EP3422480A1 - Système de contact destiné à la mise en contacte d'un tressage de blindage et d'un élément de contact - Google Patents

Système de contact destiné à la mise en contacte d'un tressage de blindage et d'un élément de contact Download PDF

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Publication number
EP3422480A1
EP3422480A1 EP18190109.1A EP18190109A EP3422480A1 EP 3422480 A1 EP3422480 A1 EP 3422480A1 EP 18190109 A EP18190109 A EP 18190109A EP 3422480 A1 EP3422480 A1 EP 3422480A1
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EP
European Patent Office
Prior art keywords
contact
aluminum
inner sleeve
sleeve
contact surface
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP18190109.1A
Other languages
German (de)
English (en)
Other versions
EP3422480B1 (fr
Inventor
Gottfried Fleischer
Karl Fröschl
Michael SCHWENT
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Gebauer and Griller Kabelwerke GmbH
Original Assignee
Gebauer and Griller Kabelwerke GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
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Publication of EP3422480A1 publication Critical patent/EP3422480A1/fr
Application granted granted Critical
Publication of EP3422480B1 publication Critical patent/EP3422480B1/fr
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Anticipated expiration legal-status Critical

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-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
    • H01R4/28Clamped connections, spring connections
    • H01R4/50Clamped connections, spring connections utilising a cam, wedge, cone or ball also combined with a screw
    • H01R4/5083Clamped connections, spring connections utilising a cam, wedge, cone or ball also combined with a screw using a wedge
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R9/00Structural associations of a plurality of mutually-insulated electrical connecting elements, e.g. terminal strips or terminal blocks; Terminals or binding posts mounted upon a base or in a case; Bases therefor
    • H01R9/03Connectors arranged to contact a plurality of the conductors of a multiconductor cable, e.g. tapping connections
    • H01R9/05Connectors arranged to contact a plurality of the conductors of a multiconductor cable, e.g. tapping connections for coaxial cables
    • H01R9/0524Connection to outer conductor by action of a clamping member, e.g. screw fastening means
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-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
    • H01R4/28Clamped connections, spring connections
    • H01R4/50Clamped connections, spring connections utilising a cam, wedge, cone or ball also combined with a screw
    • H01R4/5016Clamped connections, spring connections utilising a cam, wedge, cone or ball also combined with a screw using a cone
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors

Definitions

  • the invention relates to a contact system for contacting an aluminum braided shield comprising a contact element an electrically conductive cable having an inner electrical conductor, a primary insulation surrounding the inner electrical conductor and a secondary insulation surrounding the primary insulation; the aluminum screen braid comprising a plurality of aluminum wires, which is disposed running at least in sections between the primary insulation and the secondary insulation of the electrically conductive cable; the push-on to the electrically conductive cable contact element which comprises an outer sleeve and an at least partially insertable into the outer sleeve inner sleeve.
  • a braided shield which consists of a plurality of strands of an electrically conductive material, which surrounds the electrical inner conductor.
  • the braided screen is usually located within a cable sheath and is between a primary insulation, also called inner sheath, which is arranged between the inner conductor and braided shield, and a secondary insulation, also called outer sheath or cable sheath, which surrounds the braided shield outside arranged.
  • a shielding film which is usually a plastic-laminated aluminum foil. This screen foil transmits no appreciable currents and is not mitromeiert in the case of contacting the screen braid, but separated when exposing the shield braid.
  • the shielding braid in the end regions of the electrical cable In order to ensure the shielding of the inner conductor or the equipotential bonding of the shielding braid, it is necessary for the shielding braid in the end regions of the electrical cable to be connectable to a ground.
  • at least one contact element is usually provided at each end of the cable, which are electrically conductively connected to the braided shield and can be connected to the ground.
  • braided shields are also aluminum or aluminum alloys, which is used due to its low mass in many applications, such as the automotive sector, especially in electrically powered cars.
  • aluminum wires or an aluminum alloy are pressed together, these wires naturally already have only one very hard to penetrate oxide layer on its surface. Due to the radial compression, a contacting process for a braided screen which is customary in copper technology is unable to produce contact with all the aluminum wires of the aluminum braided shield with the contact element, since the oxide layers forming on the aluminum wires prevent the transverse conductivity in the pressed areas.
