RU2386880C1 - Isolation stop and control valve - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: valve comprises body with inlet and outlet valves. Inside body there are two locks provided, which are connected to stem. The first lock, stopping one, is arranged in the form of stem with piston with holes, sealing surface. The second lock, stop and control one, is arranged in the form of stepped bushing-plunger that embraces piston with sealing surface, at the same time its external steps are coupled with steps arranged in the body. Bushing-plunger is arranged with different efficient areas of section in ends, as a result of which it may axially move with stem piston, and in body between stages there is channel communicated to atmosphere. Mobility of stepped bushing is limited by extreme positions of displacement (upper and lower ones). Stepped bushing-plunger is installed coaxially in seat with sealing surface and sealing element. Seat is arranged as tubular with holes arranged downstream sealing element and sealing surface along medium flow motion. Stem is arranged with additional piston to create above-piston cavity, which is connected by channel to inlet channel, and under-piston cavity, besides area of above-piston cavity is less than area of under-piston cavity. Under-piston cavity via normally open electromagnet valve is connected to inlet channel and via normally closed electromagnet valve - to outlet channel, in which there is an indicating and alarming manometre installed as connected to both electromagnetic valves. On the side of above-piston cavity there is an electric drive arranged, stem of which is installed with the possibility of interaction with stem.

EFFECT: invention makes it possible to execute remote control of transported medium flow, automatic closure of high pressure pipeline in case of emergency pressure drop in it and automatic opening after pressure in pipeline downstream valve exceeds emergency value.

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Description

The invention relates to pipe fittings, and in particular to shut-off devices with a locking element that makes a sliding motion along a saddle surface having the shape of a surface of bodies of revolution, and can be used to install oil and gas condensate fields in wells to automatically shut off a high pressure pipeline in case of emergency pressure reduction .

It is known a shut-off device containing a housing, a rotary locking member located in it, made in the form of two rotary shutters superimposed on one another, one of which is a discharge shutter with an opening, and the other is a blind one that blocks the opening of the discharge shutter that holds the shutter in an open position the clamp and the sensing element, made in the form of a rod loaded with springs, while the rod of the sensing element is connected with the clamp, and the clamp holds the unloading point in the open position portal flap with an aperture, the butterfly valve blank is provided with abutment and mounted to cooperate with the rod abutment sensor (RF patent №2249138, 7MPK F16K 17/04, 39/04, 02.06.2003 g).

It is known a shut-off device containing a housing, a rotary locking member located in it, made in the form of two rotary shutters superimposed on one another, one of which is a discharge shutter with an opening, and the other is a blind one that blocks the opening of the discharge shutter that holds the shutter in an open position a latch with stops and a sensing element made in the form of a rod loaded with springs, the rod of the sensing element being connected to the latch, and the latch holding the lugs in open position a rotary shutter with a hole, while the blind rotary shutter is made with an emphasis, and the blind rotary shutter stop is made in the form of a plate with a hole for the passage of the latch with stops and is located above the discharge rotary shutter with the possibility of interaction with the lock stops after the discharge rotary shutter is activated (patent RF №2313714, 7MPK F16K 17/04, 39/04, 03/10/2006).

A disadvantage of the known devices is the impossibility after triggering their automatic opening when the pressure in the pipeline is higher than the emergency.

The closest set of essential features, selected as a prototype, is a shut-off and control valve, in the case of which two shutters are connected with the input and output channels, connected with the rod, the actuator moves, while the first shutter, shut-off, is made in the form of a rod with a step a piston with holes and a sealing surface, and the second locking-regulating shutter is made in the form of a stepped plug-plunger spanning the piston with a sealing surface mounted with the possibility of axial its movement and fixation in extreme positions, the locking-regulating valve being located coaxially in the seat with a sealing surface and a sealing element made tubular with holes located after the sealing element and sealing surface along the medium flow, the inner diameter of the tubular part of the saddle after the sealing surface mates with the outer diameter of the locking and regulating shutter, while the latter is installed with the possibility of axial movement by a step piston along the tubular part of the seat from the sealing surface, and in the lowermost position, the stepped piston of the rod interacts with the sealing element with its sealing surface, and the stepped sleeve-plunger with its sealing surface interacts with the sealing surface of the saddle, and the stem is made with a piston with the formation of a piston cavity, connected to the atmosphere, and the supraperioid cavity, connected by a channel to the input channel (RF patent No. 2282772, IPC F16K 39/04, 31/122, January 11, 2005).

