RU161029U1 - HOROTOR SCREW HYDRAULIC STATOR - Google Patents

Abstract

1. The stator of a screw gerotor hydraulic machine, comprising a hollow body, a stator sleeve with internal helical teeth mounted in it, a lining with external and internal helical teeth fixed in the stator sleeve, made of elastomer, for example rubber, the stator sleeve is made as a set of separate elements with the same cross sections, and the teeth and depressions on the inner surface of the stator sleeve form uniform helical lines of specified parameters, the stator sleeve is glued to the inner cylindrical the surface of the body with heat-resistant adhesive having a heat resistance exceeding the maximum ambient temperature in which the stator is used, characterized in that a cylindrical groove is made on at least one end of the hollow body on the inner screw surface of the stator sleeve, by means of which a massive a rubber ring, wherein the diameter of the groove Dk is larger than the diameter Dv of the depressions of the helical teeth of the stator sleeve, and the sides of the cylindrical groove are made in ide konusov.2. The stator according to claim 1, characterized in that the width s of the cylindrical groove is 0.3-0.6 of the height h of the helical teeth of the stator sleeve, and the distance L from the cylindrical groove to the end of the internal helical teeth of the hollow body is 1.5-3.5 stator helical teeth h. 3. The stator according to claim 1, characterized in that the angles α of inclination of the sides of the cylindrical groove to the axis of the stator are 45-60 °.

Description

The utility model relates to screw gerotor hydraulic machines, namely to downhole screw motors designed for drilling and workover, as well as to screw pumps for oil production and pumping gas-liquid mixtures of a wide range of viscosity. These motors and pumps comprise a stator with internal helical teeth and a rotor with external helical teeth, the number of which is one less than the number of stator teeth.

Known stator of a downhole screw motor described in the book of the authors D.F. Baldenko, F.D. Baldenko, A.N. Pus "Single-screw hydraulic machines" (M, LLC "IRC Gazprom - 2006, v. 2, p. 66), containing a hollow body with an inner cylindrical surface, with a rubber lining fixed therein with internal helical teeth, and a rotor with external helical teeth.

The disadvantage of the design of the stator is the insufficient bending stiffness of the teeth. This is due to the stress-strain state of the elasto-elastic stator lining having integral teeth. During the operation of a screw gerotor hydraulic machine (engine or pump), the rubber teeth of the stator are subjected to large cyclic loads, which causes deformation, bending of the teeth, distortion of the engagement geometry and leakage of the working fluid. When the engine is running, leakage leads to a decrease in torque and engine power, and when the pump is running, it leads to a decrease in performance and pressure developed. Large cyclic deformations of the stator teeth also lead to heating of the rubber. Due to the low thermal conductivity of the rubber, overheating of the rubber occurs in the center of the teeth of the lining, the rubber becomes brittle, the teeth become chipped and the stator prematurely

out of order. To reduce stresses in rubber teeth, to increase the energy characteristics and durability of screw gerotor hydraulic machines, the stator length is increased, which leads to an increase in the material consumption, labor intensity and cost of manufacturing engines and pumps. The increase in stator length is also limited by the technological capabilities of the equipment used for the manufacture of stators and rotors.

Known for the stator of a helical gyratory hydraulic machine, comprising a hollow body with internal helical teeth and an elastomer lining fixed therein with external and internal helical teeth. The outer helical teeth of the lining are adjacent to the internal helical gear surface of the hollow body (Patent RU No. 2315201, IPC Е21В 4/02, published on January 20, 2008). The thickness of the rubber lining at the vertices and depressions of the stator teeth is related by the ratio, and the minimum wall thickness along the depression of the teeth of the hollow body is equal to the height of the internal helical teeth in the lining. The hollow body with internal helical teeth is made integral, and helical teeth are obtained by electroerosive or mechanical processing. This design of the stator, by reducing the thickness of the rubber lining on the tops of the teeth of the stator, can improve heat dissipation from the rubber lining, significantly reduce the deformation and bending of the stator teeth and increase the energy characteristics of a screw gerotor hydraulic machine.

One of the disadvantages of this stator is the complexity of manufacturing a hollow body with internal helical teeth, high metal consumption and laboriousness and, as a consequence, the high cost of manufacturing a stator.

