RU2165048C1 - Hermetic pipe-envelope - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: pipe-envelope includes load-bearing layers made from glass-reinforced plastic with intermediate layer made from thermoplastic polymer between them. Load-bearing glass-reinforced plastic layers are provided with solid flat circular layers of sealing adhesive composition located radially and applied on flat end faces overlapping intermediate thermoplastic polymer layer; intermediate thermoplastic polymer layer is fastened with this layer and with load-bearing glass-reinforced plastic layers by means of continuous cord-type circular members made from elasto-flexible material, such as rubber overlapping it in thickness over entire perimeter. Load-bearing glass- reinforced plastic layers have wefts located axially and warps located in circumferential direction; they are reinforced over end faces embracing them over congruent surfaces and profile of cord-type circular members by means of solid metal circular holders fastened to them by means of adhesive composition; for fastening them with load-bearing glass-reinforced plastic layer located above intermediate thermoplastic polymer layer, use is additionally made of rod- type threaded members. EFFECT: enhanced tightness and reliability of construction. 3 cl, 6 dwg

Description

 The invention relates to mechanical engineering and can be used in products made of composite materials, in particular in layered products, for example in multilayer pipes-shells made of fiberglass, characterized by the physical structure of the layers in which the reinforcing threads are embedded in a polymer matrix.

 Pipe-shells made of composite materials have increased requirements for strength and reliability, while products must have a minimum weight. However, the nature of the composite structures is such that a medium leaks through them due to defectiveness and cracking of the binder during loading (A. Kelly, High-strength materials, M., Mir, 1978, p. 202-206).

 To seal the wound fiberglass shells, to increase their resistance to penetration of the medium, various types of elastomers, sealants and plastic materials are used (V.A. Kalinchev, M.S. Makarov, Coiled fiberglass, M., Chemistry, 1986, pp. 210-224) .

Known sealed pipe-shell containing the supporting layers of fiberglass and placed between them an intermediate layer of thermoplastic material (RF patent N 2112652, IPC ⁶ B 29 D 9/00, B 32 B 5/28, F 16 L 9/12, 1998) .

A similar sheath pipe is known, between which the thermoplastic film is placed between the fiberglass layers (RF patent 2015909, IPC ⁶ B 29 C 53/56, B 29 L 23:22, 1994).

 The disadvantages of the known pipe shells made of composite materials, between the layers of which the sealing layers are located, include the unresolved problem of sealing such products in connection with leaks of the medium at their ends.

 As you know, the pipes obtained by winding are machined by trimming, as a result of this, it would seem, a finishing operation, the reinforcing fibers during shearing are injured in all layers. The resulting defects contribute to the leakage of the medium, since the intermediate sealing layer placed between the bearing layers, when cut from the end side, does not overlap the resulting end defects in the layers of the composite material.

 The closest analogue, selected as a prototype, on the basis of the main essential features is a sealed sheath pipe according to the patent of the Russian Federation N 2112652. In the specified sheath pipe, similar disadvantages are manifested.

 The main objective of this invention is the creation of a pipe-shell of such a design in which these disadvantages of the analogues and prototype would be eliminated, the product would have tightness and reliability in the radial direction at all indicated places, there would be no leakage of the medium through the wall and ends.

 The technical result from the use of the invention is to increase the tightness and reliability of the structure, ensuring its high-quality manufacturing.

 The main problem is solved and the technical result is achieved due to a different approach to creating a sealed pipe-shell based on a new concept, expressed in that the intermediate layer of thermoplastic material, having a continuity along the entire length of the pipe-shell, must be connected or made with it in one a whole sealing means located at the ends of the pipe-shell in conjunction with reinforcing metal parts.

 To this end, in a sealed pipe-sheath containing the fiberglass carrier layers and the intermediate layer of thermoplastic material placed between them, the fiberglass carrier layers are provided with continuous flat, radially spaced annular layers of the sealing adhesive composition deposited on their flat ends with overlapping of the intermediate layer of the thermoplastic polymer, and the intermediate layer of thermoplastic polymer - continuous cord ring elements made of elastic bonded with it and the supporting layers of fiberglass an elastic material such as rubber, overlapping along the thickness along the entire perimeter, and the supporting layers of fiberglass are made of fiberglass with the weft threads in the axial and warp threads in the circumferential directions, and reinforced at the ends, covering them along the congruent surfaces and the profile of the cord ring elements, continuous metal annular rings fastened with an adhesive composition with them, and with a carrier layer of fiberglass, located above the intermediate layer of thermoplastic polymer, rod threaded elements. The supporting layers of fiberglass can be made of fiberglass brand T-13 or TSU-VM, or TSU-E and a polymer binder based on epoxy resin. Continuous flat radially spaced annular layers of the sealing adhesive composition can be made on the basis of epoxy resin.