  • the oxide layers can not be broken for all wires in the braided shield. It has also been found that with known contacting methods in aluminum braided shields no stable connection can be achieved over a thermal cycling load.
  • connection methods for aluminum screen braids make use of additional measures in order to ensure the contacting of all aluminum wires and, if appropriate, to be able to break up the oxide layer.
  • connection is from the DE 10 2012 00 137 B4 It is known that when connecting an aluminum screen braid to a sleeve, the braided screen is knocked back over the sleeve and the connection is made by means of ultrasonic welding. In this process, a cohesive connection between the braided shield and the contact part is made by supplying heat.
  • this type of connection technique has the disadvantage that the quality of the connection always influences the quality of the connection; in this case, above all adhering substances from the preceding processes are interference quantities.
  • the production of such electrically conductive connections between an aluminum braided screen and a contact element is dependent on the presence of expensive welding systems, which are still not portable and therefore not flexible.
  • the EP 2 874 236 A1 describes a contact system consisting of a first inner contact part and a second outer one Contact part by means of which an aluminum wire screen comprising a plurality of individual wires can be clamped and contacted.
  • the wire screen is pressed between a conical outer surface of a contact region of the first contact element and a conical inner surface of the second contact element via clamping means of the contact system.
  • This object relates to an inventive contact system for contacting an aluminum screen mesh with a contact element of the type mentioned, wherein the inner sleeve having a first contact surface and the outer sleeve has a second contact surface for contacting the aluminum screen mesh, wherein the first and / or second contact surface respectively having different sized cross-section with respect to a conductor axis of the electrically conductive cable, and wherein the contact surfaces are formed such that the aluminum wires of the aluminum screen mesh are clamped in a contact position of the contact part by axially telescoping inner sleeve and outer sleeve between the contact surfaces and contacted with the contact part.
  • electrical inner conductor of electrically conductive material preferably copper, aluminum or at least one of these metals-containing alloys are understood in the context of the invention both individual conductors as well as several Single conductors existing strands or a package of two, three, four or more strands, which are covered by the primary insulation.
  • the electrical inner conductor defines a conductor axis, which follows the course of the electrical cable, so in sections may be straight, curved or angled. However, at least in the area of the contacting, the conductor axis generally runs in a straight line.
  • Under sleeve is usually understood an element which comprises a, preferably centric, through-opening and a through-opening having, preferably rotationally symmetrical, shell body.
  • the passage opening can basically have any geometric cross-section, as long as the passage of at least a portion of the electrically conductive cable is ensured.
  • the inner sleeve is that sleeve, which is arranged in the contact position in the radial direction closer to the inner conductor. In other words, the inner sleeve is pushed onto the electrically conductive cable, so that the passage opening of the inner sleeve, hereinafter called cable feedthrough, is advantageously adapted to the geometry of the electrical inner conductor of the cable, for example circular, elliptical or substantially polygonal.
  • the sheath body of the inner sleeve is formed such that the inner sleeve is at least partially inserted into the outer sleeve, wherein the first contact surface of the inner sleeve is usually formed by a radially outer peripheral surface of the inner sleeve.
  • the insertability is achieved in that the outer dimensions of the inner sleeve is smaller than or equal to the inner dimensions of the passage opening of the outer sleeve.
  • the second contact surface of the outer sleeve is generally formed by a radially inner peripheral surface, that is, by the boundary surface of the through hole of the outer sleeve.
  • the contact surfaces are defined by a surface of the inner sleeve or the outer sleeve and theoretically include a volume. If in the light of the invention of A cross-section of a contact surface is referred to, mutatis mutandis, the cross-section of the enclosed volume understood, which is aligned normal to the conductor axis.
  • the aluminum braided shield is disposed between the contact surfaces so that the aluminum wires of the aluminum braid, preferably all aluminum wires, contact both the first contact surface and the second contact surface.
  • each of the contact surfaces preferably has regions with different sized cross-sections.
  • either an electrical contact between the outer sleeve and / or the inner sleeve and the aluminum wires is made to allow potential equalization.
  • the geometry of the cooperating contact surfaces of the sleeves is a variety of shapes in question, as long as the design of the contact surfaces and their cross sections at least one area is defined, through which a telescoping of the sleeves acting on the aluminum shielding clamping force is exerted.
