RU57410U1 - LATCH - Google Patents

Abstract

The invention relates to valves and is designed to shut off the flow of the working medium in the pipeline.

The technical result of the proposed utility model is to reduce the wear of the sealing surfaces, reducing the drive force when opening.

The valve comprises a housing in which a double-disk shutter is placed, interacting with the sealing seats of the housing. The double-disk shutter consists of two locking discs with external sealing surfaces and a drive for moving them.

According to a utility model, the displacement drive is made in the form of two unidirectional wedges installed between the locking discs, interconnected by a thrust. The rod is equipped with additional wedge elements placed with the possibility of interaction with mating wedge elements fixed on the inner surface of the locking discs. On the inner surface of the locking discs, the bevels reciprocating with unidirectional wedges are made.

Description

The invention relates to valves and is designed to shut off the flow of the working medium in the pipeline.

Known valve according to the patent of the Russian Federation No. 1222206, IPC F 16 K 3/14.

The valve comprises a housing in which a double-disk shutter and a drive for moving it are placed. Wedge-shaped disks of the shutter are made with external sealing surfaces interacting with the sealing seats of the housing, and recesses made on the opposite sides of the disks at the level of the sealing surfaces. The movement drive is made in the form of a spindle, on which disks are suspended, and spring elements. The spring elements are made of at least two rings installed with the possibility of axial movement relative to each other, rings made with conical surfaces in contact with each other.

The known valve is the closest in combination of essential features to the claimed utility model and is selected as the closest analogue (prototype).

The disadvantages of the known valves are the intense wear of the sealing surfaces and the large drive force when opening.

These disadvantages are due to the following.

When closing the valve, the spindle with locking discs moves down until the sealing surfaces of the locking discs come into contact with the sealing seats of the housing. Further movement of the spindle with the locking discs down leads to the sliding of the sealing surfaces of the disks along the sealing seats, increasing the force of pressing them against each other, drawing the disks together while increasing the diameter of the central spring ring. In this way,

the tightness of the seal is ensured by both the force on the spindle and the force arising from the stress state of the central spring ring. Therefore, when opening the valve, the actuator must overcome both the force of the preliminary wedging between the sealing surfaces of the discs and seats, and the force from the stressed spring ring. After straining the sealing surfaces of the disks relative to the seats, the bursting force from the spring ring acting on the disks continues to prevent the spindle from moving upward, creating an additional friction force between the sealing surfaces of the disks and the saddles.

Sliding under load on the sealing surfaces of the discs and seats results in intensive wear. All this reduces the reliability and durability of the device as a whole.

The technical result of the proposed utility model is to reduce the wear of the sealing surfaces, reducing the drive force when opening.

The specified technical result is achieved by the fact that in the valve, in the body of which there is a double-disk shutter, interacting with the sealing seats of the body and consisting of two locking disks with external sealing surfaces and a drive for moving them, according to a utility model, the moving drive is made in the form installed between the locking discs two unidirectional wedges interconnected by a rod provided with additional wedge elements placed with the possibility of interaction with wedges elements fixed on the inner surface of the locking discs, while on the inner surface of the locking discs the bevels reciprocating with unidirectional wedges are made.

The essence of the utility model is illustrated by graphic materials, where:

- figure 1 shows a General view of the valve;

- figure 2 - remote element 1 in figure 1.

The valve comprises a housing 1, in which a double-disk shutter is placed, interacting with the sealing seats 2 of the housing 1. The shutter consists of two locking disks 3 with external sealing surfaces 4. The drive for moving the disks 3 is made in the form of two unidirectional wedges 5 interconnected between them thrust 6. Thrust 6 is equipped with additional wedge elements 7, placed with the possibility of interaction with wedge elements 8, fixed by welding on the inner surface of the disks 3. Also, on the inner surface of the disk 3 is made reciprocal unidirectional wedges 5 bevels 9.

When closing the valve, the locking discs 3 using the rod 6 are installed opposite the sealing seats 2 of the housing 1. With the further movement of the rod 6 downward, unidirectional wedges 5, moving along the bevels 9, move the disk 3 towards the seats 2 of the housing 1 with the necessary force, ensuring the valve is sealed for due to the contact of the sealing surfaces of the 4 disks 3 with the saddles 2 of the housing 1.

When the valve opens, the thrust 6 with unidirectional wedges 5 moves upward, removing the bursting force on the disks 3. At the same time, the additional wedge elements 7, interacting with the wedge elements 8, divert the sealing surfaces 4 of the locking disks 3 from the sealing seats 2 of the housing 1 with the formation of a guaranteed gap between them . Further movement of the thrust 6 upward brings the locking discs 3 out of the area of the sealing seats 2 of the housing 1.

Thus, both when closing and opening the valve, sliding under load of the sealing surfaces 4 of the disks 3 and the sealing seats 2 of the housing 1 relative to each other is eliminated, while the wear of the sealing surfaces is reduced, it is ensured

the ability to perform compaction from elastic materials resistant to aggressive and abrasive media. Also, in comparison with the prototype, the drive force at opening is reduced.

In addition, the claimed utility model allows the use of existing body parts of commercially available valves type 30s41nzh; 30s41p, p; 31s942r; 30h6bk, p; and also apply elastic abrasion-resistant materials, for example, rubber mixtures 7B-14, H068-1 and other elastomers, to the sealing surfaces of the disks.

Claims (1)

The valve, in the housing of which there is a double-disk shutter, interacting with the sealing seats of the housing and consisting of two locking disks with external sealing surfaces and a drive for moving them, characterized in that the movement drive is made in the form of two unidirectional wedges installed between the locking disks interconnected by a rod equipped with additional wedge elements placed with the possibility of interaction with mating wedge elements fixed to the inner surface the locking discs, while on the inner surface of the locking discs the bevels reciprocating with unidirectional wedges are made.