• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Connecting device for plastic pipe elements (1) that allows a prior assembly and be finally assembled without the need for skilled labor, comprising a pipe element (1) having at least one end, a connection element ( 2) plastic, which is connected to an outer surface of said pipe element (1) by said end, which comprises a resistive wire (3) arranged in a coiled manner on the outer surface of the pipe element (1) itself. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2581377A1
    申请号:ES201630623
    申请日:2016-05-13
    公开日:2016-09-05
    发明作者:Javier Antonio VAZQUEZ SANCHEZ;David ROSA ARIZA;Alberto Martinez Perez
    申请人:ABN Pipe Systems SL;
    IPC主号:
    专利说明:

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    DESCRIPTION
    Connection device for pipe elements.
    TECHNICAL FIELD OF THE INVENTION
    The present invention has application in the industry of the systems of connection or union of plastic pipe elements, the pipe element being understood as a section of pipe, tube or pipe. More specifically, the invention has application in the field of electrowelded type connections, and can be used in air conditioning networks, cold water installations, ACS and heating, as well as in distribution networks for drinking water, irrigation, gas and industrial facilities.
    The invention allows the design of universal pipe sections that can be used and connected directly on site, offering high security and reliability of the connection or union, with savings of more than 50% in labor, allowing prior installation of the installation , that is, without final welding, with the possibility of pre-manufacturing the pipe sections according to the design of the installation and can finally be assembled without the need for skilled labor.
    BACKGROUND OF THE INVENTION
    At present, the union of plastic pipe elements by different techniques is known.
    One of these unions is the so-called union socket by thermofusion, in which a tube and an accessory are joined by thermal fusion. The exterior of the tube and the interior of the accessory are heated with tempered matrices by means of a polifuser at the melting temperature of the plastic used. Then the elements of the matrices are extracted and coupled with each other. The problem is that it only works for a certain range of diameters, between 20-125 mm, in addition to the need to regulate the temperature of the polifusor, perform maintenance and renovation of the polifusor and matrices, requiring a medium-cost welding equipment and the realization of it in a workbench. In addition, the welds of union of sections in height are complex.
    On the other hand, for intermediate diameters, between 63-250 mm, the union is usually used
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    electrosoldable, which is also performed by thermal fusion, but in which the melting temperature is reached thanks to an electrical resistance that is embedded in an electrowelded accessory. The terminals of the welding connector of the accessory are connected to the wires of an electrosoldering unit and the current generated by the machine heats the resistance by Joule effect. The electric current used is low voltage (24-40 V). In this way, the inner surface of the fitting is welded with the outer surface of the tube. At the end of the process, a merge witness of the piece appears that guarantees that the process has been carried out properly. However, this form of union is extremely slow, requiring between 20-30 minutes for the entire welding process, especially due to the operations necessary for the preparation of the tube, in addition to requiring high precision and skilled labor that properly prepare the sections to be joined, including scratching the rust, etc., which makes it more expensive to put into work, in addition to the need to have a special non-straight piece, for example an elbow or a T-piece, it is even more expensive, since it is not frequent to require these pieces. That is, the accessories have a high cost, the range of accessories being limited. Furthermore, in order to avoid a difference in tolerances between the tube and the accessory, a thorough preparation of the tube is necessary, as mentioned above.
    Finally, for large diameters, butt welding is also used, also called testa. According to this system, the ends of the pipes to be joined are heated with a heating element for a certain time and a certain pressure. The heating plate is removed, the ends are faced and joined together maintaining the pressure for the necessary time. The problem of this type of union is its high cost of execution, since a hydraulic unit, special clamps and a generator set are required, which greatly increases and delays its execution, requiring between 40120 minutes per union, given that the personnel that has to be qualified, it must also move the whole machine to the successive points of union. In addition, this form of union supposes a reduction of the useful section of the tube due to the internal weld seam, so it is necessary to apply a pressure reduction coefficient according to regulations, of 0.8 and 0.6 in the accessories. This technique involves a high complexity for the realization of welds in height, does not allow the welding of tubes of different thicknesses and its execution is seriously limited by the atmospheric conditions.
    Therefore, there is a need for a simple connection device,
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    cheap, easy to install, allowing an electroweldable connection that is suitable for any type of union needed in plastic pipe elements systems.
    DESCRIPTION OF THE INVENTION
    The present invention relates to an electro-weldable connection device for plastic pipe elements, as defined in revindication 1. The device of the invention is not intended for use in thermofusion joints.
    The device proposed by the invention comprises:
    - at least one pipe element having at least one end,
    - at least one plastic connection element, which is connected to an outer surface of said, at least one, pipe element by said at least one end.
