RU2064111C1 - Self-adjustable shut-off device "regulator-cutout" - Google Patents

Abstract

FIELD: manufacture of fittings. SUBSTANCE: self-adjustable shut-off device "regulator-cutout", has body with coaxial inlet and outlet branch pipes, two coaxial seats located coaxially relative to branch pipes, two detachable shut-off members connected by means of axle and located between seats, stem fitted perpendicularly relative to axis of branch pipes, rod located in guide bush and engageable with stem and handwheel. Shut-off members and seats have working surfaces located symmetrically at their ends. Axle of shut-off members is located in additional guides bush. Secured on ends of axle and rod facing each other are disks between which adjusting spring is mounted. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to valves that are adjustable and can be used in any sector of the national economy, a valve is known as a valve, in which the valve for opening and closing a valve is carried out by translating the spindle.

Known shut-off device check valve, in which the shut-off element closes the passage opening countercurrent to the working medium without any adjustment [1]
The disadvantage of the "valve" design is the inability to regulate or block the flow of the working medium in the forward and reverse directions without the forced translational movement of the spindle, and the inability to remove the seat for repair, replacement, and turning the seat and valve.

 The disadvantage of the design "check valve" is the inability to control the flow of the working medium and overlapping the forward flow of the working medium, the impossibility of excavation, turning the seat, valve.

 Closest to this technical solution is the locking device "valve-check valve" [2] adopted as a prototype. The shut-off valve "check valve" can operate as a shut-off valve and as a check valve without any reconfiguration, sealing surfaces, seat, shut-off valve-body are removable and reversible.

A disadvantage of the known design is:
- the inability to operate the shut-off valve "check valve" in the mode of self-regulation as a regulator of the pressure of the working medium flow.

 the inability to cut off the flow of the working medium after the "failure".

 The objective of the invention is: the implementation of the housing and the internal device "regulator, shut-off" with the possibility of self-regulation of pressure, flow rate of the working medium, with the possibility of seizure of the seat and the regulatory body to replace, repair, crimping, turning over, providing a cut-off of the working medium flow, as "before", and after "yourself" without any reconfiguration of the "controller, cut-off." Ensuring the operation of the "regulator, cutter" in a horizontal and vertical position, both in positive and in minus ambient temperature.

 It makes it possible to use the “regulator, cut-off” especially widely on highways: heating systems, plumbing, gas-air, steam, gas-oil and corrosive media.

 It makes it possible to use the "regulator, shutoff valve" as a valve, check valve, shutoff valve, regulator valve, safety valve. At the “regulator, shut-off device”, during operation, replace; you only need to purchase a retractable seat, a valve regulating the shut-off element, a spring, and the body and all other details remain the same. "Regulator, cut-off" can be used as a regulator to maintain the level of the working medium in vessels with pressure and without pressure.

 The technical result is achieved by the fact that a self-regulating locking device "regulator, shut-off", comprising a housing with coaxial inlet and outlet nozzles, a removable locking body, a removable seat installed coaxially to the nozzles, a spindle mounted perpendicular to the axis of the nozzles, a rod placed in the guide sleeve and interacting with spindle, flywheel, and the locking body and the seat are made with working surfaces symmetrically located at their ends, according to the invention is equipped with similar in design execution of the additional locking body and the seat, located coaxially with the nozzles, both locking bodies are interconnected by an axis and placed between the saddles, the axis is located in an additional guide sleeve, on the ends of the axis and the shaft facing each other, discs are fixed, between which an adjustment spring is installed .

 The spring is set in motion and regulates the location of the locking elements relative to the saddles by moving the coaxial rods with the spindle through the flywheel, or self-regulates the pressure of the working fluid flow.

 The spindle and rod interact with each other in the form of helical racks. Saddles and locking elements are removable and invertible.

 Comparison of the claimed solution not only with the prototype, but also with other technical solutions in this technical field did not allow us to identify signs that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "significant differences".

 The drawing shows the proposed device.

 It consists of a flywheel 1, a vertical spindle 2, a horizontal rod 3, a spring 4, a “regulator, cut-off” case 5, a flange 6, a removable sealing seat 7, a flange 8, a guide sleeve 9, a sleeve fastener 10, a horizontal axis 11 with two locking bodies 12 and 13, the flange 14, the removable seat 15, the flange 16, the limiter 17, the stop 18.

 Assembly of self-regulating locking device "regulator, shut-off device".

 A horizontal axis 11 is inserted into the guide sleeve 9. Locking bodies 12 and 13 are mounted on the axis and rigidly fixed on the axis 11, a guide sleeve 9 with a horizontal axis is installed inside the housing 5 "regulator, cut-off" and fixed with a fastener 10.

 A removable sealing seat 15 is installed to the end flange 16 and fixed to the flange 14, after which the guide plates-discs of the spring 4 are rigidly fixed to the horizontal stem 3 and the removable saddle 7 to the flange 6, the spring is installed between the guide plates-discs 4 and rigidly fasten the flange 8 and the removable seat 7 to the flange 6.

