USRE17974E - Grease gun - Google Patents

Grease gun Download PDF

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Publication number
USRE17974E
USRE17974E US17974DE USRE17974E US RE17974 E USRE17974 E US RE17974E US 17974D E US17974D E US 17974DE US RE17974 E USRE17974 E US RE17974E
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Prior art keywords
grease
lubricant
casing
container
plunger
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16NLUBRICATING
    • F16N5/00Apparatus with hand-positioned nozzle supplied with lubricant under pressure
    • F16N5/02Nozzles or nozzle-valve arrangements therefor, e.g. high-pressure grease guns

Definitions

  • This invention relates to grease guns, one of the objects being to utilize a pneumatic hammer as a means for expelling grease under impact pressure into a grease cup or the like forming part of a lubricating system.
  • a still further object is to provide means whereby, When pressure is exerted against the structure for the purpose of forcing its outlet to the grease cup or the like, the supply of grease to the structure Will be turned on and air under pressure Will also be directed into the air gun, thereby to actuate the mechanism.
  • Still a further object is to provide a grease gun for discharging a lubricant to a part to bel lubricated by exerting upon the lubricant a plurality of rapid, successive and direct impact blows.
  • a further object is the step in the method of supplying lubricant to a part of a lubrieating system by forcing lubricant under increased pressure as a result of' a pneumatic hammer action or impact blow on the lubricant.
  • Figure 2 is'a central longitudinal section ythrough the pneumatic hammer part of the grease gun.
  • 1 designates the cylindrical casing nism of which is the same as that to be found in devices such as are nonr commonly used.
  • an inlet head 24 having a recess 25 which registers m with a central opening 26 in the head 27.
  • Ports 28 open into an annular groove 29.
  • the head 24 extends into a recess 30 Jformed .
  • channels 32 and 33 are channels 32 and 33.
  • Channel 32 opens through one end of the piston and has a port 34 opening into recess 3() While channel 33 opens through the other end of the piston and has a port 35.
  • Exhaust ports 36 and 37 are provided in the casing 1 and open into a channel 38 in the casing 1.
  • An air supply hose 2 opens into a radial port 39 extending to the recess 6 and this port is normally closed by a slide valve 40 the stem 2l of which projects from the head.
  • a spring 41 can be used for holding the valve normally closed as in the drawings.
  • a grease container 4 is screwed onto that end. of the casing l from Which the plunger 3 extends and, if desired, a disk 5 may be held Within the container 4 for the purpose of reducing the capacity of the container and for guiding the plunger.
  • the free end portion of the container 4 is formed with a concave-convex extension 6 having an opening 7 into which is to a seat 12 whereby fiow of grease from the container to the nozzle is cut oi when the grease is not subjected to the action of the plunger.
  • Extending from the'plunger is an ejecting rod 13 which is in alignment with the passage in the nozzle and is surrounded by a spring 14 one end of which bears against the end of the container 4 while the other end thrusts against the plunger 3.
  • This spring serves to hold the plunger 3 normally pressed away from the free end of the container so that the ej ecting rod is normally spaced from the nozzle as shown in the drawing.
  • a feed pipe 15 is attached to the casing 1 and opens at one end into the container 4.
  • the other end of this pipe is connected to a hose 16 whereby grease is supplied to the pipe 15.
  • the valve 17 is located in the pipe and has a radial arm 18 which, when swung back and forth will open and close the valve.
  • a cap 19 Slidably mounted on the casing 1 is a cap 19 the end of which is held normally spaced from the casing 1 by a spring 20.
  • the air controlling valve of th ⁇ e pneumatic hammer has a stem 21 projecting from one 4end of the casing and the spring 20 serves to hold the cap 19 normally out of contact with the stem.
  • the pipe 2 supplies air to the casing 1 andthe valve 21 serves to hold the air supply normally cut of.
  • Cap 19 has a slot 22 through which the pipe 2 extends so that it is thus possible to shift the cap longitudinally of the casing.
  • a link 23 connects the cap to the arm 18 of the valve 17.
  • the cap 19 is in its normal position as shown in the drawing the supply of air and grease tothe apparatus is cut oil.
  • the outlet end of the nozzle 8 is placed against the grease cup designed to receive the grease.
  • the operator then pushes against the cap 19 so as to cause it to compress spring 20 and to shift longitudinally of the casing 1. This action will result in the cap pressing against stem 21 so that the air valve will be opened.
  • link 23 will shift the arm 18 and open the valve 17.
  • the grease will flow into the container 4 while, at the same time, the plunger 3 will be rapidly reciprocated by the air hammer mechanism in the casing, thus exerting hammer effect blows upon the grease.
  • the grease can be forced under pressure intothe container 4. From the container or chamber 4 the grease can be forced to the part to be lubricated by the pneumatic hammer.
  • a pneumatic hammer including a casing, a plunger mounted for rapid reciprocation and extending from the casing at one end, and a valve stem extendingfrom the other end of the casing for controlling the supply of air under pressure to the hammer, of a lubricating attachment including a grease container detachably engaging one end of the casing for the reception of the projecting portion of the plunger, a nozzle vextending from said container, said plunger constituting means for intermittently e]ecting grease through the nozzle, a pipe for supplying grease to they container, a valve therein, a member slidable onv the other end' of the casing and shiftable relative to said casing to control the air valve of the hammer, and means actuated by said slidable member for controlling the supply of grease to the container.
  • a lubricating device having a lubricant outlet, impact means for forcing the lubricant through said outlet and means for controlling said impact means.
  • a lubricating device having a lubricant receiving chamber provided with a lubricant inlet and a lubricant outlet, pneumatic 'means for forcing the lubricant into said chamber and impact means for forcing the lubricant through said outlet.
  • A. lubricating device having a chamber therein provided with a lubricant outlet, a
  • plunger adaptedy to reciprocate in said outlet and pneumatic means for reciprocating said plunger for impacting lubricant through said outlet.
  • a pneumatic hammer device for. forcing the lubricant to the part to be lubricated by a plurality of impact blows thereon andmeans controllable by the operator for rendering said pneumatic means operative or inoperative.
  • a device for supplying lubricant having a lubricant receiving chamber
  • means for supplying lubricant under an initial pressure to said chamber impact means for applyingy additional and increased pressure to the lubricant within said chamber for forcing it therefrom and means for controlling the operation of said impact means.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Percussive Tools And Related Accessories (AREA)

