GB2237861A - Liquid propellant gun system - Google Patents

Abstract

An annular piston, annular control valve, liquid propellant gun system, has a dual angle injection mechanism to provide both combustion chamber and bore gas requirements with a single injection control valve. The dual angle feature assures a stable combustion zone. The projectile is fixed by a frangible threaded tube 27 to a stub case 28 housing a booster charge 30, firing of which causes hot gases to pass into the combustion cave 120 forcing piston 38 forwardly to increase the pressure in pumping cavity 118 causing a belleville washer 206 to close passageway 77 and valve 36 to move forwardly, uncovering bores 126, 128, the aft-inclined (126) of which pass liquid propellant into the annular cavity surrounding the projectile. As pressure increases, a flexible lip 26a on the firing band 26 of the projectile is deflected to pass liquid propellant aftwardly of the projectile into combustion cavity 120. When the projectile has uncovered bores 128, liquid propellant is sprayed through these bores into the gun barrel 8, which propellant then burns due to contact with hot combustion gases. <IMAGE>

Description

LIQUID PROPELLANT GUN BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to lIquid propellant guns utilizing a differential piston to provide continued or regenerative Injection of propellant Into the combustion chamber.

2. Pr;or Art This Invention Is an Improvement of the invention disclosed In SN 840,074, filed Oct. 6, 1977, by M. Bulman (Attorney's Docket 52-AR-2004), which discloses a liquid propellant gun system having an annular differential piston journaled for telescopic movement wIth respect to an annular control valve and to the chamber of the firing bore.

The invention Is furthermore an Improvement of the Invention disclosed In SN 178,254, field Aug. 7, 1980, by M.

Batman (Attorney's Docket 52-AR-2073), which In an annular piston, annular control valve, liquid propellant gun, discloses a check valve to permit liquid propellant under relatively low pressure to flow from the supply system Into the combustion chamber and to preclude the pulse of pressure generated In the combustion chamber from feeding back to the supply system.

Reference should be made to SN 840,074 and SN 178,254, hereby Incorporated by reference, for structure not shown In this disclosure.

SUMMARY OF THE INVENTION An object of this invention ts to simplify the Injection mechanism for an annular piston, annular control valve gun system.

A feature of this invention is the provision in an annular piston, annular control valve, liquid propellant gun system, of a dual angle Injection mechanism to provide both bore and chamber injection, which employs a single injection control valve. A flexible lip on the projectile is used In conjunction with the dual angle Injection mechanism to positively eliminate backflow of propellant through the Injection mechanism during the Ignition phase of the gun cycle.

BRIEF DESCRIPTION OF THE DRAWING These and other features and advantages of the invention will be apparent from the following description of the invention taken in conjunction with the accompanying drawing tn which: FIG. 1 Is a view in elevation, In longitudinal crosssection, of a gun system embodying this invention. The upper half of the view shows the assembly during the filling with liquid propellant, while the lower half shows the assembly after filling and during firing.

DESCRIPTION OF THE INVENTION The gun system Includes a gun barrel assembly 8 which Is fixed within a housing 10. The barrel assembly has a rifled firing bore 20, a projectile receiving chamber 22 having an Intermediate forctng cone 23 and a cylindrical surface 24. A round of ammunition comprising a projectile 25 with a firing band 26 having an aftwardly-outwardly projecting deflectible lip 26a which Is fixed by a frangible threaded tube 27 to a stub case 28 which has a percussion prImer 29 and a booster charge 30. The round is chambered, locked and extracted by a conventional bolt 32, or, tn a large caliber gun, a breech block.The booster has a plurality of gas vents 31 for the booster charge, which Is ignited by the primer 29 vta a bore 33.

The barrel assembly and the housing 10 define a substantially hollow cylindrical cavity 34 tn which are telescopically disposed a substantially hollow cylindrical valve 36 and a substantially hollow cylindrical piston 38.

The valve 36 Includes a forward annular portion 40 having an Inner wall surface 42 providing an annular gap or passageway 44 adjacent the outer wall surface 46 of the barrel. The annular portion 40 is Integral with an Inter- mediate tubular portion 52 having an inner wall surface 54 providing an annular cavity 56 adjacent the outer wall surface 46, and an outer wall surface 58 providing an annular cavity 60 adjacent the inner wall surface 50 of the housing.

