SU806969A1 - Valve - Google Patents

Description

(54) VALVE

I

The invention relates to pipelines, valves, mainly to shutoff valves for liquid and gaseous media of various parameters, including supercritical ones.

A valve with valve unloading is known, which contains the main and, unloading shut-off bodies controlled by the stem (d.

A disadvantage of the known valve is the presence of a constant backlash between the stem and the locking member, which is an obstacle to the use of this valve in control modes.

Also known is a valve containing a main locking opraft, in the cavity of which there is a relief auxiliary locking member with a fixing element .- a spring, which excludes play and mutual movement between the syringe and the locking member 2.

However, this device has the disadvantage that in the process of regulation, especially at large differences, due to the unevenness of the controlled flow, the locking member is exerted by forces of different size and direction, which cause the spring to vibrate, and, consequently, the closure member, which reduces reliability of operation of the valve and its performance.

The purpose of the present invention is to improve the reliability of the valve.

0

This goal is achieved by the fact that in the known valve containing the main. the locking organ in the cavity of which the rado-loading auxiliary helper is located

The other locking member with a locking element connected to the stem; the locking element is designed as a sleeve coaxially mounted on a rod with

 the possibility of axial displacement of L1 and interaction with it, and the surfaces of the sleeve and the main closure member, which interact with each other, are conical. 3 In FIG. I shows the valve in the closed position, oip incision; nor fng. 2 the same, in the open position. In the case I, the valve is placed mainly by the locking body 2, in the cavity A of which there is an unloading auxiliary locking body 3 connected to the rod 4 on which the fixing element is installed, made in the form of a coaxially mounted sleeve 5, with the outer conical surface 6. The sleeve 5 is mounted on the stem 4 with the possibility of an axial movement relative to it, and its movement is limited on one side by the ledge 7 of the auxiliary relief valve 3, and on the other by the ring 8 and crackers 9. The inner surface 10 The cavity A of the main locking member 2, which interacts with the outer conical surface 6 of the sleeve 5, is made conical. This surface 10 can be made, for example, on an additional sleeve 11, which is fixedly mounted in the main locking body 2 when the nut is nut 12. The locking body 2 in contact mode is in contact with the seat 13 of the body I. The valve is operated as follows. In open mode (see fig. L), with advances; on the rod 4 of a predetermined force, it opens the unloading auxiliary shut-off body 3. When the stem 4 moves up, the sleeve 5 with the help of the ledge 7 slides its outer conical surface 6 along the conical surface of the sleeve 11 until the fixing element of the sleeve 5 is wedged in the main valve 2 When the main shut-off organ is closed, the pressure of the medium in the inlet nozzle and above the shut-off organ 2 is the same and much greater than under it. When the auxiliary relief body 3 is torn off, the cavity above and below the locking member 2 is connected so that the pressure drop, pressing the main locking member 2 to the seat 13 of body I, is significantly reduced. Consequently, a smaller force is needed on the stem 4 to open the main closure member 2 and enter the regulating mode, in which the main closure member 2 forms a single rigid structure with the stem 4 (see Fig. 2). In the closing mode, the main locking member 2 contacts the saddle 13 of body I, while the force is transmitted from the stem 4 through the crackers 9, the locking element - the sleeve 5, the additional sleeve II to the main locking member 2. With increasing force on the stem 4 (actuator) to specified, the fixing element is disengaged (disconnected) - sleeve 5 and the main closure body 2 and the medium is blocked by the auxiliary discharge body 3- The valve is closed. The pressure above the main stop organ 2 increases to a value equal to the pressure / j, i nick in the INPUT nozzle (see Fig. I). :, The valve design is highly reliable, especially when regulating high parameters of the environment and large pressure drops, requires less drive power, can regulate pulsating flows. Claims of the invention A valve comprising a main valve body, in the cavity of which a relief auxiliary valve body with a locking element is located, which is associated with a rod, characterized in that, in order to increase reliability. operation of the valve, the locking element is made in the form of a sleeve, coaxially mounted on the stem with the possibility of axial movement and interaction with it, and the surfaces of the sleeve and the main valve member interacting with each other are made conical. Sources of information taken into account in the examination. 1.Gurevich D. f. Calculation and design of pipeline fittings. M., Mechanical Engineering, 1964, ci. 389. 2. Cellular valves Kassil. Prospectus firm ADAR. France, 1978.

Claims (1)

Claim A valve containing a main locking element, in the cavity of which there is an unloading auxiliary locking element with a locking element connected to the stem, characterized in that, in order to increase the reliability of the valve, the locking element is made in the form of a sleeve coaxially mounted on the rod with axial displacements and interactions with it, and the surfaces of the sleeve and the main locking member interacting with each other are made conical.