WO2014054976A1

WO2014054976A1 - Expandable polymeric sleeve and method for using same

Info

Publication number: WO2014054976A1
Application number: PCT/RU2013/000849
Authority: WO
Inventors: Дмитрий Вячеславович АЛЯВДИН
Original assignee: Aliavdin Dmitrii Viacheslavovich
Priority date: 2012-10-01
Filing date: 2013-09-27
Publication date: 2014-04-10
Also published as: RU2548302C2; RU2012141871A

Abstract

The group of inventions relates to the field of producing and using expandable polymeric articles for protecting the internal surfaces of articles or devices, primarily internal pipe joints. The expandable polymeric sleeve comprises a destructible support frame and a polymeric sleeve, which is in an elastically compressed state along the diameter and is arranged within the destructible support frame. The support frame and the polymeric sleeve arranged therein are formed together, with the option of being arranged in the internal cavity of an article to be protected, wherein the polymeric sleeve can tightly fit against the internal surfaces of the hollow article after destruction of the destructible support frame. The method for using the expandable polymeric sleeve mentioned consists in introducing the above-described expandable polymeric sleeve into the internal cavity of an article, after which the destructible support frame is destroyed in order to free the polymeric sleeve, which is elastically compressed along the diameter, in such a manner that the sleeve expands elastically along the diameter and tightly fits against the internal surface of the cavity of the article or device. Rubber-containing materials and also thermoplastic elastomers can be used as the material of the expandable polymeric sleeve.

Description

EXTENDABLE POLYMER HOSE AND

METHOD OF ITS USE.

The group of inventions relates to the field of creation and use of expandable polymer products for insulation or other protection of the internal surfaces of products or devices, such as pipes, internal joints of pipes, internal cavities of devices, including non-cylindrical ones. Thus obtained coatings have high strength, insulation, anti-corrosion properties. Due to the ease of use and the ability to provide a wide range of colors, these products can also be used for decorative purposes.

Thermal expansion products are known in the prior art for insulating or otherwise protecting the internal surfaces of devices, such as pipes, internal pipe joints, internal cavities of devices, including non-cylindrical and / or complex ones.

A thermally expandable pipe made of modified thermoplastic plastics is known, which was previously stretched by 25% at temperatures up to 140 ° C. In this case, the pipe diameter under tension decreased by 4-6%. This thermally expandable pipe when re-heated to 140 degrees. C restores its size and expands, thanks to the property of "shape memory". (Greenberg Z.A. et al. Steel pipes lined with polyethylene, M .: Metallurgy, 1973, p. 34.)

The disadvantage of this product is the inability to obtain thermally expandable pipes of large length, because The method involves the use of a modified polymer sleeve for lining steel pipe sections in a factory environment, limited to a range of pipe sections up to 12 meters and a factory room height of not more than 24 meters. In addition, using this method, it is impossible to obtain a thermally expandable pipe capable of increasing its diameter 1.5-3 times. The main disadvantage of this product is the need to heat the expandable pipe using special equipment, which complicates and increases the cost of the process.

The closest analogue, selected as a prototype, is a thermally expandable sleeve of a modified thermoplastic polymer, capable of increasing by a factor of 1.5-3 when heated. (RF patent JY2 2385228).

The disadvantages of this product are the high energy consumption for their expansion due to the need for heating using special equipment, as well as the complexity of its manufacture due to the need to use special equipment for polymer modification.

There is also a method of using thermally expandable products, in particular thermally expandable pipes, selected as a prototype for the claimed method, which consists in guiding a sleeve of a modified thermoplastic polymer into the pipe cavity, while the dimensions of the specified sleeve in the cross section are at least 10% smaller than the internal the diameter of the pipe, and its heating, while the sleeve during heating is able to increase in diameter to a size of at least 10% larger than the inner diameter of the pipe (US Pat. RF 2368502). The disadvantage of this method is the complexity and energy consumption of the method, due to the need to heat a thermally expandable sleeve using special equipment, as well as the difficulty of manufacturing these sleeves due to the need to use special equipment for polymer modification. The objective of this group of inventions is to create a simple in design tubular polymer product, capable of expanding without modification and without subsequent heating, designed to protect the internal surfaces of various products or devices, such as pipes, internal pipe joints, internal cavities of products or devices, including non-cylindrical or complex cavities, as well as creating a simple and economical way to use this product.

