DE3438379A1 - Stator for eccentric spiral pumps - Google Patents

Abstract

A stator made of hard material for eccentric spiral pumps comprises a relatively thin-walled double spiral on the outside of which the reinforcing ridges which fill the hollows of the double spiral are integrally mounted.

Description

Stator for progressing cavity pumps

The invention relates to a stator according to the preamble of the patent claim 1.

Such stators have so far mainly consisted of a strong metal jacket with an injected or inlaid cuff clamped at the ends made of more or less elastic plastic. The manufacture of these well-known stators is complex and expensive.

Attempts have also been made to make the stators only from high-quality plastic, For example, hard thermoplastics or the like. To produce. This had to be taken into account be taken that the stators are already due to the high axial stress after a short time braced in the axial direction and thus a much higher Were subject to wear and tear. As a result, they had to be made entirely of plastic Stators often replaced after several hours of work will. Because the high quality used for the production and also against aggressive chemicals Highly resistant plastics are not cheap, was also a not inconsiderable one Costs associated.

Other, especially cheaper materials, can because of their low stability cannot be used. More stable materials can because of their high price only used in thin-walled designs in an economical manner which also affects the stability of such stators.

The invention is intended to provide a stator of the type mentioned at the outset can be improved that its production requires less material at high Requires stability.

According to the invention, this object is achieved by the features of the patent claim 1 solved.

The stator according to the invention can be used as a relatively thin-walled double screw be trained. It has been shown that relatively narrow webs on the Outside of the twin screw to achieve the required axial stiffness completely sufficient. This enables considerable material savings to be achieved, which in view of the still great wear despite the stiffness achieved and the consequent often necessary replacement is a considerable cost factor represents.

For the production of the stator according to the invention are particularly suitable hard thermoplastics such as tetrafluoroethylene, polyamide, polypropylene, Polyvinylidene fluoride, polyacetal resin or the like., Cast steel in very thin, material-saving and therefore without the webs of unstable embodiment, and even so proportionately unstable materials such as carbon and ceramics pressed with a binder.

Just a few short webs on the outside of the stator between An extraordinary longitudinal stabilization can be achieved with the turns. Preferred however, the embodiments according to the dependent claims and in particular at least two continuous longitudinal webs offset by 1800.

Exemplary embodiments of the invention are explained in more detail with the aid of the figures explained. 1 shows an oblique view of an embodiment with in webs arranged in different directions, FIG. 2 in the lower half a Side view and in the upper half a longitudinal center section through an embodiment with four continuous longitudinal webs offset from one another by 900 and FIG. 3 one Section along the line II 1-111 in FIG. 2.

The stator according to the invention according to FIG. 1 is designated generally by 10. It consists of a relatively thin-walled double screw 12 with flat connecting flanges 14 and 16. There is a depression on the outside of the twin screw 12 18 webs 20 filling the outside are provided, which are parallel to the longitudinal axis 22 of the stator 10 are arranged. In this embodiment, they are also approximately perpendicular to the turns 24 of the twin screw 12 arranged webs 26 are provided, which one ensure particularly good stiffening against the approach of adjacent turns. While in this embodiment according to FIG. 1, both axially parallel webs 20 and also vertically webs 26 extending to the windings 24 are also exemplary embodiments exclusively with parallel webs 20 or vertical webs 26 depending on the application possible.

A preferred embodiment according to FIGS. 2 and 3, however, has four in the axial direction continuous radial longitudinal webs offset from one another by 90 " 28, the same reference numerals in FIGS. 2 and 3 for the same parts are used as in Fig. 1. In the upper half of Fig. 2 is the one with the outer twin screw flight 12 covering inner twin screw flight 30 visible. The embodiment of FIGS. 2 and 3 gives excellent axial strength with relatively little material expenditure.

Claims (6)

PATENT CLAIMS 1. Stator made of hard material for eccentric screw pumps, the inside of which is designed as a twin screw flight, characterized in that that the outside of the stator (10) than coincides with the inner (30) Double worm gear (12) is formed and that in each case a depression (18) of the Bridges (20, 26) filling the twin screw thread (12) in one piece on the outside of the stator (10) are arranged. 2. Stator according to claim 1, characterized in that the webs (20, 26) between a direction approximately parallel to the longitudinal axis (22) of the stator (10) and a direction approximately perpendicular to the turns (24) of the twin screw flight (12) are arranged. 3. Stator according to claim 1 or 2, characterized in that in each perpendicular to the Länqsachse (22) placed cross section of the stator (10) the cuts of at least two webs (26) lie. 4. Stator according to one of the preceding claims, characterized in that that the webs (20) arranged in radial planes of the stator (10) and each in a radial plane on the same side of the stator (10) lying webs (20) a continuous longitudinal web (28) are combined. 5. Stator according to claim 4, characterized in that four to each 90 "in the circumferential direction offset from one another continuous longitudinal webs (28) provided are. 6. Stator according to one of the preceding claims, characterized in that that it is made of thermoplastic material, cast steel, carbon pressed with a binder or ceramic.