WO2008104668A1 - Process for manufacturing a cable for connecting the poles of a battery, an installation for implementing said process, and the cable obtained - Google Patents
Process for manufacturing a cable for connecting the poles of a battery, an installation for implementing said process, and the cable obtained Download PDFInfo
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- WO2008104668A1 WO2008104668A1 PCT/FR2008/050162 FR2008050162W WO2008104668A1 WO 2008104668 A1 WO2008104668 A1 WO 2008104668A1 FR 2008050162 W FR2008050162 W FR 2008050162W WO 2008104668 A1 WO2008104668 A1 WO 2008104668A1
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- connector
- bundle
- diameter
- cable
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R4/00—Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
- H01R4/02—Soldered or welded connections
- H01R4/023—Soldered or welded connections between cables or wires and terminals
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D26/00—Shaping without cutting otherwise than using rigid devices or tools or yieldable or resilient pads, i.e. applying fluid pressure or magnetic forces
- B21D26/14—Shaping without cutting otherwise than using rigid devices or tools or yieldable or resilient pads, i.e. applying fluid pressure or magnetic forces applying magnetic forces
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K20/00—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating
- B23K20/06—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating by means of high energy impulses, e.g. magnetic energy
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R4/00—Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
- H01R4/02—Soldered or welded connections
- H01R4/029—Welded connections
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/02—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for soldered or welded connections
- H01R43/0207—Ultrasonic-, H.F.-, cold- or impact welding
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2101/00—Articles made by soldering, welding or cutting
- B23K2101/36—Electric or electronic devices
- B23K2101/38—Conductors
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R11/00—Individual connecting elements providing two or more spaced connecting locations for conductive members which are, or may be, thereby interconnected, e.g. end pieces for wires or cables supported by the wire or cable and having means for facilitating electrical connection to some other wire, terminal, or conductive member, blocks of binding posts
- H01R11/11—End pieces or tapping pieces for wires, supported by the wire and for facilitating electrical connection to some other wire, terminal or conductive member
- H01R11/28—End pieces consisting of a ferrule or sleeve
- H01R11/281—End pieces consisting of a ferrule or sleeve for connections to batteries
Definitions
- the present invention relates to battery pole connecting cables which are intended to interconnect galvanic cells.
- Such connection cables also called “cables” are intended to conduct relatively large currents (of the order of 300 Ah to 1800 Ah) and must have a low electrical resistance.
- These cables comprise a bundle consisting of a plurality of electrical conductors son whose two ends are secured to a connector provided with an orifice, allowing the connection with one of the poles of the battery, the assembly being completely surrounded by a insulation material.
- these connection cables have a distance between 75 and 300 mm (distance between the axis of the orifices of the two end connectors); for terminal equipment, these lengths can be between 800 mm and 1500 mm.
- the section of the bundle of conductive wires is relatively large, between 16 mm 2 and 150 mm 2 . In particular, for stationary batteries, this section is generally between 70 and 120 mm 2 ; for traction batteries, for example forklift batteries, this section is generally between 16 and 70 mm 2 .
- These battery pole connecting cables are special cables for the conduction of high currents. For security reasons, they need to be completely covered with an insulating material. On the other hand, the connection between the end connectors and the ends of the cable harness must be as perfect as possible in order to limit the electrical resistance and ensure good mechanical strength.
- US-4,049,335 discloses a conventional technique for making such a battery pole connecting cable.
- connection cable comprises a beam composed of a multiplicity of fine wires equipped at both ends with a connector provided with an orifice.
- each connector here consists of a tubular copper sheath into which is introduced a portion of the previously partially stripped beam. Then, the copper sheath is compressed and flattened with the beam so as to assemble the two elements.
- connection cable is then formed in the flattened zone of the copper sheath. Finally, the periphery of the orifice receives a brazing material in order to improve the assembly of the elements and the electrical conductivity.
- the ends of the connection cable thus produced are then covered with an insulating material by a molding-injection technique.
- the hole in the connector allows the latter to be positioned on a screw formed in the battery pole and to be pressed by means of a clamping nut.
- the assembly between the reported connector and the fine wire bundle is not optimal.
- the flattened portion of the cable consists of two outer material layers sandwiching the wire bundle and this non-homogeneous structure can cause loosening of the nut, particularly on non-stationary accumulators arranged in vehicles. , subjected to repetitive shaking. The end of the cable is then no longer effectively connected to the accumulator pole which leads to electrical conduction defects, and to heating sometimes up to the formation of sparks.
- document EP-1 101 255 proposes a connection cable whose connectors are in the form of plates assembled by ultrasonic welding with the ends of the bundle son. Conventionally, the stripped ends of the fine wire bundle are then wrapped with an insulating material.
- This technology provides different advantages over the previous one described above, in particular in terms of reduction of material, strength, electrical conductivity quality, mechanical strength over time and speed of manufacture.
- the weld type bond by an energy supply action in the form of heat, causes the liquefaction of the two materials to be assembled, at their joint plane; and during cooling, the molten materials mix and assemble by molecular bonding.
- this modified area is called ZAT (Zone Affectée Thermiquement).
- ZAT Zero Affectée Thermiquement
- the perverse effect of this ZAT is, through the modification of the metallography of the materials in this zone, to create in particular microcracks, pollution and a third type of material, resulting in: - a lowering of the mechanical characteristics the connection to the characteristics of the base material, to no longer allow any durability of these mechanical characteristics over time, by the presence of microcracks which, under the action of the stresses of the assembled components, will develop in time until they break,
- connection cables currently on the market include a bundle of thin copper wires, associated with end connectors also in copper, because of the good electrical conductivity of this material, but what makes these connection cables relatively expensive, because of the price of copper on the market.
- the document WO-2005/055371 describes a technical solution derived from the two aforementioned documents WO-97/22426 and WO-98/23400, applied in particular to battery cables, consisting in coating the end of the cable with a "fuse” material. conductor of electricity, before inserting this end "coated” in the cylindrical housing of the connector and implement the electromagnetic assembly technique.
- the fuse material used eliminates the presence of air pockets and optimizes the electrical conductivity of the connection.
- this coating consists of an additional technical operation that is costly (in terms of material cost and in terms of implementation time) that is difficult to comply with industrial requirements.
- the method in question is characterized in that it consists of:
- a connector which comprises a first tube-shaped portion of constant internal and external cross-section for securing it to one of said beam ends, and a second flat portion provided with an orifice adapted to be secured to the battery pole, the nominal internal diameter (d) of said tubular portion being between 1, 10 and 1, 20 times the nominal diameter (a) of said end of the wire bundle, and the nominal external diameter ( ⁇ ) of said tubular portion being between 1.45 and 1.65 times the nominal diameter (a) of said end,
- annular electromagnetic field whose energy level is between 6 and 8 kJ, at a voltage of 5 to 7.5 kV, applied between 8 and 100 ⁇ s, so as to create magnetic forces causing the high velocity shrinkage of the diameter of at least a portion of the length of said tubular portion, by plastic deformation, to obtain the desired assembly
- Magnetic Dispose Welding provides a very efficient connection both mechanically and electrically, very suitable for battery cables.
- MPW Magnetic Inclusive
- the magnetic field implemented around the parts to be assembled is specially defined and constructed for the present specific application. This field causes the creation of forces that will ensure the percussion parts to assemble at very high speed; the impact caused by this encounter leads, by its power, the atomic decohesion of the atoms of the molecules of the contact surfaces.
- the electrons of each nucleus are torn from their orbit and reposition themselves in orbits different from those of origin. After recombination, the equilibrium and stability of the material are assured again.
- the application time of the electromagnetic field is of the order of 80 ⁇ s.
- the method consists in implementing an electromagnetic field by means of an installation comprising capacitors, a transformer and a solid block generating said electromagnetic field in which is formed an insertion opening of the tube of said connector; said capacitors are charged by a current of between 500 and 600 kA, to generate a current whose frequency is between 10 and 15 kH, discharged into said solid block via the transformer.
- the electromagnetic field is generated in the opening of a solid Beryllium Copper block, its electromagnetic field application aperture having a length of between 8 and 20 mm and a circular shape with a diameter of a few tenths of a millimeter larger than the nominal outside diameter ( ⁇ ) of the tubular connector portion.
- the invention also relates to the installation for implementing the method defined above, this installation comprising capacitors, a transformer and a solid electromagnetic field generating block, which solid block comprises a circular opening whose length is between 8 and 20 mm and which presents a circular shape whose diameter is a few tenths of a mm greater than the nominal external diameter ( ⁇ ) of said tubular connector portion.
- the installation comprises means for discharging into the solid Beryllium Copper block, via the transformer, a frequency current of between 10 and 15 kH and generating in said massive block an electromagnetic field whose energy level is between 6 and 8 kJ under a voltage of 5 to 7.5 Kv.
- the invention further relates to the battery pole connecting cable for connecting galvanic cells, obtained by the method defined above.
