RU2633732C1 - Shut-off device of passive action - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: shut-off device of passive action with input and output channels, with a separating seat, interacting with a locking element, driven by a spring drive, operating from the medium to be supplied to the over-piston cavity of hydraulic cylinder through two pressure-adjustable mechanisms with sensing elements, the output channel of one of the which is connected to the drainage, the sensing elements of the normally opened and normally closed adjustable mechanisms are connected to the internal cavity of the housing, as the input channel of normally-closed adjustable mechanism, and the output channel of the last and the input channel of normally-opened adjustable mechanisms are connected with rodless cavity of pneumo-hydraulic cylinder, the rod of which is connected through a system of levers with a spring drive, a locking control element.

EFFECT: increased protection.

3 cl, 3 dwg

Description

The invention relates to mechanical engineering, namely to valve engineering, specifically to shut-off and shut-off pipe valves, and can be applied in various technological safety systems, for example, in NPP units or protection systems for pipelines overcoming underwater crossings.

Known controlled valve in the protection systems of heat power equipment (see RF patent No. 116941, class F16K 17/22), comprising a housing with inlet and outlet nozzles, a locking element and a trigger in the form of a pneumatic cylinder with a piston, while the trigger is connected to the system control system for the movement of the locking element, the control system for moving the locking element is made in the form of double valves and a relief valve, while the double valves are communicated through throttles with a piston and a piston cavity of the pneumatic cylinder Skov mechanism and the cavity of the housing.

The disadvantages of the known design include its complexity and low reliability of the device.

A passive shut-off device is known (see TPA magazine No. 2 - 2015, pp. 74-76 "Hydraulic shut-off valve, II stage, Novovoronezh NPP-2, authors AM Shcherbakov and others), a prototype containing a housing, a saddle, blocked by a plate controlled by a piston spring-loaded relative to the adjustable actuator with a throttle connecting the cavities “above” and “below” the piston, the latter, in turn, connected to the adjustable control mechanism connected by a flow channel “under” the piston cavity, and through the hydraulic lock - with drainage.

The disadvantages of the known design include the low reliability of the device, due to the fact that the calculated diameter of the throttle in the piston, four coil springs, three sensing elements are involved in the adjustment to the calculated (at which the device should work) differential pressure “above” and “under” the piston ball-type lock and friction forces in movable structural elements.

With a change in the hydrodynamics of the medium being carried out, the actuation of a shutter tuned to a specific pressure differential “above” and “under” the piston becomes problematic.

The technical problem solved by the present invention is to increase the reliability.

The technical problem is achieved by the fact that the passive shut-off device, with input and output channels, with their separating saddle, interacting with a locking element controlled by a spring drive, working from a conducted medium entering the hydraulic piston cavity through two with sensitive elements tuned to a specific the pressure of the mechanism, the output channel of one of which is connected to the drainage, the sensitive elements of the normally open and normally closed adjustable mechanisms with They are connected to the internal cavity of the body, as well as the input channel of the normally-closed adjustable mechanism, and the output channel of the last and the input channel of the normal-open adjustable mechanisms are connected to the rodless cavity (pneumatic) of the hydraulic cylinder, the rod of which is connected via a lever system to a spring drive that controls the locking element, and the sensitive elements of the normally-closed and normally-open adjustable mechanisms are set accordingly to the upper and lower thresholds of the pressure setting range, and customizable mechanisms and a spring drive are equipped with position indicators, and the latter is equipped with an end position indicator of the locking element.

In FIG. 1 shows a passive shut-off device in an open position; in FIG. 2 shows a passive shut-off device in a closed position; in FIG. 3 shows a variant of a passive shut-off device for dirty environments with an external control source, for example gas.

The shut-off and shut-off device consists of a housing 1 with an input channel 2 and an output channel 3 with a saddle 4 separating them, interacting with a locking element 5 connected to the rod 6 of the spring actuator 7, the articulated support 8 of which is connected to the rod 10 through a system of levers 9 (pneumatic ) of the hydraulic cylinder 11. In this case, the rodless cavity 12 (pneumatic) of the hydraulic cylinder 11 is connected by a pipe 13 to the output channel 14 of the normally closed adjustable mechanism 15, and by a pipe 16 with the input channel 17 of the normally open adjustable mechanism 18. Internal The cavity of the housing 1 is connected by pipelines 19 and 20, respectively, with the lower cavities 21 and 22 of the normally-closed and normally-open tunable mechanisms 15 and 18, containing sensitive nodes 23 and 24. The input channel 25 of the normally-closed tunable mechanism 15 is connected by a pipe 26 to the internal the cavity of the housing 1, and the output channel 27 of the normally open tunable mechanism 18 is connected to the drainage. Sensitive nodes 23 and 24 interact via rods 28 and 29 with locking elements 32 and 33, and adjustment nodes 30 and 31, adjustable screws 34 and 35 and equipped with position indicators 36 and 37, respectively. A position indicator is installed on the cover (pneumatic) of hydraulic cylinder 11 the shutter 38 and the end position indicator 39 remotely connected to the operator panel.