The technical result of solving this problem will be to simplify the design and reduce the cost of manufacturing and using an expandable polymer sleeve, as well as simplifying the method of its use while reducing energy consumption and ensuring a good fit of the proposed sleeve to the internal surfaces of the cavities of various products or devices, such as pipes, internal joints of pipes, internal cavities of products or devices, including non-cylindrical cavities or cavities of complex shape.

The specified technical result for an expandable polymer sleeve is achieved by the fact that the proposed expandable polymer sleeve contains a support collapsible frame and a polymer sleeve in an elastically compressed diameter placed inside the support collapsible frame, wherein said support frame and a polymer sleeve in elastically compressed diameter jointly made with the possibility of placing them in the inner cavity or in the inner space of the protected product and / or device so that the specified the measuring sleeve is made with the possibility of tight fit to the inner surfaces of the hollow product and / or device after the destruction of the supporting destructible frame.

The support frame and the elastic cold expansion material are designed in the form of a hollow body, which is generally tubular or tubular, but may also have alternative tubular shapes, for example, tubular shapes of a triangular cross section, tubular rectangular shapes, tubular pentagonal shapes, tubular hexagonal shapes , tubular octagonal shapes, or other suitable tubular shapes that will be apparent to those skilled in the art. The specified technical result is also achieved by the fact that the support frame and the polymer sleeve placed in it in an elastically compressed diameter state are jointly made with an outer diameter that is at least 0.5% smaller than the dimensions of the internal cavity of the product and / or device for free introduction or placement inside this cavity, while the expandable polymer sleeve is made with the possibility of elastic expansion upon destruction of the support frame to a diameter exceeding the dimensions of the internal cavity by at least 0.5% to ensure Nia snug fit to the inner surfaces of the hollow body and / or destruction of the device after sacrificial reference frame.

The indicated technical result is also achieved by the fact that rubber-containing materials, for example, silicone rubber, EPDM (ethylene-propylene diene copolymer), IR (isoprene rubber), SBR (styrene-butadiene rubber), CR (chloroprene rubber) are used as the material of the expandable polymer sleeve , IIR (isobutylene-isoprene rubber), NBR (nitrile butadiene rubber), hydrogenated NBR, acrylic rubber, ethylene acrylic rubber, rubber-containing material with fluoroelastomeric fillers or rubber-containing material with epichloro hydrinous fillers.

The indicated technical result is also achieved by the fact that thermoplastic elastomers are used as the material of cold expansion: olefin thermoplastic elastomers, styrene thermoplastic elastomers, such as SBS (styrene-butadiene block copolymers) and SEBS (styrene-ethylene butylene-styrene copolymers).

The indicated technical result is also achieved by the fact that polymeric, for example, from polyvinyl chloride (PVC), metal, textile and other materials, mainly tape-shaped, which can fix the position of elastically elongated in the longitudinal direction and elastically compressed along expandable sleeve diameter The specified technical result for the claimed method is achieved by the fact that in the method of using the claimed expandable polymer sleeve to protect the surfaces of the internal cavities of various products or devices, including introducing into the internal cavity of the product or device expandable polymer sleeve, in accordance with the proposed technical solution in the internal cavity of the product or devices introduce an expandable polymer sleeve, made according to any of the above technical solutions, then destroy once ushaemy support frame releasing polymeric sleeve elastically compressed in diameter, so that the sleeve elastically expanded in diameter, correspondingly shortening the length, and fits snugly to the inner surface of the cavity of the article or device. The frame can be destroyed, thereby ensuring elastic expansion of the polymer sleeve, but the remains of the frame can partially or completely remain between the protected inner surface and the polymer sleeve, if this is acceptable for the technological process, which can obviously be determined by a person skilled in the art.