- This cable comprises a bundle consisting of a plurality of electrical conductors son whose two ends are each secured to a connector for connection with one of the poles of the battery, which connector, also made of conductive material, comprises a first part for its attachment to the corresponding end of said beam, and a second portion, flat, provided with a hole adapted for its attachment to said battery pole, said beam and said connectors being completely surrounded by an insulating material.
- Said first connector portion is in the general shape of a tube delimiting a cylindrical orifice in which said beam end is housed, the nominal internal diameter (d), before assembly, of the tubular part of the connector being between 1, 10 and 1 , 20 times the nominal diameter (a) of the end of the bundle of wires, the nominal external diameter ( ⁇ ) of said tubular portion being between 1.45 and 1.65 times the nominal diameter (a) of said end of beam, the wall thickness (b) of said tubular portion being of the order of 1.8 mm, and said tube being secured to said beam end by an electromagnetic assembly technique of "Magnetic Fre Welding" type - MPW.
- This specific technique of electromagnetic assembly also very advantageously makes it possible to bond between them materials different from copper, traditionally used in the present application, and also materials of different nature.
- the battery cable according to the invention comprises a bundle consisting of aluminum wires, associated with end connectors also made of aluminum.
- the beam is made of copper wires, and the end connectors are made of aluminum.
- FIG. 1 is a general perspective view of a plurality of batteries connected to each other in parallel by means of connecting cables according to the invention
- FIG. 2 is a perspective view of one end of a connecting cable according to the invention, during manufacture, before assembling the end connector with the stripped end of the son of conductor bundle;
- Figure 3 is a sectional view along 3-3 of Figure 2;
- FIG. 4 is a schematic view illustrating the application of the electromagnetic field to assemble the connector and the end of the bundle of conductive wires
- FIG. 5 is a perspective view of the end of the connection cable shown in FIG. 2, after implementation of the electromagnetic field and assembly of the connector with the end of the bundle of conductive wires;
- Figure 6 is a sectional view along 6-6 of Figure 5;
- FIG. 7 is a perspective view of the connection cable consisting of the bundle of conductive wires at the stripped ends of which the two connectors are fixed, before coating of the latter with an insulating material;
- FIG. 8 is a perspective view of the connecting cable of Figure 7, after embedding the end connectors by the insulating material.
- FIG. 1 shows a plurality of batteries 1 connected in parallel by connection cables 2 (or cables) according to the present invention, each consisting of a bundle of conducting wires 3 at both ends of which connector members 4 are fixed.
- the connector members 4 are provided with an orifice 5 enabling them to be connected to the poles in the form of threaded holes in the batteries 1, by means of screws 7.
- connection cables 2 The manufacture of the connection cables 2 according to the invention is described below in conjunction with FIGS. 2 to 8.
- an insulating material 9 for example a plastic PVC or rubber
- each of these stripped ends 8 is introduced into the tubular portion 10 of a previously prepared end connector 4; the bundle end 8 / tubular connector 10 4 is then subjected to the action of a annular electromagnetic field adapted to assemble them (FIGS. 4, 5 and 6); and finally the ends of cables thus obtained are coated with an insulating material ( Figures 7 and 8).
- the insulated beam 3 comprises a multiplicity of fine wires of conductive material, for example copper or aluminum.
- the beam 3 may consist of a multiplicity of purposes son each having a diameter of between 20/100 and 60/100 th of th mm.
- a multiplicity of purposes son each having a diameter of between 20/100 and 60/100 th of th mm.
- wires having a diameter of 20/100 th of mm approximately:
- Each connector 4 is also made of conductive material, for example copper or aluminum.
- This connector 4 comprises a first tubular portion 10 delimiting a cylindrical orifice 1 1, for its attachment to one of the stripped ends of the bundle 3, and a second flat portion 12, integrally formed with the first part 1 1, provided with the orifice 5 for its attachment to the pole of the battery 1.
- the nominal internal diameter d of the tubular portion 10 of the connector 4, before assembly with the stripped end 8 of the bundle of conductive wires 3 is between 1, 10 and 1, 20 times the nominal diameter a of the denuded end 8 said bundle of wires 3 (FIG. 3);
- the nominal external diameter p of said tubular connector portion 4 is between 1.45 and 1.65 times the nominal diameter a of said beam 3, and
- the thickness of the tubular portion 10 of the connector 4 is of the order of 1.8 mm, regardless of the section of said bundle of conductive wires 3.
- the stripped end 8 of the bundle 3 is driven as far as possible into the cylindrical orifice 1 1 of the tubular portion 10 of the connector 4, the length of which is between 5 and 20 mm (advantageously of the order of 8 to 10 mm). , and the electromagnetic assembly field is applied annularly over all or substantially the entire length of the tubular portion 10 of the connector 4 ( Figure 4).
- the assembly technique by "Magnetic Inc. Welding - MPW" uses a solid block pierced, producing a very powerful and very short electromagnetic field to generate mechanical forces capable of causing a cold deformation of a metallic material
- an "MPW” machine essentially comprises a generator 13 associated with a set of capacitors 14, a transformer (not shown) and a solid block 15 in which an opening for insertion is provided. of the tubular piece 10 to be deformed.
- the charging current of the capacitors 14 may be 540 kA; the inductance measurement of these capacitances 14 may be 120 nH.
- These capacitors 14 are capable of generating a specific current whose frequency is between 10 and 15 kH which is discharged into the solid block 15 to create a specific magnetic field whose energy level is between 6 and 8 kJ under a voltage from 5 to 7.5 kV (depending on the diameter of the wire harness 3).
- the electromagnetic field is applied for a time of 8 to 100 microseconds (preferably close to 80 ⁇ s) to achieve the assembly. For example, it is possible to implement an energy of the order of 7 kJ for a 25 mm 2 cable, and 7.5 kJ for a 70 mm 2 cable.
- the solid block 15 is advantageously made of Beryllium Copper with a cylindrical insertion opening.
- the circular section of this opening is a few tenths of a millimeter larger than the external nominal diameter (p_) of the tube 10; its length can be of the order of 10 to 15 mm, depending on the maximum assembly length that is desired.
- connection cable is obtained after assembly, one of the ends of which is illustrated in FIGS. 5 and 6. Following this assembly, the external diameter ç of the tubular portion 10 of the connector 4 is substantially reduced with respect to its nominal diameter. before assembly. Similarly, because of the compression realized, the diameter of the end 8 of the beam 3 is also reduced relative to the nominal diameter a.
- Such an assembly is very efficient and shows on examination a lack of ZAT at the connection zone between the wire bundle 3 and the tubular portion 10 connector.
- the mechanical strength and conductivity tests performed are very positive.
- this type of fastening technique allows the assembly of difficult or non-weldable materials, such as aluminum / aluminum or copper / aluminum.
- connection cables comprising a bundle of copper conductor wires 3, associated with aluminum end connectors 4, or else a bundle of aluminum conductive wires associated with aluminum end connectors 4. .
- the ends of the connecting cable are placed in an injection mold to receive a coating 16 of insulating material like PVC or rubber for example.
- the fully insulated connecting cable 2 illustrated in FIG. 8 is obtained and suitable for use in connecting battery poles as shown in FIG. 1.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Physics & Mathematics (AREA)
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- Manufacturing & Machinery (AREA)
- Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
- Connection Of Batteries Or Terminals (AREA)
Abstract
The present invention relates to a process for manufacturing a cable for connecting the poles of a battery, intended to join the galvanic cells thereof, which cable comprises a bundle consisting of a plurality of electrical conductor wires having a cross section between 16 mm2 and 150 mm2, the two ends of said wires being fastened with a connector. According to the invention, this process consists: in preparing a cable bundle surrounded by an insulating material, with stripped ends; in preparing a connector having a tubular first part for being fastened to one of the ends of the bundle and a planar second part provided with an orifice; in inserting one of the stripped ends of the cable bundle into the tubular part of said connector; in applying an annular electromagnetic field around said tubular part, the energy level of said field being between 6 and 8 kJ, at a voltage of 5 to 7.5 kV, applied for between 8 and 100 µs, so as to create magnetic forces causing the diameter of at least a portion of the length of said tubular part to shrink very rapidly, by plastic deformation, in order to obtain the desired assembly; in carrying out the same assembly operation at the other stripped end of the bundle, using another connector; and then in encapsulating the two connectors and the possible uninsulated portions of said cable bundle with an insulating material.
Description
PROCEDE DE FABRICATION D'UN CABLE DE RACCORDEMENT DE POLES DE BATTERIE, L'INSTALLATION DE MISE EN ŒUVRE ET LE CABLE OBTENU METHOD FOR MANUFACTURING A CABLE FOR CONNECTING BATTERY POLES, THE INSTALLATION FOR IMPLEMENTATION AND THE CABLE OBTAINED
La présente invention concerne les câbles de raccordement de pôles de batteries qui sont destinés à relier entre elles des cellules galvaniques. De tels câbles de raccordement, encore appelés « câblots » sont destinés à conduire des courants relativement importants (de l'ordre de 300 Ah à 1800 Ah) et doivent présenter une faible résistance électrique.The present invention relates to battery pole connecting cables which are intended to interconnect galvanic cells. Such connection cables, also called "cables" are intended to conduct relatively large currents (of the order of 300 Ah to 1800 Ah) and must have a low electrical resistance.
