RU85597U1 - VALVE - Google Patents

Abstract

A valve containing a housing with inlet and outlet channels communicating with each other by a spherical-shaped chamber with through-holes, and a locking mechanism located in the housing in the form of a screw spindle, at one end of which a flywheel is installed, and a disk spool in contact with the seat and overlapping is installed on the other end the bypass hole in the closed position of the valve, characterized in that the screw spindle is screwed into the cover, tightly wrapped in the housing, between the inner surface of the cover and the spindle is installed with lnik clamped threaded member on a threaded shank fixed spool sealing washer, disc valve is mounted on the lower end of the spindle so that it has freedom of movement in the vertical and horizontal planes and free rotation of the spindle.

Description

The utility model relates to the field of mechanical engineering and can be used in plumbing and other systems to shut off the fluid supply, both at production facilities (in particular, in internal fire water supply systems) and domestic facilities.

Known valve [1] comprising a housing made in the form of a hemisphere with a through hole, a shut-off body in the form of a spool, and a spindle at one end of which a flywheel is mounted, is located in the housing.

The disadvantage of this valve is that it

1. Has a complex structure in the sense of ensuring manufacturability - the exact execution of the axis of rotation of the spool to the seat plane is necessary.

2. The spool blocking the hole is fixed relative to the seat of the body, which does not allow for high-quality sealing with the valve closed.

Also known [2] is a valve comprising a housing with a through hole, a cover with a seal fixed with a threaded connection in the upper part of the housing, a spindle placed on the thread in the cylindrical opening of the cover with axial movement, a shut-off element made in the form of a spool, fixed at the end of the spindle and blocking the passage hole in the housing.

The disadvantage of this valve is that it

1. Has insufficient bandwidth due to the cylindrical shape of the housing.

The closest analogue (prototype) of the claimed utility model is a valve [3] containing a housing made in the form of a hemisphere with a through hole, a shut-off element made in the form of a spool at the end of the spindle and overlapping the inlet in the housing, and a flywheel mounted on one end of the spindle.

A common disadvantage of these valves is that they

1. It has low reliability due to the fact that the sealing element of the spool is made in the form of a rubber ring installed in the spool. With strong compression of the spool, the rubber ring can be squeezed out into the passage opening, as a result, the tightness will be broken, which will require frequent replacement of the rubber ring.

2. Has a low maintainability. So, to replace the sealing elements, when they are worn, between the spindle and the housing, it is necessary to dismantle the valve from the pipeline network and do a complete disassembly.

The overall technical result of the proposed technical solution is to increase reliability and maintainability by eliminating the above disadvantages of analogues and prototype.

This technical result is achieved in that the valve comprising a housing with inlet and outlet channels communicating with each other by a spherical chamber with through holes, and a locking mechanism located in the housing in the form of a screw spindle, at one end of which a flywheel is mounted, and a disk mounted on the other spool in contact with the seat and closing the bypass hole in the closed position of the valve, characterized in that the screw spindle is screwed into the cover, tightly wrapped in the housing, between the inner An oil seal is clamped on the surface of the cover and the spindle, clamped by a threaded element, a sealing washer is fixed on the threaded shank of the spool, the disk spool is fixed on the lower end of the spindle so that it has freedom of movement in the vertical and horizontal planes and free rotation relative to the spindle.

An example of the device of the inventive valve is presented in figure 1

The valve comprises: a housing 1 with an input 2 and an output 4 channels communicating with each other by a spherical chamber with passage holes, a cylindrical seat 3 is located on the lower passage hole, which serves to block the flow of the working medium and a locking mechanism in the form of a screw spindle located in the housing 1 5, on one end of which a flywheel 9 is fixed with a nut 8, and on the other end a disk spool is movably mounted, consisting of a disk 13 and a sealing washer 14, a screw spindle 5 is screwed into the cover 11, tightly wrapping sealing in the housing 1, the tightness in this case is provided by the ring 12. An oil seal 6 is installed between the inner surface of the cover and the spindle, clamped with a union nut 10 through the sleeve 7, on the spool disk 13, the sealing washer 14 is fixed by means of a threaded connection containing the washer 15 and the nut 16 screwed onto the threaded shank 17 of the spool disk 13.

The valve is as follows.

