DE4111166A1 - Eccentric worm pump - has rotor having single path helix, and uses flexible layer on double path stator - Google Patents

Abstract

Eccentric worm pump having a rigid rotor in the form of a single path helix and a double path stator. The stator is made up of a sleeve (1) using a high hardness metallic material. The outer surface (2) of the sleeve is cylindrical, whilst the inner surface (3) narrows conically from the suction side (4) to the pressure side (5), and is provided with a soft rubber elastic coating (6). ADVANTAGE - Pump in which the performance (delivery flow per time unit) does not degressively fall with an increasing delivery head.

Description

The invention is based on an eccentric screw pump out with a rigid, as a catchy snail formed, a circular cross-section send rotor and a rubber-elastic lining stator, the rotor receiving The room is designed as a two-flight screw and its lining by a tubular jacket is enclosed, which is rigid, but at least essential is made harder and more adamant than his Lining.

With these pumps, the discharge pressure builds up from the Suction side gradually to the outlet of the delivery spaces between the rotor and the lining. The deformability of this lining has several Advantages and z. B. the possibility of lining with elastic preload on the rigid rotor  to take effect. Nevertheless, there is a considerable amount Licher disadvantage in that the different Press inside the stator to corresponding, below lead to different deformations of the lining. This has the consequence that the pumps mentioned at the beginning a degressive behavior with increasing delivery pressure show in terms of their funding performance.

Due to the invention, these disadvantages are said avoided, but at least significantly reduced will. The flow rate (flow rate per time unit) should therefore increase with the amount of funding do not fall degressively and at least accordingly practically show a linear behavior.

To solve this problem, the invention takes the wall thickness of the lining from the suction side the pump towards the pressure side essentially evenly from. It should at the ends in the pre referred to as the wall thicknesses behave like 1: 3 to 1: 7, but preferably values of about 1: 5 should be chosen.

The invention is based on the knowledge that that the indentation of the lining or of it forming gums to a large extent from the spring height, So the wall thickness of the lining is dependent. Assuming a lining hardness of 70 Shore A, this results when pressure is applied the lining of approx. 10 kp / qcm or 10 bar Deflection or indentation of the lining of about 10% of the rubber height. Because of these pressure ratios only act on the pressure side of the stator and on the suction side  only a pressure of about 0.5 bar is experienced the lining a corresponding, different Indentation that the aforementioned waste of the Performance. However, due to the wall thickness of the lining according to the invention adjusted, the following Ver result with advantage ratios. Is assumed with a rubber hardness of 70 shore a pressure of 10 bar on the pressure side and a pressure of 0.5 bar on the suction side inevitable indentation then pressure side and suction On the one hand, practically the same impression is achieved if a wall thickness is selected on the pressure side, which is much smaller compared to the suction side. If you take this on the suction side (pressure about 0.5 bar) a lining with a wall thickness of about 12 mm, this results in an indentation of approximately 2% = 0.25 mm. If you want to get this impression on the print side, so you get the value of about 0.25 mm (about 10 bar) if (when the impression of about 1096) a wall thickness of about 2.5 mm (selected becomes. In this case, the impression would also be about 0.25 mm. A lining of e.g. B. 12 mm would, however, over the entire stator length on the suction side an indentation of about 0.24 mm and and an indentation of about 1.2 mm on the pressure side have as a consequence. Considering that stators for the Lining can have wall thicknesses of 80 mm, it is understood that there are considerable differences Lich given the impression that one can compensate for the invention. It understands themselves that the spring and indentation to be determined values can be determined in the experiment, so the specified nominal pump pressures the desired To be able to determine differences in wall thickness. Wall thickness ratios of about 1: 3 to 1: 7, with an average of about 1: 5 has proven to be very useful.

Further details of the invention will be given the drawing explains in the embodiments of the invention are shown. Show it

Fig. 1 shows a stator for an eccentric screw pump in longitudinal section;

Fig. 2 shows a section along the line II-II of Fig. 1,

Fig. 3 shows a stator for an eccentric screw pump in longitudinal section, specifically for a modified version compared to Fig. 1 and

Fig. 4 shows a section along the line IV-IV of FIG. 3.