Ces câbles comprennent un faisceau constitué d'une pluralité de fils conducteurs électriques dont les deux extrémités sont solidarisées avec un connecteur muni d'un orifice, permettant la connexion avec l'un des pôles de la batterie, l'ensemble étant complètement entouré par un matériau d'isolation. D'une manière générale, ces câbles de raccordement ont un entraxe de 75 à 300 mm (distance entre l'axe des orifices des deux connecteurs d'extrémités) ; pour l'équipement de terminaux, ces longueurs peuvent être comprises entre 800 mm et 1500 mm. D'autre part, la section du faisceau de fils conducteurs est relativement importante, comprise entre 16 mm2 et 150 mm2. En particulier, pour des batteries fixes, cette section est généralement comprise entre 70 et 120 mm2 ; pour des batteries de traction, par exemple des batteries de chariots élévateurs, cette section est généralement comprise entre 16 et 70 mm2.These cables comprise a bundle consisting of a plurality of electrical conductors son whose two ends are secured to a connector provided with an orifice, allowing the connection with one of the poles of the battery, the assembly being completely surrounded by a insulation material. In general, these connection cables have a distance between 75 and 300 mm (distance between the axis of the orifices of the two end connectors); for terminal equipment, these lengths can be between 800 mm and 1500 mm. On the other hand, the section of the bundle of conductive wires is relatively large, between 16 mm 2 and 150 mm 2 . In particular, for stationary batteries, this section is generally between 70 and 120 mm 2 ; for traction batteries, for example forklift batteries, this section is generally between 16 and 70 mm 2 .
Ces câbles de raccordement de pôles de batteries sont des câbles spéciaux destinés à la conduction de courants forts. Pour des raisons de sécurité, ils nécessitent d'être intégralement recouverts d'un matériau d'isolation. D'autre part, la liaison entre les connecteurs d'extrémités et les extrémités du faisceau de câble doit être aussi parfaite que possible afin de limiter la résistance électrique et assurer une bonne résistance mécanique.These battery pole connecting cables are special cables for the conduction of high currents. For security reasons, they need to be completely covered with an insulating material. On the other hand, the connection between the end connectors and the ends of the cable harness must be as perfect as possible in order to limit the electrical resistance and ensure good mechanical strength.
Le document US-4 049 335 décrit une technique classique pour fabriquer un tel câble de raccordement de pôles de batteries.US-4,049,335 discloses a conventional technique for making such a battery pole connecting cable.
Dans ce document, le câble de raccordement comporte un faisceau composé d'une multiplicité de fils fins équipé, à ses deux extrémités, d'un connecteur muni d'un orifice. Pour la fabrication du câble, chaque connecteur est ici constitué d'une gaine tubulaire en cuivre dans laquelle est introduite une partie du faisceau partiellement dénudée au préalable. Ensuite, la gaine de cuivre est comprimée et aplatie avec le faisceau de manière à réaliser l'assemblage des deux éléments.In this document, the connection cable comprises a beam composed of a multiplicity of fine wires equipped at both ends with a connector provided with an orifice. For the manufacture of the cable, each connector here consists of a tubular copper sheath into which is introduced a portion of the previously partially stripped beam. Then, the copper sheath is compressed and flattened with the beam so as to assemble the two elements.
Un orifice est alors ménagé dans la zone aplatie de la gaine de cuivre. Enfin, le pourtour de l'orifice reçoit une matière de brasage afin d'améliorer l'assemblage des éléments et la conductivité électrique.
Les extrémités du câble de raccordement ainsi réalisées sont ensuite recouvertes d'une matière isolante par une technique de moulage-injection.An orifice is then formed in the flattened zone of the copper sheath. Finally, the periphery of the orifice receives a brazing material in order to improve the assembly of the elements and the electrical conductivity. The ends of the connection cable thus produced are then covered with an insulating material by a molding-injection technique.
L'orifice réalisé dans le connecteur permet à ce dernier de venir se positionner sur une vis ménagée dans le pôle d'accumulateur et d'être pressé au moyen d'un écrou de serrage.The hole in the connector allows the latter to be positioned on a screw formed in the battery pole and to be pressed by means of a clamping nut.
Cependant, l'assemblage entre le connecteur rapporté et le faisceau de fils fins n'est pas optimal. De plus, la partie aplatie du câble est constituée de deux couches de matière extérieures prenant en sandwich le faisceau de fils et cette structure, non homogène, peut provoquer des desserrements de l'écrou, en particulier sur les accumulateurs non stationnaires disposés dans des véhicules, soumis à des secousses en répétition. L'extrémité du câble n'est alors plus raccordée efficacement au pôle d'accumulateur ce qui conduit à des défauts de conduction électrique, et à des échauffements allant parfois jusqu'à la formation d'étincelles.However, the assembly between the reported connector and the fine wire bundle is not optimal. In addition, the flattened portion of the cable consists of two outer material layers sandwiching the wire bundle and this non-homogeneous structure can cause loosening of the nut, particularly on non-stationary accumulators arranged in vehicles. , subjected to repetitive shaking. The end of the cable is then no longer effectively connected to the accumulator pole which leads to electrical conduction defects, and to heating sometimes up to the formation of sparks.
Pour remédier à ces inconvénients, le document EP-1 101 255 propose un câble de raccordement dont les connecteurs se présentent sous la forme de plaques assemblées par soudage aux ultra-sons avec les extrémités du faisceau de fils. De manière classique, les extrémités dénudées du faisceau de fils fins sont ensuite enveloppées par un matériau d'isolation.To overcome these drawbacks, document EP-1 101 255 proposes a connection cable whose connectors are in the form of plates assembled by ultrasonic welding with the ends of the bundle son. Conventionally, the stripped ends of the fine wire bundle are then wrapped with an insulating material.
Cette technologie apporte différents avantages par rapport à la précédente décrite ci-dessus, en particulier en terme de réduction de matière, de résistance, de qualité de conductivité électrique, de tenue mécanique dans le temps et de rapidité de fabrication.This technology provides different advantages over the previous one described above, in particular in terms of reduction of material, strength, electrical conductivity quality, mechanical strength over time and speed of manufacture.
Cependant, la liaison de type soudage, par une action d'apport d'énergie sous forme de chaleur, provoque la liquéfaction des deux matériaux à assembler, au niveau de leur plan de joint ; et au cours du refroidissement, les matériaux fondus se mixtent et s'assemblent par liaison moléculaire.However, the weld type bond, by an energy supply action in the form of heat, causes the liquefaction of the two materials to be assembled, at their joint plane; and during cooling, the molten materials mix and assemble by molecular bonding.
Or, cette opération de recristallisation engendre fatalement, après refroidissement, une structure moléculaire et métallographique différente de celle d'origine des deux composants à assembler.However, this recrystallization operation inevitably generates, after cooling, a molecular and metallographic structure different from that of origin of the two components to be assembled.
Dans la pratique, cette zone modifiée est dénommée ZAT (Zone Affectée Thermiquement). L'effet pervers de cette ZAT a pour caractéristique, de par la modification de la métallographie des matériaux dans cette zone, de créer notamment des microfissures, de la pollution et un troisième type de matériau, ce qui entraîne : - un abaissement des caractéristiques mécaniques de la liaison par rapport aux caractéristiques du matériau de base,
- de ne plus permettre aucune pérennité de ces caractéristiques mécaniques dans le temps, par la présence des microfissures qui, sous l'action des sollicitations des composants assemblés, vont se développer dans le temps jusqu'à la rupture,In practice, this modified area is called ZAT (Zone Affectée Thermiquement). The perverse effect of this ZAT is, through the modification of the metallography of the materials in this zone, to create in particular microcracks, pollution and a third type of material, resulting in: - a lowering of the mechanical characteristics the connection to the characteristics of the base material, to no longer allow any durability of these mechanical characteristics over time, by the presence of microcracks which, under the action of the stresses of the assembled components, will develop in time until they break,
- d'abaisser dans la zone de liaison les caractéristiques électriques et diélectriques des matériaux de base, etto lower in the connection zone the electrical and dielectric characteristics of the base materials, and
- de créer des destructions chimiques par effet de pile entre le troisième matériau et le matériau de base dans l'environnement d'utilisation.- to create chemical destructions by stack effect between the third material and the base material in the environment of use.
