NO124487B - - Google Patents

Description

Device for connecting a pressure lubrication device to a lubrication cup.

This invention relates to a coupling device intended to be coupled successively

to one or more grease cups and where an i

a cylinder freely movable and for supply

of connecting pipe serving lubricant i

the outer side is provided with means to connect tightly with the lubrication cup, and around

which can displace an annular piston which is exposed to the pressure of the lubricant. The invention is distinguished mainly by the fact that two or more trays are placed in a ring around the connecting pipe in

a fixed position in such a way that they can

turn radially and on the outside is provided with

a wedge surface, which cooperates with a corresponding wedge surface on the ring-shaped piston in such a way that the slopes are tensioned against

the lubrication cup, when the lubrication pressure acts against

the moving piston.

The invention shall be explained in more detail

with reference to the drawings. Fig. 1

shows a longitudinal section through the device

coupled with a lubrication cup in different positions, fig. 2 shows it on average

position, in which the head of the lubrication cup penetrates the gripping device, and fig. 3 and 4

two different embodiments for the nozzle end of the connecting pipe.

The one in fig. 1 grease cup shown is provided

with a hollow inscribed head 1, as wood

a conical neck 3 is connected to the grease cup body 2. This is provided with

a hexagon for attraction with key and

with a threaded stud 4 for screwing in

in the part to be lubricated. The butter cup.

is also provided with a central channel 5,

with a spring and a plastic ball or similar end to retain the lubricant. The bullet

rests against an annular seat 6 in the mouth of the channel in the head.

The connecting device consists of a central connecting pipe 7, which is provided in the center with a channel 8 for the supply of lubricant to a spherically concave groove 9, which forms a nozzle. The central tube 7 is provided at its upper end with a flange 10> adapted around the periphery to allow the lubricant to pass through and at the nozzle end provided with an annular groove 11 which forms a neck.

The coupling is provided with a bushing 12, which is screwed with internal threads 13 to a pressure lubrication device, not shown. The bushing 12 is provided at the lower end with a seat 14 to accommodate the central pipe 7 flange 10. The pipe extends with a certain clearance 15 through the hole in the seat 14. On the outside, the bushing 12 is provided with threads for connecting a threaded coupling sleeve 25, which consists of a hollow cylinder, in the interior 17 of which an annular piston 18 is displaceable. A gasket 19 is placed on the flat upper side of the piston 18, and on top of this a disc 20, against which rests a spring 21, the other end of which abuts the lower flat end surface of the bushing 12. The ring piston 18 has an external cylindrical mantle, which is internally provided with a conical or round wedge surface 22. The bottom of the ring piston 18 is provided in the center with a hole through which the connecting pipe 7 extends, so that the ring piston 18 is displaced on this under the influence of the spring 21 and the lubrication pressure. The gasket 19 is made in the form of a disk of elastically deformable material and ensures the seal of the piston against the cylinder wall by the fact that the disk 20, which is made of hard non-deformable material, presses against the gasket 19 with the help of the spring 21, so that it flattens out and increases in diameter . The spring 21 consists of a cylindrical coil spring, but can also be replaced by another springing means, e.g. in that the gasket 19 is elastically compressible. The coupling is internally provided with jaws 24, which can be two or more in number and can be accommodated in the space 26 between the ring piston 18 and the connecting pipe 7. The jaws 24 form between them a spherical space 27, which ends on the outside with a rounded edge bead 29, which facilitates the introduction of the lubrication cup's head into the spherical space 27. The slopes 24 are provided at the inner end with inwardly directed protrusions, which form an inwardly directed flange 28 and with some clearance extends into the annular groove 11 in the connecting pipe 7 and abuts against the bottom of the groove. The outsides of the trays 24 are provided with a wedge surface 23 designed to correspond to the wedge surface 22 on the ring piston 18's mantle so that the trays can be pulled towards the head of the lubrication cup under the pressure from the ring piston 18. The trays 24 are made of hard metal or a material with great resistance to wear, just like the spherical head of the lubrication cup, and the ring piston 18 is designed to withstand fission under high pressure without significant wear.

