US2093618A - Air pressure gun - Google Patents

Air pressure gun Download PDF

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US2093618A
US2093618A US76532A US7653236A US2093618A US 2093618 A US2093618 A US 2093618A US 76532 A US76532 A US 76532A US 7653236 A US7653236 A US 7653236A US 2093618 A US2093618 A US 2093618A
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valve
chamber
air
gun
support
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US76532A
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Popp Leonard Alfred
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MASTER PRODUCTS CO
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MASTER PRODUCTS CO
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B1/00Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means
    • B05B1/005Nozzles or other outlets specially adapted for discharging one or more gases
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/02Cleaning pipes or tubes or systems of pipes or tubes
    • B08B9/027Cleaning the internal surfaces; Removal of blockages
    • B08B9/032Cleaning the internal surfaces; Removal of blockages by the mechanical action of a moving fluid, e.g. by flushing
    • B08B9/0321Cleaning the internal surfaces; Removal of blockages by the mechanical action of a moving fluid, e.g. by flushing using pressurised, pulsating or purging fluid
    • B08B9/0328Cleaning the internal surfaces; Removal of blockages by the mechanical action of a moving fluid, e.g. by flushing using pressurised, pulsating or purging fluid by purging the pipe with a gas or a mixture of gas and liquid
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B2209/00Details of machines or methods for cleaning hollow articles
    • B08B2209/02Details of apparatuses or methods for cleaning pipes or tubes
    • B08B2209/024Details of apparatuses or methods for cleaning pipes or tubes by creating a shock wave in the cleaning liquid

Definitions

  • This invention relates to improvements in air pressure guns, and, ⁇ more particularly, to air pressure guns of the type constructed and arranged to force an obstruction from waste and other P'plisf ⁇ f Pressure guns ⁇ for removing obstructions in Waste pipes byreleasing a blast of air are in common use and are effected for the purpose for which they aredesigned.
  • the working parts are enclosed.v within the compressionchamber, and since breakageof parts is likely to occur, the gunmust be dismantled when worn or broken parts are to be replaced.
  • the 'mechanism which is most liken ly to break orbecome worn, is the valve mechanism between the end of the pump and the compression chamber.
  • this valve is mounted on the lower end of theair pump-and any damage to this valve can be remedied only by dismantling the gun.
  • the pressure releasing mechanism is of necessity mounted within the gun in such a manner that it is dicult for a repair man to replace a broken or worn release valve mechanism. It is apparent, ⁇ therefore, that, although the pressure guns now in commonuse ,are eifective to remove obstructions, theirjeifectiveness is vitiated by the fact that considerable mechanical skill is required in replacing worn or broken parts, withy the resultthat the pressure gunsV are ordinarily returned to the manufacturer for repairs.
  • one featureof the invention resides inr a v, pressure gun having an air compression chami ber, anI air pump mountedr on one end of the chamber andconstructedand arranged foraccess to permit removal of the valve without dismantling gun, the lower end of the pump being connected tothe valve by any suitable conduit.
  • a discharge valve mounted onthelower end of the chamber is a discharge valve provided with means for maintainingthe valvein closed position, and means for opening the "valve to discharge air from the chamber.
  • Fig. ⁇ l is a verticalsectional view of an air (c1. 2er-73.5)
  • a Fig. 3 is a sectional View on an enlarged scale illustrating a preferred embodiment of the release mechanism.
  • the illustrated embodiment of the invention is provided with a chamber I0 formed of brass or other suitable rigid material.
  • the chamber l0 isl provided at its upper end with an end cap ⁇ I2 which is provided with a plurality of holes for positioning the control mechanism 4of the gun.
  • the top cap I2 is considerably larger than the diameter of the compression chamber Ill.
  • the periphery of the top cap I2 is concave as shown in Fig. 41 and is arranged to receive a soft rubber tire I4 which is arranged as a 'cushion lmember to prevent injury when the gun strikes against porcelain or enamel surfaces.
  • the lower end of the chamber I0 is closed by a cap I to which the pressure release mechanism is mounted.
  • the bottom cap I6 is chamfered adjacent to ⁇ its periphery to form a seat for the
  • the central portion of the ⁇ bottom cap I6 is provided with a throat )I8 which extends through the bottom cap orA p1ateand,is ⁇ provided with slightly bevelled walls upon which rests a valve 20 formed of rubber or othensuitable soft and resilient material.
  • the end plates and thechamber are held together py--boits nach j 1 1
  • An airpump 722 issecurzed to the top cap or plate I2 bysweating or brazing.