A disadvantage of the known valve is the inability to automatically shut off the high pressure pipeline in case of emergency pressure reduction in it.

The problem achieved by the invention is to create such a technical solution, by using which remote control of the flow rate of the transported medium was carried out, automatic shutoff of the high pressure pipeline during an emergency decrease in pressure in it and automatic opening after increasing the pressure in the pipeline behind the valve above the emergency.

To achieve the aforementioned technical result, in the valve body of the shut-off and shut-off valve with inlet and outlet channels two shutters are connected, connected with the rod, the first shutter, shut-off, made in the form of a rod with a piston with holes and a sealing surface, and the second, shut-and-go the shutter is made in the form of a stepped plug-plunger enclosing the piston with a sealing surface mounted with the possibility of axial movement and fixing it in extreme positions, while the second shutter is located n coaxially in the seat with a sealing surface and a sealing element made tubular with holes located after the sealing element and the sealing surface along the medium flow, the latter being installed with the possibility of axial movement of the piston rod along the tubular part of the saddle from the sealing surface, and in the lowermost In this position, the piston rod interacts with the sealing element with its sealing surface, and the stepped bushing-plunger with its sealing surface w - saddle with sealing surface, wherein the rod is formed with an additional piston to form a cavity above the piston, connected to the inlet channel, and podporpshevoy cavity.

The inventive shut-off and control shut-off valve differs from the prototype in that the outer steps of the second shutter are mated with steps made in the housing, while the area of the supra-piston cavity is less than the area of the sub-piston cavity, which is connected through the normally open electromagnetic valve to the inlet channel and through the normally closed electromagnetic valve - with an output channel, and from the side of the supra-piston cavity there is an electric drive, the rod of which is installed with the possibility of interaction with the rod, at the same time, a pressure gauge is installed in the output channel, indicating a signal gauge connected to both electromagnetic valves.

The invention is shown in the drawing, which shows a longitudinal section of the valve in the closed position.

The valve comprises a housing 1 with input 2 and output 3 channels. Inside the housing there are two shutters associated with the rod 4.

The first shutter - locking - is made in the form of a rod 5 with a piston 6 with holes 7, a sealing surface 8.

The second shutter - locking and regulating - is made in the form of a stepped sleeve of the plug-plunger 9 covering the piston with a sealing surface 10, and its outer steps mate with the steps made in the housing. The plunger sleeve is made with different effective cross-sectional areas at the ends, as a result of which it has the possibility of axial movement with the piston of the rod, and in the housing between the steps there is a channel 11 in communication with the atmosphere. The mobility of the stepped sleeve is limited by the extreme travel positions (upper and lower).

The stepped sleeve-plunger is located coaxially in the seat 12 with the sealing surface 13 and the sealing element 14. The saddle is made tubular with holes 15 located after the sealing element and the sealing surface along the medium flow. The inner diameter of the tubular part of the seat after the sealing surface is mated with the outer diameter of the stepped sleeve-plunger. A stepped bushing-plunger is installed with the possibility of axial movement by the piston of the rod along the tubular part of the saddle from the sealing surface. In the lowermost position, the piston of the stem interacts with the sealing element with its sealing surface, and the stepped bushing-plunger with its sealing surface interacts with the sealing surface of the seat, blocking it and separating the outlet from the valve inlet.

The rod is made with an additional piston 16 with the formation of the supra-piston cavity 17 connected by a channel to the inlet channel and the sub-piston cavity 18, and the area of the supra-piston cavity is less than the area of the sub-piston cavity. The piston cavity through a normally open (NO) solenoid valve 19 is connected to the inlet channel and through a normally closed (NC) solenoid valve 20 to the output channel, in which a pressure gauge showing signaling 21 is connected to both solenoid valves. On the side of the over-piston cavity there is an electric actuator 22, the rod 23 of which is installed with the possibility of interaction with the rod.

