DE2930068A1 - Eccentric worm pump for conveying abrasive materials - has resilient stator in mantle with indented longitudinal grooves and adjustable clamp rings around mantle - Google Patents

Abstract

The eccentric worm pump comprises a worm rotor in a stator (2) which is in a resilient material. The stator chamber (3) has one more internal worm winding than the rotor. The stator is contained in an outer mantle (1), provided with a number of circumferentially equi-spaced impressed longitudinal grooves (6) with a preferred spacing between 30 and 80 mm. At least one adjustable (5) clamp ring (4) is provided around the mantle. The grooves may extend helically in a longitudinal direction parallel to the worm windings inside the stator. The material (2) may be vulcanised to or otherwise held within the mantle.

Description

Eccentric screw displacement pump

The invention relates to an eccentric screw displacement pump, especially for pumping abrasive media.

In the known pumps of this type, the stator interior geometry occurs predominantly high wear, so that tests in different directions have already been made were designed to increase the service life of the internal geometry of such pumps. the Internal geometry or internal contour of a stator is predominantly soft, rubber-like Molded in materials. The rubber-like materials known today wear out however, more or less quickly.

So you have the stator in the original equipment with one of its inner ones Paired contour of approximately the same rotor. If the stator is so worn that If there is a large drop in power and pressure, the Normairotor will turn against you those exchanged with excess. After all, it can be assumed that in this way results in almost a doubling of the service life for the stator. That However, the described method is very expensive in terms of storage and the necessary assembly work for changing the rotor.

It is also known that attempts have been made to manufacture stators in of their to reduce the inner contour by radial retightening. E.g. with axially working Pressure pieces on a cone on the outside of the stator. Will the thrust pieces axially shifted, is over the cone on the outer.

side the inner contour is reduced in size. Achieved similar results one with stators, whose outer jacket in the axial direction with one or more Slots are provided. This measure also provides a radial post-tensioning option achieved.

However, all of these previously known adjustment options have disadvantages, which can be seen therein -that a considerable effort is required for readjustment is. Furthermore, in the case of the stator, the connection is made with axially extending slots between the inner rubbery liner and the outer jacket by the amount weakened the interface that is eliminated by the slitting.

However, in order to achieve a good principle performance, the eccentric screw pumps In the pairing stator to rotor always worked with considerable preload. Of means that in practice the lining of a stator in the inner contour for Rotor is kept narrower than computationally necessary.

So it is to be understood that between the rotor and the rubbery Lining the stator significant clamping forces are effective. By the rotor turning movement in connection with the high clamping forces, the rubber-like lining is thus affected transmit a significant torsional moment. This flaming causes once that at Incorrect connection between the rubber-like lining and the outer one Sleeve, or the outer jacket, a separation of these two materials can take place, what is obvious when the outer sleeve and thus the binding surface is also weakened by axially extending slots, and on the other hand that the mathematically ideal sealing line between the stator inner contour and the rotating one The rotor shifts, and thus the effective force of such a combination between Rotor and previously known stator is reduced. The pump delivers less than calculated e.g. on the basis of backflow losses, which, as already mentioned, result from the Shifting the internal geometry in the rubber-like lining result.

The purpose of the invention is therefore to create an eccentric screw pump the above embodiment so that their pumping performance increased and the service life of the wearing parts without special constructive Effort can be extended.

According to the invention, this problem is solved by the technical Teaching conveys that on the outer shell of the stator evenly around its circumference distributed corrugations preferably arranged at a distance of about 30-80 mm from one another and that there is also at least one adjustable clamping sleeve close to the outside Coat. The corrugations or folds can be identical to the length of the outer jacket or shorter and do not need to be axially parallel to the geometric center of the stator to run, but can be made according to the thread pitch of the inner Contour be arranged evenly distributed on the outer circumference. 7 In the inventive Stators, the aforementioned disadvantages are avoided in that by a Adjustable clamping sleeve or clamp attached to the stator outer shell, which rests directly on the outer jacket, carried out a radial retensioning can be. The outer jacket is over its entire length and over part of its length provided with several beads, similar to folds, which are shaped inwards and thus stand in the rubber-like lining.

In this way it is achieved that without replacing the rotor or the screw conveyor or the stator during operation of the pump Wear can be compensated for by readjusting or re-tensioning. This leaves can be reached easily via the clamping sleeve attached to the outer jacket. The re-tensioning process can be repeated as often as until the contours have almost completely used up the rotor and stator. World will continue to exist through the in the Inwardly directed beads introduced into the outer jacket cause a shift in the inner contour excluded in the rubbery lining. The beads have a stabilizing effect and thus prevent one caused by the torque of the conveyor screw Moving the interior geometry.

An embodiment of the invention is shown schematically in the drawing shown.

FIG. 1 shows an external view of the stator according to the invention from FIG seen above, while FIG. 2 is a sectional view of the stator according to FIG. 1 on the line B-B represents. 3 is a side view of the stator of FIGS. 1 and 4 shows a sectional view on the line B-B according to FIG. 1 of a stator in FIG clamped condition. Between relaxed and completely tense any position is possible and always according to the requirements.

The outer jacket 1 encloses the one made of rubber-like material Stator 2, the inner surface of which is formed by a double round thread Limits cavity 9, which receives the rotor. The stator outer shell 1 has on evenly distributed on the outer circumference of the skins 6, which are preferably approx. 30-80 mm apart in radians. The stator is on the outer periphery surrounded by a clamping sleeve 4, which is pulled together by means of clamping screws 5 can be.

In the embodiment according to Figure 1, the beads are not with identical to the stator length. However, it is conceivable that these beads with the stator length are identical. It is then necessary to choose such a design u if the outer sheath e.g. the profile is manufactured.

L e r s e i t e

Claims (5)

Claims Eccentric screw displacement pump with a, thread-shaped Rotor in a stator made of rubber-like elastic Wbrkstoffi which in his Cavity has one thread more than the rotor, characterized in that that the outer jacket (1) of the stator (2) is evenly distributed around its circumference arranged beads (6), preferably at a distance of approx. No-80 mm, and that at least one adjustable clamping sleeve (4) with clamping screws (5) rests directly on the outer jacket (1). 2. Pump according to claim 1, characterized in that the on dei Stator (2) attached beads (6) the same or a shorter length in relation have on the outer jacket (1). 3. Pump according to claim 1 and 2, characterized in that the im Outer jacket (1) of the stator (2) arranged beads (6) not axially parallel to the geometric Run in the middle of the stator, but according to the thread pitch of the inner Contour evenly distributed on the outer circumference, are arranged. 4. Pump according to claim 1 to 3, characterized in that the rubber-like elastic inner lining of the stator (2) vulcanized onto the outer jacket (1) is. 5. Pump according to claim 1 to 4, characterized in that the rubber-like Lining of the stator r2) with the outer jacket (1) positively or non-positively connected is.