RU2179679C2 - Shut-off valve - Google Patents

Abstract

FIELD: shutting-oil gas flow at delivery of pulse pressure to inlet passage. SUBSTANCE: shut-off valve has body with flow section. Valve body has inlet and outlet passages. Shut-off valve is also provided with seat made in form of truncated cone to whose surface outlet passage is brought. Passage is shut-off by means of shut-off member whose shape corresponds to shape of seat. Provision is made for additional outlet passage which is communicated with inlet. Shut-off member is provided with component at pressure exceeding pressure pulse of valve operation. Shut-off member is fitted directly above inlet and is integrated with piston which is pressed by calibrated spring. EFFECT: possibility of shutting-off main outlet passage at definite pulse source of gas and delivery of accurately preset amount of gas. 4 cl, 1 dwg

Description

 The present invention relates to the field of pneumatic automation and can be used to shut off the gas flow into the output channel with a pulse supply of pressure to the input channel.

 Known is the main valve of the pulse-safety device, the control cavity of which is located above the shut-off element, made in the form of a glass, communicated with a throttle aperture with an inlet cavity of the valve and with a drain by means of a control pulsed device through an opening in a sleeve placed in a control cavity coaxially with the shut-off element.

 A spring is loaded in the control cavity, which loads the locking member, and a piston with an axial hole is installed through which the sleeve is passed. An additional throttle bore is made in the piston, and stops are made in the housing, restricting the movement of the piston in the housing.

 When the pressure in the system increases above the working one, the control pulse device opens a discharge from the control cavity and the pressure above the shut-off element decreases.

 After reducing the pressure in the system, the control pulse device blocks the discharge of the medium through the corresponding hole.

 The disadvantage of this system is the actuation of the valve from a control pulse device that is not part of the valve. (A.S. USSR 1013682 of 02.22.82, published Bul. 15 of 04.23.83).

 Known pneumatic throttle containing a housing with inlet and outlet nozzles and a regulating body located in it, made in the form of a movable and fixed elements, a task spring, a control element and a return spring, there is a separation tube reinforced at one end in the housing, the other end of which is connected through the task spring with the control element and through the return spring - with the housing, and through the pusher located in the separation tube - with the movable element of the regulatory body. The movable element of the regulatory body is connected to the housing through a spring. The pneumatic throttle does not allow the passage of a pulse pressure of a given value. (A.S. of the USSR 6022699 of 07/11/74, publ. Bulletin 14 of 04/15/78).

 As a prototype, we take a device containing a housing with a flowing part, having an input and output channels, a saddle in the form of a truncated cone, to the surface of which there is an output (or input) channel blocked by a locking body, in the shape corresponding to the shape of the saddle.

 The disadvantage of this device is the passage through the output (input) channel of both a pulsed gas pressure and non-pulsed pressure (W0 85/04937, 03/19/1985, F 16 K 17/20).

 The technical problem to be solved is the development of a shut-off valve, which ensures the shut-off of the outlet channel with a pulsed supply of gas pressure of a given value to the inlet channel. With non-pulse (smooth) pressure supply to the inlet channel, the outlet channel does not overlap.

 The technical result, the claimed shut-off valve is aimed at achieving, is to supply a predetermined (strictly defined) amount of gas to the working system through an additional outlet channel with a membrane only from a pulsed pressure source in the presence of a shut-off element with an element involved in a pulse exceeding the pressure pulse valve, and the regulating element of the calibrated spring for a specific pressure pulse.

 The achievement of the technical result is ensured by the fact that the shut-off valve, comprising a body with a flowing part, having an inlet and outlet channels, a saddle in the form of a truncated cone, to the surface of which there is an output channel overlapped by a shut-off element, in shape corresponding to the shape of the saddle, an additional output channel is introduced connected with the inlet, a shut-off element with an element involved in a pressure exceeding the pulse of the valve operating pressure is installed directly above the inlet and is combined with a piston, spring-loaded th calibrated to the pressure pulse of the valve.

