RU196798U1 - Angle valve - Google Patents

Abstract

An angular valve is proposed, including a body, input and output channels of the body located at an angle of 90 °, a sleeve installed at the intersection of the channels, a plunger installed in the sleeve and configured to block the channels, a cover with a rod and scale placed in it sealed in it, and the steering wheel, the rotation of which moves the rod and the plunger connected to it. The inlet channel of the housing is made in the form of a separate inlet sleeve connected to the housing; a drain valve is installed in the housing cover to relieve excess pressure from the valve body and a drain valve is used to relieve excess pressure from the stem seal assembly and at least one check valve for supplying paste sealing into the stem seal assembly. In this case, the sleeve installed at the intersection of the channels includes a seat oriented in the output channel made of a material with high hardness and which has the ability to overlap the plunger, as well as the fact that a cup-shaped nozzle made of high hardness material is connected to the plunger body, made with the ability to overlap the saddle. The technical result is an increase in reliability and service life at the maximum possible differential pressure on the shut-off element. 2 s.p. f-ly, 3 ill.

Description

The proposed utility model relates to shut-off and control devices and is intended for manual control of the flow (pressure) of the working medium by changing the bore in the pipeline.

The Chinese patent CN 205226409 of 05/11/2016 is known, in which an angular valve is disclosed, comprising a housing, input and output channels of the housing located at an angle of 90 °, a sleeve installed at the intersection of the channels, a plunger installed in the cell sleeve and configured to overlap channels, a cover, with a rod placed in it with a scale and hermetically sealed in it, and a steering wheel, the rotation of which moves the rod and the plunger connected to it.

The disadvantage of this valve is the low reliability and maintainability of the valve.

The closest source is RF patent No. 192418 angular control valve. This valve includes a housing, inlet and outlet ducts of the housing located at an angle of 90 °, a cell sleeve installed at the intersection of the channels, a plunger installed in the cell sleeve and configured to block the channels, a cover with a rod placed in it with a scale and hermetically sealed in it, and the steering wheel, the rotation of which moves the rod and the plunger connected to it. In this case, the inlet channel of the body is made in the form of a separate inlet cover attached to the body, a drain valve is installed in the body cover to relieve excess pressure from the valve body, and a drain valve is used to relieve excess pressure from the stem seal assembly, and at least one valve reverse for feeding sealing paste to the stem seal assembly.

The disadvantage of the closest analogue is the lack of reliability and maintainability of the valve, in particular the plunger.

The technical result is an increase in reliability and service life at the maximum possible differential pressure on the shut-off element.

The technical result is achieved by the fact that the angle valve includes a body, input and output channels of the body located at an angle of 90 °, a sleeve installed at the intersection of the channels, a plunger installed in the sleeve and configured to block the channels, a cover with a rod with a scale and hermetically sealed in it, and a steering wheel, the rotation of which moves the rod and the plunger connected to it. The input channel of the housing is made in the form of a separate input sleeve connected to the housing. In the housing cover, a bleed valve is installed to relieve excess pressure from the valve body and a bleed valve is used to relieve excess pressure from the stem seal assembly and at least one check valve for supplying the paste paste to the stem seal assembly. In this case, the sleeve installed at the intersection of the channels includes a seat oriented in the output channel made of a material with high hardness and which has the ability to overlap the plunger, as well as the fact that a cup-shaped nozzle made of high hardness material is connected to the plunger body, made with the ability to overlap the saddle.

The cup-shaped nozzle can be attached to the plunger body by means of a screw.

In addition, in the outlet channel of the housing, it is preferable to have a protective sleeve made of a material with high hardness.

The essence of the claimed technical solution is illustrated by the drawings of FIG. 1-4, where

the figure 1 shows the Assembly drawing of the proposed valve in section,

figure 2 shows a side view,

figure 3 shows an assembly drawing of a plunger,

figure 4 shows the assembly drawing of the drive.

In the figures, the positions indicate the following details:

1 - housing

2 - sleeve with through holes,

3 - saddle,

4 - plunger assembly,

5 - ring

6 - cover

7, 8 - drain valves,

9, 10 - check valves,

11 - input sleeve

12, 13 - bushings,

14 - rod seals,

15 - spacer sleeve,

16 - protective sleeve,

17, 18, 19, 20, 21 - rubber sealing rings,

22, 23, 24, 25, 26 - protective rings,

27 - pointer

28 - stock

29 - nozzle,

30 - spacer sleeve,

31 - the seal of the plunger,

32 - screw

33 - support ring,

34 - helm

35 - drive screw,

36 - nut

37 - gear sleeve,

38 - bearings

39 - key,

40 - a glass.