The intermediate portion 52 is integral with an aft annular portion 62 having an Inner wall surfaca 64 journaled on the outer wall surface 66 of the barren and substantially se@led thereto, a transverse aft surface 68, a transverse forward surface 70, an inner annular cavity 72, a plurality of longitudinal bores or passageways 74 extending between the surfaces 68 and 70, and a ring seal 76 disposed in an annular groove in the outer wall surface SB. A pturali cf longitudinal bores 77 provide passageways between the cavity 56 and the cavity 72 when the valve 36 is aft of its forwardmost position.Two rods 78 have their aft ends respectively fixed to the forward annular portion 40, and pass through bores in the housing. The rods are each biased aftwardly by a respective helical compression spring 210 captured between a cross pin on the rod and a plug in the housing. Each rod may have a respective seal as shown in SN 840,074, and has a detent mechanism to preclude aftward movement of the valve beyond that shown in the upper part of FIG. 1.

The piston 38 includes a forward annular pcrticn 90 having an inner wall surface 92 journaled cn the surface 58 of the valve and an outer wall surface 94 spaced from the surface 50 of the hcusinc. The annular portion 93 is Integral with an intermediate tubular portion 96 having an Inner surface 92 bearding against the ring seal 76 in the valve, and an outer surface 100 bearing against a patr of ring seals 102a and 102b respectively disposed In a palr of annular grooves in the Inner surface 104 of the housing.The intermediate portion 96 Is Integral with an aft annular portlon 106 having mounted thereon a ring seal 108, which may be a discrete seal as shown or simply a tight clearance, which Is blased to Journal on and seal against the aftmost portIon 66a of the outer surface 66 of the barrel. It will be seen that the effective cross-sectional area of the forward surface 114 of the aft annular portion 106 is less than the effective cross-sectional area of the aft surface 112, providing the piston sleeve 38 with a differential piston action.

The barrel 8, the valve 36 and the piston 38, depending on their mutual positioning, may be considered to define a liquid propellant fill cavity 56, a valve cavity 72, a pumping cavity 118, and a combustion cavity 120. The barrel 8 has a first plurality of bores 126 disposed In an annular row and angled aftwardly from the surface 66 In the pumping chamber 118 to the surface 24 In the projectile chamber 22.

The barrel 8 has a second plurality of bores 128 disposed In an annular row and angled forwardly from the surface 66 In the pumping chamber 118 to bore 20. The bores 126 and 128 are herein shown at an angle of 450.

A supply means 151 for supplytng lIquId propellant under pressure is coupled to a cam controlled valve 152 whtch is coupled to an Inlet in the housing whIch leads to an annular passageway 154 In the housing, from whIch a plurality of radial bores 156 lead to and through the forward portion of the surface 50. A radial bore 158 leads through and from the surface 50 aft of the annul us 90 of the piston 38 to a vent.

Two rods 170 and 172 have thelr aft ends respectively fixed to the forward annular portlon 90 of the piston 38, and pass through bores with seals In the housing. The forward ends of the rods respectively termtnate in an enlargement. A drum cam, such as Is shown tn U.S. Patent No. 3,763,739, Issued Oct. 9, 1973, to D. P. Tessle, has a helical control track In which rIdes a cam follower which has an arm which termInates In a rod follower. The rods are free to move forwardly free of the follower, but are controlled In their movement aftwardly by the cam track via the followers. The csm track Is also able to pull the rods forwardly via the followers, all as shown In SN 840,074.

The barell 8 has an enlarged portion 200 with an outer surface 201 which rides on and serves to seal against the Inner surface 54 of the valve 36. A plurality of substantially longitudinal bores 77 are disposed In an annular row through the enlargement to serve as passageways from the flll annular cavity 56 to the valve cavity 72. The plurality of longitudinal bores 74 serve as passageways from the valve cavity 72 to the pumping cavity 118.

