RU155228U1 - Throttle - Google Patents

Abstract

1. The throttle comprising a housing with an internal channel, in which the control unit is mounted rotatably, made in the form of a glass with three holes in the side wall, and a drive protruding from the housing, characterized in that the throttle is equipped with a sleeve rigidly fixed in the housing, in which is mounted with the possibility of rotation of the control unit, while in the wall of the sleeve there is a hole located opposite the outlet of the internal channel of the throttle and equal in area to the larger of the holes in the side wall of the glass and the regulatory node. 2. The throttle according to claim 1, characterized in that the part of the drive protruding from the housing is equipped with a handle for turning the glass of the regulating unit. 3. The throttle according to claim 1, characterized in that a scale calibrated to indicate the flow rate when opening the hole in the side wall of the glass of the regulating unit is applied to the outer end of the sleeve fixed in the sleeve body.

Description

The utility model relates to the oil and gas industry, in particular, to the equipment of manifolds of oil and gas wells, and is intended to control the gas-liquid flow at the mouth of the producing wells.

The design of the throttle is known, described in the certificate of the Russian Federation No. 26592 for the utility model "Downhole wellhead fitting" according to class E21B 34/02, announced on 05.27.2002 and published on 10.12.2002.

The specified throttle contains a housing with a passage (internal) channel, in which the fitting (control) assembly is mounted rotatably, made in the form of a cup with a radial bypass hole and a drive withdrawn from the housing through a threaded plug, while the cup in the fitting assembly is made with several radial bypass holes located in its side wall around the circumference, each of which is calibrated for a certain flow rate. The bottom of the glass is made conical for dissecting the jet when it is introduced into the nozzle cavity through one of the calibrated holes.

The disadvantages of this throttle are the impossibility of smooth (continuous) control over a wide range of liquid or gas flow rates and the impossibility of operational control of the flow rate due to the fact that it is technically impossible to make a sufficient number of holes for this with varying sizes from minimum to maximum, commensurate with the outlet housing channel. In addition, it is not possible to accurately track the degree of opening of the holes.

The objective of the claimed utility model is to expand the arsenal of technical means for a specific purpose, that is, to create a throttle that has wider functionality by providing with its help smooth control of the flow of liquid or gas over a wide range and operational control of the flow.

The technical result, to ensure the receipt of which the claimed utility model is directed, is the implementation of this purpose.

The specified result is achieved by the fact that:

1. In the known throttle containing a housing with an internal channel, in which the regulating unit is made rotatably, made in the form of a glass with at least one hole made in the side wall and a drive protruding from the housing, according to a utility model, the throttle is equipped with a sleeve rigidly fixed in the housing, in which the regulating unit is mounted for rotation, while a hole is made in the wall of the sleeve located opposite the outlet of the internal channel of the throttle and equal in area tverstiyu in the side wall cup regulating unit.

2. In the throttle according to claim 1, according to the utility model, if there are two or three holes in the side wall of the glass of the regulator assembly, the hole in the sleeve wall is equal in area to the larger of them.

3. In the throttle according to claim 1, according to the utility model, the part of the drive protruding from the housing is equipped with a handle for turning the cup of the regulating unit.

4. In the throttle according to claim 1, according to the utility model, a scale calibrated to indicate the flow rate when opening the hole in the side wall of the glass of the regulating unit is applied to the outer end of the sleeve fixed in the housing of the sleeve.

Providing the throttle with a sleeve rigidly fixed in the housing, in which the regulating unit is rotatably mounted, making a hole in the wall of the sleeve opposite the outlet of the internal channel of the inductor and equal in size to the opening in the side wall of the glass of the regulating unit makes it possible to provide smooth regulation with its help liquid or gas flow over a wide range and operational flow control.

Moreover, if there are two or three holes in the side wall of the glass of the regulating unit, the hole in the wall of the sleeve can be equal in area to the larger of them.

