RU2177583C1 - Apparatus for sealing branch pipe - Google Patents

Abstract

FIELD: branch pipes of pressurized vessels. SUBSTANCE: apparatus for sealing branch pipe of inner sealed envelope in mouth of high pressure vessel having heavy envelope of housing made of composition material includes flange arranged on branch pipe and having disc embraced by heavy envelope of housing, sleeve arranged in axial openings of branch pipe and flange and restricting annular cavity for placing sealing member and ring. Apparatus also includes attachment for fixing sleeve and it is provided with locking ring having one tapered end surface. Sleeve has flats and turning on outer surface at side of its open end. Flats form shoulders at side of open end of sleeve. Fixing attachment includes annular winding embracing flats, locking ring and remaining part of flange and forming one piece with heavy envelope of housing. EFFECT: enhanced reliability of sealing branch pipe with use of such apparatus. 6 cl, 5 dwg

Description

 The present invention relates to pressure vessels, the casing of which is made of composite material and lined with an airtight shell, and more specifically, to a device for sealing the nozzle of an internal airtight shell in the neck of such a vessel.

 These vessels are designed for storage and transportation of fluid (liquid or gas) under pressure and their body is made of composite material and lined with a sealed shell inside, which, depending on the type and nature of the fluid filling the vessel, is made of polyethylene or other thermoplastic, aluminum or stainless steel. The pressurized shell has a nozzle of the same material from which the shell itself is made. This nozzle enters along the entire length of the axial channel of the neck, wound into the vessel body during its manufacture, and a centrally located sleeve is provided coaxially to the neck of the neck, equipped with shutoff valves of any suitable type.

 Such vessels, as a rule, are subject to repeated cyclic high pressure loads. Therefore, special importance in vessels of this type is attached to sealing the shell pipe in the axial channel of the neck to avoid leakage of the medium and violation of the tightness of the vessel.

 Attempts have already been made to create a reliable and efficiently operating device for sealing the nozzle of an internal airtight shell in the channel of the neck of a pressure vessel. In particular, a high-pressure vessel is known having a housing made of composite material with a threaded neck with an axial channel and a threaded neck at the outlet, which is placed in this channel along the entire length of the threaded neck of the pipe of the internal airtight shell and installed in the nozzle, coaxially to the throat channel, a centrally located nozzle with shutoff valves, which presses the sheath nozzle to the inner surface of the axial throat channel and is connected to the threads with threads th neck neck, sealing it. For example, EP 0 300 931 A1.

 However, these means are not enough to seal vessels with a high level of pressure, since the changes in the step between the protrusions of the nozzle at high pressures are within elastic deformations, while the yield strength of the material of the sealed shell and its pipe is much greater and this inconsistency in the deformations is the main reason for the depressurization of the vessel at high levels of loading with its pressure.

 Another attempt to create a device for sealing the nozzle of the inner sealed shell in the neck of a pressure vessel is disclosed in patent RU 2150634 C1, which describes a pressure vessel having a composite housing containing a flange placed on the nozzle, the disk of which is enclosed by a housing power shell, a sleeve, installed in the axial holes of the pipe and flange with the formation of an annular cavity in which the seal and the ring are installed, and the fixing device of the sleeve.

 However, at high pressures of the fluid filling the cavity of the vessel body, in this case, it is also not possible to provide the required tightness of the shell pipe, especially at the points of contact with the inner surface of the neck channel and with the outer surface of the sleeve, mainly for the reasons mentioned above. In addition, such a connection does not withstand large torque and bending forces applied to the product when installing shutoff valves.

 The objective of the invention is to create a more reliable device for sealing the nozzle of the inner shell in the neck of the vessel with a much greater cyclic loading of high pressure, torque and bending force.

 This problem is solved by using a device for sealing the nozzle of an internal, airtight shell in the neck of a pressure vessel with an external power shell of a composite material containing a flange located on the nozzle, the disk of which is covered by the power shell of the housing, a sleeve installed in the axial holes of the nozzle and flange with the formation of an annular cavity in which the seal and the ring are installed, and the fixing device of the sleeve. In accordance with the invention, the device is equipped with a retaining ring having a bevel on one end surface, while on the outer surface of the sleeve, from the side of its open end, flanges are formed, forming flanges, from the side of the said end, and a groove, the retaining ring being partially placed in the latter and installed with its bevel towards the flange, and the fixing device is formed by an annular winding covering the flats, the retaining ring and the remaining part of the flange and forming one with the power shell of the housing.

 In a preferred embodiment of the invention, the end face of the annular winding of the fixing device can be made coinciding with the inner ends of the beads.

 In addition, the annular winding of the locking device can be performed with a reverse cone on the outer surface towards the open end of the sleeve.

 In one suitable embodiment, the annular winding of the fixing device is made of a fibrous composite material different from the material of the power sheath.

 In another suitable embodiment, the retaining ring may have a faceted inner hole matching the contour of the sleeve at the location of the ring.

 In a preferred embodiment of the invention, the flange length is from 0.3 to 0.5 of the outer diameter of the sleeve.

