RU2743672C1 - Sealing device - Google Patents

Abstract

FIELD: sealing.

SUBSTANCE: invention relates to the sealing of different units which must be sealed during prolonged storage and when a working medium enters said units, the sealing device must be opened at a certain pressure. The pipeline sealing device which is installed at a location of a changing high-pressure area, comprises a plug with an annular flange formed by a conical section in the longitudinal section, a cap made of elastic material inserted inside the plug and contacting by its side walls with the inner walls of an annular flange which is provided with a conical base with a blind cylindrical opening from the side of the sealed cavity and on the other side is provided with a lug having a conical surface contacting the conical section of the plug. The cap is designed as a combined, the locking part of the cap which is in contact with the cylindrical section of the annular flange is made of an elastic material with a cylindrical section the diameter of which is bigger than the diameter of the sealed cylindrical section of the plug. The lug of the cap is made of an erosion resistant press-material, in the blind central opening of which the locking part of the plug is installed. The length of the cylindrical section of the cap protruding above the lug exceeds the length of the sealed cylindrical section of the plug and the expansion angle of the conical section of the plug exceeds the expansion angle of the conical lug of the cap.

EFFECT: invention ensures the tightness and guaranteed overhang of the cap.

4 cl, 4 dwg

Description

The invention relates to the field of mechanical engineering, namely to the sealing of various assemblies, which must be tight during long-term storage, and then when the working medium enters them, the sealing device must open when a certain pressure is reached.

The known design of a pipeline sealing device, containing an insert with an annular protrusion formed by tapering and expanding in longitudinal section sections, a plug made of elastic material and from its end adjacent to the expanding section of the protrusion, is equipped with a conical ledge, while in the ledge from the side of the conical ledge a blind central hole is made of the plug (patent No. 1753177, RF, class F16L 55/11, 1990)

The tests revealed the following disadvantages.

In pipeline structures installed in the place of a changing high-pressure area, it is not always possible to make an insert with an annular protrusion formed by tapering and expanding sections in the longitudinal section, since the plug can work in the opposite direction, also when working on hot gas, the use of plugs made of elastic material is difficult because of the possibility of stub destruction.

The objective of the invention is to improve the reliability of operation, namely, to ensure tightness and guaranteed departure of the plug.

This problem is solved in such a way that in a pipeline sealing device installed in a place of a changing high pressure region, containing an insert with an annular protrusion formed by a section conical in longitudinal section, a plug made of elastic material installed inside the insert, contacting its side walls with the inner walls of the annular protrusion and provided on the side of the cavity to be sealed with a conical ledge in which a blind cylindrical hole is made, and on the other side provided with a tide having a conical surface in contact with the conical section of the insert, the plug is made combined, the locking part of the plug in contact with the cylindrical section of the annular protrusion of the insert is made made of elastic material with a cylindrical section, the diameter of which exceeds the diameter of the sealed cylindrical section of the annular protrusion of the insert, the lug of the plug is made of erosion-resistant press material, and is equipped with a blind center a hole in which the obturator of the plug made of elastic material is installed on the adhesive composition, the length of the cylindrical section of the plug protruding above the bead exceeds the length of the sealed cylindrical section of the annular projection of the insert, and the opening angle of the tapered section of the annular projection of the insert exceeds the opening angle of the conical bead of the plug made of erosion-resistant press material, by 1-4 °.

FIG. 1 shows the design of the sealing device.

FIG. 2 shows the design of the plug.

FIG. 3 shows on an enlarged scale the contact of the tide of the plug with the insert.

FIG. 4 shows a variant of the design of the plug.

The sealing device (Fig. 1) contains an insert 1 with an annular protrusion 2 formed by conical and cylindrical sections 3, 4 in longitudinal section, a plug 5, the closure part 6 of which is made of an elastic material, is installed inside the insert 1 and contacts its side walls with the inner walls of the annular protrusion 2 along the cylindrical section 4. The plug 5 from the side of the sealed cavity is equipped with a conical ledge 7, in which a blind cylindrical hole 8 is made, and on the other side it is equipped with a tide 9 having a conical surface in contact with the conical section 3 of the annular protrusion 2 of the insert 1 The plug 5 is made with a cylindrical section 10 of length - L1 (Fig. 2), exceeding the length L2 (Fig. 1) of the sealed cylindrical section 4 of the annular protrusion 2 of the insert 1. The diameter F1 of the cylindrical section 10 of the plug 5 exceeds the diameter F2 of the sealed cylindrical section 4 of the annular projections 2 insert 1. Blind cylindrical holes e 8 of the conical ledge 7 is extended, at least, over the entire length of the cylindrical section 4 of the plug 5. The bead 9 of the plug 5, made of erosion-resistant press material, is equipped with a blind central hole 11, in which the obturator 6 of the elastic material of the plug 5 is installed on the adhesive

FIG. 3 shows an enlarged scale of the contact of the tide 9 of the plug 5 and the annular ledge 2 of the insert 1 along the conical section 3.