    The invention contemplates that the connection element be a plastic accessory that materializes, among others, as a sleeve or an elbow a T-lead or any other connection element, such as a flange, a branch or a reduction.
    Well, according to the invention, at least one end of the pipe element comprises a resistive wire, which is constituted as an electro-weldable metal coil arranged in a wound manner on the outer surface of the pipe element itself.
    It is considered as a resistive wire any conductor wire of electricity that generates heat by Joule effect, being a wire formed by a single element, such as a bare copper wire, or a material alloy that generates a certain resistance depending on this alloy. In the case of bare copper wire, it is a conductive element that offers a certain resistance to the passage of current and therefore generates heat in its path, so according to the invention it is conceptually considered as a wire resistive
    It is understood that the connection is made correctly after the welding process has finished, that is, once the welding is completed. Obviously, the connection element and the pipe element can be simply coupled, prior to welding, so that both elements are pre-assembled.
    The arrangement of the resistive wire in the pipe element can be performed superficially,
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    embedded or embedding the thread on said outer surface.
    The advantages of the invention are several.
    On the one hand, according to the technical aspects, the invention allows, without the need to make the final assembly, a previous installation of the installation, as a mechano, without the need to weld. A precise fit between tube and accessory is ensured. The incorporation of the heating element in the tube brings greater pressure and safety to the weld. It allows the welding of tubes of different thicknesses without reducing the section of the installation. Besides its execution, it is not limited by atmospheric agents and allows to have a wide range of accessories. In short, in the case of the invention the pipe element itself is heated, instead of heating the accessory, as is done in the electro-weldable joints of the state of the art.
    From an economic point of view, a reduction of installation times is achieved, qualified labor is not necessary, it allows to have a range of economic accessories and the necessary equipment and tools have a low cost, in addition to being constituted as an efficient solution and sustainable. Pipe waste is avoided, since the entire installation can be sized from the factory to be assembled on site, without requiring cutting on site, with the consequent waste that this entails.
    State-of-the-art systems require prior processes on the tube, such as scratching, cleaning or refraining, while the invention can be supplied on site as a kit that does not require any preparation operation to be done to the welding connection process.
    The possibility that the resistive wire is wound between the end of the pipe element and a certain distance according to a direction parallel to a generatrix of the pipe element is contemplated, the device comprising at least one clamp fixed or externally attached to the pipe element and located on the resistive wire or just next to it.
    In order to obtain the device, the clamp is manufactured a little below the tube dimensions, it is heated in an oven, so the clamp enters dilated in the tube, and when contracted it is retained in the tube itself, preferably following the thread , not on this one, so that the clamp is crossed only by the two threads that
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    stand out
    According to a preferred embodiment, the clamp has a cylindrical inner surface through which it is coupled to the pipe element. In any case, any element that acts as a support for the ends of the resistive wire can be used as a clamp and, in turn, allows a stop or positioning for the pipe element and also promotes its retention, support or grip.
    Likewise, it is contemplated that the distance from the end of the pipe element defining the area in which the resistive element is wound is less than a nominal diameter of the pipe element itself. Preferably, said distance is at least 3-6 cm for nominal tube diameters of 63-160 mm, and 6-15 cm for those of 200-500 mm in diameter. Preferably, said distance is 25-50% of the diameter, leaving in any case, about 0.5-1 cm at the end of the tube without wire, for safety reasons, avoid electrical disconnections in case of shocks, and ease of fabrication .
    According to a preferred embodiment, the resistive wire has two ends that pass through said clamp, protruding therefrom.
    It is contemplated that the clamp has at least one retaining element, also called a clip, that serves as a stop and acts in the grip and holding of the connection element, so that it contacts the connection element acting for its correct positioning and centered with respect to of the pipe element to be connected by the device.
    DESCRIPTION OF THE DRAWINGS
    To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, according to a preferred example of practical realization thereof, an set of drawings is accompanied as an integral part of said description. With an illustrative and non-limiting nature, the following has been represented:
    Figure 1 shows a schematic perspective view of an embodiment of the connection device for pipe elements as it leaves the factory to be used on site with the pipe element already welded in the factory, the element not having been represented
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    corresponding connection to the side of the clamp, for a better appreciation of the anchoring flanges and the resistive wire itself arranged at the end of the pipe element.
    Figure 2 shows a schematic perspective view of an embodiment of the clamp, in accordance with the embodiment of Figure 1.
    Figure 3 shows a schematic perspective view of another embodiment of the connection device for pipe elements of the invention, in which the connection element is a sleeve.
