RU2386878C2 - Control device - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: in control device on the side opposite to drive stem, coaxially to it, there is an unloading stem arranged, which is connected to flat gate, diametre of which equals diametre of drive stem. Under body, parallel to it, there is an identical body arranged as connected to it by sleeve with inlet and outlet channels and through hole. Inside body there are the following components available: identical seats with hole, with insert and flat gate with opening installed in it between guides, which represent the second stage of control. Flat gate is connected to additional stem arranged coaxially to unloading stem, diametre of which equals to diametre of the latter. On the side opposite to additional stem, coaxially to it, there is an additional unloading stem arranged, which is connected to flat gate, diametre of which equals diametre of additional stem. Unloading stem is connected by axis to additional stem with the possibility of simultaneous displacement of both flat gates by stem of drive, at the same time outlet channel of body is connected by pipeline to inlet channel of identical body.

EFFECT: invention increases reliability and working life of control device.

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Description

The invention relates to pipe fittings, and in particular to disconnecting devices with a locking element that makes a sliding movement along the saddle surface between the inlet and outlet channels, and can be used for installing gas fields in gas wells to control the flow of the transported medium.

Known locking and regulating device, in the housing of which with a through hole in the saddle there is a flat gate with an opening connected to the actuator stem and a liner (AS No. 785579, IPC ⁴ F16K 3/00, priority from 10.17.75) .

A control device is known in which a flat gate with an opening connected to the actuator stem and a liner are installed in the housing with an inlet and outlet channels and a through-hole in the saddle, and a closure is arranged in the housing behind the saddle coaxially through the through-hole, made in the form of a stepped sleeve with a sealing surface installed with the possibility of axial movement and fixing it in extreme positions, and the holes in the housing are made mating with the surfaces of the stepped sleeve with the formation of the floor STI communicating with the inlet opening in the housing, wherein in the outlet towards the housing body holds additional shutoff seat to cooperate with the sealing surface of the closure member, the inlet and outlet ducts communicate with each other through openings (patent №2240460, ^IPC7 F16K 3/02, 04/02/2003).

The closest set of essential features selected as a prototype is an adjusting device, in the housing of which with an input and output channels and a through hole in the saddle there is a flat gate with an opening connected to the actuator stem, and an insert, while in the housing behind the saddle it is aligned with the passage the hole is a stepped sleeve, mounted with the possibility of axial movement and fixing it in extreme positions, and the holes in the housing are made mated with the surfaces of the stepped w ulcers with the formation of a cavity, while the cavity communicates with the atmosphere, and the step sleeve in one of the extreme positions is pressed against the housing by a spring, and an additional protective sleeve is located coaxially with it in the step sleeve with the possibility of rotational movement in the step sleeve under the action of the flow of the transported medium (patent No. 2313022, IPC ⁷ F16K 3/02, 04.17.2006).

Known devices can be used in oil and gas condensate fields with nominal pressures up to PN 32 MPa as gas flow control devices by changing the flow area (i.e. local hydraulic resistance). As a rule, the cross-sectional area of the device is much smaller than the cross-sectional area of the process pipeline on which it is installed, about 4-10 times, and the pressure drop on the regulatory body reaches a large value (up to 10 MPa), so that the device provides the maximum gas flow possible by technology from the well. The reduction in the passage section is due to the need to lower the gas temperature during throttling, which is required by the gas preparation technology. The discovery of new oil and gas condensate fields (for example, Achimovskoye) with a nominal pressure of up to PN 50 MPa required the use of special control devices to ensure stable operation when the pressure drop across the regulatory body is up to 20 MPa. The use of known devices in such difficult conditions will lead to a decrease in the reliability of their operation, increased wear and, consequently, a reduction in the service life, which is a drawback of these devices.

The problem achieved by the invention is to create such a technical solution, by using which increased reliability and increased durability of the device.