The distinctive features of a sealed pipe-shell are the following features:
- supplying the fiberglass support layers with continuous flat radially spaced annular layers of the sealing adhesive composition deposited on their flat ends,
- overlapping the intermediate layer of the thermoplastic polymer with flat, radially spaced annular layers of the sealing adhesive composition,
- the supply of the intermediate layer of thermoplastic polymer bonded with it and the supporting layers of fiberglass continuous cord ring elements of an elastic material such as rubber,
- overlap with cord ring elements throughout the thickness along the entire perimeter of the intermediate layer of thermoplastic material,
- the implementation of the supporting layers of fiberglass fiberglass with the location of the weft threads in the axial, and warp threads in the circumferential directions,
- reinforcement of the ends of the pipe-shell covering them on the coherent surfaces and the profile of the cord ring elements with continuous metal ring clips,
- fastening the clips with the ends of the supporting layers of fiberglass adhesive composition,
additional fastening of the clips with a fiberglass layer located above the intermediate layer of thermoplastic polymer, rod threaded elements,
- the implementation of the supporting layers of fiberglass from fiberglass brand T-13 or TSU-VM, or TSU-E and a polymer binder based on epoxy resin,
- the implementation of continuous flat radially arranged annular layers of a sealing adhesive composition based on epoxy resin.

 These distinctive features of a sealed pipe-shell are essential features, since each of them individually and jointly aims to solve the problem and achieve a new technical result. The supply of the reinforcing layers of fiberglass of the pipe-shell with flat radially arranged annular layers of the sealing adhesive composition deposited on their flat ends with the overlapping of the intermediate layer of thermoplastic polymer, bonded with it and the bearing layers of fiberglass, overlapping in thickness with flexible cord ring elements increases the reliability of sealing and eliminates leakage Wednesday. The ordering of the location of fiberglass threads of fiberglass layers, the main - in the circumferential, weft - in the axial directions when covering the ends of the pipe-shell with metal ring clips when bonding them with the bearing layers of fiberglass located above the intermediate layer of thermoplastic polymer, through rod threaded elements increases the degree of sealing and performance properties over a long period of time.

 Distinctive essential features of a sealed pipe-shell in the proposed design are new, since their use in the prior art, analogues and prototype were not found, which allows to characterize the pipe-shell in the aggregate of essential features in accordance with the criterion of "novelty".

 A single set of new essential features with common known essential features allows us to solve the problem and achieve a new technical result, which characterizes the proposed technical solution by significant differences from the prior art, analogues and prototype. A new technical solution for sealing a pipe-shell based on a new concept of its improvement is the result of the development of a design and creative contribution, obtained without the use of regulatory and technical documentation, GOSTs, standards or any recommendations in this field of technology to solve the problem, is original according to design that is not obvious to specialists in the relevant industry is characterized by compliance with the criterion of "inventive step".

 A brief summary of the invention is illustrated by drawings.

 In FIG. 1 shows a general view of a sealed fiberglass jacket pipe; FIG. 2 is a cross section of a pipe-shell, in FIG. 3 - axial section of the sealing pipe-shell in axial section, in FIG. 4 - pipe-shell with sealing elements, in FIG. 5 shows the structure of the fiberglass carrier layers of the sheath pipe; FIG. 6 is a schematic diagram of the attachment of metal annular rings to a pipe-sheath.

 A more detailed description of the invention is as follows.