De plus, il est très difficile de souder ensemble deux matériaux différents, si bien que d'une manière très générale, les câbles de raccordement actuellement sur le marché comportent un faisceau de fils fins en cuivre, associé à des connecteurs d'extrémités également en cuivre, du fait de la bonne conductivité électrique de ce matériau, mais ce qui rend ces câbles de raccordement relativement onéreux, du fait du prix du cuivre sur le marché.In addition, it is very difficult to weld together two different materials, so that in a very general manner, the connection cables currently on the market include a bundle of thin copper wires, associated with end connectors also in copper, because of the good electrical conductivity of this material, but what makes these connection cables relatively expensive, because of the price of copper on the market.
Dans le domaine général des câbles avec connecteur(s) d'extrémité, on connaît aussi, par les documents WO-97/22426 ou encore WO-98/23400, la possibilité de venir introduire l'une des extrémités dénudées du câble dans un logement tubulaire du connecteur et d'utiliser une technique de magnétoformage « puise magnetic forming - PMF » pour réaliser l'assemblage recherché.In the general field of cables with end connector (s), it is also known, from documents WO-97/22426 or WO-98/23400, the possibility of introducing one of the stripped ends of the cable into a tubular housing of the connector and to use a magnetoforming technique "puise magnetic forming - PMF" to achieve the desired assembly.
Cependant, les conditions de mise en œuvre de cette technique, si elles conviennent bien à la liaison de connecteurs d'extrémité avec des câbles électriques de faible section, ne permettent pas d'obtenir un assemblage de qualité suffisante pour des câblots de batterie.However, the conditions of implementation of this technique, if they are well suited to the connection of end connectors with electrical cables of small section, do not provide an assembly of sufficient quality for battery cables.
Il persiste en effet alors des poches d'air microscopiques entre le connecteur et les fils fins périphériques du câble et/ou entre les fils fins du câble entre eux, qui dégradent les performances mécaniques et électriques de l'assemblage et qui sont source de corrosion possible dans le temps.It persists in fact microscopic air pockets between the connector and the peripheral fine wires of the cable and / or between the thin wires of the cable between them, which degrade the mechanical and electrical performance of the assembly and which are a source of corrosion. possible in time.
Le document WO-2005/055371 décrit une solution technique dérivée des deux documents précités WO-97/22426 et WO-98/23400, appliquée en particulier aux câblots de batterie, consistant à enrober l'extrémité du câble par une matière « fusible » conductrice de l'électricité, avant d'insérer cette extrémité « enrobée » dans le logement cylindrique du connecteur et de mettre en œuvre la technique d'assemblage électromagnétique.The document WO-2005/055371 describes a technical solution derived from the two aforementioned documents WO-97/22426 and WO-98/23400, applied in particular to battery cables, consisting in coating the end of the cable with a "fuse" material. conductor of electricity, before inserting this end "coated" in the cylindrical housing of the connector and implement the electromagnetic assembly technique.
Le matériau fusible utilisé supprime la présence de poches d'air et il optimise la conductivité électrique de la liaison.
Cependant, cet enrobage consiste en une opération technique supplémentaire coûteuse (en terme de coût matière et en terme de temps de mise en œuvre) difficilement compatible avec les exigences industrielles.The fuse material used eliminates the presence of air pockets and optimizes the electrical conductivity of the connection. However, this coating consists of an additional technical operation that is costly (in terms of material cost and in terms of implementation time) that is difficult to comply with industrial requirements.
Les demanderesses ont développé un nouveau procédé de fabrication de tels câbles de raccordement de pôles de batteries ayant pour but de remédier à ces inconvénients.The applicants have developed a new method of manufacturing such battery pole connecting cables intended to overcome these disadvantages.
Conformément à la présente invention, le procédé en question est caractérisé en ce qu'il consiste :According to the present invention, the method in question is characterized in that it consists of:
-à préparer un faisceau entouré d'un matériau d'isolation avec des extrémités dénudées qui ont un diamètre nominal (a),to prepare a bundle surrounded by an insulating material with stripped ends which have a nominal diameter (a),
- à préparer un connecteur qui comporte une première partie en forme de tube, de section interne et externe constante, pour sa solidarisation avec l'une desdites extrémités de faisceau, et une seconde partie plane munie d'un orifice adapté pour sa solidarisation avec le pôle de batterie, le diamètre interne nominal (d) de ladite partie tubulaire étant compris entre 1 ,10 et 1 ,20 fois le diamètre nominal (a) de ladite extrémité du faisceau de fils, et le diamètre externe nominal (β) de ladite partie tubulaire étant compris entre 1 ,45 et 1 ,65 fois le diamètre nominal (a) de ladite extrémité,preparing a connector which comprises a first tube-shaped portion of constant internal and external cross-section for securing it to one of said beam ends, and a second flat portion provided with an orifice adapted to be secured to the battery pole, the nominal internal diameter (d) of said tubular portion being between 1, 10 and 1, 20 times the nominal diameter (a) of said end of the wire bundle, and the nominal external diameter (β) of said tubular portion being between 1.45 and 1.65 times the nominal diameter (a) of said end,
- à insérer l'une des extrémités dénudées du faisceau dans ladite première partie en forme de tube dudit connecteur,inserting one of the stripped ends of the bundle into said first tube-shaped portion of said connector,
- à mettre en œuvre autour de ladite partie tubulaire un champ électromagnétique annulaire dont le niveau d'énergie est compris entre 6 et 8 kJ, sous une tension de 5 à 7,5 kV, appliqué entre 8 et 100 μs, de manière à créer des forces magnétiques provoquant le rétreint à grande vitesse du diamètre d'une partie au moins de la longueur de ladite partie tubulaire, par déformation plastique, pour obtenir l'assemblage recherché,- To implement around said tubular portion an annular electromagnetic field whose energy level is between 6 and 8 kJ, at a voltage of 5 to 7.5 kV, applied between 8 and 100 μs, so as to create magnetic forces causing the high velocity shrinkage of the diameter of at least a portion of the length of said tubular portion, by plastic deformation, to obtain the desired assembly,
- à effectuer la même opération d'assemblage au niveau de l'autre extrémité dénudée du faisceau avec un autre connecteur, puis- to perform the same assembly operation at the other bare end of the beam with another connector, then
- à enrober d'un matériau isolant, les deux connecteurs et les éventuelles parties dudit faisceau non isolées.- To cover with an insulating material, the two connectors and any parts of said beam uninsulated.
La mise en œuvre d'une telle technique d'assemblage appelée « Magnetic Puise Welding (MPW) » permet d'obtenir une liaison très efficace tant mécaniquement qu'électriquement, convenant très bien pour des câblots de batterie. Au niveau de l'assemblage, on obtient une masse métallique quasiment monobloc qui ne permet plus d'individualiser les multiples fils du faisceau ni la partie tubulaire du connecteur.
Le champ magnétique mis en œuvre autour des pièces à assembler est spécialement défini et construit pour la présente application spécifique. Ce champ provoque la création de forces qui vont assurer la percussion des pièces à assembler, à très haute vitesse ; l'impact provoqué par cette rencontre entraîne, par sa puissance, la décohésion atomique des atomes des molécules des surfaces de contact. Les électrons de chaque noyau sont arrachés de leur orbite et viennent se repositionner sur des orbites différentes de celles d'origine. Après recombinaison, l'équilibre et la stabilité de la matière sont à nouveau assurés.The implementation of such an assembly technique called "Magnetic Puise Welding (MPW)" provides a very efficient connection both mechanically and electrically, very suitable for battery cables. At the level of the assembly, a nearly one-piece metal mass is obtained which no longer makes it possible to individualize the multiple wires of the bundle or the tubular portion of the connector. The magnetic field implemented around the parts to be assembled is specially defined and constructed for the present specific application. This field causes the creation of forces that will ensure the percussion parts to assemble at very high speed; the impact caused by this encounter leads, by its power, the atomic decohesion of the atoms of the molecules of the contact surfaces. The electrons of each nucleus are torn from their orbit and reposition themselves in orbits different from those of origin. After recombination, the equilibrium and stability of the material are assured again.
On arrive ainsi à obtenir un assemblage de grande qualité entre l'extrémité du faisceau de fils conducteurs et les connecteurs d'extrémité, de nature totalement différente des assemblages classiques. L'assemblage en question est en particulier dépourvu de ZAT ; il limite grandement, voire supprime, la présence de poches d'air internes. Il n'entraîne pas ou peu de microfissures, ni de pollution ; il permet aussi d'obtenir une excellente conductibilité et d'excellents résultats de comportement au passage du courant, ainsi que d'excellents résultats en terme de tenue mécanique. L'assemblage correspondant peut d'autre part être réalisé très rapidement, ce qui permet d'obtenir des cadences de fabrication très élevées.This results in a high quality assembly between the end of the conductive wire bundle and end connectors, totally different nature of conventional assemblies. The assembly in question is in particular devoid of ZAT; it greatly limits or even eliminates the presence of internal air pockets. It causes little or no microcracks or pollution; it also makes it possible to obtain excellent conductivity and excellent behavior results when the current passes, as well as excellent results in terms of mechanical strength. The corresponding assembly can also be realized very quickly, which allows to obtain very high production rates.
