DE2524741A1 - Rotary pump with helical housing or rotor - with seal strips having long resilient common sealing element in contact with housing wall - Google Patents

Abstract

The rotary pump is of the type having a housing (2) with helical inner contour or a rotor (3) with outer helical contour. The rotor is provided with a number of transversely slideable, mutually sealing, parallell seal strips (6) in sealing engagement with the housing. Rotation of the rotor relative to the housing causes an axial flow of the line fluid. In the region of the strip-to-housing seal a common flexible sealing element (25) is provided, extending axially over at least part of the length of the rotor and radially protruding from the ends of each of the strips. The element may have a circular cross-section and may be retained in corresponding recesses in each of the strips.

Description

Rotary piston pump The invention relates to a rotary piston pump with a snail-like housing or a snail-like rotor and transversely for the longitudinal extension of the rotor displaceable, butting against one another in a sealing manner, Sealing strips which are parallel to one another and form seals on the face side, with one Relative rotation of the rotor with respect to the housing also results in a delivery causes medium located in the housing.

Such pumps are already known. You have yourself, in particular also when pumping viscous liquids or mixtures of liquids and solids well proven. These pumps can also be used for comparison reach high pressures.

In order to achieve sufficient tightness in these pumps, seen in the direction of the longitudinal axis of rotation, for example sealing strips of different Width, becoming narrower towards the print side. Also were for the same The purpose is to have several rows of offset sealing strips arranged next to one another suggested.

Nevertheless, the leakage losses that occur in particular Use cases, such as, for example, the promotion of low media or also make this disadvantageously noticeable in vacuum operation, in which the suction must be high.

The invention has therefore set itself the task at which mentioned Rotary piston pumps to create an improved seal easily and quietly.

The inventive solution to this problem is in the main claim marked. You get a good seal through this training, that too Sufficient for increased requirements, for example also very thin fluid with the Förderunor edien.

Further features and refinements of the invention are given in the subclaims The invention and its essential details are based on the following the drawing explained in more detail. It shows: FIG. 1 a longitudinal section of a rotary piston pump, 2 shows the sealing area between the rotor in an enlarged detail and housing, FIG. 3 schematically shows a cross section of a rotary piston pump, FIGS. 4 to 6 show different cross sections of the rotary piston pump shown in FIG. 1, 7 and 8 sealing strips with differently shaped end faces, FIG. 9 a cross section of a rotary piston pump with two crossing sealing strips, 10 shows, in a perspective illustration, the configuration of two intersecting Sealing strips and FIG. 11 shows a longitudinal section of a rotary piston pump in one other embodiment.

A rotary piston pump 1 shown in Fig. 1 has essentially an outer housing 2 and one arranged therein, denoted as a whole by 3 Rotor, which passes through the housing 2 approximately axially. In the inside wall of the housing 4, a four-start worm 9 is incorporated in this exemplary embodiment.

The rotor 3 is designed as a cylinder and has in the area of Snail design of the housing 2 has at least one longitudinal slot 5 in which transversely displaceable, sealingly abutting, sealing on the face side Sealing strips 6 are stored. These sealing strips 6 are according to the eccentricity of the worm 9 that changes helically in the longitudinal direction relative to each other pushed back and forth when the rotor 3 relative to the housing 2 is twisted. In the area of the seals between the end faces 7 of the sealing strips 6 and the inner wall of the housing 4 are at least partially Sealing layers 25 are provided which slightly extend over the end faces 7 of the sealing strips 6 protrude (see. Also Fig. 3). These sealing inserts 25 have an approximately round shape here Cross-section and are mounted in grooves 26 of the sealing strips 6. It surrenders thus a continuous, tightly fitting seal between rotor 3 and Housing inner wall 4, wherein the sealing insert 25 is approximately wave-shaped overall extends in the longitudinal direction of the rotor 3.

The embodiment shown in FIG. 1 of a rotary piston pump 1, because of the relatively long rotor 3, has one which is divided into two sections Longitudinal slot 5 to avoid a weakening of the rotor 3 WinC- ~. Corresponding the sealing inserts 25 are also divided.

The grooves 26 in the sealing strips 6.

formed longitudinal groove 27 for mounting the sealing insert 25 is in each case limited at their ends 31 by groove-free sealing strips 6 a. The sealing insert 25 is thus well established in the longitudinal direction, which means that a long since, it Leaving out on a simple trip is effectively avoided. It should also be mentioned that the Sealing strips 6, as in the cross-sections according to FIGS. 4 to 6 by the dashed lines indicated transverse line, can be formed in two parts. For example can be a pressurized medium located in the central bore 18 the inner end faces 19 of the sealing strips 6 act and so a good system effect the sealing insert 25 in the outer sealing area.

In Fig. 7 and 8 are advantageous designs from the outer end faces 7 of sealing strips 6 shown. Due to the snail-like design of the housing 2, the angle of inclination of the mutually facing changes when the pump 1 is in operation Sealing surfaces of the sealing strip 6 and the adjacent housing inner wall 4. In the Position in which the sealing surfaces are approximately parallel to one another can, at least in the case of continuous sealing strips that are approximately flat and slightly wider at the front 6 (Fig. 3) the storage of the density in position 25 in the groove 26 of the corresponding sealing strip 6 may be impaired. To avoid this, the end faces 7 of the sealing strips 6 roof-shaped bevels oriented transversely to the longitudinal extension of the rotor 3 28 iron out. The bevels 28 are on the screw profile of the housing 2 matched so that at the greatest angle of inclination of the housing inner wall 4 to the Longitudinal axis of the sealing strip 6, the roof-shaped bevel 28 approximately half-way to the Housing inner wall 4 runs parallel. The roof cutting edge 29 thus also forms different angles of inclination practically a plant on the inner wall 4, so that the sealing insert 25 is also securely stored in the transverse direction. There is also nor the possible formation of a bevel 28 a shown in FIG. 8, in each case have two adjacent sealing strips 6 facing away from each other bevels 30. These Embodiment compared to that shown in Fig. 7 results in a somewhat simplified Manufacturing. The distance between the roof cutting edges 29 formed by two sloping sealing strips 6 However, a is larger here.

