RU89230U1 - INTER-FLANGED PLUG - Google Patents

Abstract

1. An interflange plug containing a round metal plate that overlays the bore of the flanges and sealing elements, characterized in that the sealing elements protruding above the end surfaces of the round metal plate made in the form of a disk are mounted on the end surfaces of the round metal plate with the possibility of blocking the bore of the flanges and partial overlap of the sealing surfaces of the flanges, and made in the form of rings mounted on the end surfaces of a round m the metallic plate, with only partial overlap sealing surfaces of flanges, the circular metal plate is provided with a radially directed tool holder protruding over the flanges compound. ! 2. The interflange plug according to claim 1, characterized in that the sealing element in the form of a disk is made of either paronite, or polytetrafluoroethylene, or rubber, or expanded graphite with a density of 1.2-1.8 kg / cm2. ! 3. The wafer plug according to claim 2, characterized in that the sealing element, made in the form of an expanded graphite disk, is clad with a composite material based on fiberglass impregnated with a fluoroplastic suspension, followed by heat treatment, with the formation of a composite outer ring edge covered by a metal ring mounted on a round metal plate to fix the sealing element on the round metal plate. ! 4. The wafer plug according to claim 1, characterized in that the sealing element, made in the form of a disk or of paronite, or polytetrafluoroethylene, or rubber, is equipped with

Description

The inventive utility model relates to a sealing technique and can be used in testing the strength and tightness of sections of transport pipelines during repairs by overpressure.

One of the problems in this industry is the protection of pipe fittings during such tests. A prerequisite for such repairs is the installation of a plug between the pipe flanges and the pipe fittings. This installation is associated with great difficulties, since the plug must be installed between the existing flange connection, for which it is necessary to disconnect the bolt connections of the flanges and slide the flanges to accommodate the interflange plugs between them. Since the flanges can only be extended a small distance, the interflange plug must be as thin as possible, but at the same time it must withstand significant forces from overpressure. Obviously, this problem is becoming especially acute with increasing diameter of the tested pipeline.

Known removable plug (SU No. 1257421 A2, publ. 09/15/1986), which contains worn on the pipe end metal ring, on the end surface of which is placed a sealing ring. Such a removable plug cannot be used to install it between the pipe flange and the pipe fittings flange.

Also known is a removable plug (SU No. 1399650 A1, publ. 05/30/1988), which is made in the form of a cup worn on the test pipe, on the inner surface of which is made an annular groove under the annular sealing element in contact with the outer surface of the test pipe. Such a removable plug can also not be used for its installation between the pipe flange and the pipe fittings flange.

A device for sealing flanges (SU No. 1227878 A1, publ. 04/30/1986), which contains placed between the flanges of a sealant of plastic material, covered open on the end surfaces, shells with a gap between their ends, while open shell made in the form one and a half, on the end surfaces of which there are stops, and the seal is partially located also between the stops of the shells. Such a device has a significant thickness; it is not intended to block the passage between the flanges, and therefore cannot be used during repair work on the transport pipeline.

Known plug for testing the hydraulic pressure of the valves (SU No. 19878 A1, publ. 03/31/1931), which is made in the form of a metal washer and rubber gasket placed between the washer and the valve flange. When using such a plug during testing of the transport pipeline, it is necessary to have an additional rubber gasket to place it between the washer and the pipe flange. Since all three elements forming the interflange plug are not interconnected, their installation will cause certain difficulties, since it will require diluting the flanges by a significant amount to facilitate assembly of the connection, which is usually impossible.

The closest in technical essence with respect to the claimed utility model is an interflange plug (SU No. 1302056 A1, publ. 04/07/1987), containing a round plate overlapping the bore of the flanges and sealing elements, while the sealing elements are placed in a separate ring, resting one end face on the end surface of a cylindrical bore made in the first flange, and the second end surface on the end surface of a round plate located in the second bore on the flange and overlapping through-hole flange. The opposite end surface of the round plate is provided with a conical surface interacting with the counter conical surface made in the second flange.

The presence of bores in the flanges of the joint increases their thickness and complicates their design, while such a design of the flanges should be provided on all pipes and fittings, since an accident can occur on any part of the transport pipeline. This complicates the process of manufacturing flanges and increases the cost of their manufacture. Placing a round plate completely in a cone-shaped bore of one of the connection flanges requires an increased clearance between the flanges for its installation and complicates the installation process.

The technical result achieved by the claimed utility model consists in simplifying the manufacture of an interflange plug, simplifying the design of the flanges of the connection, in the possibility of installing an interflange plug in the presence of a small gap between the flanges during repair work.

The present utility model was based on the task of developing a simple design for the interflange plugs, which ensures its easy installation between the flanges during repair work on the transport pipeline.