The specified technical result is also achieved by the fact that the collapsible support frame and the polymer sleeve in an elastically compressed diameter state are jointly made with an external transverse dimension (diameter), which is at least 0.5% smaller than the dimensions (diameter) of the internal cavity of the product or device while the polymer sleeve is made with the possibility of elastic expansion to a diameter exceeding the dimensions of the internal cavity of the device by at least 0.5% to ensure a snug fit to the inner surfaces of the protected and or Delia device after the destruction of the supporting framework being destroyed. The frame can be destroyed, thereby providing elastic expansion of the diameter-compressed polymer sleeve, but the remains of the frame can partially or completely remain between the protected inner surface and the polymer sleeve, if this is acceptable for the technological process, which can obviously be determined by a person skilled in the art. b

The indicated technical result is also achieved by the fact that rubber-containing materials, for example, silicone rubber, EPDM (ethylene-propylene diene copolymer), IR (isoprene rubber), SBR (styrene-butadiene rubber), CR (chloroprene rubber), IIR ( isobutylene-isoprene rubber), NBR (nitrile butadiene rubber), hydrogenated NBR, acrylic rubber, ethylene acrylic rubber, rubber-containing material with fluoroelastomeric fillers or rubber-containing material with epichlorohydrin fillers.

The indicated technical result is also achieved by the fact that polymeric, for example, from polyvinyl chloride (PVC), metal, textile and other materials, mainly tape-shaped, which can fix the position of elastically elongated in the longitudinal direction and elastically compressed along expandable sleeve diameter

The implementation of the expandable polymer sleeve in an elastically compressed diameter state and placing it inside a collapsible support frame having sufficient rigidity and strength to hold the polymer sleeve in this state, which is obvious to a person skilled in the art, makes it possible to keep the sleeve elastically stretched in length and elastically compressed in the transverse direction in diameter during its storage, transportation and use.

The implementation of these support frame and polymer sleeve in an elastically compressed diameter state with the possibility of their joint placement in the internal cavity (space) of the protected product and / or device provides ease of their joint introduction into the internal cavity of the product or device.

The implementation of the polymer sleeve with the possibility of tight fit to the inner surfaces of the hollow product after the destruction of the supporting destructible frame allows you to improve the quality of the fit of the protective coating to the surfaces of the internal cavity of the products or devices.

The combination of the above features allows you to get the product easy to use, providing high quality protective coating of the surfaces of the internal cavities due to the tight fit to them, as well as economical to use due to the lack of the need for heating when expanding. In addition, the proposed product is cheaper and easier to manufacture because it does not require expensive polymer modification operations.

The implementation of the support frame Assembly with a polymer compressed sleeve with an outer diameter that is at least 0.5% smaller than the dimensions of the internal cavity of the product or device, ensures the achievement of a simple introduction of this design into the internal cavity of the product or device using well-known pulling devices or mechanisms of the type winches.

The implementation of the expandable polymer sleeve with the possibility of expanding to a diameter exceeding the dimensions of the internal cavity by at least 0.5% after separation of the support collapsible frame from it, provides a snug fit of the sleeve to the inner surfaces of the hollow product after separation of the support collapsible frame from it, which allows to increase quality of the protective coating of the internal cavity of products or devices.

Making an expandable polymer sleeve from rubber-containing materials capable of significant stretching or compression, such as, for example, silicone rubber, EPDM (ethylene propylene diene copolymer), IR (isoprene rubber), SBR (styrene-butadiene rubber), CR (chloroprene rubber), II isobutylene-isoprene rubber), NBR (butadiene- nitrile rubber), hydrogenated NBR, acrylic rubber, ethylene acrylic rubber, rubber-containing material with fluoroelastomer fillers or rubber-containing material with epichlorohydrin fillers - provides the necessary elastic stretching of the sleeve in the longitudinal direction while compressing it in the transverse direction (in diameter) in this state for a long time without loss of ability to resiliently restore their original size, and also provides a snug fit the inner surfaces of the hollow body after the destruction of the supporting framework being destroyed, which improves the quality of the protective coating internal cavity articles or devices.

