DE3014519A1 - TURNING PISTON, IN PARTICULAR CELL PUMP - Google Patents

Description

Rotary piston machine, especially cell pump

The present invention relates to a rotary piston machine, in particular a cell pump, in a housing eccentrically mounted rotary piston and arranged on the circumference of the rotary piston in recesses, essentially radially back and forth and on a bore eccentric to the axis of rotation of the rotary piston adjacent slides.

Such rotary piston machines are known in a wide variety of designs. The differences are in particular in the design and arrangement of the slides.

The so-called vane pumps are radially displaceable in radial recesses of the rotary piston Slider is provided, which during the rotary movement of the rotary

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piston slide back and forth radially, with your over the Rotary piston protruding ends slide against the bore of the housing. Are with another group so-called swivel slide pivotably articulated on the rotary piston, the swivel slide under the action of Centrifugal force swings out as the rotary piston rotates and comes into contact with the bore in the housing "

All these known designs have in common the fact that the slide with certain surfaces slide against the bore of the housing. This leads to increased friction and wear on each other qleitenden surfaces, so that these rotary piston machines on the one hand have a high power loss and on the other hand fail very quickly. In addition, the sealing effect is deteriorated by the wear, so that after Gap losses occur over a certain period of time, which have a negative effect on the performance of the rotary piston machine.

It has already become known that the slide is made entirely of a special friction-reducing and wear-resistant material, z. B. plastic, to manufacture or to cover the mutually conductive surfaces with such materials or to provide corresponding inserts. This makes the production of the rotary piston machine more difficult and expensive, especially in the case of manufacturing the slide entirely from plastic due to the low Specific gravity the disadvantage that the centrifugal force of the slide is reduced so that the Sealing effect is no longer sufficient.

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The present invention has set itself the task of providing a rotary piston machine of the type mentioned at the beginning create that is simple in construction and thus in production, which has only low friction and thus power losses as well as low wear and thus a long service life guaranteed.

This object is achieved according to the invention in that a cylindrical sleeve is arranged in the bore of the housing so as to be relatively rotatable with respect to the housing.

As a result of this "floating" arrangement of the sleeve in the bore of the housing, this sleeve can move during rotation Rotate the rotary piston with the slides resting on their bore so that no or only a slight relative movement takes place between the slides and the sleeve, so only very little friction and wear occurs. In order to facilitate the rotation of the sleeve, according to further features of the invention between the bore of the housing and the jacket of the cylindrical sleeve, a bearing is provided, in particular sliding bearings, such as hydrodynamic, hydrostatic or spiral groove bearings or dry plain bearings can be used. With a hydrodynamic Slide bearings can optimize the friction and the load capacity according to a further feature of the invention the jacket of the sleeve or the bore of the housing can be provided with circumferential grooves or projections.

To further reduce the friction losses, it is proposed according to further features of the invention, the rotary piston on the front sides or the housing cover on the to provide the end faces opposite the end faces of the rotary piston with grooves for the supply of lubricant. These grooves can be designed as spiral grooves.

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Instead of these grooves on the end faces or end faces, it is possible according to a further feature of the invention, one or more of these relatively movable surfaces with a layer of a friction-reducing material to provide.

An embodiment of the invention is illustrated in the accompanying drawings and is intended below are described in more detail.

Show it:

Fig. 1 shows a rotary piston machine with removed

Housing cover in side view and

FIG. 2 shows a section through the rotary piston machine according to FIG. 1 in the assembled state.

The rotary piston machine shown in the drawings consists of the housing 1 and the two with the housing 1 screwed housing covers 2 and 3, the one in the hole 4 of the housing 1 eccentrically arranged rotary piston 5, which is arranged on an eccentric to the bore 4 Shaft 6 is rotatably attached to this, as well as in radial recesses 7 of the rotary piston 5 back and forth Slides 8. In the bore 4 of the housing 1 is a cylindrical sleeve 9 with respect to the housing 1 rotatably arranged, at the bore 10 when the rotary piston 5 rotates, the end surfaces 11 of the slide 8 invest. One housing cover 2 is provided with a suction port 12 and a pressure port 13 is provided. The suction-side flow channel 14 extends just like the Pressure-side flow channel 15 through the housing 1 to

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in the other housing cover 3. When the rotary piston 5 is rotated clockwise, the slides are positioned to the bore 10 of the sleeve 9 and thus convey the medium through the sickle-shaped pump chamber 16 from the suction inlet the print side. The cylindrical sleeve is taken along, i. H. it rotates in relation to the bore 4 of the housing 1, but not with respect to the slide 8, so that there is no friction and no wear can take place. If the adhesion between the parts is not sufficient, a relative movement can occur take place between slide 8 and sleeve 9, but this is extremely small in order to prevent this sleeve 9 from "floating" to facilitate, is in the present embodimentbexspxel through holes 17 in the housing 1 lubricant to the Bore 4 of the housing 1 guided so that between this and the jacket 18 of the sleeve 9 can build up a hydrodynamic lubricating film that separates these surfaces. The formation of the hydrodynamic lubricating film can be improved if in the bore 4 of the housing wedge-shaped lubrication pockets 19 are provided in the circumferential direction.