In this case, the drive part protruding from the housing can be equipped with a handle for turning the glass of the regulating unit.

At the same time, a scale calibrated to indicate the flow rate when opening the hole in the side wall of the glass of the regulatory assembly can be applied to the outer end of the sleeve fixed in the housing of the sleeve.

The proposed set of essential features informs the claimed throttle of new properties that can solve the problem.

The inventive throttle has a novelty in comparison with the prototype, differing from it in that:

1. the throttle is equipped with a sleeve rigidly fixed in the housing, in which the regulating unit is rotatably mounted, while a hole is made in the wall of the sleeve located opposite the outlet of the internal channel of the throttle and equal in size to the opening in the side wall of the glass of the regulating unit,

2. if there are two or three holes in the side wall of the cup of the regulating unit, the hole in the wall of the sleeve is equal in area to the larger of them,

3. the part of the drive protruding from the housing is equipped with a handle for turning the glass of the regulatory unit

4. A scale calibrated to indicate the flow rate when opening the hole in the side wall of the cup of the regulating unit is applied to the outer end of the sleeve fixed in the housing of the sleeve.

The claimed utility model can be widely used in the oil and gas industry, in particular, in equipment for manifolds of oil and gas wells, and is intended to control gas-liquid flow at the mouth of production wells, therefore, it meets the criterion of "industrial applicability".

The inventive throttle is illustrated by drawings, which are presented on:

FIG. 1. General view of the throttle in a longitudinal section.

FIG. 2. Top view of the throttle and in cross section.

The throttle shown in the drawings (see Figs. 1 and 2) contains a housing 1 with an internal channel 2. In the housing 1, a sleeve 3 is rigidly fixed, inside of which a control unit made in the form of a cup 4 with a drive is mounted rotatably. The drive part protruding from the housing 1 is provided with a handle 5 for turning the cup 4.

In the side wall of the glass 4 there are three holes uniformly spaced around the circumference. A hole is made in the wall of the sleeve 3, located opposite the outlet 6 of the internal channel 2 of the throttle and equal in size to the larger hole in the side wall of the glass 4 of the regulating unit. The inlet of the throttle body 1 has a flange 7 for connection to the outlet pipe of the deep pump (not shown in the drawing).

A scale 8 is applied to the outer end of the sleeve 3, calibrated to indicate the flow rate when opening the hole in the side wall of the glass 4.

The claimed throttle operates as follows.

When installing the throttle in the well using the flange 7, the throttle is connected to the downhole pump outlet pipe, and the side outlet of the throttle is connected to the manifold (not shown in the drawing).

The flow rate of liquid or gas is controlled by turning the cup 4 with the handle 5, as a result of which the desired hole in the side wall of the cup 4 is gradually aligned with the hole in the wall of the sleeve 3. At the same time, the passage hole for the liquid or gas gradually increases, the current flow rate of which is quickly controlled on a scale of 8, applied to the outer end of the sleeve 3.

The inventive throttle in comparison with the prototype allows you to provide the ability to smoothly control the flow of liquid or gas over a wide range and operational control of flow.

Claims (3)

1. The throttle comprising a housing with an internal channel, in which the control unit is mounted rotatably, made in the form of a glass with three holes in the side wall, and a drive protruding from the housing, characterized in that the throttle is equipped with a sleeve rigidly fixed in the housing, in which is mounted with the possibility of rotation of the control unit, while in the wall of the sleeve there is a hole located opposite the outlet of the internal channel of the throttle and equal in area to the larger of the holes in the side wall of the glass but the regulatory node. 2. The throttle according to claim 1, characterized in that the part of the drive protruding from the housing is equipped with a handle for turning the glass of the regulating unit. 3. The throttle according to claim 1, characterized in that a scale calibrated to indicate the flow rate when opening the hole in the side wall of the glass of the regulating unit is applied to the outer end of the sleeve fixed in the sleeve body.

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