    Figure 4.- Shows a schematic perspective view of another embodiment of the clamp, in accordance with the embodiment of Figure 3.
    Figure 5.- Shows a schematic perspective view of an embodiment of the retention element, intended to be used with the clamp shown in Figures 3 and 4, where the retained element shown is the one incorporating the welding connector, with their corresponding terminals.
    Figure 6.- Shows a schematic perspective view of an embodiment of the connection element as shown in Figure 3.
    Figure 7 shows a schematic perspective view of another embodiment of the connecting element, which in this case is an elbow, intended to be welded at the factory, as in the case of the embodiment represented in Figure 1.
    Figure 8 shows a schematic perspective view of another embodiment of the connecting element, such as an elbow, but, unlike the one shown in Figure 7, in this case it is intended to be placed on site by both sides or ends.
    Figure 9 shows a plan view of an embodiment of the pipe element, in which the embedded or embedded arrangement of the resistive wire can be seen, the direction of flow in the winding of the resistive thread being represented in continuous line while the The dashed line represents the direction of return or return of the same resistive wire, thus covering the entire area corresponding to the connection at the end of the pipe element.
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    PREFERRED EMBODIMENT OF THE INVENTION
    In view of the figures summarized, it can be seen that in one of the possible embodiments of the invention the connection device for plastic pipe elements (1) proposed by the invention comprises:
    - a pipe element (1) having two ends, and
    - a plastic connection element (2), which is connected to an outer surface of said pipe element (1) by one end.
    The invention contemplates that the connection element (2) is a plastic accessory that materializes, among others, as a sleeve, as in the case of figures 1,3 and 6, or an elbow, as in the case of the figures 7 and 8.
    As can be seen in Figures 1 and 9, one end of the pipe element (1) comprises a resistive wire (3) arranged in a wound manner on the outer surface of the pipe element itself (1).
    The arrangement of the resistive wire (3) in the pipe element can be done superficially, embedded or by embedding the wire on said outer surface.
    In this sense, an embedded or embedded arrangement of the resistive wire (3) has been illustrated in Figure 9, the forward direction in the winding of the resistive wire (3) being represented in continuous line while the broken line represents the direction of return or return of the same resistive wire (3), thereby covering the entire area corresponding to the connection at the end of the pipe element (1).
    According to a preferred embodiment, the resistive wire (3) is wound between the very end of the pipe element (1) and a certain distance according to a direction parallel to a generatrix of the pipe element (1).
    As can be seen in figures 1,2, 3 and 4, the device comprises a clamp (4) fixed externally to the pipe element (1) and located next to the resistive wire (3). The clamp (4) acts as a support for the ends of the resistive wire (3) and in turn allows a stop or positioning for the pipe element (1), also promoting its retention.
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    The distance from the end of the pipe element (1) defining the area in which the resistive element (3) is wound is less than a nominal diameter of the pipe element itself (1), thereby achieving optimal results in the Connection.
    As can be seen in figures 1, 2, 3 and 4, the resistive wire (3) has two ends that pass through the clamp (4), protruding therefrom, by two holes (8) that the clamp (4) has ).
    In turn, the clamp (4) has a plurality of retention elements (5), which serve as a stop and act in the grip of the connecting element (2). The retention elements (5) contact the connection element (2) acting for its correct positioning and centered with respect to the pipe element (1) to be connected by the device.
    According to an embodiment of the invention, represented in Figures 3 to 5, the clamp (4) comprises at least one recess (7) or recess, preferably a diametrically distributed plurality, into which a retaining element (5) can fit. ) independent, represented in figure 5. One of the retention elements (5) is crossed by the two ends of the resistive wire (3), so that it has a welding connector (11), as can be seen in Figures 1 to 5, which in turn has two welding terminals.
    In said embodiment the retaining element (5) comprises an anchor flange (9), which in the present embodiment makes a clipping grip that can fit into an annular anchor groove (10) located at least one end of the element of connection (2), depending on whether it is a type 1 accessory, such as those shown in figures 1 and 7, which are welded to the pipe element (1) at the factory and only require an anchor groove (10) on one side , or type 2, as shown in figures 3, 6 and 8, which are placed on site on both sides, also having anchor groove (10) on both sides.
    In the embodiment represented in Figures 1 and 2, the retaining element (5) is integrated in the clamp itself (4), being one piece with it, and the anchoring tabs (9) being found at the end of the retention element (5).
    Corresponding to the sides that need to be connected on site, it is contemplated that the connection element (2) comprises at least one welding indicator (12), which is activated
    when the welding between said connection element (2) and said pipe element (1) has been completed, thus acting as a welding validation element.