 The hermetic sheath pipe contains the carrier layers 1, 2 of fiberglass and the intermediate layer 3 of thermoplastic polymer placed between them. The fiberglass carrier layers 1, 2 are provided with continuous flat radially spaced annular layers 4 of the sealing adhesive composition deposited on their flat ends 5, 6 with the overlap of the thermoplastic polymer intermediate layer 3, and the thermoplastic polymer intermediate layer 3 - bonded with it and the carrier layers 1, 2 fiberglass continuous cord ring elements 7, 8 of an elastic material such as rubber, overlapping in thickness along the entire perimeter, and the supporting layers 1, 2 fiberglass made of tray 9 with the location of the weft threads 10 in the axial, and warp threads 11 in the circumferential directions, respectively 12 and 13. The fiberglass support layers 1, 2 are reinforced at the ends 5, 6 covering them along the congruent surfaces and the profile of the cord ring elements 7, 8 solid metal clips 14, 15, bonded with them with an adhesive composition 4, and with a fiberglass carrier layer 2 located above the thermoplastic polymer intermediate layer 3, additionally with threaded rod elements 16, 17. Fiberglass carrier layers 1, 2 can be made of fiberglass 9 grade T-13 or TSU-VM, or TSU-E and a polymer binder based on epoxy resin.

 The manufacture of a hermetic sheath pipe consists in sequentially winding layer 1 of fiberglass impregnated with a polymeric binder, an intermediate layer 3 of thermoplastic film, layer 2 of fiberglass impregnated with a polymeric binder, and heat treating the workpiece according to the polymerization mode of the polymer binder, during which the coils of the thermoplastic film are fused into a single intermediate layer 3 of thermoplastic polymer and subsequent machining by face cutting to a size at which sections of layers 1, 2 and 3 dyatsya in the same radial plane. Then, continuous flat radially located annular layers 4 of the sealing adhesive composition with overlapping of the intermediate layer 3 of thermoplastic polymer are applied to the flat ends 5, 6 of the sheath pipe, fastening them together, they are installed and fastened with the annular layers 1, 2 with the overlapping layer 3 in thickness continuous cord ring elements 7, 8 made of an elastic material using continuous metal annular rings 14, 15, profiled at ends 5, 6 and the profile of solid cord ring elements 7, 8 and rod p the screw elements 17, 18 fastening the clips 14, 15 with the carrier layer 2 simultaneously with the compression to the ends 5, 6 and compression of the continuous cord ring elements 7, 8. In the fixed position of the clips 14, 15, the adhesive composition of the ring layers 4 is cured and reliable sealing is ensured shell pipes in the radial direction both through the wall and through the joints of the ends 5, 6 with the intermediate layer 3 of a thermoplastic polymer in it with the indicated applied and fixed elements.

 The functioning of the pipe-shell is to provide it with the structural features of reliable sealing for a long period of time under conditions of perception of loads.

 A prototype sealed pipe-shell made using a new technical solution, when tested showed positive results.

 Thus, the new technical solution for the design in the proposed options is new, technologically advanced and effective compared to the prior art, is well implemented in an industrial way, and also meets the criterion of "industrial applicability", i.e. level of invention.

 The scope of the invention should be understood broader than the specific implementation given in the description, formula and drawings. It should be borne in mind that the form of the invention is only possible, preferred embodiments of the invention in relation to the shape, size and location of the individual elements, if all this does not fall outside the scope of the invention set forth in the claims. In addition, the present invention does not limit the use of a sealed sheath pipe only as a means to keep the gaseous medium under pressure, but also to place and fasten products corresponding to its volume, affecting it with its mass and loads that arise during the movement and transportation.

Claims (3)

 1. An airtight sheath-pipe containing fiberglass carrier layers and an intermediate layer of thermoplastic polymer placed between them, characterized in that the fiberglass carrier layers are provided with continuous flat radially spaced annular layers of sealing adhesive composition deposited on flat ends with overlapping of the intermediate layer of thermoplastic polymer, and the intermediate layer of thermoplastic polymer - continuous cord ring elements bonded with it and with the supporting layers of fiberglass and from an elastic material such as rubber, overlapping along the thickness along the entire perimeter, and the fiberglass support layers are made of fiberglass with the weft threads in axial and warp threads in circumferential directions and reinforced at the ends, covering them along congruent surfaces and the profile of the cord annular elements with continuous metal annular rings fastened with an adhesive composition with them, and with a carrier layer of fiberglass, located above the intermediate layer of thermoplastic polymer, Relatively threaded threaded elements.  2. The sheath pipe according to claim 1, characterized in that the supporting layers of fiberglass are made of fiberglass brand TSU-VM, or T-13, or TSU-E and a polymer binder based on epoxy resin.  3. The shell pipe according to claims 1 and 2, characterized in that the continuous flat radially located annular layers of the sealing adhesive composition are made on the basis of epoxy resin.

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