A belleville washer 206 Is seated In the valve cavity 72 on the barrel adjacent the bores 77 and retained by a retaining ring 208. The washer Is normally conical In shape and permits the flow of liquid propellant from the fill cavity 56, through the passageways 77, around the washer 206, through the valve cavity 72, end through the passageways 74 Into the pumping cavity 118. Prior to firing, the differen- tidal valve 36 Is held In the position shown in the upper portion of FIG. 1 by means of external compression springs 210 coupled to the rods 78, so that the surface 66 of the valve head 62 closes both rows of bores 126 and 128 and precludes the flow of liquid propellant from the pumping cavity 118 Into these bores.At the beginning of firing, the liquid pressure in the pumping cavity 118 will rise and be communl- cated to the valve cavity 72. This Increase in pressure on the aft face of the believille washer 206 over the pressure on the forward face of washer will force the washer flat agaInst tts tnherent spring force to close the passageways 77, to thereby Isolate the fIII cavity 56 and Its anterIor system from the ballistIc fluid pressures generated during the firing. During firing, because the forward face 70 of the head of the valve 36 has less transverse area than the aft face 68, the differential pressure generated thereby will progressively force the valve 36 forward, against the bias of the sprtngs 210, to progressively reduce the volume of the valve cavity 72 to substantially zero and to progressively uncover the aftwardly directed bores 126 and the forwardly directed bore 128.

In the embodiment here shown, firing is initiated by a mechanical firing pin in the gun bolt 32 Impacting the primer 29 to generate and pass hot gas under high pressure through the passageway 33 to the booster charge 30, which in turn generated hot gas under pressure which is passed through the vents 31 Into the combustion cavity 120. This gas under pressure wtll act on the aft face 112 of the head 106 of the piston 38 to force the piston forwardly, increasing the pressure in the pumping cavity 118 on the aft face 68 of the head 62 of the valve 36, and in the valve cavity 72. The bellevtlle washer 206 closes the passageways 77 and the valve 36 commences to move forwardly.As the valve 36 moves forwardly tt uncovers the bores 126 which pass liquid propellant into the annular cavity defined by the projectile, the surface 24, the forcing cone 23 and the lip 26a of the firing band 26. The lip seals the annular cavity, blocking back pressure developed in the combustion cavity 120 from enterlng this annular cavity and the upstream liquid propellant supply system. As the pressure tncreases tn the pumping cavity 118, the lip 26a is deflected to pass liquid propellant aftwardly of the projectile into the combustion cavity 120.Because the forward face 114 of the piston head has less transverse area than the aft face 112, the differen tidal pressure generated will force the piston forwardly continuing the flow of liquid propellant through the bores 126. At a predetermined gas pressure in the combustion chamber 120, e.g., 5,000 post, the frangible tube 27 will break and the projectIle will be free to ride forwardly Into the gun barrel bore to uncover the bores 128. Since the valve head 62 has already uncovered these bores, liquid propellant Is now free to pass from the pumping cavity 118 through these bores forwardly into the gun barrel bore to provide a spray of liquid propellant into the gun barrel which then burns due to contact with hot combustion gasses.

Throughout the injection phase, chamber gas flow is provTded by the aft angled holes and bore gas flow Is provided by the forward angled holes.

The dual angle feature of this Injector disperses the separate injectIon streams and avoids the accumulation of an unstable quantity of unburned propellants.

In the event of a misfire, both the differential valve 36 and the belleville washer valve will remain In thetr initial, open dispositions, to permit the liquid propellant tn the pumping cavity 118 to be returned to the supply system 151 by the process of moving the differential piston forwardly via the rods 170 and 172.

Claims (4)

WHAT IS CLAIMED IS:

1. A liquid propellant gun system comprising: a housing 10] having a longitudinally extending first cavity therein; a gun barrel 8] having a firing bore 20] with a projectile receiving chamber [22] and a combustion chamber 120] disposed along a longitudinal axis; a projectile disposed in said projectile receiving chamber;; said gun barrel 8] being disposed within said housing first cavity and with said housing C10] defining a second closed cavity which Is a portion of said first cavity and Is of substantially annular, longitudinally extending shape and ts coaxial wtth said barrel longitudinal axis; a valve sleeve 36] of substantially annular, longitudinally extending shape coaxial with said barrel longitudinal axis and disposed in said second cavity;; a piston sleeve 38] of substantially annular, longitudinally extending shape coaxial with said barrel longitudinal axis and disposed In said second cavity; said piston sleeve and sa?d valve sleeve being journaled for relative motion wtth respect to each other and said gun barrel, said piston sleeve and satd valve sleeve mutually defining a pumping chamber [118] of variable volume for liquid propellant; obturating means 32] for closing the aft end of said projectile receiving chamber;; supply means [151] for supplying liquid propellant under pressure; and first and second conduit means 126] & C1281 for coupllng said pumping chamber [118] to said projectile receiving chamber [22]; additional valve means [26a] disposed on said projectile when under relatively low pressure for precluding the flow of liquid propellant from said projectile receiving chamber into said combustion chamber and when under relatively higher pressure for permitting the flow of liquid propellant from said projectile receiving chamber C223 Into said combustIon chamber [120].

