DE1004442B - Grease gun - Google Patents

Description

Sizing Press The invention relates to grease presses, and more particularly on those for greasing with modern, particularly thick types of grease that often disrupt the usual grease guns.

There are already known lubricating presses in which shocks are exerted on the grease container, which cause compression of the fat, but these impacts are often insufficient to uniformly reduce waste of fat in the container ensured.

In the grease gun according to the invention is in the grease container Supply plate is provided, the outer diameter of which is essentially the inner diameter of the fat container is the same and the means are assigned to the supply plate Apply downward thrusts.

When the supply plate is inserted into the container, it rests on the fat and transfers the shock received to it. These bumps have on the one hand the effect of pushing the fat down in the container and on the other hand that To soften fat that thixotropy hardens when not moved.

The means of imparting the necessary shocks to the supply plate, can e.g. B. be pneumatic hammers arranged on the supply plate. These Hammers can simply consist of pistons arranged in cylinders that are pushed through in the cylinders introduced compressed air are lifted from the plate while in opposite The springs acting in the direction try to push the pistons onto the supply plate. When compressed air flows into the cylinders, the pistons move upwards and tension the springs. Who then flows out of the air from the cylinders, will the pistons jerked against the supply plate and hit this or on an auxiliary plate attached to it, which closes the cylinder.

When using pistons movable in cylinders to exercise the Bumps on the supply plate is preferred for moving the pistons up and down a compressed air motor used. In this case the cylinders are made flexible by means of a Line connected to the chamber of the compressed air motor, which alternates with the compressed air source and is connected to the free outside air.

The device can also be made in such a way that the fat container an up and down movement is issued, whereby the blows on the supply plate through Weight bodies are exerted, which are arranged to slide vertically on the plate and, are cushioned against this.

In the drawings some exemplary embodiments of presses according to the invention are shown. Fig. 1 is an axial sectional view of a grease gun; Fig. 2 is a cross-section on the line II-II of Fig. 1; Fig. 3 is an axial section through the upper part of the press on a larger scale, and Fig. 4 is a schematic section through a simplified embodiment of the press.

According to the. 1 to 3 , the grease gun consists of a base 1 with a container 2 arranged thereon, in which the grease is located. The base has pivotable feet 3 with rollers 4. A device is provided in the container 2 to remove the fat and to convey it through a line 5 to a hose 6 . The device is held in the container by a ring 7 which forms an internally threaded axial sleeve 8 and is fastened to the base by means of stands 9. The container 2 is closed at the top by a hood 10.

A solid tube made of four parts 11a, 11b, 110 and 11d that are screwed into one another is used to remove the fat from the container 2. The actual fat acceptance device, which is arranged in the axis of the container 2, is located at the lower end of the tube. The tube serves as a guide for a heavy supply plate 12, which can slide like a piston in the container 2 and on which impacts are exerted by a compressed air tapping apparatus. These shocks reduce the hardening of the fat and cause it to sink in the container as it is consumed.

The tube lld carries at its lower end a pot or cylinder 13 which is attached to it by small rods 14. In this way, a free space is created between the two. A tubular piston 17 is arranged in the tube 11a, 11b, 11c, lld, which is given an alternating up and down movement by a compressed air motor. This tubular piston 17 has in its upper part slots 19, the tube Il # stands through which he w ith the interior in connection to which the lubrication line 5 is connected to the hose. 6

The inner diameter of the pot 13 corresponds to the outer diameter of the tubular piston 17. The removal of grease proceeds in the following manner: The cattail piston 17 moves down from its uppermost position and presses the grease located under it into the pot 13 . That so. Fat enclosed in the pot can only escape through the interior of the tubular piston 17. When the cattail sits on the bottom of the pot 13 , the fat previously contained in it has been displaced into the interior of the cattail 17. During the subsequent upward stroke of the plunger tube that receives the on - with fat taken, while by the resistant advanced down plate 12 which is replenished by the upward movement of the piston 17 resulting cavity with grease. With each downward movement of the tubular piston 17 , a new portion of fat enters it, which further displaces the fat already in the piston until the tubular piston 17 is finally filled with fat and this exits through the lubrication line 5, 6.

