RU195044U1 - ball valve with adjustable clamping force - Google Patents

Abstract

The utility model relates to stop valves, namely, to the designs of industrial valves with ball plug for shutting off the flow of the working medium. In a ball valve comprising a housing with inlet and outlet nozzles equipped with cages, annular seals, between which a ball plug with a through hole is connected to the spindle, and springs pressing the cages with O-rings to the ball plug, the cages with seals are located inside the nozzles, behind the cages in each nozzle, they are made uniformly around the circumference of the nest, in which the indicated springs and support are placed, and the annular bore is made in the nozzles, forming a platform behind the nests, on which each socket has threaded holes in which the adjusting screws acting on the spring support are installed. The utility model allows you to save and situationally restore the required pressure for tightness of the ball seal seal.

Description

The utility model relates to stop valves, namely, to the designs of industrial valves with ball plug for shutting off the flow of the working medium.

A ball valve is known from the prior art, comprising a housing with inlet and outlet nozzles, cage ring seals, between which a ball plug with a through hole is connected to the spindle, and springs that press the cage with ring seals against the ball plug (see utility model patent RU 454494, CL F16K 5/20, published on 05/10/2005). The disadvantages of the known device are the decrease in functionality during operation (loss of the degree of tightness or uniformity of the seals to the mating parts of the structure) and the inability to regulate the efforts of pressing the ring seals to the ball plug. As a result, when it becomes necessary to shut off the flow of the working medium, the degree of required tightness of the seal may be violated.

The problem of the utility model is the elimination of these disadvantages. The technical result consists in providing the possibility of individual adjustment of the clamping force.

The problem is solved, and the technical result is achieved by the fact that in a ball valve comprising a housing with inlet and outlet nozzles equipped with cages, ring seals, between which a ball plug with a through hole is connected to the spindle, and springs pressing the clips with ring seals to the ball plug , the clips with seals are located inside the nozzles, behind the clips in each nozzle they are made uniformly around the circumference of the nest, in which the indicated springs and bearings are placed, and the nozzles are made to tsevaya bore forming pockets for pad, in which for each receptacle formed threaded holes, into which installed acting on the support spring adjustment screws.

In FIG. 1 shows a longitudinal section of the proposed ball valve; in FIG. 2 is an enlarged view A of FIG. 1.

The ball valve comprises a housing 1, an inlet and an outlet pipe 2, ring seals 3, between which a ball plug 4 with a through hole is placed. The plug 4 is connected to the drive spindle 5. The clips 9 with O-rings 3 are located inside the nozzles 2. Behind the clips in each nozzle are made uniformly around the circumference of the socket, in which the springs 8 and bearings 7 are placed. The springs 8 press the clip 9 with the O-rings 3 to the ball plug 4. In order to be able to adjust the required tightness characteristics and fine-tune the pressing force of each spring 8, an annular bore is made in the nozzles, forming an area behind the sockets, on which a thread is made behind each socket marketing openings into which are mounted on a support 7 acting springs 8 adjusting screws 6. Nozzles 2 are made of the same material as the body 1 and fastened thereto by welding 10.

The proposed crane works as follows.

The flow of the working medium is supplied to the housing 1 through the inlet pipe 2, to the ball plug 4, which closes the passage section of the tap. Depending on the degree of pressing force of each of the springs 8, the required degree of compression of the seal around their perimeter is achieved through the clip 9 of the annular seal 3 to the ball plug 4 contact. The degree of pressing force at each of the contact areas of the annular seal 3 and the ball plug 4 is regulated by screws 6, providing the possibility of individual adjustment of the desired characteristics. The achieved result is monitored visually or using a measuring device connected to the outlet pipe.

Specially made inside the form of nozzles 2, provides free access to the screws 6 for the entire period of operation or maintenance of the ball valve.

The proposed utility model allows you to save and situationally restore the required pressure for tightness of the seal pressure of the ball valve. This design makes it possible to significantly increase the reliability of use and the consistency of the joints of the sealing joints of the ball valve, and a special system of mechanical adjustment of the sealing elements provides the possibility of restoring the tightness.

Claims (1)

A ball valve comprising a housing with inlet and outlet nozzles, cage ring seals, between which there is a ball plug connected with a spindle with a through hole, and springs that press the cage with ring seals to the ball plug, characterized in that the cage with seals are located inside the pipes , behind the clips in each nozzle are made uniformly around the circumference of the nest, in which the indicated springs and support are placed, and the annular bore is made in the nozzles, forming a square behind the nests an adka, on which threaded holes are made behind each socket, into which adjusting screws acting on the spring support are installed.

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