FIG. 4 shows an embodiment of the plug 5, when the lug 9 on the side opposite to the part of the plug 5 made of elastic material is provided with a heat-shielding coating 12. In this case, the heat-shielding coating 12 is installed flush with the conical surface of the lug 9.

The sealing device is assembled as follows.

The plug 5 (Fig. 2), due to the fact that it is made of elastic material and on the side of the sealed cavity is provided with a conical shoulder 7, is easily installed in the cylindrical hole of the annular protrusion 2 of the insert 1. Due to the fact that the plug 5 is made with a cylindrical section 10, as minimum equal to the length of the sealed cylindrical section 4 of the annular protrusion 2, and the diameter F1 of the cylindrical section 10 of the plug 5, which exceeds the diameter Ф2 of the sealed cylindrical section 4 of the annular protrusion of the insert 1, ensures the tightness of the installation of the plug 5.

The execution of a blind cylindrical hole 8 of a tapered shoulder 7 extended, at least for the entire length of the cylindrical section 10 of the plug 5, provides a decrease in the response pressure of the plug 5, it is selected empirically and depends on the diameter Ф2 of the sealed cylindrical section 4 of the annular protrusion 2 of the insert 1, the diameter Ф1 of the cylindrical section 10 of the plug 5 and the diameter of the FZ of the blind cylindrical hole 8.

Making the tide 9 from erosion-resistant press material with higher strength characteristics in conditions when it is necessary to ensure the operability of the plug 5 if there is a high-temperature gas under pressure on the side opposite to the sealed cavity, ensures the reliability of the operation of the sealing device due to the elimination of pushing the plug 5 under the action of pressure. inside the sealed cavity.

не имеет смысла и может привести к появлению вихревых течений, что может привести к значительному прогреву прилива 9.The implementation of the angle β ° of the opening of the conical section 3 of the annular protrusion of the insert 1 exceeding the angle α ° of the opening of the conical lug 9 of the plug 5, made of erosion-resistant press material, by the angle ω = 1-4 ° (Fig. 3) provides a decrease in the force pressing the plug 5 from the side , opposite to the sealed cavity, because pressure acts on the lug 9 on both sides and provides a decrease in the outlet pressure of the plug 5. Increasing the angle

does not make sense and can lead to the appearance of eddy currents, which can lead to significant heating of the tide 9.

When a high-temperature gas is under pressure on the side opposite to the sealed cavity, and the actuation of the plug 5 should occur at low pressure, this is ensured by making the hole 8 with a depth exceeding the length L2 of the cylindrical section 4 of the annular protrusion 2.

The supply of the plug 5 (Fig. 4) with a heat-shielding coating 12 from the side opposite to the sealed cavity provides additional thermal protection of the tide 9 and the entire plug 5.

Installing the plug 5 on the grease along the cylindrical section 4 of the insert 1 simplifies the assembly and reduces the pressure of the plug 5 protrusion.

During the operation of the sealing device, gas with a high temperature and pressure enters the opposite cavity behind the plug 5, and due to the fact that the tide 9 is made of erosion-resistant press material and is additionally equipped with a heat-shielding coating 12, the plug 5 does not destruct and, accordingly, its premature opening.

When pressure is applied to the sealed cavity, the plug 5 is guaranteed to fly out, since the design of the tide 9, described above, prevents the plug 5 from sticking.

Thus, as stated from the above, the reliability of the operation of the sealing device increases during operation when a high-temperature gas is under pressure on the side opposite to the cavity to be sealed.

Claims (4)

1. A pipeline sealing device installed in the place of a changing high-pressure region, containing an insert with an annular protrusion formed by a conical section in a longitudinal section, an elastic material plug installed inside the insert, contacting its side walls with the inner walls of the annular protrusion and provided on the side of the sealed cavity with a conical ledge, in which a blind cylindrical hole is made, and on the other hand, provided with a tide having a conical surface in contact with the conical section of the insert, characterized in that the plug is made combined, the locking part of the plug in contact with the cylindrical section of the annular protrusion of the insert is made of elastic material with a cylindrical section, the diameter of which exceeds the diameter of the sealed cylindrical section of the annular protrusion of the insert, the lug of the plug is made of erosion-resistant press material and is equipped with a blind central hole with a hole, in which the sealing part of the plug made of elastic material is installed on the adhesive composition, the length of the cylindrical section of the plug protruding above the bead exceeds the length of the sealed cylindrical section of the annular protrusion of the insert, and the opening angle of the tapered section of the annular protrusion of the insert exceeds the opening angle of the conical bead of the plug made of erosion-resistant press material, 1-4 °. 2. A sealing device according to claim. 1, characterized in that the blind cylindrical opening of the conical shoulder of the plug is extended at least over the entire length of the obturator protruding above the tide of the plug made of elastic material. 3. Sealing device according to claim. 1, characterized in that the tide of the plug, on the side opposite to the part of the plug, made of elastic material, is provided with a heat-shielding coating, which is installed flush with the conical surface of the tide. 4. The sealing device according to PP. 1 and 2, characterized in that the plug is mounted on grease along the cylindrical section of the insert.

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