To also reduce the friction between the rotary piston 5 and the corresponding end faces 20 and 21 of the housing cover 2 and 3, the end faces 22 and 23 of the rotary piston 5 are provided with spiral grooves 24 or the like. promote the lubricant between the end faces 20 and 21 and the end faces 22 and 23 and distribute them there.

The invention is not restricted to the example described. So it is particularly possible, the lubrication pockets 19 instead of in the bore 4 of the housing 1 on the

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Jacket 18 of the sleeve 9 and the spiral grooves 24 instead of in the end faces 22 and 23 of the rotary piston 5 in the end faces 20 and 21 of the housing cover 2 and 3 to be provided. In addition, instead of the hydrodynamic bearing - as already described earlier - another type of bearing between the sleeve 9 and the bore 4 of the housing 1 can be arranged. This can be a spiral groove bearing with pressure-building spiral grooves or a hydrostatic bearing, whereby the pressure pockets are expediently arranged in the bore of the housing. In the bore of the Housing or on the jacket of the sleeve a layer of a friction-reducing material, i.e. a type of dry sliding bearing, be provided, which is particularly advantageous if it is to be avoided in any case that the The media to be pumped are contaminated by possibly escaping lubricant. In such a case you can also the end faces of the rotary piston or the opposite end faces of the housing cover with a Layer of a friction reducing material, e.g. B. plastic, are coated. In this friction-reducing Material can be particles of a self-lubricating material, such as. B. graphite, molybdenum disulfide, PTFK etc. be stored.

The invention is also not based on the example shown of a vane pump with radially back and forth Movable slides are limited, but is also readily available in rotary piston machines with pivoting slides applicable.

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Claims (13)

Rotary piston machine, especially cell pump ' Claims Rotary piston machine, in particular cell pump, with rotary piston mounted eccentrically in a housing and arranged in recesses on the circumference of the rotary piston, which can be pushed back and forth essentially radially and on a bore eccentric to the axis of rotation of the rotary piston, characterized in that in the bore (4) of the housing (1) a cylindrical sleeve (9) opposite the housing (1) is arranged to be relatively rotatable. 2. Rotary piston machine according to claim 1, characterized in that between the bore (4) of the housing (1) and the jacket (18) of the cylindrical sleeve (9) a bearing is arranged. 3. Rotary piston machine according to claim 2, characterized in that between the bore (4) of the housing (1) and jacket (18) of the cylindrical sleeve (9) a hydrodynamic slide bearing is arranged. 4. Rotary piston machine according to claim 3, characterized in that the jacket (18) of the sleeve (9) or the bore (4) of the housing (1) is provided with lubrication pockets (19). 130 0 A3 / 0 250 5. Rotary piston machine according to claim 3, characterized in that that the jacket (18) of the sleeve (9) or the bore (4) of the housing (1) with pressure-building ends Spiral grooves is provided. 6. Rotary piston machine according to one of claims 3 to 5, characterized in that the jacket of the sleeve or the bore of the housing is provided with circumferential grooves or projections. 7. Rotary piston machine according to claim 2, characterized in that that between the bore (4) of the housing (1) and the jacket (18) of the cylindrical sleeve (9) a hydrostatic bearing is arranged. 8. Rotary piston machine according to claim 7, characterized in that the bore (4) of the housing (1) Is provided with hydrostatic pressure pockets, in the feed holes for under pressure Pour in standing lubricant. 9. Rotary piston machine according to claim 2, characterized in that the jacket (18) of the sleeve (?) Or the bore (4) of the housing (1) is provided with a layer of a friction-reducing material. 10. Rotary piston machine according to claim 9, characterized in that the layer of friction-reducing material particles of a self-lubricating material, such as. B. graphite, molybdenum disulfide or the like. Contains. 13ΟΌ43 / 026Ο 30U519 11. Rotary piston machine according to one of claims 1 to 10, characterized in that the rotary piston (5) on the end faces (22, 23) or the housing cover (2 or 3) on the end faces (20, 21) with grooves is or are provided for the supply of lubricant. 12. Rotary piston machine according to claim 11, characterized in that the grooves are designed as spiral grooves (24) are. 13. Rotary piston machine according to one of claims 1 to 10, characterized in that the rotary piston (5) on the end faces (22, 23) and / or the housing cover (2 or 3) on the end faces (20, 21) with a layer of a friction-reducing material are provided. 130043/0250