De préférence, le temps d'application du champ électromagnétique est de l'ordre de 80 μs.Preferably, the application time of the electromagnetic field is of the order of 80 μs.
Selon une autre particularité, le procédé consiste à mettre en œuvre un champ électromagnétique au moyen d'une installation comportant des capacités, un transformateur et un bloc massif générateur dudit champ électromagnétique dans lequel est ménagée une ouverture d'insertion du tube dudit connecteur ; lesdites capacités sont chargées par un courant compris entre 500 et 600 kA, pour générer un courant dont la fréquence est comprise entre 10 et 15 kH, déchargé dans ledit bloc massif par l'intermédiaire du transformateur.According to another feature, the method consists in implementing an electromagnetic field by means of an installation comprising capacitors, a transformer and a solid block generating said electromagnetic field in which is formed an insertion opening of the tube of said connector; said capacitors are charged by a current of between 500 and 600 kA, to generate a current whose frequency is between 10 and 15 kH, discharged into said solid block via the transformer.
Encore de préférence, le champ électromagnétique est généré dans l'ouverture d'un bloc massif en Cuivre au Béryllium, son ouverture d'application du champ électromagnétique ayant une longueur comprise entre 8 et 20 mm et une forme circulaire dont le diamètre est de quelques dixièmes de mm supérieur au diamètre externe nominal (β) de la partie tubulaire de connecteur.Still preferably, the electromagnetic field is generated in the opening of a solid Beryllium Copper block, its electromagnetic field application aperture having a length of between 8 and 20 mm and a circular shape with a diameter of a few tenths of a millimeter larger than the nominal outside diameter (β) of the tubular connector portion.
L'invention concerne aussi l'installation pour la mise en œuvre du procédé défini ci-dessus, cette installation comprenant des capacités, un transformateur et un bloc massif générateur de champ électromagnétique, lequel bloc massif comporte une ouverture circulaire dont la longueur est comprise entre 8 et 20 mm et qui présente une
forme circulaire dont le diamètre est de quelques dixièmes de mm supérieur au diamètre externe nominal (Ë) de ladite partie tubulaire de connecteur.The invention also relates to the installation for implementing the method defined above, this installation comprising capacitors, a transformer and a solid electromagnetic field generating block, which solid block comprises a circular opening whose length is between 8 and 20 mm and which presents a circular shape whose diameter is a few tenths of a mm greater than the nominal external diameter (Ë) of said tubular connector portion.
Selon une forme de réalisation particulière, l'installation comporte des moyens qui permettent de décharger dans le bloc massif en Cuivre au Béryllium, par l'intermédiaire du transformateur, un courant de fréquence comprise entre 10 et 15 kH et de générer dans ledit bloc massif un champ électromagnétique dont le niveau d'énergie est compris entre 6 et 8 kJ sous une tension de 5 à 7,5 Kv.According to a particular embodiment, the installation comprises means for discharging into the solid Beryllium Copper block, via the transformer, a frequency current of between 10 and 15 kH and generating in said massive block an electromagnetic field whose energy level is between 6 and 8 kJ under a voltage of 5 to 7.5 Kv.
L'invention concerne encore le câble de raccordement de pôles de batterie destiné à relier des cellules galvaniques, obtenu par le procédé défini ci-dessus. Ce câble comprend un faisceau constitué d'une pluralité de fils conducteurs électriques dont les deux extrémités sont chacune solidarisées avec un connecteur permettant la connexion avec l'un des pôles de la batterie, lequel connecteur, également réalisé en matériau conducteur, comporte une première partie pour sa solidarisation avec l'extrémité correspondante dudit faisceau, et une seconde partie, plane, munie d'un orifice adapté pour sa solidarisation avec ledit pôle de batterie, ledit faisceau et lesdits connecteurs étant complètement entourés par un matériau d'isolation. Ladite première partie de connecteur est en forme générale de tube délimitant un orifice cylindrique au sein duquel est logée ladite extrémité de faisceau, le diamètre interne nominal (d), avant assemblage, de la partie tubulaire du connecteur étant compris entre 1 ,10 et 1 ,20 fois le diamètre nominal (a) de l'extrémité du faisceau de fils, le diamètre externe nominal (β) de ladite partie tubulaire étant compris entre 1 ,45 et 1 ,65 fois le diamètre nominal (a) de ladite extrémité de faisceau, l'épaisseur (b) de paroi de ladite partie tubulaire étant de l'ordre de 1 ,8 mm, et ledit tube étant solidarisé avec ladite extrémité de faisceau par une technique d'assemblage électromagnétique de type « Magnetic Puise Welding » - MPW.The invention further relates to the battery pole connecting cable for connecting galvanic cells, obtained by the method defined above. This cable comprises a bundle consisting of a plurality of electrical conductors son whose two ends are each secured to a connector for connection with one of the poles of the battery, which connector, also made of conductive material, comprises a first part for its attachment to the corresponding end of said beam, and a second portion, flat, provided with a hole adapted for its attachment to said battery pole, said beam and said connectors being completely surrounded by an insulating material. Said first connector portion is in the general shape of a tube delimiting a cylindrical orifice in which said beam end is housed, the nominal internal diameter (d), before assembly, of the tubular part of the connector being between 1, 10 and 1 , 20 times the nominal diameter (a) of the end of the bundle of wires, the nominal external diameter (β) of said tubular portion being between 1.45 and 1.65 times the nominal diameter (a) of said end of beam, the wall thickness (b) of said tubular portion being of the order of 1.8 mm, and said tube being secured to said beam end by an electromagnetic assembly technique of "Magnetic Puise Welding" type - MPW.
Cette technique spécifique d'assemblage électromagnétique permet également très avantageusement de solidariser entre eux des matériaux différents du cuivre, traditionnellement utilisé dans la présente application, et également des matériaux de nature différente.This specific technique of electromagnetic assembly also very advantageously makes it possible to bond between them materials different from copper, traditionally used in the present application, and also materials of different nature.
En particulier, selon une première forme de réalisation possible, le câble de batterie conforme à l'invention comprend un faisceau constitué de fils en aluminium, associé à des connecteurs d'extrémité également en aluminium.In particular, according to a first possible embodiment, the battery cable according to the invention comprises a bundle consisting of aluminum wires, associated with end connectors also made of aluminum.
Dans une seconde forme de réalisation intéressante, le faisceau est constitué de fils en cuivre, et les connecteurs d'extrémité sont en aluminium.
L'invention sera encore illustrée, sans être aucunement limitée, par la description suivante en association avec les dessins annexés dans lesquels :In a second interesting embodiment, the beam is made of copper wires, and the end connectors are made of aluminum. The invention will be further illustrated, without being limited in any way, by the following description in conjunction with the accompanying drawings in which:
- la figure 1 est une vue générale en perspective d'une pluralité de batteries reliées les unes aux autres en parallèle au moyen de câbles de raccordement conformes à l'invention ;- Figure 1 is a general perspective view of a plurality of batteries connected to each other in parallel by means of connecting cables according to the invention;
- la figure 2 est une vue en perspective de l'une des extrémités d'un câble de raccordement conforme à l'invention, en cours de fabrication, avant assemblage du connecteur d'extrémité avec l'extrémité dénudée du faisceau de fils conducteurs ;- Figure 2 is a perspective view of one end of a connecting cable according to the invention, during manufacture, before assembling the end connector with the stripped end of the son of conductor bundle;
- la figure 3 est une vue en coupe selon 3-3 de la figure 2 ;- Figure 3 is a sectional view along 3-3 of Figure 2;
- la figure 4 est une vue schématique illustrant l'application du champ électromagnétique pour assembler le connecteur et l'extrémité du faisceau de fils conducteurs ;FIG. 4 is a schematic view illustrating the application of the electromagnetic field to assemble the connector and the end of the bundle of conductive wires;
- la figure 5 est une vue en perspective de l'extrémité du câble de raccordement montré figure 2, après mise en œuvre du champ électromagnétique et assemblage du connecteur avec l'extrémité du faisceau de fils conducteurs ;FIG. 5 is a perspective view of the end of the connection cable shown in FIG. 2, after implementation of the electromagnetic field and assembly of the connector with the end of the bundle of conductive wires;
- la figure 6 est une vue en coupe selon 6-6 de la figure 5 ;- Figure 6 is a sectional view along 6-6 of Figure 5;
- la figure 7 est une vue en perspective du câble de raccordement constitué du faisceau de fils conducteurs aux extrémités dénudées duquel sont fixés les deux connecteurs, avant enrobage de ces derniers par un matériau d'isolation ;FIG. 7 is a perspective view of the connection cable consisting of the bundle of conductive wires at the stripped ends of which the two connectors are fixed, before coating of the latter with an insulating material;
- la figure 8 est une vue en perspective du câble de raccordement de la figure 7, après enrobage des connecteurs d'extrémités par le matériau d'isolation.- Figure 8 is a perspective view of the connecting cable of Figure 7, after embedding the end connectors by the insulating material.
