RU83793U1 - SCREW HYDRAULIC MACHINE - Google Patents

Abstract

The stator of a screw hydraulic machine, comprising a hollow cylindrical body with end transitions, a sleeve installed therein with internal helical teeth and a lining of elastomer fixed therein, repeating the shape of its inner surface, characterized in that the casing and the lining of elastomer are extended by at least a distance of at least preceding casing and lining, which in the extended part of the outer surface is connected to the extended part of the inner surface of the casing and retains the geometric parameters of the inner surfaces are the same as in the previous part of the lining.

Description

The utility model relates to downhole screw motors and can be used in oil and gas, mining and other industries.

As a prototype, the description of the invention “Stator of a screw hydraulic machine (1st option)” to the patent No. 2320838, IPC ЕВВ 4/02, publ. 03/27/2008. Said stator of a screw hydraulic machine according to the 1st embodiment comprises a hollow integral cylindrical body with end transitions. In the case with the help of screws, an integral sleeve is installed with gaps. The sleeve on the inner surface is made with helical teeth and holes located in the cavities of the teeth. A lining made of an elastomer, such as rubber, is fixed on the inner surface of the sleeve and fills the gap between the sleeve and the body through the aforementioned holes.

Signs of the known stator, which coincide with the features of the claimed utility model, are the presence of a hollow cylindrical body with end transitions, with a sleeve installed in it with internal helical teeth and an elastomer lining fixed in it, repeating the shape of its inner surface.

The reason that prevents obtaining a technical result in a known technical solution, which is provided by a useful model, lies in the casting properties of the elastomer, which do not allow a relatively thin lining of the sleeve of a large length than in the known stator.

The problem to which the utility model is directed is to increase the efficiency of the downhole screw motor.

The technical result, which mediates the solution of this problem, is to increase the torque, and hence the power of the downhole screw motor, by increasing the length of the stator. Increasing the length of the stator increases the number of chambers formed by helical teeth of the stator and rotor.

The technical result is achieved by the fact that in the known stator of a screw hydraulic machine, comprising a hollow cylindrical body with end transitions, a sleeve with internal helical teeth installed in it and a lining of elastomer fixed therein, repeating the shape of its inner surface, according to the utility model, the housing and lining of elastomers are extended by a distance of at least equal to the length of the previous body and the lining, which in the extended part of the outer surface is connected to the extended part of the inner surface This housing also keeps the geometric parameters of the inner surface the same as in the previous part of the lining.

New features of the claimed technical solution are to extend the casing and the lining of the elastomer to a distance at least equal to the length of the previous casing and the lining, which in the extended part of the outer surface is connected to the extended part of the inner surface of the casing and keeps the geometric parameters of the inner surface the same as in the previous part of the lining.

The utility model is illustrated by drawings, where:

figure 1 - shows a General view of the stator in section;

figure 2 is a section aa in figure 1;

figure 3 is a section bB in figure 1.

The stator of the screw hydraulic machine comprises a hollow cylindrical housing 1 with end transitions 2. In the housing 1, a sleeve 4 is installed with screws 3 from one end of the sleeve 4, with a length of at least half of the housing 1 and provided with internal helical teeth 5. The inner open surface of the housing 1 and the sleeve 4 is covered by a lining 6 of elastomer, the inner surface of which repeats the inner surface of the sleeve along its entire length.

The design of the stator when it is used in a downhole screw motor works as follows: the flow of drilling mud under pressure through a drill pipe string is fed into the screw chambers formed by the helical teeth of the stator and the helical teeth of the rotor (not shown in the drawing). High pressure is created in the screw chambers, which, acting on the lateral surfaces of the helical teeth, is converted into torque, which rotates the rotor. Since the number of screw chambers is increased in the above construction, the torque, and hence the power of the downhole screw motor, is also increased.

Claims (1)

The stator of a screw hydraulic machine, comprising a hollow cylindrical body with end transitions, a sleeve installed therein with internal helical teeth and a lining of elastomer fixed therein, repeating the shape of its inner surface, characterized in that the casing and the lining of elastomer are extended by at least a distance of at least preceding casing and lining, which in the extended part of the outer surface is connected to the extended part of the inner surface of the casing and retains the geometric parameters of the inner surfaces are the same as in the previous part of the lining.