WO2013048287A1

WO2013048287A1 - Pipe fitting element for connecting a polypropylene pipe and a metal pipe

Info

Publication number: WO2013048287A1
Application number: PCT/RU2012/000661
Authority: WO
Inventors: Павел Эдуардович МЕЛЬНИКОВ
Original assignee: Mel Nikov Pavel Eduardovich
Priority date: 2011-09-26
Filing date: 2012-08-10
Publication date: 2013-04-04
Also published as: CN103562611A; RU2476754C1; UA106020C2; CN103562611B; EA201300640A1; EA022334B1

Abstract

The invention relates to a pipe fitting element. The pipe fitting element for connecting a polypropylene pipe and a metal pipe comprises a hollow body which is manufactured from polypropylene and has an element formed in one piece for connecting to the polypropylene pipe, an opening in which element is open into the body cavity, and also an inset element in the form of a bushing made of metal alloy with a tubular section embedded in the body and a projecting tubular section. The cavity of the inset element communicates with the body cavity. The end side of that section of the inset element which is embedded in the body has an annular groove which is arranged in the vicinity of the internal surface, has internal lateral cylindrical surfaces and within which an annular element made from a solid, flexible sealing material is arranged, said annular element being joined to a base and being compressed under a pressure corresponding to a compacting pressure of the body. The technical result consists in extending the range of pipe fittings, with the possibility of connection to a polypropylene pipe and to a metal pipe at the same time, and also in enhancing the service life reliability of said pipes by reducing the probability of leakages arising.

Description

PIPELINE FITTING ELEMENT FOR CONNECTION

POLYPROPYLENE AND METAL PIPES

Technical field

The invention relates to the construction, and in particular to an element of pipe fittings having the ability to connect with polypropylene and metal pipes at the same time, that is, a transition from a polypropylene pipe to a metal pipe, which can be made in the form of a fitting, in particular in the form of a coupling (transition), tee , crosses, branch, fitting, elbow, in particular wall and in the embodiment with a union nut, in the form of a pipe filter, in the form of a valve or valve, in the form of a welded-in or welded-in saddle to form from branching from a polypropylene pipe, in the form of an element of a water distribution system or a wall element for connecting a mixer. The listed elements of pipe fittings are used in the construction of polypropylene and metal pipes for heating and water supply systems in buildings, including residential, and other structures for various purposes. State of the art

A known element of pipe fittings having the ability to connect with polypropylene and metal pipes and representing a transition with a metal external thread, designed to connect a polypropylene pipe with a metal one, which contains a hollow body made of polypropylene, into which a embedded element in the form of a sleeve made of a metal alloy is embedded, open inside the body cavity (Ekoplastik PPR System, product catalog for internal cold and hot water supply and heating companies Wavin for 2010, page 9, "The transition to a metal external thread"). The casing is made integrally from the side opposite to the location of the embedded element, with the element open to the cavity of the casing for connecting to the polypropylene pipe in the form of a protruding section with outer and inner cylindrical surfaces, which is designed to connect to the casing by welding a polypropylene pipe, the end of which is welded inside protruding section. The embedded element has a protruding tubular section, on the outer surface of which a section with a pipe thread is made to ensure connection to a metal pipe or to a metal pipe element.

A portion of the embedded element embedded in the housing from the end side on the inner surface is made with a section of a larger diameter, at the end of which a groove is made deepened relative to the said section of a larger diameter adjacent to the transition to the section of a smaller diameter. This section of larger diameter and the groove are filled with body material, that is, polypropylene, which is located flush inside the section of the smaller diameter of the embedded element with the formation of the zone of the butt joint.

In the specified zone of the end joint with cyclic changes in the temperature of the transported medium, the polypropylene layer adjacent to the embedded element is prone to delamination from the embedded part due to different coefficients of thermal expansion of polypropylene and the metal alloy of the embedded element (brass, bronze, stainless steel). Peeling of polypropylene and various kinds of deformations, the application of a torque load, tensile, compressive can lead to leaks through the interface between the housing and the embedded element. Water seepage may not occur immediately after installation, but after 3 to 5 years of operation, since polypropylene is slowly but still aging. As a result of this, the micro-gap between the embedded element and the housing polypropylene may increase.

The possibility of leakage is possible not only for elements of pipe fittings in the form of a transition from a metal outer thread, but also for others with similar structural units of pipe fittings, providing for the possibility of connection with polypropylene and metal pipes, in particular a transition with a metal insert and a union nut (page 9 of the above source), a 90 degree elbow with metal external thread (page .10 of the above source), welded seat with metal external thread (page 12 of the above source).

SUMMARY OF THE INVENTION

The technical result, the preparation of which the present invention provides, consists in expanding the arsenal of means related to pipe fittings of various functional purposes that can be connected to polypropylene and metal pipes at the same time, as well as to increase the reliability of these means and their service life by reducing the likelihood of occurrence leaks.

Achieving the specified technical result provides an element of pipe fittings having the ability to connect with polypropylene and metal pipes, which contains:

- a hollow body made of polypropylene with at least one integral element made with it for connection with a polypropylene pipe, the opening of which is open into the cavity of the body;

- at least one embedded element in the form of a sleeve made of a metal alloy, the cavity of which also communicates with the cavity of the housing, with a section embedded in the housing and a protruding tubular section.

The embedded portion section in the housing from the end side is made with an annular groove located adjacent to the inner surface of the embedded element with inner cylindrical side surfaces.

Inside the annular groove with the interface with its bottom is an annular element of a continuous solid elastic material, which is compressed under pressure corresponding to the pressure of pressing the casing.