Description

W- A. CHAPMAN u 9, 7 l w R GREASE GUN Feb- 17, 1931.
w. ww mw 5 5 1. L MH m E111 1 .m /t m V m WU v/ mn f .nm
Reissued Feb. 17, 1931 UNITED STATES PATENT OFFICE WILLIAM ARCHIE CHAPMAN, OF LITHONIA, GEORGIA, ASSIGNOR T THE ARO EQUIP- MENT CORPORATION, OF BRYAN, OHIO GREASE GUN Original No. 1,759,298, dated May 20, 1930, Serial No. 303,548, led September 1, 1928. Application for reissue filed December 26,
This invention relates to grease guns, one of the objects being to utilize a pneumatic hammer as a means for expelling grease under impact pressure into a grease cup or the like forming part of a lubricating system.
A still further object is to provide means whereby, When pressure is exerted against the structure for the purpose of forcing its outlet to the grease cup or the like, the supply of grease to the structure Will be turned on and air under pressure Will also be directed into the air gun, thereby to actuate the mechanism.
Still a further object is to provide a grease gun for discharging a lubricant to a part to bel lubricated by exerting upon the lubricant a plurality of rapid, successive and direct impact blows.
A further object is the step in the method of supplying lubricant to a part of a lubrieating system by forcing lubricant under increased pressure as a result of' a pneumatic hammer action or impact blow on the lubricant.
With the foregoing and other objects in View which Will appear as' the description proceeds, the invention resides in the combination and arrangement of parts and in the details of construction hereinafterl described and claimed. it being understood that changes in the precise embodiment of the invention herein disclosed may be made within' (he scope of what is claimed without departing i'roni the Spirit of the invention.
In the accompanying drawing Athe preerred form ot' the invention has been shovvn. In said drawing- Figure 1 is a view partly in section and partly in elevation.l
Figure 2 is'a central longitudinal section ythrough the pneumatic hammer part of the grease gun.
Referring to the drawing by characters of reference, 1 designates the cylindrical casing nism of which is the same as that to be found in devices such as are nonr commonly used. In such a structure there is located an inlet head 24 having a recess 25 which registers m with a central opening 26 in the head 27.
of a pneumatic hammer, the interior mecha- 1930. Serial ND. 504,962.
Ports 28 open into an annular groove 29. The head 24 extends into a recess 30 Jformed .in a piston 31 and in the piston are channels 32 and 33. Channel 32 opens through one end of the piston and has a port 34 opening into recess 3() While channel 33 opens through the other end of the piston and has a port 35. Exhaust ports 36 and 37 are provided in the casing 1 and open into a channel 38 in the casing 1.
An air supply hose 2 opens into a radial port 39 extending to the recess 6 and this port is normally closed by a slide valve 40 the stem 2l of which projects from the head. A spring 41 can be used for holding the valve normally closed as in the drawings.
When the valve 40 is depressed to open the port 39, the motive fluid passes into recess 25 and ports 28 to groove 29 and from the latter by ports 35 into the channels 33 to the outer end of the casing, and also by ports 35 to the inner end of the recess 30, so that pressure is exerted against the piston 3l to slide the latter from the left to the right. lVhen this takes place, the ports 33 and 35 are cut ofil from the annular groove 29, While the ports 34 connect with the said groove, and consequently the motive agent now passes trom the inlet-head 24 by ivayof the recess 25, openings 28, groove 29, ports 34, and channels 38 to the hammer end oi the piston. so that the piston is moved back to its former position-that is, from the right to the leftas shown. r[he exhaust-air in the ends ot' the casing lpasses alternately through the ports 36, 37 into the channels 3S and from the latter to the outside.
During the reciprocation 0I the piston the plunger 3 which is carried thereby willI also be reciprocated.
For the purpose of converting the pneumatic hammer into a grease gun, a grease container 4 is screwed onto that end. of the casing l from Which the plunger 3 extends and, if desired, a disk 5 may be held Within the container 4 for the purpose of reducing the capacity of the container and for guiding the plunger. -The free end portion of the container 4 is formed with a concave-convex extension 6 having an opening 7 into which is to a seat 12 whereby fiow of grease from the container to the nozzle is cut oi when the grease is not subjected to the action of the plunger. y
Extending from the'plunger is an ejecting rod 13 which is in alignment with the passage in the nozzle and is surrounded by a spring 14 one end of which bears against the end of the container 4 while the other end thrusts against the plunger 3. This spring serves to hold the plunger 3 normally pressed away from the free end of the container so that the ej ecting rod is normally spaced from the nozzle as shown in the drawing.