The valve consists of a regulating mechanism and a drive.

The control mechanism includes a housing 1, in which are installed: a sleeve with passage holes 2, a seat 3, a plunger 4 and a ring 5. On top of the housing 1 is a lid 6 attached, with drain valves 7 and 8 installed in it, and non-return valves 9 and 10 and the seal assembly B of the rod 28 of the plunger 4.

On the side of the housing 1, the input sleeve 11 is mounted.

The stem seal assembly of the plunger 4 consists of a sleeve 12, a sleeve 13, a shaft seal 14 and a spacer sleeve 15.

The drain valve 7 is used to relieve excess pressure from the valve body.

The drain valve 8 serves to relieve excess pressure from the stem seal assembly.

Check valves 9 and 10 are used to supply sealing paste, for example, 131-435 KGU type 1 TU 2257-001-605655188-2009 in the stem seal assembly.

To protect the housing 1, the mounting flange and the pipe at the valve outlet from erosion and abrasive wear, a protective sleeve 16 made of an alloy with high hardness is located in the housing 1.

The tightness of the sealing joints in the regulating mechanism is provided by rubber sealing rings 17, 18, 19, 20, 21 and protective rings 22, 23, 24, 25, 26.

The design of the plunger 4 is shown in FIG. 3.

The plunger consists of a rod 28, a nozzle 29, a spacer sleeve 30, a screw 32. A support ring 33, a seal of the plunger 31 are installed on the rod 28.

Principle of operation.

The regulation of the parameters of the working medium is carried out by changing the area of the bore of the shutter when moving the plunger 4 relative to the seat 3, while the regulation of the parameters of the working medium occurs between the profile surface of the plunger and the edge of the seat.

Actuation of the valve is carried out by the actuator of FIG. 4

The rod 28 through the hole B2 located in the upper part (Fig. 3) and the drive screw 35 through the hole B1 located in the lower part (Fig. 4) are rigidly interconnected by means of a pointer 27 (Fig. 2).

The steering wheel of the actuator 34 is fixedly mounted on the transfer sleeve 37, which is connected via a key 39 to the nut 36. The axial movement of the nut 36 is limited by bearings 38, which in turn allow the steering wheel to rotate without any special effort.

The drive screw 35 with the external threaded part is in constant conjugation with the internal thread of the nut 36, and the external cylindrical part has the possibility of axial movement in the inner cavity of the glass 40.

Thus, the rotational movement of the helm 34 is converted into the translational motion of the screw of the actuator 35, which is rigidly connected to the rod 28 of the plunger 4.

When the rotation of the steering wheel 34 of the actuator clockwise, the rod 28 with the plunger 4 moves down, and the valve closes;

When the rotation of the steering wheel 34 of the actuator counterclockwise, the rod 28 with the plunger 4 moves up and the valve opens.

The originality and novelty of the design of the control angle valve is that a non-standard design solution is used in the valve design - the nozzle 29 of the plunger 4 has a cup-shaped shape and is made of VK8 hard alloy. The design of the plunger 4, in contrast to the previously used cell type, has acquired rigidity, reliability and maintainability.

The use of carbide valve parts (seats 3 and nozzles 29) made of VK8 hard alloy allows a sufficiently high tightness class of the locking element (up to class VI according to GOST 9544-2015), eliminates its erosive and abrasive wear, and significantly improves the passage of the transported medium with the orientation of the flow in the output channel, i.e. to exclude cavitation, and also to increase reliability and service life at the maximum possible differential pressure on the shut-off element of 21 MPa

Claims (3)

1. Angle valve, comprising a housing, input and output channels of the housing located at an angle of 90 °, a sleeve installed at the intersection of the channels, a plunger installed in the sleeve and configured to block the channels, a cover with a rod with a scale and hermetically sealed in it, and the steering wheel, the rotation of which moves the rod and the plunger connected to it, while the input channel of the housing is made in the form of a separate input sleeve connected to the housing, a drain valve is installed in the housing cover to discharge excess pressure from the valve body and a bleed valve to relieve excess pressure from the stem seal assembly and at least one check valve to supply sealing paste to the stem seal assembly, characterized in that the sleeve installed at the intersection of the channels includes a saddle oriented in the output channel, made of a material with high hardness and which has the ability to overlap the plunger, as well as the fact that a cup-shaped nozzle of a material with high hardness is attached to the plunger body to overlap the saddle. 2. The valve according to claim 1, characterized in that the cup-shaped nozzle is connected to the plunger body by means of a screw. 3. The valve according to claim 1, characterized in that in the output channel of the housing is a protective sleeve made of a material with high hardness.

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