To achieve the named technical result, a flat gate with a hole connected to the actuator rod and an insert are installed in the saddle of the control device with an input and output channels and a through hole in the saddle.

The inventive control device differs from the prototype in that on the side opposite to the actuator stem, coaxially to it, there is an unloading rod connected to a flat gate, the diameter of which is equal to the diameter of the actuator rod, while under the case, an identical case connected to it is located parallel with it inlet and outlet channels and a bore in an identical saddle with identical liners installed in it and a flat gate with an opening connected to an additional rod located coaxially with the unloading w current, the diameter of which is equal to the diameter of the latter, while from the side opposite the additional rod, coaxially to it, there is an additional unloading rod connected to a flat gate, the diameter of which is equal to the diameter of the additional rod, and the unloading rod is connected to the additional rod with the possibility of simultaneous movement of both flat gates of the drive rod, while the output channel of the housing is connected to the input channel of an identical housing,

The invention is shown in the drawings, in which Fig. 1 shows a longitudinal section of a device in the closed position between mounting flanges, and in Fig. 2, an external element A.

The device comprises a housing 1 with an inlet 2 and an outlet 3 channels and a through hole 4. A saddle 5 with an opening 6 is located inside the housing. A flat slide 8 with an opening 9, a liner 10 and a sealing element 11, sealing the sealing surfaces of the liner and saddles over the entire range of regulation. The flat gate is connected to the stem 12 of the actuator 13. On the side opposite to the stem of the actuator, coaxially to it, there is an unloading rod 14 connected to a flat gate, the diameter of which is equal to the diameter of the stem of the actuator.

Under the casing, parallel to it, there is an identical casing 1 connected to it by a glass 15 with inlet 2 and outlet 3 channels and a through hole 4. Inside the casing there are identical saddle 5 with an opening 6 with a liner 10 installed between it and the guides 7 and a flat gate 8 s hole 9, representing the second stage of regulation. The flat gate is connected to an additional rod 16 located coaxially with the unloading rod, the diameter of which is equal to the diameter of the latter. On the side opposite to the additional rod, coaxially to it, there is an additional unloading rod 17 connected to a flat gate, the diameter of which is equal to the diameter of the additional rod. The unloading rod is connected by an axis 18 to an additional rod with the possibility of simultaneous movement of both flat gates by the drive rod, while the output channel of the housing is connected by a pipe 19 to the input channel of an identical housing.

Unloading and additional unloading rods are designed for unloading flat gates from the action of the pressure of the controlled medium on the actuator rod, which significantly reduces the power of the latter, and are installed, as the actuator rod and additional rod, in the T-shaped grooves of the flat gates.

The device operates as follows. If it is necessary to control the flow rate of the transported medium, a corresponding signal is supplied to the actuator 13, the rod 12 of which simultaneously moves the flat gates 8 with the inserts 10 down relative to the seats 5. As a result of this, the openings 6 in the saddles 5 partially synchronously open with gates 8 and a two-stage flow control (increase) occurs gas, in which the total pressure drop across the control device is evenly distributed between the two stages of regulation.

Thanks to this design, reliability is increased and the durability of the control device is increased.

Claims (1)

A regulating device, in the housing of which with an inlet and outlet channels and a bore in the saddle there is a flat gate with an opening connected to the actuator stem and an insert, characterized in that on the side opposite to the actuator stem there is a discharge rod connected to the with a gate whose diameter is equal to the diameter of the actuator rod, while under the casing an identical casing is located parallel to it with input and output channels and a bore in an identical saddle with identical inserts in it and a flat gate with an opening connected to an additional rod located coaxially with the unloading rod, the diameter of which is equal to the diameter of the latter, while on the side opposite to the additional rod an additional unloading rod connected to the flat gate is coaxial with it, diameter which is equal to the diameter of the additional rod, and the discharge rod is connected to the additional rod with the possibility of simultaneous movement of both flat gates by the actuator rod, at m output port is connected to the housing inlet an identical housing.

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