RU202418U1 - Regulating device - Google Patents

Abstract

A regulating device is proposed, consisting of two fastened halves - a cover and a body, a stationary liner is installed inside the body, guide flat plates and a damper located between the guide flat plates, as well as a drive that moves the damper, while inside the stationary liner and in the outlet channel of the body bushings made of material with high hardness are installed. At the same time, a damper insert is installed from the end part of the damper, while grinding of the mating surfaces of the stationary liner and the damper insert is carried out, and a bushing made of material with high hardness is installed in the through hole of the damper and damper insert. The technical result is aimed at increasing the tightness and service life of the device. 3 C.p. f-ly, 4 dwg.

Description

The utility model is intended for manual regulation of the parameters of the working medium by changing the flow area of the gate by changing the position of the damper, as well as blocking the flow of the working medium.

The device can be used to control the flow of media, the properties of which meet the requirements of the technical characteristics of the device.

The device is installed on technological pipelines intended for the transportation of a liquid or gaseous working medium, including combustible and flammable, used in the processes of petrochemistry and oil refining, production, transportation, storage and treatment of gas.

Known Russian patent No. 57409 dated 10.10.2006, which discloses a slide-type regulating device having a housing with a bypass channel for the passage of a fluid medium, equipped with suitable means for mounting on a pipeline and guides in the form of plates made of material resistant to corrosion and / or abrasive wear, which are fixed in the housing practically at right angles to the geometric axis of the specified channel and have windows corresponding to this channel in shape and flow area, a gate plate made of material resistant to corrosion and / or abrasive wear, which is placed between the guide plates along a sliding fit, and a suitable drive for the reciprocating movement of the vane plate along the guide plates between the positions "closed" and "open". In this case, the bypass channel of the body is lined with sleeves, which are at least partially made of material resistant to corrosion and / or abrasive wear, are tightly mounted inside the body, serve as stops for guide plates and are fixed against axial displacement by thrust threaded bushings, and the gate plate has in the upper part there is a window for the passage of the fluid. The disadvantage of this device is the low service life of the device, due to wear of the working surfaces.

The closest technical solution is the utility model patent No. 194097, dated 28.11.2019. This patent discloses a control valve made in the form of a body consisting of two fastened halves, inside of which flat plates and a gate plate are installed, located between the guide flat plates, and a drive that moves the shutter. In this case, the flat plates are made in the form of a flange and a stationary insert and are placed in the main part of the body, which is closed by the body cover. Bushings are installed inside the housing cover, flange, damper, stationary liner and in the outlet channel of the housing, while the housing cover bushing is made with a smoothly decreasing section of the hole passing into the hole of the flange bushing, and the damper bushing is made in the form of a cylindrical part with evenly spaced sections along the perimeter axial holes. The disadvantage of this device is not long enough service life and low tightness.

The technical result of the proposed device is to increase the tightness and service life of the device.

The technical result is achieved by the fact that the regulating device consists of two fastened halves - a cover and a body, a stationary insert, guide flat plates and a damper located between the guide flat plates are installed inside the body, as well as a drive that moves the damper. Bushings made of material with high hardness are installed inside the stationary liner and in the outlet channel of the housing. At the same time, a damper insert is installed from the end part of the damper, and grinding of the mating surfaces of the stationary insert and the damper insert is carried out, and a bushing made of material with high hardness is installed in the through hole of the damper and damper insert.

The sleeve located in the outlet channel of the housing is preferably made of a material resistant to corrosion.

The drive that moves the damper can be made in the form of a handle that moves the screw-rod and a damper attached to it. In this case, the screw-stem contains a pointer showing the value of the valve throughput on the drive scale.

The design of the device is shown in Fig. 1-4, where:

in fig. 1 shows a sectional main view of the device in open position;

in fig. 2 shows a side view of the device (with the cover 20 removed);

in fig. 3 shows a sectional main view of the device in closed position;

in fig. 4 shows callout A - the main elements of the shutter in section.

The figures show:

1 - case;

2 - protective sleeve;

3 - fixed liner;

4 - guides;

5 - damper;

6 - protective sleeve;

7 - damper insert;

8 - screw-rod;

9 - bushing;

10 - eye bolt;

11 - drive;

12 - running nut;

13 - thrust bearing;

14 - handle;

15 - bushing;

16 - pointer;

17 - scale;

18 - nut;

19 - hairpin;

20 - cover;

21 - bolt;

22 - nut;

23 - rubber sealing ring;

24 - protective ring;

25 - screw.

The device shown in FIG. 1-4 consists of a regulating mechanism and a drive.

The regulating mechanism includes a body 1, in which a protective sleeve 2 with a fixed liner is installed 3. On the liner 3 between the guides 4 there is a regulating flap 5 with a protective sleeve 6 and a damper liner 7. A stem screw 8 is installed in the groove of the damper 5.

The fixed vertical movement of the shutter 5 is provided by the guides 4 fixed to the end of the body by bolts 21.

