RU30908U1 - Stop valve - Google Patents

Abstract

A shut-off valve comprising a body with inlet and outlet nozzles, a shut-off element with a pneumatic actuator made in the form of a piston and a rod interacting with it located in the power cavity formed in the housing, characterized in that the pneumatic actuator of the shut-off element contains an additional piston and rod, made for integral and placed in the adapter sleeve installed in the housing and containing the control cavity, both pistons and both rods having the same diameters respectively and are installed coaxially in the valve, the end face is additional the body rod interacting with the piston located in the power cavity is made spherical, and in the additional piston and rod the central axial bore and through channels are made, located at an angle to the bore with access to the spherical surface of the rod end for supplying the control medium from the control cavity formed in the adapter sleeve, into the power cavity.

Description

The utility model relates to control valves, in particular to the designs of pneumatic shut-off valves used to quickly shut off the flow of the working medium.

A known valve containing a locking member interacting with a pneumatic actuator, made in the form of a spring-loaded rod connected to the shutter body located in the housing with an opening for supplying a control medium, the drive housing being provided with an additional opening for supplying a control medium, and installed between the socket and the piston an insert with a connecting element for securing the bolt of the locking element and two landing holes for the piston (A.S.SSSR No. 748074, IPC F16K 1/12, publication of 1980).

Known shut-off valve, containing the housing, a saddle installed in the housing, a spring-loaded locking element connected to the control box connected to the pneumatic cylinder, the control box is sealed by means of a bellows (RF patent No. 2163318, IPC F16K 1/12, publication 2001). .

A known valve comprising a housing with inlet and outlet cavities, a locking member with a through hole, a locking actuator in the form of a piston, a discharge chamber of the locking member.

MraC F16Kl / 12 Shut-off valve

bounded by a cap, and connected to the inlet cavity by an opening in the shut-off element and with the outlet cavity - a channel in which a normally open control valve with actuator is installed, while the valve is equipped with a rod installed between the piston and the shut-off element with the possibility of mixing; : you control them; the valve is located in the cover, and its actuator is made in the form of a piston, and the piston cavities of both actuators are interconnected with one pressure source (certificate for a useful model №21081, IPC F16K 1/00, 2001 publication.).

Known designs of shut-off valves with pneumatic actuator of the working body at high pressures of the working medium do not provide reliable overlap, which leads to the need to increase ycHjBM of the pneumatic actuator, and this in turn entails an increase in the dimensions of the pneumatic actuator or an increase in the control pressure in the pneumatic actuator, which also entails an increase in the dimensions (diameter, wall thickness) of the pneumatic actuator leads to a deterioration in the operational characteristics of the device.

The task of creating the proposed utility model is to expand the arsenal of hardware used in the design of pneumatic shut-off valves and create a valve that works reliably in high-pressure systems of the working environment.

The essence of the claimed invention is as follows.

The shut-off valve comprises a housing with inlet and outlet nozzles, a shutoff member with a pneumatic actuator made in the form of a piston and a rod interacting with it in the power cavity formed in the housing. The pneumatic actuator of the locking element contains an additional piston and rod, made integral with one another and placed in the adapter sleeve containing the control cavity and

installed in the valve body. Both pistons and both rods are made of the same diameter, respectively, and are mounted coaxially in the valve. The end face of the additional rod interacting with the piston placed in the force cavity is made spherical. In the additional piston and rod, a central axial bore and through channels are made located at an angle to the bore with access to the spherical surface of the rod end for supplying the Etching medium from the control cavity formed in the adapter sleeve into the power cavity.

The drawing shows the proposed shut-off valve.

The shutoff valve comprises a housing 1 with an inlet 2 and an outlet 3 nozzles, a shutoff member 4 and a pneumatic actuator. The pneumatic actuator includes a rod 5, a piston 6, located in the power cavity 7, a piston 8, integral with the rod 9 and installed in the control cavity 10, formed in the adapter sleeve 11 and limited by a cover 12 having a through hole 13 for supplying a control medium. Pistons 6, 8 and rods 5, 9 are mounted coaxially in the valve and, accordingly, have the same diameter. The end face 14 of the rod 9 is made spherical. A central axial bore 15 is formed in the piston 8 and rod 9, and through channels 16 are formed in the rod 9, located beneath to the central bore 15 with access to the spherical surface of the end face 14 of the rod 9. Decompression holes 17 and 18 are made in the housing 1 and in the sleeve 11 respectively.

The shutoff valve operates as follows.

In the absence of control pressure in the pneumatic actuator, the working medium is supplied to the input and the pressure of the working medium is used to shut-off element 4 moves (to the right in the presented drawing) and opens the passage of the working medium.

When air is supplied through the opening 13 of the cover 12 into the control cavity 10, the piston 8 is shifted to the left and through the end 14 of the rod 9 acts on the piston 6. The piston 6 is also affected by the pressure of the control air supplied through the bore 15 and channels 16 power cavity 7. Under the influence of double force, the piston 6 moves the rod 5, which in turn acts on the locking element 4, which blocks the passage of the working medium between the inlet and outlet nozzles.

The proposed valve design allows to increase the reliability of operation of the locking element and provides a quick and reliable overlap of the working environment.

Claims (1)

A shut-off valve comprising a body with inlet and outlet nozzles, a shut-off element with a pneumatic actuator made in the form of a piston and a rod interacting with it located in the power cavity formed in the housing, characterized in that the pneumatic actuator of the shut-off element contains an additional piston and rod, made for integral and placed in the adapter sleeve installed in the housing and containing the control cavity, both pistons and both rods having the same diameters respectively and are installed coaxially in the valve, the end face is additional the body rod interacting with the piston located in the power cavity is made spherical, and in the additional piston and rod the central axial bore and through channels are made, located at an angle to the bore with access to the spherical surface of the rod end for supplying the control medium from the control cavity formed in the adapter sleeve, into the power cavity.