SU779557A1 - High-pressure spherical container - Google Patents

Description

(54) SPHERICAL TANK OF HIGH The invention relates to the construction of high pressure vessels, namely to spherical high pressure vessels operating under conditions of intense internal impulse effects, and can be used. in boiler building, chemical industry, reservoir engineering and other areas. The spherical high-pressure tank is known, which includes a body, a supporting part with load-bearing elements, and tensioning devices using support plates fixed to the shell using anchor plates with profile grooves, which are passed through a rope. This tank can work both in air and in water, when an ejecting force acts on the disputed part, directed upwards l. The disadvantage of such a tank is the inability to ensure uniform loading of the carrier plates of the support part, since there are no devices that regulate the length of the plates. In addition, due to the ductility of the rope, rigid connection of the carrier plates with the sheath is not provided, which is unacceptable during high-frequency EXTENSIONS expansion - compression of the sheath operating under the conditions of internal impulse effects, as this develops large dynamic conditions. The closest to the present invention is a high pressure spherical reservoir, comprising a casing with a shell, a support part with load-bearing elements connected to the support part by tension devices and a hydraulic system with hydraulic jacks, with the suspensions made on the supporting tapes whose tensioning devices are equipped with tape clips hydraulic jacks and flanges with regulators (hemi screws. 21 supports 21). The disadvantage of such a support device is that, although it provides the necessary reliable The vessel and the support system under conditions of intense impulse effects, however, can be used only for vessels operating in air, i.e., when the support system is subjected to a downward load. internal impulse effects in the air and water environment.

This goal is achieved by the fact that in a high-pressure spherical tank, including a casing with a shell, a support part with load-bearing elements, connected to the support part by tension devices and a hydraulic system with hydraulic jacks, the support elements of the support part are made in the form of plate struts, each of which the upper part has a cylindrical sleeve rigidly attached to the rim of the tank along its perimeter, and the tension device is fixed in the lower part of the plate rack and is made in the form of external and internal threaded sleeves with a washer placed on the supporting part of the tank, and interacting with an external threaded sleeve, the surface of their contact is spherical.

FIG. 1 shows schematically the proposed reservoir — a general view; FIG. 2 - plate support, general view / in FIG. 3 - screw support.

The spherical high-pressure tank consists of a body 1, a support part 2 on which plate supports 3 are mounted. In the upper part of the stand there is an opening which includes a cylindrical sleeve 4 welded to the shell at the equator. The plate post 3 presses against the collar 5 of the bush 4 with a hollow nut b. Each rack rests on four tension devices consisting of an outer 7 and an inner 8 threaded bushings. The outer sleeve 7 has a spherical end 9, which rests on a spherical washer 10. A plate strut.

 is supported on the supporting structure by bolts 11. Hydraulic jacks 12, working from a pumping station 13, are also installed on the supporting part 2.

The installation of the tank is as follows.

The housing 1, which has been assembled and welded, is raised to the design position by hydraulic jacks 12 operating. from pump station 13.

Then, on the supporting part 2, plate racks 3 are mounted with sleeves 4 .- attached to them by means of nuts b.

Rotation of the threaded sleeves 7 and 8 achieve such a position that the axis of the sleeve 4 is on the shell equator, and the plate support is in the vertical plane parallel to the tangent to the equator.

After this grout, bolts 11 are tightened and sleeve 4 is welded to the shell. Then relieve pressure in hydro. jacks. 12 and transfer all the shells to the plate posts 3. At the same time, equal reduction of all plate supports is ensured with a weight of an oblochka.

. When a shell is found in water or in air, the reactions from the shell are perceived by plate struts 3 and bolts 11. When exposed to the shell, internal impulse effects plate supports keep the shell and at the same time, due to their flexibility, they ensure pc1 radially symmetric operation of the shell when its high-frequency x-compression expansions.

The reliability of operation of the vessel and carrier tapes, operating under the conditions of internal impulse effects, is significantly increased by ensuring radially symmetric loading and the maximum possible free movement of the vessel walls during the occurring oscillations.

Claims (2)

Invention Formula a spherical high-pressure tank, comprising a casing with a shell, a support part with load-bearing elements connected to the support part, tension devices and a hydraulic system with hydraulic jacks, which is aimed at raising the Reliability of the reservoir operation under conditions of intense internal impulse effects during its installation in air and water environment, bearing elements of the supporting part are made in the form of plate struts, each of which in the upper part has a cylindrical sleeve rigidly fixed to the shell of the tank is according to its perimeter, and the tension device 5 fixed in the lower part of the plate rack and made in the form of external and internal threaded bushings with a washer, placed on the supporting part of the reservoir and interacting with n external threaded sleeve, and the surface of their contact is spherical. Sources of information taken into account during the examination 5 1. German patent 1434857, class, 37 f 7/00, publ. 1970. 2. USSR author's certificate in application number 2578573 / 29-33, cl. E 04 H 7/14, 1978, (Puz.i f3