If the valve is fully open, fluid flows under pressure through the valve’s bypass port. With the valve fully open, the locking mechanism, consisting of a spindle 5 on which the spool is mounted, is in its highest position. Its upper position is limited by the cover 10. In this case, the fluid flow freely flows from the input channel 2 to the output channel 4. Due to the hemispherical shape of the housing 1, the hydraulic resistance is significantly reduced and, therefore, increases the throughput of the inventive valve, thereby eliminating the disadvantage of the analog [2] .

To shut off the valve fluid flow, it is necessary to rotate the flywheel 9, which drives the spindle 5. The spindle 5 is screwed into the cover 11 with a thread, and the spool is lowered onto the seat 3, blocking the inlet channel 2. To eliminate leaks, a sealing washer 14 made for example, made of rubber, mounted on a threaded shank 17 of a spool valve 13 using a threaded connection (washer 15, nut 16). For a more snug fit, the spool disk 13 is mounted on the lower end of the spindle 5 movably in the horizontal plane at a small angle, and also has a slight displacement in the vertical plane to select distortions of the structure. In addition, the spool can rotate relative to the spindle 5, this is done so that when the sealing washer 14 is pressed against the surface of the seat 3, there is no shift in torsion of the sealing washer 14, and therefore its premature wear. This provides a technical result - increasing the reliability of the valve.

In the analogues and prototype, a sealing ring is used as a sealing element, which is pressed against the saddle. With significant effort, the ring is deformed and the ring is squeezed into the bore, there are no obstacles to moving. As a result, when closing and opening the valve, the o-ring wears out quickly and requires replacement, i.e. This node has low reliability.

In the inventive valve for sealing, a sealing washer 14 is used, which is pressed against the spool disk 13 with the washer 15. As a result of this design, the deformation of the sealing washer 14 when pressed against the seat 3 is evenly distributed over its entire thickness, therefore, the wear of such a seal is much lower. This achieves the technical result - increasing the reliability of the inventive valve.

To prevent leaks between the spindle 5 and the cover 11, a stuffing box is used, consisting of a stuffing box 6, clamped with a union nut 10 through the sleeve 7. The stuffing box is, for example, a fluoroplastic sleeve 6, which is pressed by the sleeve 7 using a union nut 10. This design allows you to change stuffing box 6, without removing the valve from the water supply network. To replace the stuffing box 6, it is necessary to close the valve, unscrew the nut 10, remove the sleeve 7 and replace the stuffing sleeve 6. The assembly is carried out in the reverse order and the valve is ready for operation, the whole procedure takes several minutes. The result is a technical result - increase the maintainability of the valve. In addition, if the valve is used in a fire network (and this is its main purpose) and when replacing the stuffing box 6, it is not necessary, as in the case of analogues and prototype, to turn off the fire network, then such a valve provides increased fire safety.

Unlike the analogue [1] and prototype, the spindle 5 is screwed not into the housing, but into the cover. The use of the cover 11 in the inventive valve on the one hand increases the number of parts, on the other - due to purely technological reasons associated with casting. The fact is that when casting parts with long protruding parts, a large amount of marriage occurs, which is unacceptable during mass production, therefore, a removable cover 11 is used in the inventive valve, which is screwed into the housing and sealed, for example, using a rubber ring 12. This achieves The technical result is an increase in manufacturability in mass production.

Thus, the proposed technical solution eliminates the disadvantages of analogues and prototype and increase its effectiveness.

Information sources:

1. Patent for utility model No. 73431 μl F16K 1/02.

2. Patent for the invention No. 2262629 μl F16K 1/02.

3. Patent for utility model No. 703 31 μl F16K 1/02.

Claims (1)

A valve containing a housing with inlet and outlet channels communicating with each other by a spherical-shaped chamber with through-holes, and a locking mechanism located in the housing in the form of a screw spindle, at one end of which a flywheel is installed, and a disk spool in contact with the seat and overlapping is installed on the other end the bypass hole in the closed position of the valve, characterized in that the screw spindle is screwed into the cover, tightly wrapped in the housing, between the inner surface of the cover and the spindle is installed with lnik clamped threaded member on a threaded shank fixed spool sealing washer, disc valve is mounted on the lower end of the spindle so that it has freedom of movement in the vertical and horizontal planes and free rotation of the spindle.