The use of materials such as thermoplastic elastomers as olefin thermoplastic elastomers, styrene thermoplastic elastomers, such as SBS (styrene-butadiene block copolymers) and SEBS (styrene-ethylene butylene-styrene copolymers), are also used as a material for elastic cold expansion provides the necessary elastic extension of the sleeve in the longitudinal direction while compressing it in the transverse direction (in diameter), keeping it in this state for a long time without loss of ability to elastic restoration of their original sizes, and also provides a snug fit of the sleeve to the inner surfaces of the hollow product after the destruction of the supporting destructible frame, which improves the quality of the protective coating of the internal cavity of the product or device.

To improve the properties of an expandable polymer sleeve from an elastic cold expansion material, various additives, agents and / or fillers may be included in it, such as, for example, dyes, flame retardants, lubricants, processing aids, fillers, softeners, antistatic agents, crosslinking agents, crosslinking additives in proper amounts. The cold expansion material has the desired characteristics, such as good tensile strength, heat resistance, hydrodynamic resistance, transparency and others properties that are obvious to a person skilled in the art.

The use of polymeric, for example, polyvinyl chloride (PVC) as well as metallic, textile or composite materials of predominantly tape shape as the material of the support collapsible framework provides fixation of the position of elastically elongated in the longitudinal direction and elastically compressed expandable sleeve in diameter.

The implementation of the claimed method of using the specified expandable polymer sleeve to protect the surfaces of the internal cavities of various products or devices, including the introduction into the internal cavity of the protected product or device expandable polymer sleeve, made according to any of the above technical solutions, followed by the destruction of the support collapsible frame to ensure elastic expansion polymer sleeve, allows to achieve a high-quality fit of the specified polymer sleeve to the inside renney cavity surface articles or devices, while providing easy fashion with simultaneous reduction of energy consumption due to the lack of need for heating in the sleeve enlargement. The implementation of the support frame assembly with a polymer elastically-compressed diameter sleeve with an external size that is at least 0.5% smaller than the dimensions of the internal cavity of the product or device, ensures the simple introduction of the sleeve of the specified design into the internal cavity of the product or device using conventional known to any specialist machines or mechanisms.

The implementation of the expandable polymer sleeve with the possibility of expanding to a diameter exceeding the dimensions of the protected internal cavity by at least 0.5% after the destruction of the supporting destructible frame provides a snug fit of the sleeve to the inner surfaces hollow products, which allows to provide high quality protective coating of the internal cavity of products or devices.

Making an expandable polymer sleeve from rubber-containing materials capable of significant stretching or compression, such as, for example, silicone rubber, EPDM (ethylene propylene diene copolymer), IR (isoprene rubber), SBR (styrene-butadiene rubber), CR (chloroprene rubber), II isobutylene-isoprene rubber), NBR (nitrile butadiene rubber), hydrogenated NBR, acrylic rubber, ethylene acrylic rubber, rubber-containing material with fluoroelastomeric fillers or rubber-containing material with epichlorohydrin fillings teli, - provides elastic stretching of the sleeve in the longitudinal direction while compressing it in the transverse direction (in diameter), keeping it in this state for a long time without losing the ability to resiliently restore its original dimensions, and also provides a snug fit of the sleeve to the inner surfaces of the hollow product after the destruction of the supporting destructible frame, which improves the quality of the protective coating of the internal cavity of products or devices.

The use of materials such as thermoplastic elastomers as olefin thermoplastic elastomers, such as olefin thermoplastic elastomers, styrene thermoplastic elastomers such as SBS (styrene-butadiene block copolymers) and SEBS (styrene-ethylene butylene-styrene copolymers), also provides elastic tension sleeves in the longitudinal direction while compressing it in the transverse direction (in diameter), keeping it in this state for a long time without losing the ability to elasticly restore its rvonachalnyh sizes and provides a snug fit of the sleeve to the inner surfaces of the hollow body after the destruction of the supporting framework being destroyed, which improves the quality of the protective coating internal cavity articles or devices. To improve the properties of an expandable sleeve made of a material of elastic cold expansion, various additives, agents and / or fillers, such as, for example, dyes, flame retardants, lubricants, processing aids, fillers, softeners, antistatic agents, cross-linking agents, cross-linking agents, can be included in it. additives in proper amounts. The cold expansion material has the desired characteristics, such as good tensile strength, heat resistance, hydrodynamic resistance, transparency and other properties that are obvious to a person skilled in the art.