The stator has a casing forming its sleeve 1 made of a tough, hard material, for which a correspondingly adjusted elastomer can be used. The outer surface 2 of the sleeve 1 is cylindrical, while its inner surface 3 tapers conically from the suction side 4 of the stator to the pressure side, which is denoted by 5 . Firmly adhering to the inner surface 3 , a lining 6 made of soft rubber with a Shore hardness A of about 70 is provided, which has the cross-section for receiving the rotor - its cross section, which is constant over its effective length, is shown at 7 in FIG. 2 - cavity 8 having. This has the shape of a two-common screw, while the rotor has the shape of a corresponding single-start screw. The lining 6 is in direct contact with this rotor (for example, even with a low pretension), but cases are also possible that there is a small play here.

The sleeve 1 is held in the usual way in one or more, possibly adjustable clamps, which are guided out of any and not shown.

It is now important that the lining 6 on the suction side 4 of the pump has a (mean) wall thickness of about 12 mm, while the (mean) wall thickness on the pressure side 5 is only about 2.5 mm, the wall thickness decreasing evenly over the length of the stator. At a nominal pressure of about 10 bar, the lining 6 experiences an indentation of about 0.24 mm over its entire length, that is to say a value which can be used when dimensioning the preload of the lining 6 (acting on the rotor) or when dimensioning the Rotors can take into account, in order to achieve the most even possible conveying capacity.

In the embodiment of Fig. 2, the liner 6 the outside or the inside surface of the sleeve 9 has a 1 the cavity 8 corresponding shape, so the design of a two-start thread. This makes it possible to give the lining 6 a uniform wall thickness as seen over the circumference of each cross-section (see FIG. 4), but with this stator on the suction side 4 the wall thickness S changes to the wall thickness s on the pressure side 5 of the Lining, these strengths behaving like 1: 5, according to the dimensioning of the stator according to FIG. 1. The uniform wall thickness of the liner 6 over the cross-section according to FIG. 4 has a special effect with regard to the desire to make the compressibility of the liner 6 even.

The formation of the stator according to Fig. 3 and 4 may be modified even by the sleeve 1 does not receive external cylindrical surface 2, but an outer surface which extends parallel to the outer surface of the lining 6. This gives the sleeve 1 a certain uniform wall thickness over its entire length. Therefore, the sleeve 1 can also be a pressing or drawing body made of sheet metal, for which metal can be used.

It should be mentioned that the rotor (at 7 ) should preferably have the same cross-section over its entire length and accordingly the inner surface of the lining 6 is to be designed (taking into account, if desired, a rest bias, a simple system without bias or a slight play) .

Claims (8)

1. eccentric screw pump with a rigid, designed as a single screw, a circular cross-section having a rotor and a rubber-elastic lining stator, the rotor-receiving space is designed as a double-start screw and the lining is enclosed by a tubular jacket that is rigid, at least but is made much harder than his clothes, characterized in that the wall thickness of the lining ( 6 ) from the suction side ( 4 ) to the pressure side ( 5 ) gradually decreases. 2. Pump according to claim 1, characterized in that that the decrease is linear. 3. Pump according to claim 1, characterized in that the wall thicknesses behave like 1: 3 to 1: 7. 4. Pump according to claim 3, characterized in that the wall thicknesses behave like 1: 5. 5. Pump according to claim 1, characterized in that the lining ( 6 ) receiving jacket ( 1 ) with a cylindrical outer surface ( 2 ) tapers conically towards the pressure side of the pump ( Fig. 1). 6. Pump according to claim 1, characterized in that the separating surface between the jacket ( 1 ) extends in the manner of a double-start screw and the lining ( 6 ) over its cross-sectional circumference ( Fig. 4) is of approximately the same wall thickness. 7. Pump according to claim 6, characterized in that the outer surface of the casing ( 1 ) is shaped in the manner of a double-start screw and the casing has a substantially uniform wall thickness over its length. 8. Pump according to claim 1, characterized in that the jacket ( 1 ) seen overall. The wall thickness reduction of the lining ( 6 ) tapers accordingly conically towards the pressure side ( 5 ) of the pump (inside and outside).