RU99571U1 - SELF-SEALING DEVICE (OPTIONS) - Google Patents

Abstract

 1. A self-sealing device containing sealed parts forming an annular cavity in which a sealing ring and a pressure ring are installed with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity, characterized in that the pressure ring is made with a seating surface under the sealing ring and thrust face surface to limit the deformation of the sealing ring, the length of the seating surface is less than the thickness of the sealing ring by the amount of required compression deformation, sculpt ring planted on the seat surface of the pressure ring, the pressure ring and sealing to form a replaceable subassembly - avtouplotnenie. ! 2. The self-sealing device according to claim 1, characterized in that the pressure ring is fixed to the cover or is made in the cover in the form of a pressure flange with a seating surface under the sealing ring and a persistent end surface to limit deformation of the sealing ring. ! 3. A self-sealing device containing sealing parts forming an annular cavity in which a sealing ring and pressure rings are installed with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity, characterized in that the sealing ring is compressed between two pressure rings until the rings are formed around the perimeter sealing lips, the compressed rings are fastened in a bag with the possibility of further compression and form a replaceable assembly unit - auto-sealing, which is installed in the annular polo along sealing lips. ! 4. The self-sealing device according to claim 3, characterized in that at the end of one

Description

The utility model relates to sealing devices. Known packing seals of parts forming an annular cavity. The sealing material is packed into an annular cavity with the formation of a sealing ring and closed by a pressure ring with the possibility of automatic compression by means of springs and medium pressure inside the sealing cavity. See Orlov P.I. Design Basics: Reference and methodological manual. In 2 kn. Book 1 / Ed. P.N. Uchaeva. - Ed. 3rd, fix - Engineering. 1998 .-- 560 p., Pp. 472-474.

Sealing is characterized by the high complexity of assembling and replacing the sealing material. It is poorly adapted for assembly in the field and in large products. For devices that implement the method, an increase in axial dimensions for the installation of springs is characteristic.

As a prototype adopted self-sealing device according to patent RU No. 2036363, published on 05.27.1995, IPC F16J 15/02. The device contains sealed parts forming an annular cavity. The sealing material is packed into an annular cavity with the formation of a sealing ring and closed by a pressure ring with the possibility of automatic compression due to the pressure of the medium inside the sealing cavity.

The self-sealing device has a smaller axial size with respect to counterparts with springs, but retains the other disadvantages mentioned above.

The utility model solves the problem of using sealing material and pressure rings in the form of a replaceable assembly unit - auto-sealing.

The technical result from the use of the utility model is to improve the quality of the seal, reducing the complexity of assembly and replacing the seals in the field and in large products.

The utility model can be implemented in the following options.

First option. The self-sealing device comprises sealed parts forming an annular cavity. A sealing ring and a pressure ring are installed in the annular cavity with the possibility of their automatic preloading due to the pressure of the medium inside the sealing cavity. To achieve a technical result, the pressure ring is made with a seating surface under the sealing ring and a persistent end surface to limit the deformation of the sealing ring. The length of the seating surface is less than the thickness of the sealing ring by the amount of required compression deformation. The sealing ring is seated on the seating surface of the pressure ring. The sealing and pressure ring form a replaceable assembly unit - auto-sealing.

The second option. The self-sealing device according to the first embodiment, characterized in that the pressure ring is mounted on the flange of the cover or is made in the cover in the form of a pressure flange with a seating surface under the sealing ring and a persistent end surface to limit deformation of the sealing ring. It is applied to covers and caps.

The third option. The self-sealing device comprises sealed parts forming an annular cavity. A sealing ring and pressure rings are installed in the annular cavity with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity. To achieve a technical result, the sealing ring is compressed between two pressure rings until the formation of sealing lips along the perimeter of the rings. The compressed rings are fastened in a bag with the possibility of further compression and form a replaceable assembly unit - auto-seal, which is installed in the annular cavity along the sealing edges.