  • the contact element according to the invention is also suitable for braided shields of other materials or alloys, for example of copper or copper alloys.
  • a clamping and / or a compression / shearing of the aluminum wires of the aluminum screen mesh between the contact surfaces in accordance with the invention can be achieved in that the first and the second contact surface are conical. Due to the conicity, which generally refers to the conductor axis, the two contact surfaces, it is achieved that the contact surfaces exert a clamping force on the aluminum wires by an axial displacement of the sleeves in the contact position or a pressure spike for crushing / shearing (ie cold welding ) of the aluminum wires form. It goes without saying that the contact surfaces are formed corresponding to each other, at least when both contact surfaces are conical.
  • the contact surfaces are further formed such that in the Contact position of the contact element by axially compressing the outer sleeve and inner sleeve, a crushing / shearing of the aluminum wires of the aluminum shield braid and cold welding of the aluminum wires of the aluminum shield braid takes place with the contact element.
  • the contact surfaces of the inner sleeve and outer sleeve are designed such that the oxide layer having surface of all aluminum wires of the aluminum screen braid when axially compressing the inner sleeve and outer sleeve is broken, so that a cold welding between at least one contact surface and the aluminum braid can arise.
  • the aluminum wires are squeezed during compression or at least partially sheared / sheared, so that it comes to a cold welding between the aluminum wires and at least one of the sleeves, so the inner sleeve and / or the outer sleeve.
  • At least one area is defined in which forms a pressure peak during compression.
  • This area usually corresponds to the area in which the clamping force is exerted.
  • Cold welding utilizes the effect of aluminum tending to flow using very high pressure and thereby cold welding to contacting materials.
  • Such a compound is insoluble and electrically conductive.
  • the geometry of the cooperating contact surfaces of the sleeves is a variety of shapes in question, as long as the design of the contact surfaces and their areas with different cross-section at least one area is defined in which forms a pressure peak during axial compression, which is used for crushing / Shearing the aluminum wires and ultimately leads to cold welding.
  • one of the sleeves is made of copper or a, preferably coated, copper alloy and serves as a contact sleeve while the other sleeve acts as a support sleeve.
  • the cold welding takes place both between the contact sleeve and between the support sleeve and the aluminum braided screen.
  • the second contact surface of the outer sleeve limits an insertion volume for the inner sleeve and the first contact surface of the inner sleeve is formed by a portion of the inner sleeve which can be introduced into the insertion volume.
  • the insertion volume of the outer sleeve is usually formed by a portion of the passage opening, preferably completely through the passage opening. Due to the design of insertion volume of the outer sleeve and insertable portion of the inner sleeve, the interaction of the contact surfaces can be achieved in a simple manner.
  • introduction volume and / or insertable section taper at least in sections relative to the conductor axis.
  • the contact surfaces forming element (s) a geometry of the contact surfaces is achieved in a simple manner, which causes a pinch or shearing / shearing of the aluminum screen mesh in the contact position.
  • the tapered portion of that region forms, which exerts a clamping force on the aluminum wires or causes a crushing / shearing of the aluminum wires.
  • the contact surfaces may be formed such that in an intermediate position of the contact part, in which the inner sleeve is partially inserted into the outer sleeve, forms a gap for receiving the aluminum screen mesh between the contact surfaces and the gap has at least one cross-sectional constriction.
  • a particularly space-saving design of the contact element is achieved in a preferred embodiment in that the inner sleeve is completely received in the contact position in the insertion volume of the outer sleeve.
  • the entire inner sleeve is formed as an insertable section.
  • first and / or the second contact surface in the contact position are at least partially oblique to the conductor axis running , In other words, the imaginary extensions of the first and / or second contact surfaces intersect the conductor axis.
  • the effects mentioned above in connection with the conical contact surfaces can be further improved in that the first and / or the second contact surface has at least one kink.
  • Knick is understood here as meaning the change in the slope in the conical or frustoconical contact surface or, in other words, the continuous transition between two sections merging into one another with different opening angles of the contact surface.
  • Each kink defines a peripheral contact edge on which a pressure peak forms and / or which exerts a clamping force on the aluminum screen mesh.
  • Advantageous effects are already observed if only one of the contact surfaces has a kink.
  • variants are also conceivable in which a contact surface has several kinks or both contact surfaces have one or more kinks.