  • the lower end of the pump is closed by a cap member 24 through which avholeis-,formed to receive a tube 26 which is secured in place by soldering, brazing or sweating.
  • I'he tube 26 leads to a check valve body 28 which yis screwed through a hole formed in the top cap ⁇ I2.
  • the valve contained within the body 28 may ⁇ be a check valve of the well-known Schrader type. It is to be noted that'the tube ⁇ 2,6 isrlccated above the end of the check valve 30 and that the upper end of the valve body extends through the top cap I2 and is provided with a cap nut 32 which prevents escape of the air through the open end of the valve body 28.
  • the pump I0 is provided with a plunger 34 to the lower end of which is secured a pair of metal washers 3G, between which is interposed a piston member formed of leather or other suitable material.
  • the piston 38 is clamped between the washers by a nut 4i] screwed to the lower end of the plunger 34.
  • the upper end of the plunger 34 is provided with a hollow handle 42 which may be formed of molded bakelite or other suitable material. It is preferred to have the plunger handle 42 made in two parts and hollow, to receive a slip of paper containing directions as to the operation of the pressure gun.
  • the end cap lll is provided with a valve support 44 formed of a strip of brass or other suitable material.
  • the support 44 is bent into a U- shape and is provided with a pair of outwardly extending anges 46, 48 having holes through which rivets are passed to secure the support 44 to the end cap IS.
  • the upper end of the support 44 is provided with a hole through which passes a guide rod 50, to the lower end of which is secured a square frame 52 formed of a strip of brass. Rigidly secured to the lower end of the guide end 52 is the valve 20.
  • the lower face of the valve 20 is formed of rubber or other suitable material, which bears against the top of the throat I8.
  • the valve 2l) and the guide member 52 are normally held against the throat I8 by a spring 58 interposed between the top of the guide member 52 and the top of the support 44.
  • mechanism is provided for opening the valve 2B.
  • a member 60 Secured at one side of the support 44 by any suitable fastening, is a member 60 which is provided with a hole to receive a pin 62 which acts as a fulcrum for a lever B4.
  • the lever 64 is U-shaped and surrounds the support 44 and the guide member 52.
  • the lever 64 is pivotally secured to the guide member 52 by a pin 66. It will be noted that downward pressure on the free end of the lever 64 causes the valve 20 and the guide member 52 to be moved upwardly against the tension of the spring 58.
  • the free end of the lever 64 is provided with holes through which passes a pin 68 which forms a pivotal connection between the lever 64 and a hollow sleeve lll.
  • the lower end of a rod 'I2 ts into the sleeve 'I0 and bears against the pin 68.
  • the upper end of the rod 12 extends upwardly through the upper end cap l2 which is provided with a bushing 'I4 to prevent air from leaking out of the chamber Il).
  • the upper end of the rod l2 is provided with a cap or button 16.
  • the spring 58 is strong enough to close the valve 20 and move the sleeve I0 and the rod l2 associated therewith upwardly.
  • the end cap I2 is provided with a tapped hole to receive a threaded bushing attached to a pressure gage 78, which is calibrated to indicate the number of pounds contained within the chamber I0.
  • the pressure gage may be of any suitable size. Under some conditions, particularly in those places where compressed air is available, it has been found to be more advantageous to utilize such compressed air for building up pressure in the chamber I0.
  • the top cap I2 is provided with a bushing 80 in which is a valve 82, which is of the well-known Schrader type.
  • the lower end of the throat I8 is provided with a flanged nozzle member 84 formed of rubber or other suitable material. The nozzle 84 is secured to the throat I8 and is prevented from being displaced upwardly by means of a knurled nut 86. The nozzle 84 may be reversed, depending upon conditions surrounding the drainage opening which it is desired to free from obstruction.
  • the check valve 28 is mounted in the top end cap I2 and may be replaced without dismantling the gun.
  • the release or discharge valve mechanism 2i) is mounted on the bottom end cap i6 and is removed as a unit when the bottom end cap is removed. By removing two nuts from the tie rods, all of the parts of the gun are exposed for removal or replacement. By the use of such a construction, costly repairs and delays are avoided.
  • the provision of the rubber bumper I4 in conjunction with the rubber nozzle 84 prevents the gun from injuring enamel or porcelain surfaces on which it may accidentally be dropped.
  • a pressure gun having in combination, an air compression chamber, an air pump mounted in said chamber, a valve mounted on one end of said chamber, said valve being accessible to permit removal of the valve without dismantling the gun, a pipe connecting the pump to the valve, a discharge valve mounted on the lower end of said chamber, means for maintaining the valve in closed position to prevent discharge of air from said chamber, and means for opening said valve to discharge air from the chamber.
