 162 cubic inches resulting in an average time of 4 seconds to rupture the rupturable `closure after application of current was applied to the igniter. The current applied averaged 13.5 amperes at 24 volts for approximately 11/2 seconds. The average `gas pressure generated was from about 8,000 to about 16,000 pounds per square inch which demonstrated that the present invention was suitable for use in conjunction with pressure-resistant tubes or pressure-resistant drills or other cutting devices for the blasting of coal. Utilization of the invention in actual mine tests veried the suitability demonstrated by the above example.

From the foregoing, it is evident that there are several factors `which will influence the choice of materials for the most satisfactory operation of the invention. For example, the shell may be of any suitable material such as paper, plastic sheeting, cardboard or the like and should be nonliammable or tbe made nonammable lby approprite coating or other treatment. However, the shell should be thermally decomposable and substantially co pletely consumed during decomposition of the main charge wherein the decomposition of the shell is essentially a combustion supported by oxygen from the main charge. The penetrable, nonconductive closure for the shell may be the conventional fluted crimp or the shotgun type crimp, or the like, and should be reasonably soft to accommodate penetration of the igniter. The iluted crimp is preferred since it is normally formed with a small `central opening permitting easy ingress of the igniter into the cartridge. The cartridge should, of course, be moisture-resistant using suitable shell materials, coatings, or seals where necessary, inasmuch as ammonium nitrate which is the principal constituent of the main charge is hygroscopic. The rupturable closure for the cartridge may be made of any heat-resistant, frangible material of desired strength consistent with the release of the pressurized gas at a pressure adequate for performing predetermined useful work such as the breaking of coal or other hard material. The shape of the rupturable end closure or shear disc may be varied considerably, the important thing being that it serve to form a gastivht seal for the combustion chamber during generation of gas and thereafter rupture at a desired pressure. A partial hemispherical shape is preferred as shown in the drawing since it readily disintegrates into small particles and is easily fabricated and aihxed to the cartridge as by force-fitting, `adhesive-sealing and the like. The preferred materials of construction for the rupturable closure are materials such as ber or plastic which are nonsparliing as the disintegrated particles of the closure strike the vent openings of a blasting tube, blasting drill or other metallic implement utilized for the high pressure Work.

lt will be appreciated from the foregoing that the igniter or heating means is reciprocable and 1re-utilizable and should be suliciently rigid to pierce the penetrable closure and to penetrate the primer charge or the main charge, as the case may be, within the cartridge. Although a suitable type of igniter and its construction have been desribed, other forms of such heating means may be employed providing they are capa-ble of force-insertion of the heating element tinto the cartridge and they are safe and reliable.

The primer charges which may be `used preferably contain a major proportion of smokeless powder. As a permissible, such primers, of course, should be non-flaming in the atmosphere and incapable of igniting an explosive mixture of methane `and air. Primer charges which have been `found quite satisfactory lfor meeting the rigorous requirements of coal mining comprise from about 10 to about 20% of nitroglycerin, from `about l5 to about 25% of nitrocellulose, yfrom about 50 to about 55% of nitroguanidine or guanidine nitrate, from about 5 to about 10% of cellulose acetate and from about 5 to about 10% ethyl centralite or other stabilizer, by weight, and conventionally `colloided, extruded and cut to have a particle size of from about 0.03 to about 0.10 inch diameter and from about 0.01 to about 0.10 inch long. Moderants such as cryolite, potassium sulfate, barium nitrate, potassium nitrate, and the like may be added in small amount, not over about 1%, to the extent that they do not alter the principal characteristics of the primer composition which are: nonammable in the atmosphere; will not ignite explosive mixtures of methane and air; insensitive to standard sensitivity tests, such as riile bullets, friction,

lasting caps; and consistently and reliably cause main gas-generating `charges to react under pressure. The

quantity of primer charge utilized may be varied depending on the amount of the main charge, with from about 30 to about 70 grams usually found suitable for use in conjunction with main charges used for blasting and similar operations. The primer charge may be conveniently packaged in a decomposable plastic bag or the like prior to placing into the cartridge or the primer and main charges may be placed in direct contact with each other. The `calculated dame temperature for the primer composition insodar as permissiblility is concerned may be varied from about 1500o to about 2500 K. it will be understood, of course, that in instances where permissibility is not a factor, other primers may be used for carrying the invention into elfect and in instances where the Vmain :charge is made suiiiciently heat-sensitive and prolonged ignition time tolerated, the primer charge may be dispensed with entirely.

Compositions suit-able for use as the main charge comprise ammonium nitrate alone, desirably of relatively coarse lgranulation, or ammonium nitrate, as the principal gas-generating constituent, that is, over 40% present, with other material such as the Vfollowing typical compositions: lammonium nitrate 49.0%, magnesium nitrate hexahydrate 34.0%, carbonaceous (nut meal, pulp, starch) 17.0%; ammonium nitrate 75.0%, calcium carbonate 25.0%; ammonium nitrate 90.0%, starch 10.0%; and ammonium nitrate 65.0%, calcium formate 34.9%, calcium stearate 0.1%.