La figure 1 montre une pluralité de batteries 1 reliées en parallèle par des câbles de raccordement 2 (ou câblots) conformes à la présente invention, constitués chacun d'un faisceau de fils conducteurs 3 aux deux extrémités duquel sont fixés des organes connecteurs 4.FIG. 1 shows a plurality of batteries 1 connected in parallel by connection cables 2 (or cables) according to the present invention, each consisting of a bundle of conducting wires 3 at both ends of which connector members 4 are fixed.
Les organes connecteurs 4 sont munis d'un orifice 5 permettant leur raccordement sur les pôles en forme de trous taraudés des batteries 1 , par l'intermédiaire de vis 7.The connector members 4 are provided with an orifice 5 enabling them to be connected to the poles in the form of threaded holes in the batteries 1, by means of screws 7.
La fabrication des câbles de raccordement 2 conformes à l'invention est décrite ci-après en liaison avec les figures 2 à 8. Pour réaliser un tel câble 2, on dénude les deux extrémités 8 d'un faisceau de fils conducteurs 3 revêtu d'un matériau d'isolation 9 (par exemple une matière plastique de type PVC ou du caoutchouc) ; tel qu'illustré sur les figures 2 et 3, on introduit chacune de ces extrémités dénudées 8 dans la partie tubulaire 10 d'un connecteur d'extrémité 4 préalablement préparé ; on soumet ensuite l'ensemble extrémité 8 de faisceau 3/partie tubulaire 10 de connecteur 4 à l'action d'un
champ électromagnétique annulaire adapté pour assurer leur assemblage (figures 4, 5 et 6) ; et enfin les extrémités de câbles ainsi obtenues sont enrobées par un matériau d'isolation (figures 7 et 8).The manufacture of the connection cables 2 according to the invention is described below in conjunction with FIGS. 2 to 8. To make such a cable 2, the two ends 8 of a bundle of conductive wires 3 coated with an insulating material 9 (for example a plastic PVC or rubber); as illustrated in FIGS. 2 and 3, each of these stripped ends 8 is introduced into the tubular portion 10 of a previously prepared end connector 4; the bundle end 8 / tubular connector 10 4 is then subjected to the action of a annular electromagnetic field adapted to assemble them (FIGS. 4, 5 and 6); and finally the ends of cables thus obtained are coated with an insulating material (Figures 7 and 8).
Le faisceau isolé 3 comprend une multiplicité de fils fins en matériau conducteur, par exemple en cuivre ou en aluminium.The insulated beam 3 comprises a multiplicity of fine wires of conductive material, for example copper or aluminum.
En particulier, ce faisceau 3 peut être constitué d'une multiplicité de fils fins ayant chacun un diamètre compris entre 20/100eme et 60/100eme de mm. Par exemple, pour des fils ayant un diamètre de 20/100eme de mm, on peut utiliser environ :In particular, the beam 3 may consist of a multiplicity of purposes son each having a diameter of between 20/100 and 60/100 th of th mm. For example, for wires having a diameter of 20/100 th of mm, approximately:
- 780 fils pour fabriquer un faisceau 3 ayant une section de 25 mm2,- 780 threads to produce a bundle 3 having a section of 25 mm 2 ,
- 1 100 fils pour fabriquer un faisceau 3 ayant une section de 35 mm2, - 1550 fils pour fabriquer un faisceau 3 ayant une section de 50 mm2,- 1 100 threads to make a bundle 3 having a section of 35 mm 2 , - 1550 threads to produce a bundle 3 having a section of 50 mm 2 ,
- 2200 fils pour fabriquer un faisceau 3 ayant une section de 70 mm2,- 2200 wires to make a beam 3 having a section of 70 mm 2 ,
- 2950 fils pour fabriquer un faisceau 3 ayant une section de 95 mm2.- 2950 son to make a beam 3 having a section of 95 mm 2 .
Chaque connecteur 4 est également réalisé en matériau conducteur, par exemple en cuivre ou en aluminium. Ce connecteur 4 comporte une première partie tubulaire 10, délimitant un orifice cylindrique 1 1 , pour sa solidarisation avec l'une des extrémités dénudées du faisceau 3, et une seconde partie plane 12, réalisée monobloc avec la première partie 1 1 , munie de l'orifice 5 pour sa solidarisation avec le pôle de la batterie 1 .Each connector 4 is also made of conductive material, for example copper or aluminum. This connector 4 comprises a first tubular portion 10 delimiting a cylindrical orifice 1 1, for its attachment to one of the stripped ends of the bundle 3, and a second flat portion 12, integrally formed with the first part 1 1, provided with the orifice 5 for its attachment to the pole of the battery 1.
Pour obtenir un assemblage optimal :To obtain an optimal assembly:
- le diamètre interne nominal d de la partie tubulaire 10 du connecteur 4, avant assemblage avec l'extrémité dénudée 8 du faisceau de fils conducteurs 3 est compris entre 1 ,10 et 1 ,20 fois le diamètre nominal a de l'extrémité 8 dénudée dudit faisceau de fils 3 (figure 3) ;- The nominal internal diameter d of the tubular portion 10 of the connector 4, before assembly with the stripped end 8 of the bundle of conductive wires 3 is between 1, 10 and 1, 20 times the nominal diameter a of the denuded end 8 said bundle of wires 3 (FIG. 3);
- le diamètre externe nominal p_ de ladite partie tubulaire 10 de connecteur 4 est compris entre 1 ,45 et 1 ,65 fois le diamètre nominal a dudit faisceau 3, etthe nominal external diameter p of said tubular connector portion 4 is between 1.45 and 1.65 times the nominal diameter a of said beam 3, and
- l'épaisseur de la partie tubulaire 10 du connecteur 4 est de l'ordre de 1 ,8 mm, ceci quelle que soit la section dudit faisceau de fils conducteurs 3.- The thickness of the tubular portion 10 of the connector 4 is of the order of 1.8 mm, regardless of the section of said bundle of conductive wires 3.
L'extrémité dénudée 8 du faisceau 3 est enfoncée au maximum dans l'orifice cylindrique 1 1 de la partie tubulaire 10 du connecteur 4, dont la longueur est comprise entre 5 et 20 mm (avantageusement de l'ordre de 8 à 10 mm), et le champ électromagnétique d'assemblage est appliqué annulairement, sur toute ou pratiquement toute la longueur de la partie tubulaire 10 du connecteur 4 (figure 4).
La technique d'assemblage par « Magnétic Puise Welding - MPW » utilise un bloc massif percé, produisant un champ électromagnétique très puissant et très bref pour générer des forces mécaniques aptes à provoquer une déformation à froid d'un matériau métalliqueThe stripped end 8 of the bundle 3 is driven as far as possible into the cylindrical orifice 1 1 of the tubular portion 10 of the connector 4, the length of which is between 5 and 20 mm (advantageously of the order of 8 to 10 mm). , and the electromagnetic assembly field is applied annularly over all or substantially the entire length of the tubular portion 10 of the connector 4 (Figure 4). The assembly technique by "Magnetic Puise Welding - MPW" uses a solid block pierced, producing a very powerful and very short electromagnetic field to generate mechanical forces capable of causing a cold deformation of a metallic material
Comme illustré schématiquement sur la figure 4, une machine de « MPW » comprend essentiellement un générateur 13 associé à un ensemble de capacités 14, à un transformateur (non représenté) et à un bloc massif 15 dans lequel est ménagée une ouverture pour l'insertion de la pièce tubulaire 10 à déformer.As illustrated diagrammatically in FIG. 4, an "MPW" machine essentially comprises a generator 13 associated with a set of capacitors 14, a transformer (not shown) and a solid block 15 in which an opening for insertion is provided. of the tubular piece 10 to be deformed.
Par décharge des capacités 14 à travers le bloc massif 15 en quelques microsecondes, il est produit une brève impulsion magnétique intense qui induit des courants dans la pièce placée dans la bobine. Le courant induit circulant en surface de la pièce 10, et celui du bloc massif 15, génèrent des forces de répulsion radiales qui provoquent la déformation du métal à très grande vitesse.By discharging the capacitances 14 through the solid block 15 in a few microseconds, a brief intense magnetic pulse is generated which induces currents in the piece placed in the coil. The induced current circulating on the surface of the part 10, and that of the solid block 15, generate radial repulsion forces which cause the deformation of the metal at a very high speed.
Le courant de charge des capacités 14 peut être de 540 kA ; la mesure d'inductance de ces capacités 14 peut être de 120 nH.The charging current of the capacitors 14 may be 540 kA; the inductance measurement of these capacitances 14 may be 120 nH.