  • a pressure gun having in combination, an air compression chamber, an air pump mounted on said chamber, a valve mounted on the upper end of said chamber, said valve being accessible to permit removal of the valve without dismantling the gun, a pipe connecting the pump to the valve, a discharge valve mounted on the end of the chamber, a frame in which said valve is mounted, a guide for said valve, a spring for maintaining the valve in closed position to prevent discharge of air from the chamber, a lever connected to said valve, and means connecting said lever with the top of the chamber to permit opening said valve to discharge air from the chamber.
  • a pressure gun having in combination, an air compression chamber, end caps at they ends of said chamber, means for supplying compressed air to said chamber, release mechanism mounted on one of said caps to permit removal of said release mechanism as a unit, said release valve mechanism including, a valve support, a valve guide mounted within the support, a valve rigidly secured to said guide, means for maintaining the valve in closed position, and means operable to open said valve to permit substantially instantaneous discharge of air from said chamber.
  • a pressure gun having in combination, an air compression chamber, end caps at the ends of said chamber, means for supplying compressed air to said chamber, and releasey valve mechanism mounted on one of said caps to permit removal of said valve mechanism as a unit, said release valve mechanism including, a valve support, a valve guide mounted within the support, a valve rigidly secured to said guide, means for maintaining the valve in closed position, a lever fulcrumed to said support and pivotally connected to said guide, and means connected to said lever for opening said valve to permit discharge of air from said chamber.
  • a pressure gun having in combination, an
  • an air pump mounted in said chamber, a valve mounted on the upper end of said chamber, said valve being accessible to permit removal of the valve Without dismantling the gun, a pipe connecting the pump to the valve, a valve support, a valve guide mounted Within the support, a valve rigidly secured to said guide, means for maintaining the valve in closed position, andmeans operable to open said valve to permit instantaneous discharge of air from said chamber.
  • a pressure gun having in combination, an air compression chamber, an air pump mounted in said chamber, a valve mounted on the upper end of said chamber, said valve being accessible to permit removal of the valve without dismantling the gun, a pipe connecting the pump to the valve, a valve support, a valve guide mounted in said support, a discharge valve mounted in said support, a valve rigidly secured to said guide, a spring interposed between said valve guide and said support for maintaining the relief valve in closed position, a lever fulcrumed to said support, and pivotally connected to said guide, and

Description

SCPLZI, 1937. A. PoPP AIR PRESSURE GUN inw.
Filed April 27, llese;
ww ww Ww ww /Ij Patented Sept. 21, 1937 AIR PRESSURE GUN LeonardAlfred Popp, Saugus, Mass., assigner to Master Products Co., Lynn, Mass., a corporaof time.
tion of Massachusetts Application April 27, 1936, serial Nb. 76,532
6 Claims.
This invention relates to improvements in air pressure guns, and, `more particularly, to air pressure guns of the type constructed and arranged to force an obstruction from waste and other P'plisf` f Pressure guns` for removing obstructions in Waste pipes byreleasing a blast of air are in common use and are effected for the purpose for which they aredesigned. In most guns of this type, the working parts are enclosed.v within the compressionchamber, and since breakageof parts is likely to occur, the gunmust be dismantled when worn or broken parts are to be replaced. In' such guns, the 'mechanism which is most liken ly to break orbecome worn, is the valve mechanism between the end of the pump and the compression chamber. Ordinarily, this valve is mounted on the lower end of theair pump-and any damage to this valve can be remedied only by dismantling the gun.w In most instances, the pressure releasing mechanism is of necessity mounted within the gun in such a manner that it is dicult for a repair man to replace a broken or worn release valve mechanism. It is apparent,` therefore, that, although the pressure guns now in commonuse ,are eifective to remove obstructions, theirjeifectiveness is vitiated by the fact that considerable mechanical skill is required in replacing worn or broken parts, withy the resultthat the pressure gunsV are ordinarily returned to the manufacturer for repairs. This, of course, causes delay anddeprives Ythe owner of the use ofthe gun for a relatively great length `An object ofthe present invention, accordingly,"isto provide a pressure gun wherein theA above mentioned, difficulties will vbe` overcome. To this end, one featureof the invention resides inr a v, pressure gun having an air compression chami ber, anI air pump mountedr on one end of the chamber andconstructedand arranged foraccess to permit removal of the valve without dismantling gun, the lower end of the pump being connected tothe valve by any suitable conduit. Mounted onthelower end of the chamber is a discharge valve provided with means for maintainingthe valvein closed position, and means for opening the "valve to discharge air from the chamber.