The fourth option. A self-sealing device according to the third embodiment, characterized in that in order to achieve a technical result, studs with holes for cotter pins are fixed at the end of one pressure ring. The second pressure ring and the sealing ring are made with holes for the studs and fit on them. A sealing ring is compressed between the two pressure rings until a ring of sealing edges is formed around the perimeter. The pressure rings and the sealing ring are fastened in a bag with cotter pins with the possibility of further compression of the sealing ring. A pack of rings, forming a replaceable assembly unit - auto-sealing, is installed in the annular cavity along the sealing edges.

The fifth option. A self-sealing device according to the third embodiment, characterized in that in order to achieve a technical result, studs are fixed at the end of one pressure ring. The second pressure ring and the sealing ring are made with holes for the studs and fit on them. A sealing ring is compressed between the two pressure rings until a ring of sealing edges is formed around the perimeter. The pressure rings and the sealing ring are tightened in a bag with nuts with the possibility of further compression of the sealing ring. A pack of rings, forming a replaceable assembly unit - auto-sealing, is installed in the annular cavity along the sealing edges.

The sixth option. The self-sealing device according to the fourth and fifth options, characterized in that at least one pressure ring is made with an external and internal cone in contact with the sealing ring.

Seventh option. The self-sealing device according to the fourth and fifth options, characterized in that at least one pressure ring is made with a toroidal surface in contact with the sealing ring.

The eighth option. A self-sealing device according to the fourth, fifth, sixth and seventh variants, characterized in that the pressure rings are made of a sealing material of greater rigidity than that of the material of the sealing ring.

The utility model allows to reduce the complexity of servicing equipment in the field and in large products.

Figure 1 shows a General view of the self-sealing device according to the first embodiment, Figure 2 - General view of the device according to the second embodiment, Figure 3 - General view of the device according to the third embodiment, Figure 4 - General view of the device according to the third embodiment, for manhole cover seals or plugs. In Fig.5 - auto-sealing for the third option, in Fig.6 - auto-sealing with cones on the pressure rings, Fig.7 - auto-sealing with a toroidal surface on the pressure rings, Fig. 8 - auto-sealing with pressure rings made of larger sealing material stiffness than the material of the o-ring.

Examples of preferred implementations of utility model options.

The first option, figure 1. The self-sealing device comprises sealing parts 1 and 2 forming an annular cavity 3. A sealing ring 4 and a pressure ring 5 are installed in the annular cavity with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity. To achieve a technical result, the pressure ring 5 is made with a seating surface 6 under the sealing ring and a persistent end surface 7 to limit the deformation of the sealing ring. The length of the seating surface is less than the thickness of the sealing ring by the amount of required compression deformation. The sealing ring 4 is seated on the seating surface 5 of the pressure ring. The sealing and pressure ring form a replaceable assembly unit - auto-sealing, which is closed in the annular cavity, by tightening the sealed parts 1 and 2 with movable half rings 8 with internal grooves.

The second option, see figure 2. The self-sealing device according to the first embodiment, characterized in that the pressure ring 5 is made in the cover 9 in the form of a pressure flange with a seating surface 6 under the sealing ring and a thrust end surface 7 to limit the deformation of the sealing ring.

The third option, see figure 3, 4. The self-sealing device contains sealing parts 1 and 2, forming an annular cavity 3. In the annular cavity there is a sealing ring 4 and pressure rings 10, 11 with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity . To achieve a technical result, the sealing ring 4 is compressed between the two pressure rings until the rings of sealing lips 12 are formed around the perimeter. The compressed rings 4, 10, 11 are fastened into a bag with the possibility of further compression and form a replaceable assembly unit — auto-sealing, which is closed in the annular cavity due to tightening the sealed parts 1 and 2 with movable half rings 8 with internal grooves.

The fourth option, see figure 5. A self-sealing device according to the third embodiment, characterized in that on the end of the pressure ring 10 there are mounted studs 13 with holes for the cotter pins 14. The pressure ring 11 and the sealing ring 4 are made with holes for the studs 13 and mounted on them. The sealing ring 4 is compressed between the pressure rings 10 and 11 until the rings of sealing lips 12 are formed around the perimeter. The rings 4, 10 and 11 are fastened in a bag with cotter pins 14 with the possibility of further compression. A pack of rings, forming a replaceable assembly unit - auto-sealing, is installed in the annular cavity along the sealing edges.