 Thus, from the proposed means of solving the problem, it can be concluded that in the design of the device according to the invention, the retaining ring, partially installed in the groove, constantly experiences axial load from the pressurized fluid of the flange and, due to the presence of the bevel, exerts a force constantly wedging radially outward, providing nozzle sealing.

 Additionally, from axial movement, the sleeve is fixed with a collar, and from rotation - by flats, into which the power shell of the housing is wound, guaranteeing sealing of the surfaces of the pipe and the sleeve, forming a single whole. This is an additional advantage of the invention.

 In FIG. 1 shows a General view of a pressure vessel with a housing made of composite material and a device for sealing the nozzle of the inner sealed shell in the neck of the vessel.

 In FIG. 2 shows a general view of the device for sealing the nozzle of the inner sealed shell in the neck of the vessel on an enlarged scale.

 In FIG. 3, a sectional view of a sleeve is shown.

 In FIG. 4 shows a section through a sleeve along A-A.

 In FIG. 5 shows a section through a sleeve along the B-B.

 A device for sealing a pipe 1 of an internal airtight shell 2 in the neck of a pressure vessel with a power shell 3 of a composite housing contains a flange 4 located on the pipe 1, a disk 5 of which is covered by a power shell 3 of the body, a sleeve 6 installed in the axial holes of the pipe 1 and the flange 4 with the formation of an annular cavity in which the seal 7 and the ring 8 are installed, and the fixing device of the sleeve 6. The device is equipped with a retaining ring 9 having a bevel 10 on one end surface. On the outer surface of the sleeve 6, from the side of its open end 11, flats 12 are made, forming flanges 13, from the side of the said end 11, and the groove 14. The retaining ring 9 is partially placed in the groove 14 and is installed with its bevel 10 towards the flange 4. The fixing the device is formed by an annular winding 15, covering the flats 12, the retaining ring 9 and the remainder of the flange 4 and forming one with the power shell 3 of the housing.

 In a preferred embodiment of the invention, the end face 16 of the annular winding 15 of the locking device can be made coinciding with the inner ends 17 of the shoulders 13.

 In addition, the annular winding 15 of the locking device can be performed with a reverse cone on the outer surface 18 towards the open end 11 of the sleeve 6.

 In one suitable embodiment, the annular winding 15 of the fixing device may be made of a fibrous composite material other than the material of the power sheath 3.

 In one embodiment, the retaining ring 9 may have an internal faceted hole that matches the contour with the cross section of the sleeve 6 at the installation location of the ring 9.

 In addition, the length of the flats 12, preferably, may be from 0.3 to 0.5 of the outer diameter of the sleeve 6.

 The functioning of a pressure vessel consists in filling it with a fluid (liquid or gas) to the required pressure level, storing, transporting, emptying, subsequent new filling, that is, in repeating actions and operations with multiple cyclic loading.

 The operation of the device for sealing the pipe 1 of the inner airtight shell 2 in the neck of the pressure vessel with the power shell 3 of the composite housing is similar to the operation of the pressure vessel described above, and does not require special explanation. However, I would like to note that the retaining ring 9, partially installed in the bore 14, constantly experiences axial load from the pressurized fluid of the flange 4 and, due to the presence of the bevel 10, exerts a constantly radially outward force that provides additional sealing of the nozzle 1. In addition, , from axial displacement, sleeve 6 is fixed by collars 13, and from rotation by flats 12, into which the power shell 3 of the case is wound, guaranteeing sealing of the surfaces of pipe 1 and sleeve 6, learning the whole. This is an additional advantage of the invention.

 With the creation of the proposed device, there was a real possibility of widespread use of pressure vessels with a housing made of composite material and a sealed inner shell. The manufacture and testing of pressure vessels with the proposed device for their sealing confirmed their high reliability and efficiency.

Claims (6)

 1. A device for sealing the nozzle of an internal, airtight shell in the neck of a pressure vessel with a power shell of a composite material housing, comprising a flange located on the nozzle, the disk of which is enclosed by a power shell of the housing, a sleeve installed in the axial holes of the nozzle and flange with the formation of an annular cavity, in which the seal and the ring and the fixing device of the sleeve are installed, characterized in that the device is provided with a locking ring having a bevel on one end surface, at the same time, flats are formed on the outer surface of the sleeve, from the side of its open end, forming flanges from the side of the said end, and a groove, the retaining ring being partially placed in the latter and mounted with its bevel towards the flange, and the fixing device is formed by an annular winding covering the flats, the retaining ring and the remaining part of the flange and forming with the power shell of the housing are one piece.  2. The device according to claim 1, characterized in that the end face of the annular winding of the locking device is made coincident with the inner ends of the shoulders.  3. The device according to claim 1, characterized in that the annular winding of the locking device is made with a reverse cone on the outer surface towards the open end of the sleeve.  4. The device according to claim 1, characterized in that the annular winding of the fixing device is made of a fibrous composite material different from the material of the power shell.  5. The device according to claim 1, characterized in that the retaining ring has a faceted inner hole that matches the contour of the sleeve at its installation location.  6. The device according to claim 1, characterized in that the length of the flats is from 0.3 to 0.5 of the outer diameter of the sleeve.

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