For normal operation of the valve, it is necessary that in the open position the pressure loss on it, caused by overcoming this local hydraulic resistance, is at least 0.5 MPa at operating pressure. The valve operates as follows. If it is necessary to control the flow rate of the transported medium, a corresponding signal is supplied to the electric drive 22, the rod 23 of which, interacting with the rod 4, sets the flow area in the seat 12 corresponding to the gas flow rate required by the technology.

When the emergency pressure drops below the set on the pressure gauge indicating signaling 21, the latter closes the contact, as a result of which the electromagnetic valves 19 and 20 are actuated, namely, valve 19 closes and valve 20 opens. As a result, due to the pressure difference in the above-piston and under-piston cavities, the rod 4 with the piston 6 of the rod 5 and the additional piston 16 are moved down. The step sleeve-plunger 9 under the pressure of the transported medium, due to different effective cross-sectional areas at the ends, moves down together with the piston 6 of the rod 5. Their joint movement continues until the step sleeve 9 with its sealing surface 10 reaches the sealing surface 13 of the seat 12, blocking the flow of the transported medium from the input channel 2 to the output 3, and the piston 6 of the rod 5 will continue its downward movement. The movement of the piston 6 of the rod 5 continues until it with its sealing surface 8 reaches the sealing element 14 of the seat 12, hermetically blocking the passage of the transported medium from the input channel 2 to the output 3.

To automatically open the valve, the transported medium is fed into the pipeline behind the valve (through the bypass line or from the gas collection point), as a result of which the pressure in the outlet channel 3 of the valve rises and after it exceeds the pressure set on the pressure gauge indicating signal 21, the latter opens the contact, as a result, the solenoid valves 19 and 20 are triggered, namely, valve 19 opens and valve 20 closes. As a result, due to different effective cross-sectional areas of the supra-piston and sub-piston cavities, the rod 4 with the additional piston 16 and piston 6 of the rod 5 are moved upward from the sealing element 14 of the seat 12 to the stop by the piston 6 in the step sleeve 9, protecting the sealing surface 8 of the piston 6 from flow transported medium. After that, the piston 6 of the rod 5 moves the stepped sleeve 9 from the sealing surface 13 of the seat 12 to the stop of the rod 4 in the rod 23 to the position corresponding to the gas flow rate required by the technology.

Thanks to this design, remote control of the flow rate of the transported medium is carried out, the high pressure pipeline is automatically shut off during an emergency pressure drop in it and automatically opens after the pressure in the pipeline rises above the emergency valve.

Claims (1)

The shut-off-regulating shut-off valve, in the case of which two shutters are connected with the rod with the input and output channels, the first shutter, shut-off, made in the form of a rod with a piston with holes and a sealing surface, and the second shut-off-control shutter in the form of a stepped plug-plunger spanning the piston with a sealing surface mounted for axial movement and fixing it in extreme positions, the second valve being located coaxially in the saddle with the sealing surface th and a sealing element made tubular with holes located after the sealing element and the sealing surface along the medium flow, the latter being installed with the possibility of axial movement by the piston of the rod along the tubular part of the seat from the sealing surface, and in the lowermost position the piston of the rod with its sealing surface interacts with the sealing element, and the stepped bushing-plunger with its sealing surface interacts with the sealing surface of the seat, the rod is made with an additional piston with the formation of a supra-piston cavity connected by a channel to the inlet channel and a sub-piston cavity, characterized in that the external steps of the second shutter mate with the steps made in the housing, while the area of the supra-piston cavity is less than the area of the sub-piston cavity, which through normal an open solenoid valve is connected to the inlet channel and through a normally closed solenoid valve with an outlet channel, and an electric A mechanical actuator, the rod of which is installed with the possibility of interaction with the rod, while a pressure gauge is installed in the output channel, which shows an alarm connected to both solenoid valves

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