To protect the housing 1 and the mounting flange at the device outlet from erosion and
abrasive wear, it contains a sleeve 9 of an alloy with high hardness.

To protect the bore holes from erosion and abrasive wear, a protective sleeve 6 made of an alloy with high hardness is installed in the gate 5 and liner 7; to protect the bore from erosion and abrasive wear, a protective sleeve 2 made of alloy is installed in the fixed liner 3 and the bore of the housing 1 with high hardness.

On the side of the inlet of the working medium into the housing 1, a cover 20 is installed, which is attached to the housing by means of nuts 18 and pins 19.

For slinging during installation and dismantling on the pipeline, the device is equipped with eye bolts 10.

The drive 11 (Fig. 2) is installed in the side hole of the housing 1 and is fastened with nuts 22.

The drive 11 is made in the form of a screw-rod 8 and a running nut 12 with two thrust bearings 13. The reciprocating movement of the screw-rod 8 is carried out by rotating the handle 14, connected to the running nut 12 through the sleeve 15.

The value of the throughput is determined by the position of the pointer 16 relative to the scale 17. The pointer 16 is fixedly fixed to the screw-rod 8 by the screw 25.

Device operation

The principle of operation is to change the flow area of the device by changing the position of the regulating flap 5 with the protective sleeve 6 and the insert 7 relative to the fixed protective sleeve 2 and the insert 3.

The required value of the throughput is set by moving the pointer 16 to the corresponding mark on the scale 17.

Regulation of the flow rate of the working medium from the "CLOSED" position until the position "100"% Kvy on the scale 17 is carried out by turning the knob 14 counterclockwise. The stem screw 8 moves upwardly the shutter 5 with the protective sleeve 6 and the insert 7 relative to the fixed protective sleeve 2 and the insert 3. As a result, the flow area in the protective sleeve 2 will increase, and the pointer 16 will move from the mark "CLOSED." up to “100”% Kvy on a scale of 17 (Fig. 1).

Regulation of the working medium flow from the "100"% Kvy position to the "CLOSED" position on the scale 17 by rotating the handle 14 clockwise. The stem screw 8 moves downwardly the shutter 5 with the protective sleeve 6 and the liner 7 relative to the fixed protective sleeve 2 and the liner 3. As a result, the flow area in the protective sleeve 2 will decrease, and the pointer 16 will move from the mark "100"% Kvy to the mark "CLOSED . " on a scale of 17 (Fig. 2).

The novelty of the design lies in the fact that the proposed regulating gate device is capable of performing the functions of regulating the flow (pressure) of the working medium and providing in the closed position the VI tightness class according to GOST 9544-2015 in the initial period of operation and not less than IV class of tightness according to GOST 9544-2015 for throughout the remaining service life.

A high class of tightness has been achieved due to lapping of the mating surfaces of the liners 3 and 7, made of VK8 hard alloy, as well as the inclusion in the design of replaceable protective sleeves 2 and 6, made of VK8 hard alloy, which, by means of sealing rubber rings 23 and protective rings 24, provide a high tightness class of the gate regulating elements.

Erosive and abrasive wear of surfaces B and C (Fig. 3) of expensive liners 3 and 7, which functionally participate in maintaining the tightness of the device in the closed position, is excluded. The functions of regulating the flow of the working medium in the proposed design are assigned to replaceable protective sleeves 2 and 6, made of VK8 hard alloy, thereby ensuring a long service life of the device without violating the technical characteristics (tightness class and throughput characteristics).

In the proposed device, the regulating gate type, due to the full-bore design of the protective sleeves 2 and 6 (the inner diameter of the sleeves corresponds to the nominal diameter of the device), the maximum throughput characteristic of the working medium is achieved.

In the proposed device, it is possible to change the throughput characteristic at the request of customers of this type of product by changing the configuration of the bore in bushings 2 and 6 (oval hole, slotted hole, a number of cylindrical holes and other geometric shapes and their combinations) without replacing expensive carbide inserts 3 and 7.

The design of the proposed regulating device provides for the possibility of replacing quickly wearing parts of the drive 11 without dismantling the device from the pipeline, that is, without shutting down the technological line and stopping the supply of the transported medium.

Claims (4)

1. A regulating device, consisting of two fastened halves - a cover and a body, a stationary liner is installed inside the body, guide flat plates and a damper located between the guide flat plates, as well as a drive that moves the damper, while inside the stationary liner and in the output channel of the body, bushings made of material with high hardness are installed, characterized in that a damper insert is installed from the end part of the damper, while lapping of the mating surfaces of the stationary liner and the damper liner is carried out, and a bushing is installed in the through hole of the damper and damper liner, made of material with high hardness. 2. A regulating device according to claim 1, characterized in that the sleeve located in the outlet channel of the housing is made of a material resistant to corrosion. 3. A regulating device according to claim 1, characterized in that the drive for moving the shutter is made in the form of a handle that moves the screw-rod and a shutter attached to it. 4. A regulating device according to claim 1, characterized in that the screw-stem contains an indicator showing the value of the valve throughput on the drive scale.

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