As indicated above, a compressed air motor is used to give the tube 17 an up and down movement. This motor has a cylinder 29 closed at its upper end by a head 30. The cylinder head is connected to a base 31 by means of tension screws (not shown). Between the cylinder head 30 and the cylinder 29 there is a plate 32 provided with an axial guide 33 and openings 34. The bottom 31 has in the center an internally threaded bore into which the upper end of the tube 1111 is screwed. This pipe end is also screwed through the sleeve 8 of the ring 7 , and the sleeve 8 is held in contact with the cylinder base 31 by a lock nut 36 .

A piston 37 sliding in the cylinder 29 has a hollow piston rod 38 closed at its lower end by means of a stopper 39. The stopper slides in the tube 11a, and the upper end of the tube piston 17 is screwed into this stopper.

A rod 40 provided with a guide ring 41 at its lower end protrudes into the hollow piston rod 38. The downward movement of the rod 40 with respect to the rod 38 is limited by the rod 40 striking the plug 39 and upward by the striking of the ring 41 against a shoulder 42 of the piston 37.

The rod 40 is fixed to a body 44 by means of a wedge 43 connected, which has a cylindrical part, which in the vertical guide33 the plate32 slides and to which two truncated cones 45a and 45b adjoin at the top, which have a common large area.

In the area of these two truncated cones there is an elastic ring 46, which consists of a pretensioned helical spring. This elastic ring is held between the two planes 47 and 48 of the plate 32 and the cylinder head 30 so that it can expand laterally but cannot move axially.

Inside the part 44 and the truncated cones 4511 and 45b there is a rod 49 with an enlarged head 50 which can slide in an axial bore 51 of the part 44, the inner diameter of which is substantially equal to that of the head 50 .

On the end of the rod 49 protruding upward from the body 44, a valve 53 is arranged by means of a screw 52, which valve can close an axial channel 54 which is connected to a radial line 55 connected to the outside air. The screw 52 also holds a plate 56 on the rod 49 which can lift the control rods 57 of two inlet valves 5811 and 58b. These valves, which are symmetrical to the motor axis, are connected in parallel to connection 59 of a compressed air supply line 60. They are held in the closed position by springs 61.

A spring 62 is arranged in the tube 11c between two disks 63 and 65. The disk 63 is firmly connected to the tube piston 17 by a ring 64, while the disk 65 rests on the end of the tube Ild. The spring 62 tends to push the two interconnected pistons 17 and 37 upwards.

The engine described above operates as follows. When the piston 37 has been pressed upwards by the spring 62 , the spring 46 acts on the lower of the double truncated cones and thereby keeps the compressed air supply lines open and the compressed air outlet 55 closed.

The compressed air thus reaches the piston 37 and presses it downward against the action of the spring 62. At the end of this movement, the projection 42 meets the ring 41, so that the rod 40 is carried along by the piston 37. The lower truncated cone 4511 is forced into the elastic ring 46, and the whole thing is suddenly pushed down through this ring as soon as the broad common base of the two truncated cones has passed through the ring. The head 50 is torn down from the bottom of the recess 51 so that the outlet valve 53 is lifted from its seat and the valves 58a and 58b sit on their seats, thus cutting off the supply of compressed air.

In the cylinder 29 above the piston loading-sensitive air flows through the line 55, and the piston 37 moves under the action of the spring 62 in the height. At the end of this movement, plug 39 pushes rod 40 up and resilient ring 46 again passes over lower truncated cone 4511 and closes outlet valve 53 while opening inlet valves 15, 5811 and 58b .

When compressed air flows into the tube 60 , the cattail 17 is given an up and down movement via the piston 37 , and with each stroke it removes a certain amount of fat from the container 2, so that when the cattail and the various connecting lines are full, a the same amount of fat is dispensed from line 6.

Since the space between the pipe 17 and the inner wall of the pipe 11b is filled with grease, it must be avoided that this grease penetrates into the pipe 11a or to the compressed air motor and in the pipe 11c containing the spring 62. For this purpose, the tubular piston 17 serving as a guide rings 66a and 66b are screwed into the ends of the tubes 11a and 11c so that they rest against the two end faces of the pipe 11b. These rings serve as a stop for seals 67, which are under the pressure of springs 68 which, on the other hand, are supported on the bottom of recesses 69 at the ends of the tube 11b. The pressure of the grease combines with the force exerted by each spring, compressing the respective seals even more, which further improves the seal.

