RU24262U1 - DEVICE FOR COMPENSATION OF GAS PIPE MOVEMENTS - Google Patents

Description

A device for compensating the movement of the gas

The utility model relates to mechanical engineering and can be used to connect gas ducts, in particular, to compensate for temperature axial movements of the gas ducts of the exhaust tract of gas pumping units. The device is also applicable in pipelines for transporting a liquid coolant in the absence of elements of internal thermal insulation.

Known technical solutions (AS No. 582435, F16L 51/02, 1977, AS No. 945580, F16L 51/00, 1982) in which flexible elastic elements acting as a compensator are used to connect the pipes. The constant action of the compression force on the elastic elements leads to the loss of their properties and wear, which is a drawback of these structures.

For the prototype, the technical solution closest to the claimed one, described in Russian patent No. 1752194, F16L 51/02, 1989, was selected. The compensator consists of a double elastic tubular shell located inside the sleeve mounted on the nozzles. The edges of the shell are tucked in and put on the nozzles. The outer shell element is provided with a fitting passing through the sleeve. When passing through the coolant pipe, the gap between the nozzles changes, because, due to thermal elongations, they move into the coupling. The pedagogue of the prototype is a rupture of the flowing part of the pipeline between the nozzles, leading to a pressure loss in

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the location of the compensator, the lack of internal thermal protection of the elastic tubular shell and nozzles, the complexity of installation and dismantling of the compensator in the pipeline.

The essence of the utility model lies in the fact that in the device for compensating the movement of the gas duct, containing two nozzles, a heat-shielding coating fixed with an inner shell having longitudinal recesses, an elastic shell overlapping the annular gap between the nozzles, ring elements of the angular profile are installed on the adjacent edges of the nozzles with different diameters, the edges of the elastic shell are fixed on the horizontal shelves of the ring elements, on the inside of the nozzles installed similarly to the gas duct A heat-shielding coating and an inner shell fixing it with longitudinal recesses are provided, while the joints of the connection of the nozzles with the pipeline are closed by trough-like overlays.

The technical result consists in increasing the reliability of the device, improving its operational characteristics and the manufacturability of the process of installing it in the pipeline.

The figure 1 shows a device for compensation installed in the pipeline.

The figure 2-mount heat-resistant coating. The device comprises nozzles 1, ring elements of the angular profile 2 and 3 mounted on them, an elastic shell 4, mounted on the elements of the angular profile 2 and 3 by means of a bolt connection 5 with clamping bars 6, heat-shielding

element 7 of the elastic sheath 4, a sheeting cover 8 of the nozzles 1, the inner sheath 9, with longitudinal recesses 10, fixed on needles And welded to the nozzles 1, in the longitudinal direction, the sheets of the inner sheath 9 are overlapped. The device is connected to the gas duct using flange connections 12 or plates 13. In the flow part, the joint between the device and the pipeline is closed by trough-like plates 14. Under the trough-like plates 14, heat-protective elements 15 are installed, which, like the heat-protecting element 7 of the elastic shell 4, are made of heat-protective material with a larger density than heat-proof coating 8.

The device is made according to the principle of a compensator-gas duct and is unified with the gas ducts of the GPU exhaust tract, due to which it can be installed at any joints of the exhaust duct. The internal flowing part of the device for compensating the movement of the gas duct is similar to the internal part of the gas duct itself, which is self-compensating both in the transverse and in the longitudinal directions due to the inner shell, the sheets of which are overlapped and made with longitudinal recesses. Trough-shaped pads 14 installed at the junction of the flowing part of the device to compensate for the movement of the pipeline and the pipeline itself can compensate for the mismatch of their longitudinal recesses.

When passing through the exhaust gas duct, an axial temperature extension of the gas duct occurs, which is compensated by the elastic tubular shell 4, and

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during operation of the proposed device, compression of the shell 4 is not compression, but its rolling, due to the difference in the diameters of the annular elements of the angular profile 2 and 3, on the horizontal shelves of which it is installed, which increases the service life of the device and its reliability. Compensation of the transverse thermal expansion occurs in the tufse as in the main gas duct - due to the narrowing-expansion of the longitudinal recesses 10 of the inner shell 9.

Thus, due to the installation of heat-shielding elements and the exclusion of compressing; their efforts on an elastic tubular shell, the proposed technical solution improves the reliability of the device to compensate for the mixing of the gas duct, by simplifying it with the gas duct to simplify the process of its manufacture and fastening in the latter.

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Claims (1)

A device for compensating movements of a gas duct, comprising two nozzles, a heat-shielding coating fixed with an inner shell having longitudinal recesses, an elastic shell overlapping the annular gap between the nozzles, characterized in that annular angular profile elements with different diameters, edges are installed on nearby edges of the nozzles elastic shells are fixed on horizontal shelves of annular elements, a heat-protective coating is installed on the inside of the nozzles, similar to a gas duct and the inner shell fixing it with longitudinal recesses, while the joints of the connection of the nozzles with the pipeline are closed by trough-shaped overlays.