The invention is illustrated by the following drawings.

The figure 1 shows the supporting frame Assembly with an expandable polymer sleeve, which is in an elastically-compressed diameter state, while this assembly is placed in the inner cavity of the product or device.

The figure 2 shows the expanded after the destruction of the support frame of the polymer sleeve, tightly adjacent to the surface of the internal cavity of the product or device.

The following notation is used in the figures:

1 - product with a protected inner surface;

2 - destructible frame;

3 - expandable polymer sleeve (cold expansion sleeve).

The expandable polymer sleeve 3 is placed in a destructible support frame 2 to hold the sleeve 3 in an elastically compressed diameter state until the support frame 2 is destroyed. The support frame 2 is made destructible, for example, in the form of a tape spirally rolled into a tubular structure. The tubular destructible support frame is obtained by forming a tape of polymer, metal, textile, composite materials into a coiled spiral shape to obtain a tubular body.

Destructible support frame 2 of a spiral wrapped tape can be destroyed or deployed by sequentially unfastening one part of the spiral tape from the next adjacent part of the spiral tape by manually or mechanically removing one end of the tape.

The sleeve of the elastic cold expansion 3 can be one single element, which is covered along the entire outer surface by the supporting frame 2 for relatively short internal cavities of the product or devices. For use in long devices or products, the sleeve of elastic cold expansion may be composed of a number of individual sleeve elements of elastic cold expansion. An example of a specific implementation for protecting the inner surface of a pipe with an inner diameter of 95 mm. The initial blank for the expandable polymer sleeve 3 is made in the form of a pipe with an external diameter of 100 mm, a wall thickness of 3 mm and a length of 1000 mm, made on an extrusion installation made of silicone rubber, with an elongation capacity of more than 100%.

The supporting collapsible frame 2 is made in the form of a plastic tape made of polyvinylchloride - PVC spirally wrapped in a pipe. The supporting frame in the form of a pipe has an internal diameter of 80 mm and a length of 1500 mm. The required length of the frame is determined empirically according to the laws obvious to the specialist, taking into account the relaxation properties of the selected polymeric material of cold expansion.

The sleeve intended for subsequent elastic cold expansion undergoes elastic deformation of a reduction in diameter due to longitudinal elongation so that the outer diameter of the sleeve is reduced to a value of less than 80 mm, after which the sleeve is passed into the prepared support collapsible frame on any known tensile device. The deformation force is removed from the material. cold expansion and it fits snugly to the inner surface of the support frame. An integral product is formed, consisting of a supporting frame 2 and a polymer sleeve of cold expansion 3. The length of the compressed sleeve will be longer than the frame for ease of further installation.

The resulting sleeve product is intended for insulation or other protection of the internal surfaces of products or devices, the maximum size of which in the transverse dimension or in diameter is less than 99.5 mm to ensure tight contact between the protected internal surface of the product 1 and the expanded polymer sleeve 3 after the destruction of the frame 2.

To implement the claimed method, the prepared cold expansion sleeve assembly described above with a collapsible carcass is introduced into the inner cavity of the pipe to form a protective coating on its surface. The introduction of the cold expansion sleeve is carried out using any known pulling device such as a winch.

After placing the sleeve in the inner cavity of the product, the protective frame is destroyed by pulling and / or unrolling the spiral tape forming the protective frame. Pulling is carried out manually or using known pulling mechanisms.

After the frame is detached, the sleeve 3 elastically expands to its original size in diameter equal to 100 mm and fits snugly against the inner surface of the pipe, thus forming a protective polymer coating on this surface. In this case, a corresponding decrease in the length of the sleeve occurs. Examples of products or devices with internal cavities for which the claimed cold expansion product can be applied: pipes, pipelines, couplings, pipe joints and any other devices that may require insulation of internal cavities or holes.