Another disadvantage is the low reliability and insufficient durability of the stator, due to the following reasons. The elastomer lining has internal and external helical teeth. Outdoor

the helical teeth of the lining are formed by the internal helical teeth of the hollow body, and the internal helical teeth are formed by the external helical teeth of the core of the stator mold when the stator is filled with rubber compound. In order to ensure the same thickness of rubber on the lateral sides of the stator teeth, the core of the mold from the side of the casting hole has a lead-in portion of 30-50 mm in length with external helical teeth, the surface of which coincides with the internal helical teeth of the hollow body. In this regard, the elastic gear lining begins at a distance of 30-50 mm from the beginning of the helical teeth of the hollow body.

During the operation of a screw gyratory hydraulic machine, a working fluid is pumped through it at high speed and under high pressure. The fluid flow is in contact with the bonding point of the elastic plate to the stator housing, which in some cases leads to its delamination.

These shortcomings were partially eliminated in the stator of a screw gerotor hydraulic machine, which is the closest analogue to the claimed technical solution and is selected as a prototype (Patent RU No. 2441126, IPC ЕВВ 4/02, published on 01/27/2012).

The stator of a screw gerotor hydraulic machine comprises a hollow body, a stator sleeve installed in it, with internal helical teeth, and also a lining with external and internal helical teeth fixed in the stator sleeve, made of elastomer, for example, rubber. The stator sleeve is made in the form of a set of individual elements of different lengths within the total length of the sleeve and is glued to the inner cylindrical surface of the housing with heat-resistant adhesive having heat resistance exceeding the maximum ambient temperature in which the stator is used. The elements of the stator sleeve have the same cross sections of the internal helical teeth, the same direction of the teeth and the axial pitch.

Such a stator design with a prefabricated hollow body is much simpler to manufacture than a stator with a single hollow body. Elements of the stator liner with internal teeth are obtained by casting in special molds, after casting the internal helical teeth are subjected only to bead-blasting or hydroabrasive treatment. This can significantly reduce the metal consumption, the complexity and costs of manufacturing a stator.

A disadvantage of the design with a prefabricated hollow stator housing is low reliability and insufficient durability due to delamination of the rubber lining. The elastomer lining has internal and external helical teeth. The outer helical teeth of the lining are formed by the internal helical teeth of the hollow body, and the internal helical teeth are formed by the external helical teeth of the core of the stator mold when the stator is filled with rubber compound. In order to ensure the same thickness of rubber on the lateral sides of the stator teeth, the core of the mold from the side of the casting hole has a lead-in portion of 30-50 mm in length with external helical teeth, the surface of which coincides with the internal helical teeth of the hollow body. In this regard, the elastic gear lining begins at a distance of 30-50 mm from the beginning of the helical teeth of the hollow body.

During the operation of a screw gyratory hydraulic machine, a working fluid is pumped through it at high speed and under high pressure. The fluid flow is in contact with the bonding point of the elastic plate to the stator housing, which in some cases leads to its delamination.

The technical problem to which the utility model is aimed is to eliminate the delamination of the rubber lining from the internal helical teeth of the hollow body from the action of the working fluid, which improves the reliability and durability of the stator.

The technical result is achieved due to the fact that in the stator of a screw gerotor hydraulic machine containing a hollow body, a stator sleeve with internal helical teeth mounted in it, a lining with external and internal helical teeth fixed in the stator sleeve made of elastomer, for example, rubber, the stator sleeve made in the form of a set of individual elements with the same cross sections, and the teeth and troughs on the inner surface of the stator sleeve form a single helical line of the specified parameters, the stator sleeve is glued to the inner cylindrical surface of the housing with heat-resistant adhesive having a heat resistance exceeding the maximum ambient temperature in which the stator is used, according to a utility model, a cylindrical groove is made on at least one end of the hollow housing on its inner screw surface, which creates the end of the rubber lining is a massive rubber ring, and the diameter Dk of the groove is larger than the diameter Dv of the hollows of the helical teeth of the hollow body, and the sides of the cylinder The grooves are made in the form of cones.

In addition, the width s of the cylindrical groove is 0.3-0.6 of the height h of the helical teeth of the hollow body, and the distance L from the cylindrical groove to the end of the internal helical teeth of the hollow body is 1.5-3.5 of the height of the stator helical teeth.

In addition, the angles a of the inclination of the sides of the cylindrical groove to the axis of the stator are 45-60 °.

In the proposed utility model, at least one end of the rubber lining is made in the form of a massive rubber ring, which prevents peeling of the external helical teeth of the lining from the internal helical teeth of the hollow body when pumping the working fluid through a screw gerotor hydraulic machine. This eliminates the detachment of the elastic gear lining, to increase the reliability of the stator and its durability.