Lock-and-pass device passive action works as follows.

At operating pressure, the locking element 5 is in the open position, while the locking element 32 of the normally closed adjustable mechanism 15 opens a passage into the area of the output channel 14 and passes the conducted medium entering through the pipe 26 into the rodless cavity 12 (pneumatic) of the hydraulic cylinder 11.

At the same time, the locking element 33 of the normally-open adjustable mechanism 18 is closed and through the pipe 16, the channels 17 and 27, the rodless cavity 12 is not connected to the drainage, which is ensured by tuning the adjustment nodes 30 and 31 by means of screws 34 and 35 to a certain technological pressure range, limited to upper and lower thresholds.

When the pressure of the conducted medium in the inner cavity 2 of the housing 1 is reduced, the latter acts through the pipeline 19 on the sensing unit 23 of the normally closed adjustable mechanism 15 configured by the tuning unit 30, and the locking element 32 disconnects the channels 25 and 14 between itself, and cuts off the conducted the medium from the rodless cavity 12 (pneumatic) of the hydraulic cylinder 11.

At the same time, the sensitive unit 24 under the influence of the medium, tuned by the setting unit 31 to a certain pressure, opens channels 26 and 17, thereby connecting the pipe 16 connected to the rodless cavity 12 (pneumatic) of the hydraulic cylinder 11 with a drain.

In this case, the spring actuator 7 through the articulated support 8, the system of levers 9, the rod 10 acts on the piston (pneumatic) of the hydraulic cylinder and displaces the conducted medium through the pipeline 16 into the drainage. At the same time, the spring actuator 7 through the rod 6 acts on the locking element 5, which overlaps the seat 4, thereby separating the input 2 and output channels 3 of the housing 1.

The passive shut-off device is closed, as indicated visually by a position indicator 38 and a signal to the operator panel from the end position signaling device 39.

Opening of a passive shut-off device.

With increasing pressure of the conducted medium in the input channel 2 of the housing 1, the latter enters the lower cavity 22 of the normally open mechanism 18 through the channel 20 and, through the sensing unit 24, acts on the locking element 33, separating the channels 27 and 17, thereby stopping the discharge of the conducted medium from the rodless cavity 12 (pneumatic) of the hydraulic cylinder 11 into the drainage.

At the same time, the conducted medium through the channel 19 enters the lower cavity 21 of the normally closed mechanism 15 and, through the sensing unit 23, acts on the locking element 32, connecting the channels 25 and 14, and the conducted medium enters the rodless cavity 12 (pneumatic) of the hydraulic cylinder through the pipe 13 eleven.

When the pressure in the cavity 12 decreases under the action of the spring 7, the lever system 9, and the rod 6, the locking element 5 return to their original position, which is indicated by the position indicators 38 and the signal from the signaling device of the final positions 39.

In the case of a passive shut-off device for “dirty” media with impurities, it is advisable to use (pneumo) hydraulic cylinder 11 to control an external control source, for example gas from cylinder 40, through regulator 41.

Thus, due to the fact that the locking element of the passive shut-off device through a spring drive and a lever system controls only one rodless cavity (pneumatic) of the hydraulic cylinder, connected by pipelines with bellows-sensitive sensors of normally open and normally closed adjustable mechanisms, reliable and closing and opening of the shut-off device of passive action by means of the medium is provided, and for “foreign” media containing impurities from an external source, such as gas from a cylinder.

And due to the fact that the arrangement of the nodes of the passive shut-off and shut-off device allows you to visually view the position indicator of the locking element from either side, and coupled with the presence of position indicators of the locking elements of the normally-closed and normally-open adjustable mechanisms, as well as the presence of an end position signaling device remote action, transmitting the corresponding signal to the control panel of the operator (dispatcher), of course, the consumer properties of the locking tsechnogo device passive action.

Claims (3)

1. Passive locking and shut-off device with input and output channels, with a separating saddle, interacting with a locking element controlled by a spring drive, powered by a conducted medium entering the piston cavity of the hydraulic cylinder through two with sensitive elements adjusted to a specific pressure of the mechanism, the output channel one of which is connected to the drainage, characterized in that the sensitive elements of the normally open and normally closed adjustable mechanisms are connected to the inside the lower body cavity, as well as the input channel of the normally-closed adjustable mechanism, and the output channel of the last and the input channel of the normal-open adjustable mechanisms are connected to the rodless cavity of the pneumatic-hydraulic cylinder, the rod of which is connected through a system of levers with a spring drive, which controls the locking element. 2. Passive shut-off device according to claim 1, characterized in that the sensitive elements of the normally-closed and normally-open adjustable mechanisms are configured respectively to the upper and lower thresholds of the pressure setting range. 3. Passive shut-off device according to claim 1, characterized in that the adjustable mechanisms and the spring drive are equipped with position indicators, and the latter is equipped with an indicator of the final positions of the locking element.

Images