In fig. 2 shows a section of the coupling in the position in which the lubrication cup is gripped by the jaws 24. These are then in a maximally extended position with the bead edge 29 in contact with the largest diameter of the ball, which forms the head of the lubrication cup 1. During the movement between the inner wedge surface on the ring piston 18 mantle and the outer wedge surfaces 23 on the slopes 24, the slopes are spread from each other under the axial pressure from the coupling against the spherical head of the lubrication cup. This pressure is manually regulated and exerted at any angle in relation to the lubrication cup, made possible by the coupling's adjustability at an angle to the axis of the lubrication cup. Hereby, the annular piston 18 is pushed back under compression of the gasket 19, the disk 20 and the spring 21, which regain their original position after the penetration with the head of the lubrication cup enclosed in the spherical space between the slopes. A pressure is thus exerted against the slopes, which forces the upper part of the greasing cup head into close contact with the spherical nozzle 9 by the movement of the edge bead 29 towards the spherical part 30 on the greasing cup head. It is clear that the adjustability of the coupling in different angular positions is made possible by the lubrication cup

the head's ball-and-socket movement in that space, which

is formed by the slopes 24 and the concave nozzle surface 9 of the connecting pipe 7, the bead edge 29 and the spherical nozzle surface 9 having the same center of curvature as

the spherical head of the lubrication cup 1, so that injection of the lubricant can take place in the different positions shown in fig. 3 and 4.

When the coupling is in the operating position, the lubricant penetrates under pressure

through the central channel 8 up to the nozzle 9 and into it. annular chamber 31, where pressure is exerted against the ring piston 18, whereby a locking of the coupling is achieved, which is proportional to the pressure exerted from the lubrication device. During the movement between the wedge surfaces 22 and 23,

which spans the slopes towards the head of the lubrication cup, the movement of the bead edge 29 towards the head of the lubrication cup at 30 results in a proportional attraction between the top of the lubrication cup head and the concave nozzle 9, so that the connection becomes tight, with the pressure exerted by the lubrication device. Under the pressure from the lubricant, the valve system of the lubrication cup is opened, so that the lubricant can be sprayed

into the part to be lubricated and into the lubrication cup. The coupling is separated from the lubrication cup

by draft, which leads the coupling parts to

the position shown in fig. 2, so that the head of the lubrication cup is released, which can be carried out without regard to the position due to the adjustability of the coupling in different angles.

In fig. 3 and 4 show different combinations that can be used for injecting lubricant at different angles to the axis of the coupling. In fig. 3 shows a lubrication cup head, the upper part of which is made in the form of a truncated cone 40, the circular end of which is formed by the intersection with the planar part 41, which in the center occupies a vein-shaped ball 42. The center line of the planar part 41 and because the grease cup collapses. The upper part of the grease cup head occupies the concave nozzle 9, which is centered in relation to the grease cup head. The lubricant fed through the channel 8 fills the space 44, which occurs between the flat upper part 41 of the lubricating cup head and the concave nozzle surface 9. The maximum angular deviation made possible by the device is limited by the tangential position of the channel in relation to the circular border, which is formed by the intersection between the cone and the flat connection on the grease cup head. Angular deviation can thus occur within the space 44, as sealing is obtained through the circular edge resting against the spherically concave nozzle surface 9.

In the embodiment according to fig. 4 forms

the connecting part a circular chamber 50,

whose circular edge 51, which is obtained by the section of the borehole with the base surface, provides

sealing over the entire surface of the spherical

grease cup head 1. The seal is maintained

in all angles between the extreme positions,

where the injection channel, which closes the ball at the seat 6 in the lubrication cup

valve device, lies within the aforementioned connection edge 51.

It will be understood that the device according to

the invention can also be applied to the same

way without pressure for any

fluids.

Claims (4)

1. Coupling device for pressure lubrication intended to be successively connected to a or several lubrication cups and where one in a cylinder freely displaceable, for the supply of lubricant serving connection pipe, on the outside is provided with means to connect tightly with the lubrication cup, and around which can be moved an annular piston which is exposed to the pressure from the lubrication the means, characterized in that two or more trays (24) are arranged in a ring around the connection pipe (7) in a fixed position in such a way that they can swing radially and are provided on the outside with a wedge surface (23), which interacts with a corresponding wedge surface (22) on the ring-shaped piston (18) in such a way that the slopes (24) are tensioned against the lubrication cup (3) when the lubrication pressure acts against the movable piston (18). 2. Coupling device according to claim 1, characterized in that the connecting pipe (7) is provided with an external circular groove (11), in which an inwardly directed projection on the slopes engages, so that these can swing radially. 3. Connection device according to claim 1 or 2 for connection to a spherical and in the form of a truncated cone designed lubrication cup, characterized in that the connection pipe (7) at the outer end is provided with a spherical concave recess 9 designed to form a tight connection, when placed against the circular edge of the grease cup head. as the slopes (24) are adapted to grip the spherical surface of the head in such a way that the coupling device can be set at an angle with the central axis of the lubrication cup to both sides. 4. Coupling device according to claim 1 or 2, intended to be connected to a lubrication cup with a spherical head, characterized in that the connecting pipe (7) is provided at its outer end with a recess (50), which is bounded<*> by a circular edge (51), so that a tight connection can occur when the recess is placed against the spherical head of the lubrication cup.