The technical result is achieved by the fact that in the interflange plug containing a round metal plate overlapping the passage of the flanges and the sealing elements, according to the utility model, the sealing elements protruding above the end surfaces of the round metal plate are made in the form of disks and are mounted on the end surfaces of the round metal plate with the possibility overlapping the bore of the flanges and partial overlap of the sealing surfaces of the flanges, and made in the form of a stake fixed to the end surfaces of circular metal plates, with only partial overlap of the sealing surfaces of flanges, the circular metal plate is provided with a radially directed tool holder protruding over the flanges compound.

The technical result is also achieved by the fact that the sealing element in the form of a disk can be made of paronite, or polytetrafluoroethylene, or rubber, or expanded graphite with a density of 1.2-1.8 kg / cm ² .

It is advisable that the sealing element made of expanded graphite be clad with a composite material based on fiberglass impregnated with a fluoroplastic suspension, followed by heat treatment and with the formation of the composite material an annular outer edge covered by a metal ring mounted on a round metal plate to fix the sealing element on a round metal plate.

A sealing element made of either paronite or polytetrafluoroethylene or rubber can be provided with an annular outer edge, enclosed by a metal ring mounted on a round metal plate, to fix the sealing element on a round metal plate.

A sealing element made of either paronite or polytetrafluoroethylene or rubber can be surrounded by a metal ring on the end surface of the aforementioned disk mounted on a round metal plate to fix the sealing element on a round metal plate.

The end surfaces of a round metal plate can be equipped with semicircular flanges positioned at an angle to the holder to accommodate a sealing element made of paronite or polytetrafluoroethylene.

The technical result is also achieved by the fact that the sealing element in the form of a ring can be made of paronite or polytetrafluoroethylene.

The sealing element, made in the form of a ring of paronite or polytetrafluoroethylene, can be provided with a ring-shaped outer edge covered by a metal ring mounted on a round metal plate to fix the sealing element on a round metal plate.

The sealing element, made in the form of a ring of paronite or polytetrafluoroethylene, can be surrounded by a metal ring on the end surface of the above ring, mounted on a round metal plate, to fix the sealing element on a round metal plate.

It is advisable to make a round plate from heat-treated steel to a hardness of at least HR _c 28-32 steel.

A distinctive feature of the inventive interflange plugs is that the sealing elements are placed and fixed on the end surfaces of a round metal plate, which is equipped with a radially directed holder protruding above the flanges of the connection, while the round metal plate is made of heat treated to a hardness of at least HR _c 28- 32 steel. This design of the interflange plug allows to simplify the process of its installation between the flanges during the repair of the transport pipeline, since the gap between the pipe flange and the flange of the pipe fittings can be significantly reduced. The presence of a holder facilitates the installation of an interflange plug between the flanges, and the placement of sealing elements on a round metal plate allows you to refuse to perform boring in the flanges and turn the installation process of the interflange plug into the installation process of one part.

These and other features of the claimed utility model will be given below with reference to the accompanying drawings, which depict:

figure 1 - flange connection;

figure 2 is a General view of the interflange plug;

figure 3 is a section along aa (figure 2);

figure 4 is a section along aa (figure 2) is an option;

figure 5 is a section along aa (figure 2) is an option;

6 is a view of the interflange plugs - option;

Fig.7 is a section along aa (Fig.6);

Fig.8 is a section along aa (Fig.6) - option;

The inventive wafer plug 1, designed to seal the flange connection (Fig. 1), is installed between two flanges 2 and 3 of the connection with fasteners (not shown), which can be made in the form of bolt pairs, stud pairs or in the form of ring bolts, pivotally mounted on one of the connection flanges.

The interflange plug 1 (FIG. 2) comprises a round metal plate 4 that overlays the passage hole of the flanges 2 and 3 and sealing elements 5 that protrude above the end surfaces of the round metal plate 4 and are fixed to the end surfaces of the round metal plate with the possibility of overlapping the passage section of the flanges. A round metal plate 4, made of heat-treated steel to a hardness of at least HR _c 28-32, is equipped with a radially directed holder 6, protruding above the flanges 2 and 3 of the connection. The sealing element 5 can be made in the form of a disk overlapping the bore of the flanges and partially sealed surfaces of the flanges, of paronite or polytetrafluoroethylene, or rubber, or expanded graphite with a density of 1.2-1.8 kg / cm ² , or in the form of a ring, partially overlapping sealing surfaces of flanges made of paronite or tetrafluoroethylene. The declared density of expanded graphite allows you to have elastic deformation within up to 10% of the thickness of the sealing element, which is important for compensating for temperature deformations.

If the sealing element 5 is made in the form of a disk 7 of expanded graphite (Fig. 3), then it is clad with a composite material 8 based on fiberglass impregnated with a fluoroplastic suspension, followed by heat treatment. Fixing the sealing element 5 on the end surface of the round metal plate 4 is carried out using a metal ring 9, covering the annular outer edge 10 of the composite material 7 and fixed to the round metal plate 4 by spot welding.

