RU163867U1 - GATE VALVE - Google Patents

Abstract

A gate valve, comprising a housing with a passage channel, a gate, seats, a driving nut and a spindle connected to the gate, characterized in that a cylindrical selection is made from each gate wall facing the saddle, located coaxially with the seat when the valve is closed, a through hole is made at the bottom of one cylindrical sample, coaxial to this sample, and next to it from the bottom of the cylindrical sample, identical through cylindrical channels are made, which are equally spaced from the axis of the through hole, moreover the through hole is axially movable with a rod located coaxially on the disk located in one cylindrical sample, the diameter of the disk being selected less than the diameter of the cylindrical sample in which the disk is located, the length of the rod being selected greater than the depth of the through hole, while at the free end of the rod a thread is made where the nut is wrapped, and between the nut and the bottom of the cylindrical sample facing the nut, a compression spring is installed on the rod, pressing the disk to the bottom of the other cylindrical sampling, while the disk closes the through cylindrical channels.

Description

The utility model relates to pipeline valves, in particular to slide gate valves, and can be used on pipelines transporting liquids.

Known gate valve ed. St. USSR No. 1265431, cl. F16K 3/14, 1986, in which the locking disk is provided with an axis passing through the carriage, which is moved under the action of the spindle along the guide ribs of the housing, and at the time of closure along the inclined surfaces of the stops placed in the side walls of the housing. In this case, a guaranteed gap is provided between the carriage and the axis of the locking disk, due to which, after touching the locking disk, subsequent horizontal movement of the disk occurs due to the continued movement of the carriage along the inclined surfaces of the stops. This device only works reliably in the vertical position of the valve, which limits its scope.

Also known gate valve ed. St. USSR No. 1430655, cl. F16K 3/02, publ. 10/15/1988, comprising a housing with a passage channel, a gate, seats, a running nut and a spindle connected to the gate. In the known valve, when the gate is in the closed position, the movement of liquid in the direction to and from the valve stops. In order for the liquid to be able to move in only one direction in the pipeline connected with this valve, a non-return valve is connected to the pipeline next to the valve with a pipe.

The objective of the utility model is to expand the technical capabilities of the slide gate valve by preventing fluid from moving in one direction and providing fluid movement in the other direction when the gate is closed.

This problem is solved in that in a slide gate valve containing a housing with a passage channel, a gate, seats, a spindle nut and a spindle connected to the gate, it is new that a cylindrical selection is made from each gate wall facing the saddle, located coaxially with the saddle in the closed position of the valve, while from the bottom of one cylindrical sample, coaxial to this sample, a through hole is made, and next to it from the bottom of the cylindrical sample, the same through cylindrical channels remote from the axis of the through opening are made at equal distances, with the axle moving axially displaceable in the through hole to a rod located coaxially on the disk located in one cylindrical sample, the diameter of the disk being selected less than the diameter of the cylindrical sample in which the disk is located, the length of the rod being selected greater than the depth of the through hole at the same time, a thread is made on the free end of the rod, where the nut is wrapped, and between the nut and the bottom of the cylindrical selection facing the nut, a compression spring is installed on the rod, pressing the second disk to the bottom of another cylindrical sample, while the disk closes the through cylindrical channels.

In FIG. 1 shows a slide gate valve (without connecting the gate to the spindle).

The gate valve (hereinafter referred to as the gate valve) comprises a housing 1 with a passage channel 2, a gate 3, seats 4, a running nut (not shown in Fig.) And a spindle 5 connected to the gate 3. On each wall 6 of the gate 3 facing the seat 4 , made a cylindrical sample 7, located coaxially to the seat 4 with the closed position of the valve. A through hole 9 is made from the bottom 8 of the left cylindrical sample 7, coaxial to this sample. Near the through hole 9 from the bottom 8 of the cylindrical sample 7, identical through cylindrical channels 10 are made. They are removed from the axis of the through hole 9 by equal distances. In the through hole 9, a rod 11 is mounted with the possibility of axial movement, located coaxially on the disk 12 located in the left cylindrical sample 7. The diameter of the disk 12 is chosen smaller than the diameter of the cylindrical sample 7 in which this disk is located. The length of the rod 11 is selected to be greater than the depth of the through hole 9. At the same time, a thread is made on the free end 13 of the rod 11, where the nut 14 is screwed. Between the nut 14 and the bottom 15 of the right cylindrical sample 7 facing the nut, a compression spring 16 is installed on the rod 11, pressing the disk 11 to the bottom 8 of the left cylindrical sample 7. In this case, the disk 11 closes the through cylindrical channels 10.

The principle of operation of the valve is as follows. When the spindle 5 is rotated, the gate 3 connected to it is opposite the seats 4. In this case, due to the fact that the disk 12 closes the through cylindrical channels 10 and the gate 3 closes the passage channel 2, the fluid stops moving in the direction from the left space 17 of the passage channel 2 to the right space 18. With increasing fluid pressure in the right space 18 of the passage 2, under the influence of the fluid pressure, the disk 12 moves to the left of the bottom 8 of the left cylindrical sample 7. In this case, the fluid through the through cylindrical channels 10, the gap between the side walls of the disk 12 and the left cylindrical sample 7, and also through the left saddle 4 enters the left space 17 of the passage channel 2. After reducing the fluid pressure in the right space 18 of the passage channel 2, under the action of the compression spring 16, the disk 11 is pressed to the bottom 8 of the left cylindrical sampling 7. The disk 11 closes the through cylindrical channels 10. Therefore, the movement of the liquid in the direction from the left space 17 of the passage channel 2 to the right space 18 is stopped.

The proposed valve performs the function of stop valves and the function of a check valve, and the prototype serves only as a stop valve. Therefore, in comparison with the prototype, the proposed valve expands technical capabilities. This allows to reduce the number of connections in the pipeline and - the metal consumption of the pipeline equipment.

Claims (1)

A gate valve, comprising a housing with a passage channel, a gate, seats, a driving nut and a spindle connected to the gate, characterized in that a cylindrical selection is made from each gate wall facing the saddle, located coaxially with the seat when the valve is closed, a through hole is made at the bottom of one cylindrical sample, coaxial to this sample, and next to it from the bottom of the cylindrical sample, identical through cylindrical channels are made, which are equally spaced from the axis of the through hole, moreover the through hole is axially movable with a rod located coaxially on the disk located in one cylindrical sample, the diameter of the disk being selected less than the diameter of the cylindrical sample in which the disk is located, the length of the rod being selected greater than the depth of the through hole, while at the free end of the rod a thread is made where the nut is wrapped, and between the nut and the bottom of the cylindrical sample facing the nut, a compression spring is installed on the rod, pressing the disk to the bottom of the other cylindrical sampling, while the disk closes the through cylindrical channels.

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