Claims

SUMMARY OF THE INVENTION An expandable polymer sleeve and a method for using it 1. An expandable polymer sleeve, characterized in that it comprises a collapsible support frame and a polymer sleeve in an elastically-compressed diameter state, located inside the collapsible support frame, said support frame and a polymer sleeve in said jointly made with the possibility of placing them in the inner cavity of the protected product or device, while the polymer sleeve is made with the possibility of tight fit to the inside the friction surface of the hollow body after the destruction of the supporting framework being destroyed.

2. The expandable polymer sleeve according to claim 1, characterized in that the support frame and the polymer sleeve in an elastically compressed diameter state are jointly made with an outer diameter that is at least 0.5% smaller than the dimensions of the internal cavity of the product or device, this polymer sleeve is made with the possibility of elastic expansion to a diameter exceeding the dimensions of the internal cavity by at least 0.5% to ensure a snug fit to the internal surfaces of the hollow product or device after the destruction of the support destructible skeleton.

3. The expandable polymer sleeve according to claim 1, characterized in that the expandable polymer sleeve is made of rubber-containing materials, such as silicone rubber, EPDM (ethylene propylene diene copolymer), IR (isoprene rubber), SBR (styrene-butadiene rubber), CR (chloroprene rubber), IIR (isobutylene-isoprene rubber), NBR (nitrile butadiene rubber), hydrogenated NBR, acrylic rubber, ethylene acrylic rubber, rubber-containing material with fluoroelastomeric fillers or rubber-containing material from epichlorides and fillers.

4. The expandable polymer sleeve according to claim 1, characterized in that the expandable polymer sleeve is made of thermoplastic elastomers such as olefin thermoplastic elastomers, styrene thermoplastic elastomers such as SBS (styrene-butadiene block copolymers) and SEBS (styrene-ethylene butylene-styrene copolymers).

5. The expandable polymer sleeve according to claim 1, characterized in that the support collapsible frame is made of polymer, metal, textile or composite materials, mainly tape-shaped, ensuring the fixation of the specified sleeve in an elastically compressed diameter state.

6. A method of using said expandable polymer sleeve for protecting surfaces of internal cavities of various products or devices, comprising introducing an expandable polymer sleeve into the internal cavity of an article or device of an expandable polymer sleeve, characterized in that an expandable polymer sleeve is inserted into the internal cavity of an article or device, made according to any one of claims .P. 1-5, then destroyed destructible support frame to release elastically compressed diameter of the polymer sleeve, so that the sleeve is elastically expanded in diameter and fits snugly against the inner surface of the cavity of the product or device.

7. The method according to p. 6, characterized in that the supporting frame and the polymer sleeve in an elastically compressed diameter state are jointly made with an outer diameter that is at least 0.5% smaller than the dimensions of the internal cavity of the product or device, wherein the polymer sleeve is configured to expand to a diameter exceeding the dimensions of the internal cavity by at least 0.5% to ensure a snug fit to the internal surfaces of the hollow product and / or device after separation of the collapsible support frame from the sleeve sa

8. The method according to claim 6, characterized in that rubber-containing materials, for example, silicone rubber, EPDM (ethylene propylene diene copolymer), IR (isoprene rubber), SBR (styrene-butadiene rubber), CR (chloroprene rubber, are used as the material of the polymer sleeve) ), IIR (isobutylene-isoprene rubber), NBR (nitrile butadiene) rubber), hydrogenated NBR, acrylic rubber, ethylene acrylic rubber, rubber-containing material with fluoroelastomeric fillers, or rubber-containing material with epichlorohydrin fillers.

9. The method according to claim 6, characterized in that the thermoplastic elastomers are used as the material of the polymer sleeve: olefin thermoplastic elastomers, styrene thermoplastic elastomers such as SBS (styrene-butadiene block copolymers) and SEBS (styrene-ethylene butylene-styrene copolymers )

10. The method according to p. 6, characterized in that the material of the supporting destructible frame used polymer, metal, textile or composite materials, mainly tape-shaped, ensuring the fixation of the specified sleeve in an elastically compressed diameter state.