RU1803664C - High-pressure vessel gate - Google Patents

Abstract

The invention relates to mechanical engineering and can be used to create pressure equipment and apparatus. The aim of the invention is to increase the manufacturability of installation work by simplifying the assembly and disassembly of the shutter, which is achieved by installing on the flanges of the housing t with a groove and the cover 2 split lock elements, 3 with internal ring groove covering the flanges of the housing and cover and having a width exceeding the total the thickness of the flanges by an amount equal to (0.8-0.95) dh, where d is the cross-sectional diameter of the sealing element, h is the depth of the groove under the sealing element mounted on the end surface of the floating ring. The floating ring 6 is installed in the groove 2 of the housing and has sealing elements located - one in the groove on the outer surface of the ring, the other in the groove on the end surface of the ring in contact with the cover. When the pressure in the vessel increases, the lid pops up and the shutter closes the vessel, because the locking joints mounted on the flanges of the lid and the housing, sensing the pressure in the vessel, select the technological clearances of the device and reliably connect the lid to the housing. 1 ill. with

Description

The invention relates to mechanical engineering and can be used to create pressure equipment and apparatus.

The purpose of the invention is to increase the manufacturability of installation work by simplifying the assembly and disassembly of the shutter.

This goal is achieved by the fact that in the known shutter of a pressure vessel containing a housing with a groove, a cover mounted on the housing, a floating ring located in the groove of the housing with elastic sealing elements of circular cross section located in annular grooves made on the outer cylindrical surface and end surface in contact with the cover and the locking elements, according to the invention, the locking elements are installed with a gap relative to the housing equal to (0.8-0.95) dh, where d is the diameter of the electric cross section adic sealing member; h is the depth of the groove under the sealing element,

The drawing shows a shutter in section.

The shutter of the pressure vessel contains a housing 1 with a groove, a cover 2 mounted on the housing 1, locking elements 2 fastening the cover 2 with the housing 1, a floating ring 4 with elastic sealing elements 5.6 of circular cross section located in the annular grooves located in the groove of the housing 1 made on the outer cylindrical surface and the end surface in contact with the cover 2, the locking elements 3 are installed with a gap 7 relative to the housing 1, equal to (0.8-0.95) dh, where d is the diameter of the cross section of the elastic seal. wearable element 6, h - the depth of the groove under the sealing element 6.

The shutter operates as follows. In order to prepare the shutter for operation, a cover 2 is mounted on the housing 1 with a groove. A floating ring 4 with elastic sealing elements 5.6 of circular cross section is installed in the groove, which are installed in annular grooves made on the outer cylindrical surface and the end surface in contact with the cover 2. Set the locking elements 3 with a gap of 7 relative to the housing 1, equal to (0.8-0.95) dh. The shutter is assembled and ready to go.

Under the action of increasing internal pressure in the vessel, the cover 2 rises above the housing 1 until it stops by a gap value of 7 equal to (0.8-0.95) d-h, because its weight will be balanced by internal pressure. The tightness of the shutter in this case ensures minimal deformation of the sealing element b of the floating ring 4.

With a further increase in pressure, the floating ring 4 on the principle of uncompensated area, moving in the axial direction, is pressed against the cover 2, covering the gap, provides reliable sealing of the connection at high pressures, which eliminates the need to tighten the locking elements. In this way, the shutter is assembled without additional effort.

After depressurizing the vessel, the locking elements 3 are freely removed by

the fact that they are installed with a gap 7 relative to the housing 1 and lift the cover 2. The proposed shutter of the pressure vessel in comparison with the prototype has the following advantages:

higher manufacturability of assembly and disassembling operations due to the fact that additional efforts are not required when assembling and disassembling the vessel without violating the tightness of the connection;

eliminates the need for heavy manual labor when assembling and disassembling the vessel, which makes it possible to mechanize and automate this

process.

Claims (1)

SUMMARY OF THE INVENTION A pressure vessel shutter comprising a body with a groove, a cover mounted on the body, a floating ring located in the groove of the body, with elastic sealing elements of circular cross section located in annular grooves formed on the outer cylindrical surface and the end surface in contact with the cover, and locking elements, characterized in that the locking elements are installed with a gap relative to the housing . . (0.8-0.95) d-h where d is the cross-sectional diameter of the elastic sealing element; h is the depth of the groove under the sealing element.