    To materialize said welding indicator (12), a variable percentage of the thickness of the connecting element (2) is drilled, depending on its dimensions and material; when the resistive wire (3) is heated, the pressure in that area is increased, since the thermoplastic material dilates by temperature. The control (12) consists of a pin or stick that remains in said hole, having a kind of crown below, as shown in Figure 1. Thus, said hole is sized, so that when welding is considered 10 made, the pin or rod ascends from the outer surface of the connection element (2), so that the operator can consider that the connection has been made correctly, that is, it is an element that acts as a witness to the welding process.
    Finally, it is contemplated that the connection element (2) comprises an internal annular shoulder 15 (6) that acts as a positioning and alignment stop for one or two pipe elements (1), as can be seen in figures 6 , 7 and 8.
    In view of this description and set of figures, the person skilled in the art will be able to understand that the embodiments of the invention that have been described can be combined in multiple ways within the scope of the invention. The invention has been described according to some preferred embodiments thereof, but it will be apparent to the person skilled in the art that multiple variations can be introduced in said preferred embodiments without exceeding the object of the claimed invention.
    权利要求:
    Claims (10)
    [1]
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    1. - Connection device for plastic pipe elements (1) comprising:
    - at least one pipe element (1) having at least one end, and
    - at least one plastic connection element (2), which is connected to an outer surface of said, at least one, pipe element (1) by said, at least one end, characterized in that said, at least one, end of the pipe element (1) comprises a resistive wire (3) disposed in a wound manner on the outer surface of the pipe element itself (1).
    [2]
    2. - Connection device according to claim 1, wherein said resistive wire (3) is wound between the very end of the pipe element (1) and a certain distance according to a direction parallel to a generatrix of the pipe element (1 ), the device comprising at least one clamp (4) fixed externally to the pipe element (1) and located on the resistive wire (3) or just next to said resistive wire (3).
    [3]
    3. - Connection device according to claim 2, wherein said distance from the end of the pipe element (1) defining the area in which the resistive element (3) is wound is less than a nominal diameter of the element itself of pipe (1).
    [4]
    4. - Connection device according to any of claims 2 and 3, wherein the resistive wire (3) has two ends that cross said clamp (4), protruding from it.
    [5]
    5. - Connection device according to any of claims 2 to 4, wherein the clamp (4) has at least one retention element (5) that contacts the connection element (2) acting for its correct positioning and centering with respect to the pipe element (1) to be connected by the device.
    [6]
    6. - Connection device according to any of claims 2 to 5, wherein at least one, clamp (4) comprises at least one gap (7) in which an independent retaining element (5) can fit, wherein said At least one retaining element (5) is crossed by the two ends of the resistive wire (3).
    [7]
    7. Connection device according to any of claims 5 and 6, wherein said at least one retaining element (5) comprises an anchor flange (9) that can
    fit into an anchor groove (10) located at least one end of the connection element (2).
    [8]
    8. - Connection device according to any one of the preceding claims, wherein at least one connection element (2) comprises at least one welding indicator (12), which
    it is activated when welding between said connection element (2) and said pipe element (1) is completed.
    [9]
    9. - Connection device according to any of the preceding claims, wherein a connection element (2) is a sleeve.
    [10]
    10. - Connection device according to any of the preceding claims, wherein a connection element (2) is an elbow.
    15. Connection device according to any of the preceding claims, wherein the
    connecting element (2) comprises an internal annular shoulder (6) that acts as a stop for one or two pipe elements (1).
    类似技术:
    公开号 | 公开日 | 专利标题
    JPH06509437A|1994-10-20|
    ES2581377A1|2016-09-05|Connection device for pipe elements |
    EP3113931B1|2020-04-22|Electromagnetic induction coil pliers
    KR20140005001U|2014-09-17|Electonic melting type socket for connecting gas pipe
    JPH07217787A|1995-08-15|Electrically weldable plastic fixture
    KR19990078456A|1999-10-25|Boring Device for Welding Branchi pipe in a Main Plastic Pipe
    CN103737136B|2016-06-29|Welding equipment
    KR20140039115A|2014-04-01|Electonic melting type socket for connecting gas pipe
    US451300A|1891-04-28|Henry p
    US879940A|1908-02-25|Ground-connection clamp.