 A membrane is installed in the additional output channel.

 The shut-off valve is equipped with a control element for the calibration spring.

 In the shutoff valve below the seat, a second additional output channel may be provided, which is covered by a membrane.

 In the shutoff valve below the seat, a second additional output channel may be provided, which is covered by a membrane.

 The saddle in the valve body and the locking element, made in the form of a truncated cone, allow for reliable sealing of the main output channel.

 An element involved in a pressure exceeding the pressure pulse of the valve response will allow it to operate only from a specific gas pressure pulse.

 The calibrated spring, equipped with a regulating element, allows you to configure the response of the piston, combined with a locking body, to a specific pulse of gas pressure.

 The presence of a second additional channel with a membrane located below the seat, will improve the reliability of the valve from a specific pulse of gas pressure.

 A comparative analysis of the proposed shut-off valve with the prototype shows that the claimed object meets the criteria of the invention of "novelty."

 The inventive valve meets the criterion of "inventive step", because no sources of fame were identified where the technical result achieved by the proposed shut-off valve would be described.

 The drawing shows the inventive shut-off valve.

 The shut-off valve consists of: a housing 1, in which a flow part with a saddle in the form of a truncated cone 11, an inlet channel 7, an outlet channel 10, an additional outlet channel 9, a second additional outlet channel 8 with a membrane 5 are located. Above the inlet channel there is a shut-off element in in the form of a truncated cone with an element 14 involved in a pressure exceeding the impulse of the valve operating pressure combined with the piston 3 pressed by the calibrated spring 4. The force of the pressed spring is adjusted by the regulating element 6, which sets installed in cover 2. A membrane 13 is installed in channel 9. Sealing the housing connector - the cover is carried out using gaskets 12.

The proposed shut-off valve is activated directly from the pressure pulse supplied to the input channel 7, while:
- if the pressure pulse corresponds to a predetermined (required) value, the output channel 10 overlaps, the membrane 13 breaks, and the gas pressure through the output channel 9 enters as intended (into the working system);
- if the pressure pulse is less than a predetermined value, the piston 3 with the locking member does not reach the saddle and the gas pressure is vented through the output channel 10;
- if the pressure pulse is greater than the required value, the element of the locking element 14 ruptures and the gas pressure is vented through the outlet channel 10 or the membrane 5 ruptures and the gas pressure is vented through the second additional channel 8;
- if a non-pulsed (smooth) gas pressure is supplied, the piston 3, smoothly moving towards the saddle 11, ensures that the gas pressure is vented through the outlet channel 10.

 The presence of a shut-off element with an element involved in a pressure exceeding the pulse of the valve operating pressure, in combination with a regulating element of a calibrated spring and an additional output channel with a membrane, will allow the main output channel to be blocked only from a specific pulsed gas source and to supply a strictly specified (calculated) quantity to the working system gas.

 A prototype shut-off valve was completed and preliminary tests were conducted as part of the experimental working system. Tests confirm valve operability from a given (calculated) gas pressure pulse.

Claims (4)

 1. A shut-off valve, comprising a housing with a flow part, having an inlet and outlet channels, a saddle in the shape of a truncated cone, to the surface of which an outlet channel is connected, which is blocked by a shut-off element, in shape corresponding to the shape of the seat, characterized in that an additional outlet channel is communicated with an inlet, the shut-off element is made with an element involved in a pressure exceeding the impulse of the valve operating pressure, is mounted directly above the inlet and is combined with a piston pressed by a calibrated spring.  2. The shut-off valve according to claim 1, characterized in that a membrane is installed in the additional channel.  3. The shut-off valve according to claim 2, characterized in that it is equipped with a regulating element of the calibration spring.  4. The shut-off valve according to claim 1 or 3, characterized in that in it below the saddle a second additional output channel is made, covered by a membrane.