In the above-described embodiments of the seal according to the invention there is also the advantage that the "wangsateuerunx", i. H. those through the snail's passage 9 caused to and fro movement of the (one-piece, continuous) sealing strips 6, directly onto the groove side end walls 32 of the sealing strips 6 and thus onto them themselves can be transferred 1ann. The sealing insert 25 thus has essentially no transmission failure for the tax movement, whereby i.a.

the service life of the sealing insert 25 can be increased.

9 and 10 show a modified embodiment of sealing strips 6 shown. There are two crossing points at each cross-section Sealing strips 76 are provided. In Fig. 10 it can be seen well that the sealing strips 16 weakening points 22 facing one another in their area of interference have, so that at this point the intersecting sealing strips 16 each to a thickness that each individual sealing strip 16 outside of these shafts 22 possesses and these weakening points 22 are chosen as long as it is Relative movement of the crossing sealing strips 16 corresponds to one another. At this Embodiment results in a fourfold seal. Depending on the application, 16 sealing inserts 25 are provided both on only one and on both sealing strips be.

11 shows another modified embodiment of a rotary piston pump 101, in which the sealing strips of different widths in the longitudinal direction of the rotor 106 a to 106 c are arranged in the housing 102 and with one of their end faces 107 are pressed against the helical rotor 103. Also with this pump 101 the inventive formation of a seal by a sealing insert 25 and others of the above-mentioned symbols can be realized well. In this embodiment a continuous sealing insert 25 is provided, which at its ends 31, as well already described above, delimited by groove-free sealing strips 108 is.

Plastic is preferably used as the material for the flexible sealing insert 25 in question. It is also a major advantage that the material for the sealing insert 25 can be adapted to the respective application, with a subsequent Conversion is easily possible. If necessary, there is also the possibility to use a sealing insert 25, which contains a lubricant-like substance, so that a self-lubricating "sealing insert 25" is then created.

The seal according to the invention can also be used in one of the figures Fluid coupling not shown in detail are used. Such a coupling can in principle, for example, like the rotary piston pump in the exemplary embodiment be constructed according to FIG. The rotor'3 is then driven by a motor, while the housing 2 can be designed as an abortive part. With completed Inlet and outlet, which are indicated by the arrows Pf, effected in the interior the liquid present in the housing 2 when the rotor 3 rotates, likewise a rotation of the housing 2 in the manner of a hydraulic clutch. Between inlet and outlet can expediently another, through an adjustable safety valve lockable connecting line can be provided. Will this connecting line opened, the liquid can circulate, which then practically separates the the rotor and housing forming the coupling parts is given. The adjustable safety valve also allows the degree of coupling to be continuously adjusted.

All in the description, the following claims and the drawing Features shown can be used individually or in any combination be essential to the invention with one another.

-Patent claims-

Claims (8)

Claims Rotary piston pump with a helical housing or a worm-like rotor and displaceable transversely to the longitudinal extension of the rotor, Seals on the end faces that are sealingly adjacent to one another and parallel to one another forming sealing strips, with a relative rotation of the rotor with respect to the housing causes a medium also located in the housing to be conveyed, d a It is indicated that at least in the area of the seals regionally one oriented approximately in the direction of the longitudinal axis of the rotor the front surfaces (7) of the sealing strips (6) protruding, flexible sealing insert (25) is provided. 2. Rotary piston pump according to claim 1, characterized in that the sealing insert (25) has an approximately round cross-section and that the sealing strips (6) at least partially adapted to this cross-sectional shape, the sealing insert (25) have receiving grooves (26). 3. Rotary piston pump according to claim 1 or 2, characterized in that that the through the end grooves (26) in the sealing strips (6) in the functional position formed longitudinal groove (27) for mounting the sealing insert (25) on at least one End (31) is limited by groove-free sealing strips (6 a). 4. Rotary piston pump according to one or more of claims 1 to 3, characterized in that preferably several of the sealing strips (6) on the end face a roof-shaped one 1 oriented transversely to the longitudinal axis of the rotor (3) Have bevel (28) which is attached to the screw profile of the rotor (3) or the Housing (2) is adapted. 5. Ro bationslcolben pump according to one or more of claims 1 to 3, characterized in that two adjacent sealing strips (6) have a roof-like Bevel (28 a) are beveled forming. 6. Rotary piston pump according to one or more of claims 1 to 5, characterized in that the sealing insert (25) is a lubricant-like substance contains. 7. Rotary piston machine according to one or more of the claims i to 6, characterized in that it is designed as a fluid coupling in which the rotor (3) is preferably driven and the housing (2) as the driven one Part are trained. 8. Rotary piston machine according to claim 7, characterized in that that the fluid coupling between the pressure and suction side is a lockable connecting line having. L e r s e i t e