A feed pipe 15 is attached to the casing 1 and opens at one end into the container 4. The other end of this pipe is connected to a hose 16 whereby grease is supplied to the pipe 15. The valve 17 is located in the pipe and has a radial arm 18 which, when swung back and forth will open and close the valve.
Slidably mounted on the casing 1 is a cap 19 the end of which is held normally spaced from the casing 1 by a spring 20. The air controlling valve of th`e pneumatic hammer has a stem 21 projecting from one 4end of the casing and the spring 20 serves to hold the cap 19 normally out of contact with the stem.
The pipe 2 supplies air to the casing 1 andthe valve 21 serves to hold the air supply normally cut of. Cap 19 has a slot 22 through which the pipe 2 extends so that it is thus possible to shift the cap longitudinally of the casing. A link 23 connects the cap to the arm 18 of the valve 17. i
IVhen the cap 19 is in its normal position as shown in the drawing the supply of air and grease tothe apparatus is cut oil. In using the structure the outlet end of the nozzle 8 is placed against the grease cup designed to receive the grease. The operator then pushes against the cap 19 so as to cause it to compress spring 20 and to shift longitudinally of the casing 1. This action will result in the cap pressing against stem 21 so that the air valve will be opened. At the same time link 23 will shift the arm 18 and open the valve 17. Thus the grease will flow into the container 4 while, at the same time, the plunger 3 will be rapidly reciprocated by the air hammer mechanism in the casing, thus exerting hammer effect blows upon the grease. If desired, the grease can be forced under pressure intothe container 4. From the container or chamber 4 the grease can be forced to the part to be lubricated by the pneumatic hammer.
Each time the plunger 3 moves toward the nozzle 8 the ejecting rod 13 will enter the nozzle and force thereinto and therefrom an amount ofI grease, and each time the rod is returned by the spring 14 the grease, under pressure, will rush toward the nozzle where another portion will be expelled by the rod 13. Thus the grease will be positively expelled under heavy pressure or as a result of impact blows directed by the pneumatic hamment with the' other end of the pneumatic hammer to control the supply of air to the hammer, and a grease controlling valve actuated by said slidable means.
2. The combination with a pneumatic hammer including a casing, a plunger mounted for rapid reciprocation and extending from the casing at one end, and a valve stem extendingfrom the other end of the casing for controlling the supply of air under pressure to the hammer, of a lubricating attachment including a grease container detachably engaging one end of the casing for the reception of the projecting portion of the plunger, a nozzle vextending from said container, said plunger constituting means for intermittently e]ecting grease through the nozzle, a pipe for supplying grease to they container, a valve therein, a member slidable onv the other end' of the casing and shiftable relative to said casing to control the air valve of the hammer, and means actuated by said slidable member for controlling the supply of grease to the container.
3. In combination with means for supply ing lubricant to a part to be lubricated a pneumatically operated impact device or forcing the lubricant from said supplying means. i
4. In combination with means for supplying lubricant to a part to be lubricated, an
impact device for forcing the lubricant from said supplying means.
5. A lubricating device having a lubricant outlet, impact means for forcing the lubricant through said outlet and means for controlling said impact means.
6. A lubricating device having a lubricant receiving chamber provided with a lubricant inlet and a lubricant outlet, pneumatic 'means for forcing the lubricant into said chamber and impact means for forcing the lubricant through said outlet.
7. A. lubricating device having a chamber therein provided with a lubricant outlet, a
plunger adaptedy to reciprocate in said outlet and pneumatic means for reciprocating said plunger for impacting lubricant through said outlet.
8. In combination with means for supplying lubricant to a part to be lubricated, a pneumatic hammer device for. forcing the lubricant to the part to be lubricated by a plurality of impact blows thereon andmeans controllable by the operator for rendering said pneumatic means operative or inoperative. f
9. In a device for supplying lubricant having a lubricant receiving chamber, means for supplying lubricant under an initial pressure to said chamber, impact means for applyingy additional and increased pressure to the lubricant within said chamber for forcing it therefrom and means for controlling the operation of said impact means.
10. In combination w,with means for supplying lubricant to a part to be lubricated, pneumatic hammer means for forcing the lubricant from said supplying means b impact blows to the part to be lubricate In testimony that I claim the foregoing1 as my own, I have hereto affixed my signature.
WILLIAM ARCHIE CHAPMAN.
US17974D Grease gun Expired USRE17974E (en)

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