SU1481551A1 - Disk valve valve member - Google Patents

Abstract

The invention can be used to control the flow of a liquid or gas medium in various technological processes. The purpose of the invention is to improve the reliability of the valve disc valve. A fixed seat (C) 2 is installed in the housing 1 with inlet and outlet nozzles and a shut-off regulator 4 in contact with C 2. Organ 4 is connected with a drive and is equipped with a discharge device located in it, in which the piston is mounted with C 2 to interact with C 2. 7. Between C 2 and piston 7 a bearing 16 is placed with channels 23 formed therein. Channels 23 communicate a sub-piston cavity with an outlet branch pipe. Between the support 16 and the body 4, an elastic element in the form of a spring 20 and a thrust bearing are installed with the possibility of pressing the body 4 to C 2 and centering it relative to C2, which ensures a stable grinding of the rubbing surfaces. 1 il.

Description

The invention relates to the field of pipe fittings, mainly to valves for regulating the flow of liquid or gas medium in various technological processes, for example, in thermal power plants for regulating the water supply of steam boilers.

The purpose of the invention is to increase the reliability of the shutter.

This goal is ensured by radial and axial fixation of the locking and regulating body relative to the seat, the ability to work in any spatial position, reducing friction and wear of the valve parts, tightly closing the working surfaces and eliminating contamination.

The drawing shows a valve shutter valve, section.

The shutter comprises a fixed seat 2 mounted in a tubular body 1 with two windows 3 for passing a liquid or gaseous pumped medium.

The locking regulatory body 4 is made in the form of a disk. 5 with two cutouts or windows also for passing the pumped medium. The disk 5 is ground to the seat 2. The unloading device is made in the form of a cylinder 6 as a whole with the disk 5, the piston 7, the seal 8, the rod 9 with a spherical end, rigidly connected to the piston. The disk 5 is equipped with teeth of a bevel wheel, forming a bevel gear together with gear 10, which is a drive mechanism. The gear 10 is connected to the drive shaft 11 installed in the cover 12. The latter is pressed against the housing by threaded parts and sealed with a ring 13.

The shaft 11 is sealed with a cover by a stuffing box 14. An antifriction adjustment sleeve 15 is installed between the ends of the gear 10 and the cover 12. A stepped cylindrical support 16 is installed in the central hole 17 of the seat 2 with a minimum clearance or interference and pressed against the seat by means of a nut 18 so that the thickened middle part of the spore end surface rests on the saddle. Between the support 16 and the disk 5, an antifriction sleeve, for example, bronze, is mounted with a minimum clearance 19, which provides centering of the disk 5 relative to the support 16 and, therefore, the seat 2. A spring element in the form of a disk spring 20 and a thrust bearing are installed in series between the support 16 and the disk 5 , for example, slip, made in the form of bronze 21 and steel 22 rings. The spring 20 and the thrust bearing rely on the end surfaces of the disk 5 and bearings 16 with the possibility of pressing the disk 5 to the saddle in the direction of movement of the medium (shown by arrows). To reduce friction, a standard thrust roller bearing can be installed instead of a plain bearing. In the support 16, channels 23 are made, providing it with the role of a pipeline through which the medium from the outlet pipe enters the cylinder 6 into the undergrowth space, which is facilitated by grooves made on the periphery of the spherical end of the rod 9 (shown by dashed lines).

Under the action of a pressure differential in the pressure and drain cavities of the valve, the piston 7 acts through the support 16 on the seat with a force, the value of which is determined by the pressure difference and the area of the piston. · '

Under the action of a differential pressure, the cylinder 6 together with the disk 5 are squeezed out from the saddle, which creates the unloading of the disk 5 from excessive pressure on the saddle. The pressing force is also determined by the pressure drop and the area of the piston.

Regardless of the differential pressure, the Belleville spring presses the locking and regulating body 4 to the seat.

The rotation of the shaft 11 by means of a gear transmission rotates the locking and regulating body, thereby setting the required degree of shutter opening, while simultaneously turning the sleeve 19 relative to the support 16, as well as the disk spring and the ring 21 relative to the ring 22 and the support 16. The piston with the rod can also be rotated relative to the support 16 due to the moment of friction of the seal 8. In the absence of a differential pressure, there is no unloading force and the effort of pressing the locking-regulating body to the saddle, however, due to t relchatoy spring shut-regulator is pressed to the saddle, that ensures normal operation of the drive mechanism and the gate, including a gate at any spatial position. The force of a Belleville spring is the largest fraction of the unloading force, therefore, at the highest pressure drop, when the shutter is closed, the unloading force acts effectively. Accurate centering of the locking and regulating body relative to the seat provides a stable grinding of the rubbing surfaces and increase the durability of the work.

Claims (1)

Claim A disk valve shutter comprising a fixed seat installed in the housing with inlet and outlet nozzles and a locking and regulating member in contact with the seat, connected to the actuator and provided with an unloading device located therein, comprising a piston mounted to interact with the seat, characterized in that, in order to increase reliability, it is equipped with a support installed between the saddle and piston with channels made in it, by means of which the piston cavity of the unloading device is connected to the outlet an elastic pipe, and between the support and the locking-regulating body, an elastic element and a thrust bearing are installed with the possibility of pressing the locking-regulating body to the saddle and centering it relative to the saddle.