In the drawing, J
"aa With the aboveand other objects and features in view, the invention will now be described in connection with the accompanying drawing and pointed out in the appended claims.
Fig.`l is a verticalsectional view of an air (c1. 2er-73.5)
` lower endof the chamber IB.
valve mechanism taken along the line 2--2 of p Fig. '1, and a Fig. 3 is a sectional View on an enlarged scale illustrating a preferred embodiment of the release mechanism.
`The illustrated embodiment of the invention is provided with a chamber I0 formed of brass or other suitable rigid material. The chamber l0 isl provided at its upper end with an end cap `I2 which is provided with a plurality of holes for positioning the control mechanism 4of the gun. It will be noted that the top cap I2 is considerably larger than the diameter of the compression chamber Ill. The periphery of the top cap I2 is concave as shown in Fig. 41 and is arranged to receive a soft rubber tire I4 which is arranged as a 'cushion lmember to prevent injury when the gun strikes against porcelain or enamel surfaces. The lower end of the chamber I0 is closed by a cap I to which the pressure release mechanism is mounted. The bottom cap I6 is chamfered adjacent to` its periphery to form a seat for the The central portion of the `bottom cap I6 is provided with a throat )I8 which extends through the bottom cap orA p1ateand,is`provided with slightly bevelled walls upon which rests a valve 20 formed of rubber or othensuitable soft and resilient material. The end plates and thechamber are held together py--boits nach j 1 1 An airpump 722 issecurzed to the top cap or plate I2 bysweating or brazing. `The lower end of the pump :is closed by a cap member 24 through which avholeis-,formed to receive a tube 26 which is secured in place by soldering, brazing or sweating. I'he tube 26 leads to a check valve body 28 which yis screwed through a hole formed in the top cap` I2. The valve contained within the body 28 may `be a check valve of the well-known Schrader type. It is to be noted that'the tube `2,6 isrlccated above the end of the check valve 30 and that the upper end of the valve body extends through the top cap I2 and is provided with a cap nut 32 which prevents escape of the air through the open end of the valve body 28. It is to be The pump I0 is provided with a plunger 34 to the lower end of which is secured a pair of metal washers 3G, between which is interposed a piston member formed of leather or other suitable material. The piston 38 is clamped between the washers by a nut 4i] screwed to the lower end of the plunger 34. The upper end of the plunger 34 is provided with a hollow handle 42 which may be formed of molded bakelite or other suitable material. It is preferred to have the plunger handle 42 made in two parts and hollow, to receive a slip of paper containing directions as to the operation of the pressure gun.
The end cap lll is provided with a valve support 44 formed of a strip of brass or other suitable material. The support 44 is bent into a U- shape and is provided with a pair of outwardly extending anges 46, 48 having holes through which rivets are passed to secure the support 44 to the end cap IS. The upper end of the support 44 is provided with a hole through which passes a guide rod 50, to the lower end of which is secured a square frame 52 formed of a strip of brass. Rigidly secured to the lower end of the guide end 52 is the valve 20. The lower face of the valve 20 is formed of rubber or other suitable material, which bears against the top of the throat I8. The valve 2l) and the guide member 52 are normally held against the throat I8 by a spring 58 interposed between the top of the guide member 52 and the top of the support 44.
In order to open the valve 20 to discharge the air contained within the chamber I ll, mechanism is provided for opening the valve 2B. Secured at one side of the support 44 by any suitable fastening, is a member 60 which is provided with a hole to receive a pin 62 which acts as a fulcrum for a lever B4. The lever 64 is U-shaped and surrounds the support 44 and the guide member 52. The lever 64 is pivotally secured to the guide member 52 by a pin 66. It will be noted that downward pressure on the free end of the lever 64 causes the valve 20 and the guide member 52 to be moved upwardly against the tension of the spring 58. The free end of the lever 64 is provided with holes through which passes a pin 68 which forms a pivotal connection between the lever 64 and a hollow sleeve lll. The lower end of a rod 'I2 ts into the sleeve 'I0 and bears against the pin 68. The upper end of the rod 12 extends upwardly through the upper end cap l2 which is provided with a bushing 'I4 to prevent air from leaking out of the chamber Il). The upper end of the rod l2 is provided with a cap or button 16. The spring 58 is strong enough to close the valve 20 and move the sleeve I0 and the rod l2 associated therewith upwardly.