If the sealing element 5 (figure 4) is made in the form of a disk made of paronite or polytetrafluoroethylene, or rubber, then fixing the sealing element 5 on a round metal plate 4 can be carried out in any way. For example, an outer ring-shaped edge 12 is made on the disk 11. The disk 11 is fixed on the end surface of the round metal plate 4 using a metal ring 13 covering the outer ring-shaped edge 12. The ring 13 itself is fixed on the round metal plate 4, for example, by spot welding. The disk 11 is mounted on the opposite end surface of the round metal plate 4 in a similar manner. Disks 14 (figure 5) of paronite or polytetrafluoroethylene, or rubber do not have an outer ring-shaped edge. In this case, the fixing of the above disks 14 on the end surfaces of the round metal plate 4 is carried out using metal rings 15, partially covering the outer end surfaces of the disks 14. The metal rings themselves are also fixed on the round metal plate 4 by spot welding. It is possible to provide a round metal plate 4 (Fig. 6) on the end surfaces with semicircular flanges 16 located at an angle to the holder 6 for placement of sealing elements therein, made in the form of disks made of paronite or polytetrafluoroethylene.

The sealing element 5 of paronite or polytetrafluoroethylene can be made in the form of a ring. In this case, the sealing elements 5 are mounted on the round metal plate 4 with the possibility of partial overlapping of the sealing surfaces of the flanges 2 and 3. It is advisable to fix each such sealing element on the end surface of the round metal plate by the methods described above when describing the fastening of the sealing element in the form of a disk. For example, on the ring 17 (Fig. 7), an outer ring-shaped edge 18 is made. The ring 17 is fixed on the round metal plate 4 by means of a metal ring 19 surrounding the ring-shaped outer edge 18. The ring 19 itself is fixed on the round metal plate 4 by spot welding. Ring 20 (Fig. 8) made of paronite or polytetrafluoroethylene does not have an outer annular edge. In this case, the fixation of the above ring on the end surface of the round metal plate 4 is carried out using a metal ring 21, covering the outer end surface of the ring 20 at the periphery. The metal ring 21 itself is fixed on a round metal plate 4, for example, by spot welding.

As indicated above, the sealing element 5 may be made of paronite or polytetrafluoroethylene, or rubber, or expanded graphite. The choice of material of the sealing element, as well as the choice of its shape (disk or ring) are determined by the operating conditions of the interflange plug and the economic feasibility of using one or another type of material and its shape. The inventive design of the interflange plugs can be made in almost any size to seal almost any working environment.

Claims (10)

1. An interflange plug containing a round metal plate that overlays the bore of the flanges and sealing elements, characterized in that the sealing elements protruding above the end surfaces of the round metal plate made in the form of a disk are mounted on the end surfaces of the round metal plate with the possibility of blocking the bore of the flanges and partial overlap of the sealing surfaces of the flanges, and made in the form of rings mounted on the end surfaces of a round m the metallic plate, with only partial overlap sealing surfaces of flanges, the circular metal plate is provided with a radially directed tool holder protruding over the flanges compound. 2. Wafer plug according to claim 1, characterized in that the sealing element in the form of a disk is made of either paronite, or polytetrafluoroethylene, or rubber, or expanded graphite with a density of 1.2-1.8 kg / cm ² . 3. The wafer plug according to claim 2, characterized in that the sealing element, made in the form of an expanded graphite disk, is clad with a composite material based on fiberglass impregnated with a fluoroplastic suspension, followed by heat treatment, with the formation of a composite outer ring edge covered by a metal ring mounted on a round metal plate to fix the sealing element on the round metal plate. 4. The wafer plug according to claim 1, characterized in that the sealing element, made in the form of a disk or of paronite, or polytetrafluoroethylene, or rubber, is provided with an annular outer edge, covered by a metal ring mounted on a round metal plate to fix the sealing element on a round metal plate. 5. The wafer plug according to claim 1, characterized in that the sealing element, made in the form of a disk or of paronite, or polytetrafluoroethylene, or rubber, is surrounded by a metal ring on the end surface of the sealing element, mounted on a round metal plate to fix the sealing element on a round metal plate. 6. The wafer plug according to claim 1, characterized in that the end surfaces of the round metal plate are provided with semicircular flanges located at an angle to the holder for placement of a sealing element in them, made in the form of a disk made of paronite or polytetrafluoroethylene. 7. The interflange plug according to claim 1, characterized in that the sealing element in the form of a ring is made of paronite or polytetrafluoroethylene. 8. The wafer plug according to claim 7, characterized in that the sealing element in the form of a ring made of paronite or polytetrafluoroethylene is provided with a ring-shaped outer edge covered by a metal ring mounted on a round metal plate for fixing the sealing element on a round metal plate. 9. The wafer plug according to claim 7, characterized in that the sealing element in the form of a ring made of paronite or polytetrafluoroethylene is surrounded by a metal ring on the end surface of the sealing element mounted on a round metal plate for fixing the sealing element on a round metal plate. 10. Wafer plug according to any one of claims 1 to 9, characterized in that the round metal plate is made of heat-treated to a hardness of at least HR _c 28-32 steel.