 The flywheel 1 is rotated to open, the vertical spindle 2 rises, the helical spindle 2 passes through the helical grooves of the rod 3, the rod 3 moves horizontally and weakens the compression of the spring 4, the flow of the working medium presses against the locking element 12 of the horizontal axis 11 and passes through the sealing seat 15 and further through the seat 7, the adjustment using the flywheel 1 is carried out to a predetermined pressure of the working medium after the "regulator, cut-off".

 Self-regulation in the locking device "regulator, shut-off" is as follows.

 With increasing pressure of the working medium after the “regulator, shut-off” from the set norm, the pressure difference between the working medium and the regulator decreases after the regulator, the force of the tension spring 4 acts on the horizontal axis 11 and the passage saddle 15 begins to overlap with the locking element 12, thereby starting to slow down the passage working environment and reduce the pressure in the regulator, and this in turn entails a decrease in pressure after the regulator.

 When lowering the pressure of the working medium after the "regulator, the shut-off valve from the established norm, the pressure difference between the working medium and the regulator and after the regulator increases, the pressure of the working medium begins to act on the shut-off element 12, moving it and increasing the passage of the working medium through the seat 15, and increase the pressure in the regulator, and this in turn entails an increase in pressure after the regulator.

 If the pressure of the working medium decreases or drops to "0" atm to the "regulator, shutoff", then the "regulator, shutoff" acts as a check valve, the countercurrent of the working medium with its pressure on the shut-off elements 12 and 13 will block the passage seat 15 with the shut-off element 12.

 If the pressure of the working medium decreases and drops to "0" atm after the "regulator, shutoff", the regulator will cut off the flow of the working medium and stop the flow of the working medium through the regulator. This will happen as follows. The direct flow pressure of the working medium on the locking elements 12 and 13 of the horizontal axis 11 will be stronger than the spring 4 and will block the passage section of the seat 7 by the locking body 13, i.e. will cut off the forward flow of the working medium through the regulator.

 Compared with the prototype, the proposed design of a self-regulating locking device "regulator, shut-off" is more efficient, allows you to work as: intake valve, regulator, shut-off valve, check valve, also allows you to replace, lapping, grooving seats 7, 15 and locking elements 12 and 13 horizontal Axis 11. Removable sealing seats 7, 15 can be turned over by sealing surfaces, as well as locking bodies 12 and 13.

 The device works like a valve.

 The flywheel 1 is rotated to open, the spindle 2 rises up from the stop 18, the rod 3 has moved horizontally from the seat 7 to the right, the spring 4 is in the free state, the direct-flow pressure of the working medium acting on the shut-off element 12 opens the seat 15, with the seat 7 fully open and 15 locking bodies 12 and 13 are at the same distance from their saddles 7 and 15.

 Turning the flywheel 1 to close, the spindle 2 goes down, the rod 3 moves to the left, compressing the spring 4 and the spring, acting on the axis 11. with the locking element 12, will close the seat 15, the device as a valve is closed.

 The device can act as a safety spring valve.

 By turning the flywheel 1 to open or close, they achieve a compression position of the spring 4, when the pressure of the working medium overcomes the compression force of the spring 4 of the set pressure and the working medium begins to discharge through the seat 15 of the shut-off member 12. In this position, the stopper 17 of the spindle 2 with a stop 18 body 5, the safety spring valve is set to a predetermined response pressure.

 Undermining, checking the performance of the safety valve is as follows.

 The flywheel 1 is rotated to open, and the compression of the spring 4 is weakened, the working medium begins to discharge through the seat 15, after which the flywheel 1 is rotated to close the spindle 2 stop 17 to the stop 18 of the housing 5.

 The device can operate as a control valve, as a check valve, as a shut-off device; their operation is described above.

 The generally useful effect of using the invention is achieved by changing the shape of the housing and the internal locking and regulating device, which made it possible in one housing "regulator, shut-off device" to combine a locking device such as a valve, a locking device as a non-return valve, as a regulating body, and a valve regulator as shut-off body, shut-off device as a safety spring valve.

 It made it possible in the process of operation of the device "regulator, shut-off device" to acquire only a saddle, a locking element, a spring.

 The effect is to reduce the cost of manufacturing valves and increase the service life by 2 times, i.e. It is proposed that instead of five units of shut-off and shut-off valves: a valve, a non-return valve, a regulator, a shut-off valve, a safety valve, a shut-adjustable device "regulator, shut-off" be manufactured, while repair and maintenance costs per unit of service and repair of valves are reduced.

Claims (1)

 A self-regulating locking device "regulator, shut-off", comprising a housing with coaxial inlet and outlet nozzles, a removable locking body, a removable seat mounted coaxially to the nozzles, a spindle mounted perpendicular to the axis of the nozzles, a rod located in the guide sleeve and interacting with the spindle, a flywheel, moreover the organ and the saddle are made with working surfaces symmetrically located at their ends, characterized in that it is equipped with additional closures similar in design and a seat body arranged coaxially nozzles, both shut-off organ interconnected axis and arranged between the seats, the axis is located in the additional guide sleeve, at the ends of the rod axis and facing each other, fixed disks, between which is installed the adjusting spring.