The fifth option, see Fig.6. A self-sealing device for implementing the method according to the third embodiment, characterized in that at the end of the pressure ring 10 there are mounted studs 13 with nuts 15. The pressure ring 11 and the sealing ring 4 are made with holes for the studs and are mounted on them. The sealing ring 4 is compressed between the pressure rings 10 and 11 until the rings of sealing lips 12 are formed around the perimeter. The rings 4, 10, 11 are pulled together in the bag by nuts 15 with the possibility of further compression. A pack of rings, forming a replaceable assembly unit - auto-sealing, is installed in the annular cavity along the sealing edges.

The sixth option, see Fig.6. The self-sealing device according to the fourth and fifth options, characterized in that at least one pressure ring 10, 11 is made with an external and internal cone in contact with the sealing ring.

Seventh option, see Fig.7. A self-sealing device according to the fourth, fifth or sixth variants, characterized in that the pressure rings 10, 11 are made with a toroidal surface in contact with the sealing ring.

The eighth option, see Fig.8. A self-sealing device according to the fourth, fifth, sixth, seventh variants, characterized in that the pressure rings 10, 11 are made of sealing material of greater rigidity than that of the sealing ring material.

Self-sealing device operates as follows. When the pressure of the medium inside the cavity is increased, due to the difference in pressure forces on the opposite sides of the auto-sealing, the pressure rings compress the sealing ring 4 and increase the pressure of the sealing edges 12 on the walls of the annular chamber, providing the effect of automatic sealing.

The industrial applicability of the proposed utility model is confirmed by testing a prototype. Variants of the device have passed bench and field tests on products with sizes up to 1.5 m on sealing surfaces.

The utility model allows to reduce the cost of servicing the seals of tanks and pipelines of high pressure.

Claims (8)

1. A self-sealing device containing sealed parts forming an annular cavity in which a sealing ring and a pressure ring are installed with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity, characterized in that the pressure ring is made with a seating surface under the sealing ring and thrust face surface to limit the deformation of the sealing ring, the length of the seating surface is less than the thickness of the sealing ring by the amount of required compression deformation, sculpt ring planted on the seat surface of the pressure ring, the pressure ring and sealing to form a replaceable subassembly - avtouplotnenie. 2. The self-sealing device according to claim 1, characterized in that the pressure ring is fixed to the cover or is made in the cover in the form of a pressure flange with a seating surface under the sealing ring and a persistent end surface to limit deformation of the sealing ring. 3. A self-sealing device containing sealing parts forming an annular cavity in which a sealing ring and pressure rings are installed with the possibility of their automatic compression due to the pressure of the medium inside the sealing cavity, characterized in that the sealing ring is compressed between two pressure rings until the rings are formed around the perimeter sealing lips, the compressed rings are fastened in a bag with the possibility of further compression and form a replaceable assembly unit - auto-sealing, which is installed in the annular polo along sealing lips. 4. The self-sealing device according to claim 3, characterized in that studs with holes for cotter pins are fixed to the end of one pressure ring, the second pressure ring and the sealing ring are made with holes for the studs and are mounted on them, the pressure rings and the sealing ring are fastened in a bag with cotter pins . 5. The self-sealing device according to claim 3, characterized in that studs with nuts are fixed to the end of one pressure ring, the second pressure ring and the sealing ring are made with holes for the studs and are mounted on them, the pressure rings and the sealing ring are fastened with nuts. 6. The self-sealing device according to claim 4 or 5, characterized in that at least one pressure ring is made with an external and internal cone in contact with the sealing ring. 7. The self-sealing device according to claim 4 or 5, characterized in that at least one pressure ring is made with a toroidal surface in contact with the sealing ring. 8. A self-sealing device according to claims 4 to 7, characterized in that the pressure rings are made of a sealing material of greater rigidity than that of the material of the sealing ring.