    KR200313862Y1|2003-05-22|Heat-Sealable Fitting
    ES2534924B1|2016-02-19|Connection device for plastic pipe elements and procedure for connecting two pipe elements by said device
    KR910009461Y1|1991-12-09|Joining apparatus for synthetic resin pipe
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    KR102202155B1|2021-01-14|A Connecting Method for Plastic pipe and, connecting apparatus thererof
    JP2008025704A|2008-02-07|Electrofusion joint
    JP6921588B2|2021-08-18|Temporary fixing structure between resin tubes
    CN205026306U|2016-02-10|A PE electric smelting patch for heavy -calibre with elastic protecting layer and terminal
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    CN205026305U|2016-02-10|What be provided with electric fuse and terminal is used for PE of heavy -calibre to manage patch
    US2002031A|1935-05-21|Thermostat
    CN113814516A|2021-12-21|Welding gun structure
    CN205026302U|2016-02-10|A PE electric smelting patch for heavy -calibre
    JP2017057969A|2017-03-23|Pipeline support structure
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3506519A|1967-01-13|1970-04-14|Susquehanna Corp|Method of making interlocked welded connections between thermoplastic articles|
    FR2522389A1|1982-03-01|1983-09-02|Sloane Mfg Co R & G|JOINT, JOINT, CONNECTING SLEEVE AND METHOD FOR JOINING ARTICLES|
    ES2006523A6|1986-07-22|1989-05-01|Bonazelli Paolo|Polyethylene pipe with integrated heating resistance for connection by electric welding.|
    ES2103941T3|1991-04-19|1997-10-01|Seikisui Chemical Co Ltd|TUBE BOARD MEMBER.|
    US4915417A|1988-08-02|1990-04-10|Flo-Control, Inc.|Thermally assembled conduitry|
    CN2480768Y|2001-05-18|2002-03-06|河合电器有限公司|Non-metal water-heating component|
    FR2879121B1|2004-12-15|2008-09-26|Inergy Automotive Systems Res|METHOD FOR THE CONNECTION OF A TUBULAR PIECE OF PLASTIC MATERIAL TO A CHUTE OF A FUEL TANK ALSO IN PLASTIC MATERIAL|
    WO2006096297A2|2005-03-07|2006-09-14|Orion Enterprises, Inc.|Electro-fusion joining system for thermoplastic piping systems|
    GB2494423B|2011-09-07|2016-07-13|Radius Systems Ltd|Electrofusion fitting|
    US9322495B2|2011-11-16|2016-04-26|Shawcor Ltd. Shawcor Ltée|Connection for a thermoplastic pipe, assembly and method|
    US9719622B2|2013-07-08|2017-08-01|Georg Fischer Harvel Llc|Electrofusion fittings and methods|
    法律状态:
    2017-05-30| FG2A| Definitive protection|Ref document number: 2581377 Country of ref document: ES Kind code of ref document: B1 Effective date: 20170530 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201630623A|ES2581377B1|2016-05-13|2016-05-13|Connection device for pipe elements|ES201630623A| ES2581377B1|2016-05-13|2016-05-13|Connection device for pipe elements|
    AU2017261891A| AU2017261891B2|2016-05-13|2017-05-12|Connection Device for Pipe Elements|
    PCT/ES2017/070303| WO2017194812A1|2016-05-13|2017-05-12|Coupling device for pipe elements|
    CA3023807A| CA3023807C|2016-05-13|2017-05-12|Connection device for pipe elements|
    CN201780034494.7A| CN109311237B|2016-05-13|2017-05-12|Connection device for pipe elements|
    EA201800580A| EA201800580A1|2016-05-13|2017-05-12|CONNECTING DEVICE FOR PIPE ELEMENTS|
    MX2018013880A| MX2018013880A|2016-05-13|2017-05-12|Coupling device for pipe elements.|
    BR112018073383-0A| BR112018073383A2|2016-05-13|2017-05-12|connecting device for pipe elements|
    US16/301,114| US20190128459A1|2016-05-13|2017-05-12|Connection device for pipe elements|
    PL17745197T| PL3456520T3|2016-05-13|2017-05-12|Coupling device for pipe elements|
    PT177451978T| PT3456520T|2016-05-13|2017-05-12|Coupling device for pipe elements|
    JP2019511809A| JP6942792B2|2016-05-13|2017-05-12|Connection device for pipe elements|
    KR1020187035101A| KR102276819B1|2016-05-13|2017-05-12|Connection device for pipe elements|
    EP17745197.8A| EP3456520B1|2016-05-13|2017-05-12|Coupling device for pipe elements|
    ES17745197T| ES2867150T3|2016-05-13|2017-05-12|Connection device for pipe elements.|
    CL2018003220A| CL2018003220A1|2016-05-13|2018-11-13|Connection device for pipe elements.|
    CONC2018/0012185A| CO2018012185A2|2016-05-13|2018-11-13|Connection device for pipe elements|
    ZA2018/07695A| ZA201807695B|2016-05-13|2018-11-15|Connection device for pipe elements|
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