In FIG. 1 shows a longitudinal section through the stator of a screw gerotor hydraulic machine.

In FIG. 2 shows a cross section (section AA) of the stator of a screw gerotor hydraulic machine.

In FIG. Figure 3 shows a cross-section (section BB) along the stator groove of a screw gerotor hydraulic machine.

The stator of a screw gerotor hydraulic machine (Fig. 1, 2) contains a hollow body 1, a stator sleeve 2 installed in it, with internal helical teeth, and a cover 4 with external and internal helical teeth fixed in the stator sleeve, made of elastomer, for example, rubber . The stator sleeve 2 is made in the form of a set of individual elements within the total length of the sleeve and is glued to the inner cylindrical surface of the housing 1 with heat-resistant adhesive 3, which has heat resistance exceeding the vulcanization temperature of the rubber and the ambient temperature in which the stator will operate. The elements of the stator sleeve 2 have the same cross sections of the internal helical teeth, the same direction of the teeth and the axial pitch.

At least from one end of the hollow body 1, a cylindrical groove 5 is made on the internal helical teeth of the stator sleeve 2, which creates a massive rubber ring 8. The diameter of the groove D _k (Fig. 3) is 1-2 mm larger than the diameter of the troughs Dv (Fig. 2) of helical teeth of the stator sleeve. The lateral sides of the groove are made in the form of cones, the angle a between the straight lines 6, 7 forming the cone and the axis of the stator is 45-60 °.

The width s of the cylindrical groove is 0.3-06 height h of the helical teeth of the stator, and the distance L from the cylindrical groove to the end of the internal helical teeth of the hollow body is 1.5-3.5 height h of the helical teeth of the stator.

The work of the stator as part of a screw gerotor hydraulic machine, like any other stator, is carried out complete with a rotor, which

connects to the spindle (not shown in the figures). In turn, the spindle shaft is connected to the motor bit or the pump gear shaft (not shown in the figures). In a downhole screw motor, flushing fluid (drilling fluid) is pumped through the working elements of the screw gerotor hydraulic machine using the pump, while the stator remains stationary, and the rotor makes a planetary motion, rotating the spindle of the screw downhole motor (not shown) in rotation. In the screw pump, the stator also remains stationary, and the rotor is given rotational movement, as a result of which fluid is pumped through the pump working elements. With an increase in the load on the motor bit, productivity and developed pump pressure, the torque on the rotor increases, the deformation and bending of the stator teeth increase. Elastic stator teeth reinforced with metal teeth of the stator liner can reduce tooth deformation and bending, which increases the energy characteristics of screw gerotor hydraulic machines.

In the proposed utility model, a cylindrical groove made on the internal helical teeth of the stator sleeve creates a massive rubber ring at the end of the rubber lining, which prevents the elastic gear lining from peeling off.

Thus, the implementation of the proposed utility model with the above distinguishing features in combination with the known features allows to exclude delamination of the elastic gear cover from the internal helical teeth of the stator sleeve to increase the reliability and durability of the stator.

Claims (3)

1. The stator of a screw gerotor hydraulic machine, comprising a hollow body, a stator sleeve with internal helical teeth mounted in it, a lining with external and internal helical teeth fixed in the stator sleeve, made of elastomer, for example rubber, the stator sleeve is made as a set of separate elements with the same cross sections, and the teeth and depressions on the inner surface of the stator sleeve form uniform helical lines of specified parameters, the stator sleeve is glued to the inner cylindrical the surface of the body with heat-resistant adhesive having a heat resistance exceeding the maximum ambient temperature in which the stator is used, characterized in that a cylindrical groove is made on at least one end of the hollow body on the inner screw surface of the stator sleeve, by means of which a massive a rubber ring, wherein the diameter of the groove Dk is larger than the diameter Dv of the depressions of the helical teeth of the stator sleeve, and the sides of the cylindrical groove are made in ide cones. 2. The stator according to claim 1, characterized in that the width s of the cylindrical groove is 0.3-0.6 of the height h of the helical teeth of the stator sleeve, and the distance L from the cylindrical groove to the end of the internal helical teeth of the hollow body is 1.5-3 , 5 height h helical teeth of the stator. 3. The stator according to claim 1, characterized in that the angles α of inclination of the sides of the cylindrical groove to the axis of the stator are 45-60 °.

Images