RU93482U1 - REMOTE CONTROLLED SHUT-OFF - Google Patents

Abstract

 A remotely controlled cutter comprising a housing, a pressure relief line, a rotary locking element and a sensing element fixing it in the open position, made in the form of a spring-loaded rod, characterized in that the rotary locking element is made with a shank located on the opposite side from its axis of rotation, in addition, the shut-off device is additionally equipped with a piston mechanism for lifting the rotary locking element located on the housing, the upper cavity of which is connected to the cavity of the housing until mouth shutter, and the lower one - with the pipeline behind the closest to the cutter, in the direction of movement of the medium, the locking device, while the rod passing through the upper cavity of the lifting mechanism is vented into the atmosphere, and the rod passing through its lower cavity is installed with the possibility of exposure on the shank of the rotary locking element.

Description

The utility model relates to pipe fittings, namely to shut-off devices, and can be used to install oil and gas condensate fields in wells to automatically shut off a high-pressure pipeline in case of an emergency pressure change in it.

Known shut-off valve (SU 855311 A1, 5 IPC: F16K 17/04, 15/03, publ. 08/15/1981), containing a rotary shut-off element such as a shutter and fixing the shutter in the open position, a sensitive element made in the form of a spring-loaded stem, with a protrusion is made at the end of the stem, and a groove that is reciprocal in shape to the protrusion specified on the valve.

A disadvantage of the known valve is that the device is opened manually at the installation site.

The closest in the set of essential features selected as a prototype is a shutoff valve (RU 2168094 C2, 7 IPC: F16K 15/03, 17/04, publ. 05.27.2001) containing a housing, a pressure relief line, a rotary shut-off element with a pneumatic suction cup and a sensing element fixing it in the open position, made in the form of a rod loaded with a spring.

A disadvantage of the known valve is that the device is opened manually at the installation site.

The problem, which the utility model is aimed at, is to create such a technical solution, using which it would be possible to remotely control the opening of the cutter.

To achieve the named technical result, the remotely controlled shutoff device contains a housing, a pressure relief line, a rotary locking element and a sensing element fixing it in the open position, made in the form of a spring-loaded rod.

The inventive remotely controlled shut-off device differs from the prototype in that the rotary locking member is made with a shank located on the opposite side relative to its axis of rotation, in addition, the shut-off valve is additionally equipped with a piston mechanism for lifting the rotary locking member located on the housing, the upper cavity of which is connected to the housing cavity up to a rotary locking element, and the lower one with a pipeline behind the closest to the cutter, in the direction of medium movement, a locking device, while the rod, etc. walks through the upper cavity of the lifting mechanism, withdrawn into the atmosphere, and a rod extending through its lower cavity, arranged to impact on a shank of the rotary closure member.

The proposed utility model is presented in the drawing: in Fig. 1, a longitudinal section of a cut-off remotely controlled in the open position is shown; figure 2 shows a longitudinal section of a cutter remotely controlled in the position after actuation, while the pressure to the rotary locking element is higher than behind it; figure 3 shows a longitudinal section of a cutoff remotely controlled in position after raising the rotary locking element, but until the resumption of the flow of the transported medium.

The remotely controlled cutter comprises a housing 1, inside of which a rotary locking element 2 is installed. The cavities of the housing 1, before and after the rotary locking element 2, are interconnected by a pressure relief line including the locking device 3. A sensing element 4 and a piston lifting mechanism are placed on the housing 1 5 with a piston 6, a rod 7, vented to the atmosphere and a rod 8, mounted with the possibility of impact on the shank 9 of the rotary locking element 2. The cavity A of the piston lifting mechanism 5 through a channel in the rod 8 is connected to the cavity of the housing 1 located before the rotary locking element 2, and the cavity B - with the pipeline behind the closest to the cutter, in the direction of movement of the medium, a locking device (not shown in Fig.).

The remote-controlled cutter operates as follows. In trouble-free operation, the rotary locking element 2 is fixed by the sensitive element 4 in the open position. The locking device 3 is closed. The pressure in the cavity A is equal to the pressure in the cavity B. The piston 6 is in its highest position and is held in this position by force due to the difference in the diameters of the rod 7-dl and rod 8-d2 (see figure 1). In case of an emergency pressure change in the housing 1, the sensing element 4 unlocks the rotary locking element 2, which, under the action of its own weight, rotates on its axis, blocking the flow of the transported medium, as a result of which a pressure difference arises before and after the rotary locking element 2. The piston 6 will move down, which due to the pressure difference in the cavities A and B, while the rod 8 will begin to act on the shank 9, but if there is a pressure difference before and after the rotary locking element 2, it will not be lifted (see figure 2). After eliminating the emergency situation, to raise the rotary locking element 2, it is necessary to equalize the pressure before and after the rotary locking element 2. To do this, when the closure device (not shown) is closed, which is closest to the cutter, in the direction of the medium flow, a control signal is sent to open locking device 3. With equalizing the pressure before and after the rotary locking body 2 and under the action of a force due to the pressure difference in the cavities A and B, the piston 6 will move to its lowest position, while the rod 8, air ystvuya on the shank 9, the rotary lift the valve plug 2 to its upper position (see FIG. 3). After resuming the flow of the transported medium, the sensing element 4 will fix the rotary locking element 2 in the open position, then the piston 6 will move to its highest position, due to the equal pressure in the cavities A and B and due to the buoyancy force due to the difference in the diameters of the rod 7-dl and rod 8 -d2 (see figure 1).

Thanks to this design, the problem is solved associated with the remote opening of the cutter after it is triggered, which is a necessity when using the cutter in electrified plants, moreover, the energy of the medium flow is used to open the cutter, which increases its reliability, since the use of more complex electrical mechanisms is eliminated.

Claims (1)

A remotely controlled cutter comprising a housing, a pressure relief line, a rotary locking element and a sensing element fixing it in the open position, made in the form of a spring-loaded rod, characterized in that the rotary locking element is made with a shank located on the opposite side from its axis of rotation, in addition, the shut-off device is additionally equipped with a piston mechanism for lifting the rotary locking member located on the housing, the upper cavity of which is connected to the housing cavity before mouth shutter, and the lower one - with the pipeline behind the closest to the cutter, in the direction of movement of the medium, the locking device, while the rod passing through the upper cavity of the lifting mechanism is vented into the atmosphere, and the rod passing through its lower cavity is installed with the possibility of exposure on the shank of the rotary locking element.