Ces capacités 14 sont aptes à générer un courant spécifique dont la fréquence est comprise entre 10 et 15 kH qui est déchargé dans le bloc massif 15 pour créer un champ magnétique spécifique dont le niveau d'énergie est compris entre 6 et 8 kJ sous une tension de 5 à 7,5 kV (selon le diamètre du faisceau de fils 3).These capacitors 14 are capable of generating a specific current whose frequency is between 10 and 15 kH which is discharged into the solid block 15 to create a specific magnetic field whose energy level is between 6 and 8 kJ under a voltage from 5 to 7.5 kV (depending on the diameter of the wire harness 3).
Le champ électromagnétique est appliqué pendant un temps de 8 à 100 microsecondes (de préférence voisin de 80 μs) pour réaliser l'assemblage. Par exemple, on peut mettre en œuvre une énergie de l'ordre de 7 kJ pour un câble de 25 mm2, et de 7,5 kJ pour un câble de 70 mm2.The electromagnetic field is applied for a time of 8 to 100 microseconds (preferably close to 80 μs) to achieve the assembly. For example, it is possible to implement an energy of the order of 7 kJ for a 25 mm 2 cable, and 7.5 kJ for a 70 mm 2 cable.
Le bloc massif 15 est avantageusement réalisé en Cuivre au Béryllium avec une ouverture d'insertion cylindrique. La section circulaire de cette ouverture est de quelques dixièmes de mm supérieure au diamètre nominal externe (p_) du tube 10 ; sa longueur peut être de l'ordre de 10 à 15 mm, fonction de la longueur d'assemblage maximale dont on souhaite disposer.The solid block 15 is advantageously made of Beryllium Copper with a cylindrical insertion opening. The circular section of this opening is a few tenths of a millimeter larger than the external nominal diameter (p_) of the tube 10; its length can be of the order of 10 to 15 mm, depending on the maximum assembly length that is desired.
On peut pour cela utiliser une machine de magnétoformage de type MPW30 proposée par la Société PULSAR WELDING LTD.For this purpose, it is possible to use a magnetization machine of the MPW30 type proposed by the company PULSAR WELDING LTD.
On obtient après assemblage un câble de raccordement dont l'une des extrémités est illustrée sur les figures 5 et 6. Suite à cet assemblage, le diamètre externe ç de la partie tubulaire 10 du connecteur 4 est sensiblement réduit par rapport à son diamètre nominal Q avant assemblage. De même, du fait de la compression
réalisée, le diamètre de l'extrémité 8 du faisceau 3 est également réduit par rapport au diamètre nominal a.A connection cable is obtained after assembly, one of the ends of which is illustrated in FIGS. 5 and 6. Following this assembly, the external diameter ç of the tubular portion 10 of the connector 4 is substantially reduced with respect to its nominal diameter. before assembly. Similarly, because of the compression realized, the diameter of the end 8 of the beam 3 is also reduced relative to the nominal diameter a.
Un tel assemblage s'avère très performant et montre à l'examen une absence de ZAT au niveau de la zone de liaison entre le faisceau de fils 3 et la partie tubulaire 10 de connecteur. Les tests de résistance mécanique et de conductivité réalisés s'avèrent très positifs.Such an assembly is very efficient and shows on examination a lack of ZAT at the connection zone between the wire bundle 3 and the tubular portion 10 connector. The mechanical strength and conductivity tests performed are very positive.
En outre, ce type de technique de fixation autorise l'assemblage de matériaux difficilement ou non soudables, du genre aluminium/aluminium ou cuivre/aluminium.In addition, this type of fastening technique allows the assembly of difficult or non-weldable materials, such as aluminum / aluminum or copper / aluminum.
On peut donc envisager de réaliser des câbles de raccordement comportant un faisceau de fils conducteurs 3 en cuivre, associé à des connecteurs d'extrémités 4 en aluminium, ou encore un faisceau de fils conducteurs en aluminium associé à des connecteurs d'extrémités 4 en aluminium.It is therefore possible to envisage making connection cables comprising a bundle of copper conductor wires 3, associated with aluminum end connectors 4, or else a bundle of aluminum conductive wires associated with aluminum end connectors 4. .
Après assemblage, les extrémités du câble de raccordement sont placées dans un moule d'injection pour recevoir un enrobage 16 de matière isolante genre PVC ou caoutchouc par exemple.After assembly, the ends of the connecting cable are placed in an injection mold to receive a coating 16 of insulating material like PVC or rubber for example.
On obtient le câble de raccordement 2 totalement isolé illustré sur la figure 8 et apte à être utilisé pour le raccordement de pôles de batteries tel qu'illustré sur la figure 1.
The fully insulated connecting cable 2 illustrated in FIG. 8 is obtained and suitable for use in connecting battery poles as shown in FIG. 1.
Claims
1.- Procédé de fabrication d'un câble de raccordement de pôles de batterie comprenant un faisceau (3) constitué d'une pluralité de fils conducteurs électriques dont la section est comprise entre 16 mm2 et 150 mm2, et dont les deux extrémités (8) sont solidarisées avec un connecteur (4), également réalisé en matériau conducteur, permettant la connexion à l'un des pôles de la batterie (1 ), ledit faisceau (3) et lesdits connecteurs (4) étant complètement entourés par un matériau d'isolation (9, 16), caractérisé en ce qu'il consiste :1. A method for manufacturing a battery pole connecting cable comprising a bundle (3) consisting of a plurality of electrical conductor wires whose cross section is between 16 mm 2 and 150 mm 2 , and whose two ends (8) are secured with a connector (4), also made of conductive material, for connection to one of the poles of the battery (1), said beam (3) and said connectors (4) being completely surrounded by a insulation material (9, 16), characterized in that it consists of:
-à préparer un faisceau (3) entouré d'un matériau d'isolation (9) avec des extrémités dénudées qui ont un diamètre nominal (a),preparing a bundle (3) surrounded by an insulating material (9) with stripped ends which have a nominal diameter (a),
- à préparer un connecteur (4) qui comporte une première partie (10) en forme de tube, de section interne et externe constante, pour sa solidarisation avec l'une desdites extrémités (8) de faisceau (3), et une seconde partie plane (12) munie d'un orifice (5) adapté pour sa solidarisation avec ledit pôle de batterie, le diamètre interne nominal (d) de ladite partie tubulaire (10) étant compris entre 1 ,10 et 1 ,20 fois le diamètre nominal (a) de ladite extrémité (8) du faisceau de fils (3), et le diamètre externe nominal (Q) de ladite partie tubulaire (10) étant compris entre 1 ,45 et 1 ,65 fois le diamètre nominal (a) de ladite extrémité (8),- preparing a connector (4) which comprises a first portion (10) in the form of a tube, of constant internal and external section, for its attachment to one of said beam ends (8) (3), and a second part plane (12) provided with an orifice (5) adapted to be secured to said battery pole, the nominal internal diameter (d) of said tubular portion (10) being between 1, 10 and 1, 20 times the nominal diameter (a) of said end (8) of the wire bundle (3), and the nominal outside diameter (Q) of said tubular portion (10) being between 1.45 and 1.65 times the nominal diameter (a) of said end (8),
- à insérer l'une des extrémités dénudées (8) du faisceau (3) dans ladite première partie en forme de tube (10) dudit connecteur (4),inserting one of the stripped ends (8) of the bundle (3) into said first tube-shaped part (10) of said connector (4),
- à mettre en œuvre autour de ladite partie tubulaire (10) un champ électromagnétique annulaire dont le niveau d'énergie est compris entre 6 et 8 kJ, sous une tension de 5 à 7,5 kV, appliqué entre 8 et 100 μs, de manière à créer des forces magnétiques provoquant le rétreint à grande vitesse du diamètre d'une partie au moins de la longueur de ladite partie tubulaire (10), par déformation plastique, pour obtenir l'assemblage recherché,- To implement around said tubular portion (10) an annular electromagnetic field whose energy level is between 6 and 8 kJ, at a voltage of 5 to 7.5 kV, applied between 8 and 100 μs, in order to create magnetic forces causing the high velocity shrinkage of the diameter of at least a portion of the length of said tubular portion (10), by plastic deformation, to obtain the desired assembly,
- à effectuer la même opération d'assemblage au niveau de l'autre extrémité dénudée du faisceau (3) avec un autre connecteur (4), puisto perform the same assembly operation at the other stripped end of the bundle (3) with another connector (4), then
- à enrober d'un matériau isolant (16), les deux connecteurs (4) et les éventuelles parties dudit faisceau (3) non isolées.- To cover with an insulating material (16), the two connectors (4) and any parts of said beam (3) uninsulated.
2.- Procédé selon la revendication 1 , caractérisé en ce que le temps d'application du champ électromagnétique est de l'ordre de 80 μs.2. A method according to claim 1, characterized in that the application time of the electromagnetic field is of the order of 80 microseconds.