The compressed air tapping apparatus, which is used to exert impacts on the thrust plate 12, consists of compressed air cylinders 70 in which pistons 71 are arranged to slide freely and which are closed by plates 72 and 73 which are connected to one another by rods 74. The cylinders are fastened to the plate 12 by means of screws 75. The space located under each piston 71 communicates with a nipple 77 through a channel 76 drilled into the plate 72 . The various nipples are connected to one another by lines 78 , and one of the nipples is connected to the interior of the cylinder head 30 by a line 79 . The space above each piston 71 is in turn in communication with the outside air through openings 80 in the plate 73 and contains a spring 81 which tries to push the piston downwards.

When the inlet valves 58a and 58b are open, the compressed air enters the cylinder 29 and the cylinder 70 at the same time. The pistons 71 move upwards against the action of the springs 81 which compress them. When the inlet valves close and the outlet valve 53 opens, the cylinder 29 and, at the same time, the cylinders 70 are in communication with the outside air, and the pistons 71 are jerkily returned to their original position by the springs 81. hit the plate72. These blows are transmitted to the supply plate 12 and through this to the fat. They soften what has become hard due to thixotropy. Fat and force it into the lower part of the container 2.

It is obvious that the shocks take place when the cattail 17 is up, the space between the rods 14 then being free. Accordingly, under the effect of the impacts, the fat can penetrate into this space, from where it is pressed into the cylinder 13 and into the tube piston 17 in the manner described above.

If the grease is very hard and penetrates into the cattail 17 only with difficulty, the pistons 71 have time to move so far that the springs 81 are completely compressed. If the fat JE but soft, then the piston 37 moves quickly, and the piston 71 does not press the springs together completely, more so than the pressure acting on it is weaker. The impacts imparted to the fat by the pistons 71 are therefore stronger the harder the fat is.

In the case of the sealing press shown in FIG. 4, the cattail is to be stationary in a manner known per se and the grease container is to be moved up and down alternately. Here, the downward movement takes place in free fall, possibly supported by spring action, and is suddenly interrupted when the container hits a fixed stop. The successive impacts are intended to compress the fat in the container. According to the invention, this effect is in turn improved by tapping hammers. In this type of press, the hammering hammers consist of vibrating bodies 126 which are guided so as to be movable to a limited extent on pins 125 fastened vertically to the supply plate 12 and which are pressed upwards away from the plate 12 by springs 127. During the upward movement of the container 2, the bodies 126 violently hit the supply plate 12 by inertia and thereby assist the compression of the fat in the container 2 considerably. The jolts, which can occur in the opposite direction when the container moves downwards, are absorbed by the springs 127.

Claims (2)

PATENT CLAIMF-1. Lubricating press, characterized in that a supply plate (12) is movably arranged in the grease container (2) over its contents in the manner of a piston and means (70 to 81; 125 to 127) are assigned to this plate, which are directed downwards onto the plate Apply shocks. 2. Lubricating press according to claim 1, characterized in that the means (70 to 81) which give the Pla.tte (12) the shocks consist of pneumatic hammers which are arranged on the plate itself. 3. Lubricating gun according to claim 2, characterized in that these hammers consist of pistons (71 ) movable in cylinders (70) , under which compressed air can be passed in order to lift them off the supply plate (12), and on the springs ( 81) act, tending to push the pistons down onto the plate (12). 4. Lubricating gun according to claim 1, characterized in that the knocking means, to whom the container (2) is given an up and down movement, consists of floating weights (126) mounted so as to slide vertically on the supply plate (12), which by springs (127) in at a distance from the plate. 5. Lubricating press according to claims 2 and 3, characterized in that the cylinders (70) below the movable in them. Pistons (71) are connected by a flexible line (79) to the working space of a compressed air motor (29, 37) which is alternately connected to a compressed air source and the atmosphere.