In a preferred embodiment of the invention, the depth of the annular groove is equal to at least one and a half thicknesses of the annular element of the sealing solid elastic material.

Ethylene-propylene-diene-rubber, butadiene-nitrile rubber, fluororubber or silicone rubber can be used as a sealing continuous elastic material of the annular element.

The embedded element may be made of bronze, brass or stainless steel.

In the best embodiment of the invention, the embedded portion of the embedded element is made with elements of additional mechanical interaction with the housing material in the form of radial ribs located on its outer surface and / or in the form of longitudinal protrusions at the end.

On the protruding tubular portion of the embedded element, a portion with an external tubular thread may be formed. It is also possible to install a flare nut on the protruding tubular section.

The implementation of the invention

The possibility of carrying out the invention is illustrated by an example of a specific embodiment of an element of pipe fittings having the ability to connect with polypropylene and metal pipes, which is made in the form of a transition with a portion of the external metal thread.

In figure 1. shows a longitudinal section of the product.

Figure 2 shows a mortgage element with a part along the axis in longitudinal section with an installed annular element of a continuous solid elastic material.

The element of pipe fittings in the form of a transition contains a housing 1 made of polypropylene with a cavity 2 and with one made with it in one piece element 3 for connection with a polypropylene pipe (not shown in the drawing), the hole 4 in which is open into the cavity 2 of the housing 1, as well as one embedded element 5 in the form of a sleeve made of a metal alloy (bronze, but can be used brass or stainless steel).

The embedded element 5 has a section 6 embedded in the housing 1 and a protruding tubular section 7 with an external tubular thread 8. The cavity 9 of the embedded element 5 communicates with the cavity 2 of the housing 1. The portion 6 embedded in the housing 1 of the embedded element 5 from the end face 10 is arranged adjacent to its inner surface 1 1 is an annular groove 12 with inner lateral cylindrical surfaces, inside of which an annular element 13 of a continuous solid elastic material is located with the bottom mating. The depth of the annular groove 12 is equal to at least one and a half thicknesses of the annular element 13. Preferably, the depth of the annular groove 12 is equal to 2 to 2.5 the thicknesses of the annular element 13. Ethylene is used as the sealing solid elastic material of the annular element 13. propylene diene rubber, but nitrile butadiene rubber, fluororubber or silicone rubber may also be used. The annular element 13 has a cross-sectional shape of a circle, but may have a rectangular, including square, or other shape. The bottom of the annular groove 12 may be straight, that is, orthogonal to the side walls, radially rounded.

The annular element 13 is installed annular groove 12 with an interference fit, where it is compressed under pressure corresponding to the pressing pressure of the housing 1, which occurs during its manufacture on a thermoplastic apparatus. The annular element 13 eliminates the presence of air in the annular groove 12. The portion 6 of the embedded element 5 embedded in the housing 1 is made with elements of additional mechanical interaction with the housing material in the form of radial ribs 14 located on its outer surface, which ensure the bond strength of the embedded element 5 with the housing 1 at axial loads, and in the form of longitudinal protrusions 15 (figure 2) at the end 10, ensuring the strength of the connection of the embedded element 5 with the housing 1 upon application of loading torques.

The annular element 13 becomes a barrier to the passage of water, when after 3 to 5 years of operation, the microgap between the embedded element 5 and the polypropylene of the housing 1 increases. The complex shape of the embedded element 5 is determined on the one hand by the desire to get the longest water path through a possible leak (water is inside the element of the pipe fittings and for it to appear outside it must go through all the grooves and only after that it can be outside). On the other hand, the mortgage element 5 should have a minimum size due to economic considerations, since the material of the mortgage element is more expensive than polypropylene.

All parts made in accordance with patent claims of the invention are manufactured using known technologies corresponding to the materials used.

The example embodiment of the invention is not exhaustive. As noted above, other variants of the structural design of the pipe fittings element are possible in the form of a fitting that can be connected to polypropylene and metal pipes (coupling or transition, tee, crosspiece, elbow, fitting, elbow), pipeline filter, tap or valve , a welded-in or welded-in saddle, a water distribution system element or a wall element for connecting a mixer.

Claims

Claim

1. An element of pipe fittings having the ability to connect with polypropylene and metal pipes, comprising a hollow body made of polypropylene with at least one integral element made with it for connecting to a polypropylene pipe, the opening of which is open into the cavity of the housing, and also with at least one embedded element in the form of a sleeve made of a metal alloy, the cavity of which also communicates with the cavity of the housing, with a section embedded in the housing and a protruding tubular section, embedded in the body portion of the fitting member by an end adapted disposed adjacent the inner surface of the fitting member the annular groove with the internal side cylindrical surfaces, inside which a conjugation with the bottom of an annular element from sealing a solid elastic material, which is compressed under a pressure corresponding to the pressure hull pressing.

2. The element according to claim 1, characterized in that the depth of the annular groove is a value equal to at least one and a half thicknesses of the annular element of a continuous solid elastic material.

3. The element according to paragraphs 1 or 2, characterized in that ethylene-propylene-diene rubber, or nitrile butadiene rubber, or fluororubber, or silicone rubber is used as the sealing continuous elastic material of the ring element.

4. The element according to claim 1, characterized in that the embedded element is made of bronze, brass or stainless steel.

5. The element according to claim 1, characterized in that the section of the embedded element embedded in the housing is made with elements of additional mechanical interaction with the housing material in the form of radial ribs located on its outer surface and / or in the form of longitudinal protrusions at the end.

6. The element according to claim 1, characterized in that on the protruding tubular section of the embedded element, a section with an external tubular thread is made.