The end cap I2 is provided with a tapped hole to receive a threaded bushing attached to a pressure gage 78, which is calibrated to indicate the number of pounds contained within the chamber I0. The pressure gage may be of any suitable size. Under some conditions, particularly in those places where compressed air is available, it has been found to be more advantageous to utilize such compressed air for building up pressure in the chamber I0. To this end, the top cap I2 is provided with a bushing 80 in which is a valve 82, which is of the well-known Schrader type. The lower end of the throat I8 is provided with a flanged nozzle member 84 formed of rubber or other suitable material. The nozzle 84 is secured to the throat I8 and is prevented from being displaced upwardly by means of a knurled nut 86. The nozzle 84 may be reversed, depending upon conditions surrounding the drainage opening which it is desired to free from obstruction.
summarizing briefly, it will be noted that the parts of the pressure gun are so arranged that it is easy and convenient to make repairs and replace parts. The check valve 28 is mounted in the top end cap I2 and may be replaced without dismantling the gun. The release or discharge valve mechanism 2i) is mounted on the bottom end cap i6 and is removed as a unit when the bottom end cap is removed. By removing two nuts from the tie rods, all of the parts of the gun are exposed for removal or replacement. By the use of such a construction, costly repairs and delays are avoided. Furthermore, the provision of the rubber bumper I4 in conjunction with the rubber nozzle 84 prevents the gun from injuring enamel or porcelain surfaces on which it may accidentally be dropped.
Having thus described my invention what I claim as new and desire to obtain by Letters Patent of the United States is:-
l. A pressure gun having in combination, an air compression chamber, an air pump mounted in said chamber, a valve mounted on one end of said chamber, said valve being accessible to permit removal of the valve without dismantling the gun, a pipe connecting the pump to the valve, a discharge valve mounted on the lower end of said chamber, means for maintaining the valve in closed position to prevent discharge of air from said chamber, and means for opening said valve to discharge air from the chamber.
2. A pressure gun having in combination, an air compression chamber, an air pump mounted on said chamber, a valve mounted on the upper end of said chamber, said valve being accessible to permit removal of the valve without dismantling the gun, a pipe connecting the pump to the valve, a discharge valve mounted on the end of the chamber, a frame in which said valve is mounted, a guide for said valve, a spring for maintaining the valve in closed position to prevent discharge of air from the chamber, a lever connected to said valve, and means connecting said lever with the top of the chamber to permit opening said valve to discharge air from the chamber.
3. A pressure gun having in combination, an air compression chamber, end caps at they ends of said chamber, means for supplying compressed air to said chamber, release mechanism mounted on one of said caps to permit removal of said release mechanism as a unit, said release valve mechanism including, a valve support, a valve guide mounted within the support, a valve rigidly secured to said guide, means for maintaining the valve in closed position, and means operable to open said valve to permit substantially instantaneous discharge of air from said chamber.
4. A pressure gun having in combination, an air compression chamber, end caps at the ends of said chamber, means for supplying compressed air to said chamber, and releasey valve mechanism mounted on one of said caps to permit removal of said valve mechanism as a unit, said release valve mechanism including, a valve support, a valve guide mounted within the support, a valve rigidly secured to said guide, means for maintaining the valve in closed position, a lever fulcrumed to said support and pivotally connected to said guide, and means connected to said lever for opening said valve to permit discharge of air from said chamber.
5. A pressure gun having in combination, an
air compression chamber, an air pump mounted in said chamber, a valve mounted on the upper end of said chamber, said valve being accessible to permit removal of the valve Without dismantling the gun, a pipe connecting the pump to the valve, a valve support, a valve guide mounted Within the support, a valve rigidly secured to said guide, means for maintaining the valve in closed position, andmeans operable to open said valve to permit instantaneous discharge of air from said chamber. f
6. A pressure gun having in combination, an air compression chamber, an air pump mounted in said chamber, a valve mounted on the upper end of said chamber, said valve being accessible to permit removal of the valve without dismantling the gun, a pipe connecting the pump to the valve, a valve support, a valve guide mounted in said support, a discharge valve mounted in said support, a valve rigidly secured to said guide, a spring interposed between said valve guide and said support for maintaining the relief valve in closed position, a lever fulcrumed to said support, and pivotally connected to said guide, and
means connected to said lever, for opening saidA discharge valve to permit discharge of air from said chamber.
LEONARD ALFRED POPP.
US76532A 1936-04-27 1936-04-27 Air pressure gun Expired - Lifetime US2093618A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2660334A (en) * 1951-07-05 1953-11-24 Murray M Fibus Air pump and accumulator
US2828050A (en) * 1955-07-28 1958-03-25 Arthur E Engelder Gas flow control unit

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2660334A (en) * 1951-07-05 1953-11-24 Murray M Fibus Air pump and accumulator
US2828050A (en) * 1955-07-28 1958-03-25 Arthur E Engelder Gas flow control unit

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