From the foregoing, it will be seen that the gas-generating Idevice and the method in accordance with this invention provide advantages heretofore not realized by the art in respect to a high degree of safety, ease of operation particularly in respect to semiautomatic 4and automatic operation, and economy. Furthermore, although the present invention has been Vdescribed more particularly in respect to a combustion chamber suitable `for utilization with automatic blasting apparatus, it may, of course, be utilized for other applications such as in conjunction with pressure-resistant blasting tubes, bolt-driving devices, catapult devices and the like where repeated tiring is desired for obtaining a source of very high pressure gas.

Still further, it will be seen that this invention may be carried out by the use of vvarious modifications and changes Without departing yfrom its spirit and scope, with only such limitations placed thereon as imposed by the appended claims.

What I lclaim and desire to protect by Letters Patent is:

1. A gas-generating device comprising in combination:

(a) a cylindrical pressure-resistant combustion chamber,

(b) a slidable and reciprocable ring head at one end of the combustion chamber, said tiring'head having a reutilizable resistance heating element affixed thereto,

(c) a discharge orifice at the other end of the combustion chamber, the tiring head, the heating element, the discharge orifice and the combustion chamber being in coaxial alignment,

(d) a cylindrical cartridge having a thermally decomposable shell supported within the combustion chamber and radially spaced therefrom in coaxial alignment with the tiring head and the discharge orifice, said cartridge having a rupturable closure at one end thereof adapted to engage and seal the discharge oriiice and having a penetrable nonconductive closure at the other end thereof adapted to engage and receive the heating element,

(e) a primer charge of nondetonating heat-producing composition disposed in the cartridge adjacent the nonconductive closure adapted to receive and be initiated by the heating element, and

(f) a main charge of nondetonating gas-generating composition disposed in the remainder of the cartridge adapted to be initiated by the primer charge, whereby upon initiation a self-sustained gas-generating reaction to a pre-determined gas pressure is effected and the gas pressure ruptures the rupturable closure to, permit the escape of high pressure gas through the discharge oriiice.

2. A gas-generating device as deiined in claim 1 wherein the primer charge consists essentially of colloided smokeless powder having a particle size of from about 0.03 to about 0.10 inch diameter and from about 0.01 to 0.10 inch long or" the following composition by weight percent:

N itro glycerin 1 0-20 Nitrocell'ulose 15-25 Nitroguanidine 5 0-5 5 Cellulose acetate 5-10 Ethyl centralite 5-10 3. A gas-generating device as deined in claim 1 Wherein the main charge consists essentially of at least 40% by weight of ammonium nitrate.

4. A gas-generating device as defined in claim 1 wherein the primer charge consists essentially of colloided smokeless powder having a particle size of from about 0.03 to about 0.10 inch diameter and from about 0.01 to 0.10 inch long of the following composition of weight percent:

Nitroglycerin 10-20 Nitrocellulose 15-25 Nitroguanidine 50-55 Cellulose acetate 5-10 Ethyl centralite 5-10 and wherein the main charge consists essentially of at least 40% by Weight of ammonium nitrate.

5. A gas-generating device as defined in claim 1 wherein the primer charge consists essentially of colloided smokeless powder having a particle size of from about 0.03 to about 0.10 inch diameter and from about 0.01 to 0.10 inch long of the following composition by weight percent:

Nitroglycerin 10-20 Nitrocellulose 15-25 Guanidine nitrate 50-55 Cellulose acetate 5-10 Ethyl centralite 5-10 6. A gas-generating device as defined in claim 1 wherein the primer charge consists essentially of colloided smokeless powder having a particle size of from about 0.03 to about 0.10 inch diameter and from about 0.01 to 0.10 inch long of the following composition by weight percent:

Nitroglycerin 10-20 Nitrocellulose 15-25 Guanidine nitrate 50-55 Celluloseacetate 5-10 Ethyl centralita 5-10 and wherein the main charge consists essentially of at least 40% by weight of ammonium nitrate.

References Cited in the tile of this patent UNITED STATES PATENTS

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US389448 *Sep 11, 1888The American electric Arms And Ammunition CompanyElectric primer
US2007223 *Nov 8, 1933Jul 9, 1935Du PontIgnition composition
US2704978 *Mar 12, 1953Mar 29, 1955Du PontElectrically fired gas expansion blasting device
US2736261 *Jul 20, 1950Feb 28, 1956EBlasting means
US2789043 *Feb 4, 1954Apr 16, 1957Ici LtdBlasting charge composition
US2868058 *Oct 29, 1956Jan 13, 1959Dom George RShotgun shell case neck resizer
US2916993 *Jul 13, 1954Dec 15, 1959Ici LtdBlasting device
US2955535 *May 28, 1958Oct 11, 1960Olin MathiesonIgnition assembly for perforated cylindrical charge
GB386311A * Title not available
GB519341A * Title not available
GB654958A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3261163 *Jun 19, 1961Jul 19, 1966Aerojet General CoRocket motor testing apparatus
US3613616 *Jul 25, 1969Oct 19, 1971Basset JamesMethod and means providing buoyancy of immersed crafts and crafts incorporating such means
US3909323 *Jun 14, 1973Sep 30, 1975Rockwell International CorpCool burning gun propellants containing triaminoguanidine nitrate and cyclotetramethylene tetranitramine with ethyl cellulose binder
US3950196 *Jun 14, 1973Apr 13, 1976Rockwell International CorporationCool-burning gun propellant containing triaminoquanidine ethylene dinitramine
Classifications
U.S. Classification102/326, 149/91, 149/92, 149/102, 149/97
Cooperative ClassificationF42B3/06