2. A liquid propellant gun system comprising: a housing, a gun barrel, a differential annular valve, a differential annular piston, said housing, barrel, valve and piston defining a fill chamber, a pumping chamber, a projectile receiving chamber, and a combustion chamber, a projectile disposed tn said projectile receiving chamber, and valve means, disposed in part on said projectIle, when under relatively low pressure for precluding the flow of liquid propellant from said pumping chamber into said combustion chamber and when under relatively higher pressure for permitting the flow of liquid propellant from said pumping chamber into said combustion chamber.

3. A gun system according to claim 2 wherein: said valve means comprtses an annular seal means which seals said projectile to said projectile receiving chamber at relatively low pressure and which opens at relatively higher pressure to provide an annular gap between said projectile and said projectile receiving chamber.

4. A gun according to claim 1 where first conduit means [126] is angled aft and second conduct means [128) is angled forward.

4. A round of ammunition comprising: a cartridge case, a projectile, a rupturable element interconnecting said case and said projectile, and a deformable seal disposed around and fixed to said projectile.

5. A round of ammunition according to claim 4 wherein: said projectile has a firing band, and said seal is a deflectible lip projecting from said firing band.

6. A gun according to claim 1 where first conduit means C126J Is angled aft and second conduct means 128] is angled forward.

Amendments to the claims have been filed as follows WHAT IS CLAIMED IS: 1. A liquid propellant gun system comprising: a housing [10) having a longitudinally extending first cavity therein; a gun barrel 8] having a longitudinal axis and a firing bore [20] with a projectile receiving chamber [22] and a combustion chamber t120] disposed along said longitudinal axis; a projectile disposed in said projectile receiving chamber; said gun barrel [8] being disposed within said housing first cavity and with said housing [10] defining a second closed cavity which is a portion of said first cavity and is of substantially annular, longitudinally extending shape and is coaxial with said barrel longitudinal axis;; a valve (36] of substantially annular, longitudinally extending shape coaxial with said barrel longitudinal axis and disposed in said second cavity; a piston t38] of substantially annular, longitudinally extending shape coaxial with said barrel longitudinal axis and disposed in said second cavity; said piston and said valve being journaled for relative motion with respect to each other and said gun barrel, said piston and said valve mutually defining a pumping chamber [1183 of variable volume for liquid propellant; obturating means for closing the aft end of said housing (10); supply means (151) for supplying liquid propellant under pressure; and first and second conduit means [126] & (128) for coupling said pumping chamber (118) to said projectile receiving chamber [22] and said firing bore, respectively; valve means (26a) disposed on said projectile when under relatively low pressure for precluding the flow of liquid propellant from said projectile receiving chamber into said combustion chamber and when under relatively higher pressure for permitting the flow of liquid propellant from said projectile receiving chamber [22] into said combustion chamber (120).

2. A liquid propellant gun system comprising: a housing, a gun barrel, a differential annular valve7 a differential annular piston, said housing, barrel, valve and piston defining a fill chamber, a pumping chamber, a projectile receiving chamber, and a combustion chamber, a projectile disposed in said projectile receiving chamber, and valve means, disposed on said projectile, when under relatively low pressure for precluding the flow of liquid propellant from said projectile receiving chamber into said combustion chamber and when under relatively higher pressure for permitting the flow of liquid propellant from said projectile receiving chamber into said combustion chamber.

3. A gun system according to claim 2 wherein: said valve means comprises an annular seal means which seals into projectile to said projectile receiving chamber at relatively low pressure and which opens at relatively higher pressure to provide an annular gap between said projectile and said projectile receiving chamber.