3.- Procédé selon l'une quelconque des revendications 1 ou 2, caractérisé en ce qu'il consiste à mettre en œuvre un champ électromagnétique au moyen d'une installation comportant des capacités (14), un transformateur et un bloc massif (15) générateur dudit champ électromagnétique dans lequel est ménagée une ouverture d'insertion du tube (10) dudit connecteur (4), lesdites capacités (14) étant chargées par un courant compris entre 500 et 600 kA, pour générer un courant dont la fréquence est comprise entre 10 et 15 kH, déchargé dans ledit bloc massif (15), par l'intermédiaire du transformateur.3. A method according to any one of claims 1 or 2, characterized in that it consists in implementing an electromagnetic field by means of an installation comprising capacitors (14), a transformer and a solid block (15). ) generator of said electromagnetic field in which is formed an insertion opening of the tube (10) of said connector (4), said capacitors (14) being charged by a current of between 500 and 600 kA, to generate a current whose frequency is included between 10 and 15 kH, discharged into said solid block (15) via the transformer.
4.- Procédé selon la revendication 3, caractérisé en ce que le champ électromagnétique est généré dans l'ouverture d'un bloc massif (15) en Cuivre au Béryllium, ladite ouverture ayant une longueur comprise entre 8 et 20 mm et une forme circulaire dont le diamètre est de quelques dixièmes de mm supérieur au diamètre externe nominal (β) de ladite partie tubulaire (10) de connecteur (4).4. A method according to claim 3, characterized in that the electromagnetic field is generated in the opening of a solid block (15) of Beryllium Copper, said opening having a length of between 8 and 20 mm and a circular shape whose diameter is a few tenths of a mm greater than the nominal external diameter (β) of said tubular portion (10) of connector (4).
5.- Installation pour la mise en œuvre du procédé selon l'une quelconque des revendications 1 à 4, caractérisée en ce qu'elle comprend des capacités (14), un transformateur et un bloc massif (15) générateur de champ électromagnétique, lequel bloc massif (15) comporte une ouverture circulaire dont la longueur est comprise entre 8 et 20 mm et qui présente une forme circulaire dont le diamètre est de quelques dixièmes de mm supérieur au diamètre externe nominal (β) de ladite partie tubulaire (10) de connecteur (4).5. Installation for the implementation of the method according to any one of claims 1 to 4, characterized in that it comprises capacitors (14), a transformer and a solid block (15) electromagnetic field generator, which solid block (15) has a circular opening whose length is between 8 and 20 mm and which has a circular shape whose diameter is a few tenths of a mm greater than the nominal external diameter (β) of said tubular portion (10) of connector (4).
6.- Installation selon la revendication 5, caractérisée en ce qu'elle comporte des moyens qui permettent de décharger dans le bloc massif en Cuivre au Béryllium (15), par l'intermédiaire du transformateur, un courant de fréquence comprise entre 10 et 15 kH et de générer dans ledit bloc massif (15) un champ électromagnétique dont le niveau d'énergie est compris entre 6 et 8 kJ sous une tension de 5 à 7,5 kV.6.- Installation according to claim 5, characterized in that it comprises means for discharging into the solid block of Beryllium Copper (15), through the transformer, a frequency current between 10 and 15 kH and generating in said solid block (15) an electromagnetic field whose energy level is between 6 and 8 kJ under a voltage of 5 to 7.5 kV.
7.- Câble de raccordement de pôles de batterie destiné à relier des cellules galvaniques, obtenu par le procédé selon l'une quelconque des revendications 1 à 4, lequel câble (2) comprend un faisceau (3) constitué d'une pluralité de fils conducteurs électriques dont les deux extrémités (8) sont chacune solidarisées avec un connecteur (4) permettant la connexion avec l'un des pôles de la batterie (1 ), lequel connecteur (4), également réalisé en matériau conducteur, comporte une première partie (10) pour sa solidarisation avec l'extrémité (8) correspondante dudit faisceau (3), et une seconde partie (12), plane, munie d'un orifice (5) adapté pour sa solidarisation avec ledit pôle de batterie, ledit faisceau (3) et lesdits connecteurs (4) étant complètement entourés par un matériau d'isolation (9, 16), ladite première partie (10) de connecteur (4) étant en forme générale de tube délimitant un orifice cylindrique (1 1 ) au sein duquel est logée ladite extrémité (8) de faisceau (3), le diamètre interne nominal (d), avant assemblage, de la partie tubulaire (10) du connecteur (4) étant compris entre 1 ,10 et 1 ,20 fois le diamètre nominal (a) de l'extrémité (8) du faisceau de fils (3), le diamètre externe nominal (β) de ladite partie tubulaire (10) étant compris entre 1 ,45 et 1 ,65 fois le diamètre nominal (a) de ladite extrémité (8) de faisceau (3), l'épaisseur (b) de paroi de ladite partie tubulaire (10) étant de l'ordre de 1 ,8 mm, et ledit tube (10) étant solidarisé avec ladite extrémité (8) de faisceau (3) par une technique d'assemblage électromagnétique de type « Magnetic Puise Welding » - MPW.7.- battery pole connecting cable for connecting galvanic cells, obtained by the method according to any one of claims 1 to 4, which cable (2) comprises a beam (3) consisting of a plurality of son electrical conductors whose two ends (8) are each secured to a connector (4) for connection with one of the poles of the battery (1), which connector (4), also made of conductive material, comprises a first part (10) for its attachment to the corresponding end (8) of said beam (3), and a second portion (12), flat, provided with an orifice (5) adapted for its attachment to said battery pole, said beam (3) and said connectors (4) being completely surrounded by an insulating material (9, 16), said first connector part (10) being in the general shape of a tube delimiting a cylindrical orifice (1 1) at within which is housed said extr mite (8) beam (3), the nominal inside diameter (d), before assembly, the tubular portion (10) of the connector (4) being between 1, 10 and 1, 20 times nominal diameter (a) of the end (8) of the wire bundle (3), the nominal external diameter (β) of said tubular portion (10) being between 1.45 and 1.65 times the nominal diameter (a) ) of said end (8) of beam (3), the wall thickness (b) of said tubular portion (10) being of the order of 1.8 mm, and said tube (10) being secured to said end (8) beam (3) by an electromagnetic assembly technique of the type "Magnetic Puise Welding" - MPW.
8.- Câble de batterie selon la revendication 7, caractérisé en ce qu'il comprend un faisceau (3) constitué de fils en aluminium, associé à des connecteurs (4) également en aluminium.8.- Battery cable according to claim 7, characterized in that it comprises a beam (3) consisting of aluminum son associated with connectors (4) also aluminum.
9.- Câble de batterie selon la revendication 7, caractérisé en ce qu'il comprend un faisceau (3) constitué de fils en cuivre, associé à des connecteurs (4) en aluminium. 9.- battery cable according to claim 7, characterized in that it comprises a beam (3) consisting of copper son associated with connectors (4) aluminum.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP08762022A EP2115815A1 (en) | 2007-01-31 | 2008-01-31 | Process for manufacturing a cable for connecting the poles of a battery, an installation for implementing said process, and the cable obtained |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR0700658A FR2912000A1 (en) | 2007-01-31 | 2007-01-31 | Battery terminal connection cable i.e. cablet, for galvanic cell, has tubular shaped part defining cylindrical orifice in which ends of electrical conducting wire bundle are housed and integrating with ends by magneto forming technique |
FR0700658 | 2007-01-31 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2008104668A1 true WO2008104668A1 (en) | 2008-09-04 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/FR2008/050162 WO2008104668A1 (en) | 2007-01-31 | 2008-01-31 | Process for manufacturing a cable for connecting the poles of a battery, an installation for implementing said process, and the cable obtained |
Country Status (3)
Country | Link |
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EP (1) | EP2115815A1 (en) |
FR (1) | FR2912000A1 (en) |
WO (1) | WO2008104668A1 (en) |
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DE102010003599A1 (en) | 2010-04-01 | 2011-10-06 | Lisa Dräxlmaier GmbH | Process for cable assembly and ready-made cable |
WO2012175443A1 (en) * | 2011-06-21 | 2012-12-27 | Lisa Dräxlmaier GmbH | Conductor and method for assembling a conductor |
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EP2544316A1 (en) * | 2011-07-07 | 2013-01-09 | Amphenol-Tuchel Electronics GmbH | Method for attaching a connector to a braided cable |
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EP2544316A1 (en) * | 2011-07-07 | 2013-01-09 | Amphenol-Tuchel Electronics GmbH | Method for attaching a connector to a braided cable |
US8899084B2 (en) | 2011-10-10 | 2014-12-02 | Dana Automotive Systems Group, Llc | Magnetic pulse welding and forming for plates |
DE102013015302A1 (en) | 2013-09-14 | 2015-03-19 | Audi Ag | A method of conditioning the end strands of an electrically conductive, flexible cable |
DE102013015302B4 (en) * | 2013-09-14 | 2017-02-09 | Audi Ag | A method of conditioning the end strands of an electrically conductive, flexible cable |
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Also Published As
Publication number | Publication date |
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FR2912000A1 (en) | 2008-08-01 |
EP2115815A1 (en) | 2009-11-11 |
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