  • the kinks in turn define the area in which in the contact position, the clamping force is exerted on the aluminum wires or forms in the contact position, the pressure peak.
  • the first and / or the second contact surface has at least one stage.
  • a step is understood as meaning a sudden enlargement or reduction of the cross-sectional area defining the corresponding contact surface normal to the conductor axis.
  • the first and / or second contact surface may have a cylindrical shape or the previously described conical shape. It is advantageous if both contact surfaces have mutually corresponding first and second stages.
  • the at least one first and / or second stage in turn defines the region in which the pressure peak is formed in the contact position for exerting the clamping force or for pinching / shearing and cold welding the aluminum wires of the aluminum screen mesh.
  • the first contact surface has at least a first step and the second contact surface has at least one second step, the steps each forming a peripheral contact edge and contacting the aluminum braid in the contact position with the contact edges.
  • the contact edges in turn defines that region in which, in the contact position, the pressure peak for exerting the clamping force or for pinching / shearing and cold welding of the aluminum wires of the aluminum screen mesh is formed.
  • one of the sleeves is designed as a contact sleeve, via which the potential equalization is made possible and the other sleeve is designed as a support sleeve.
  • the contact sleeve is made of copper or a copper alloy.
  • either the inner sleeve or the outer sleeve may be formed as a contact sleeve.
  • both contact sleeve and support sleeve made of copper or a copper alloy are made. Therefore, it is provided in further embodiments of the invention that the inner sleeve and / or the outer sleeve is made of copper or a copper alloy.
  • one of the sleeves is made of copper or a copper alloy and the other sleeve is made of aluminum or an aluminum alloy.
  • the made of aluminum or an aluminum alloy sleeve so designed as a support sleeve sleeve, the corrosion tendency of the aluminum wires in the region of the contact element is further minimized.
  • it can also be made of stainless steel, which is preferably protected against corrosion, for example by means of a corrosion-inhibiting coating.
  • the sleeve made of copper or a copper alloy has a corrosion-inhibiting coating having.
  • Such corrosion-inhibiting coating are in particular nickel and / or tin or nickel and / or tin-containing alloys as coating materials.
  • the secondary insulation is removed at least in that region of the electrically conductive cable in which the contact element is arranged in the contact position, wherein the region having the smallest cross section of the first contact surface at the region having the secondary insulation of the cable adjoins.
  • the inner sleeve is inserted between the primary insulation and the aluminum braided shield, so that the inner sleeve, on the one hand, contacts the primary insulation and, on the other hand, the aluminum braided screen. Therefore, in a further preferred embodiment of the invention, it is provided that the inner sleeve is arranged in the contact position between the primary insulation and the aluminum braided screen, wherein preferably a cable feedthrough of the inner sleeve contacts the primary insulation.
  • both inner sleeve and outer sleeve or at least their contact surfaces are in the radial direction in the stripped region of the cable.
  • the aluminum braided screen is folded over the first contact surface of the inner sleeve and a cable bushing of the inner sleeve contacts the secondary insulation or the aluminum braided screen. If the inner sleeve is seated in the contact position on the secondary insulation and thus the cable bushing, that is to say the through-opening, of the inner sleeve contacts the secondary insulation, the aluminum braided screen must be turned over for contacting via the first contact surface.
  • a particularly space-saving design is achieved in that the inner sleeve is pushed in the stripped area of the cable over the aluminum braided shield and then the aluminum braided shield is folded over the first contact surface.
  • the cable gland contacts the section of the aluminum screen braid adjacent to the primary insulation and the first contact surface contacts the folded-back part of the aluminum screen braid.
  • the electrically conductive cable is cut to length and a resulting open end of the cable stripped, wherein the stripping at least the secondary insulation is removed in that or up to that area in which the contact with the contact element is to be produced. It goes without saying that even an already cut cable with stripped open end can be used.
  • inner sleeve and outer sleeve are pushed onto the cable, wherein the cable through the passage opening of the sleeves, respectively insertion volume and cable gland, is performed.
  • the electrical cable is already delivered prefabricated, so that outer sleeve and inner sleeve only have to be pushed together or pressed together.
  • the contact element is to be arranged in the contact position in the non-stripped region of the cable, it is necessary to first push the inner sleeve onto the secondary insulation, then turn over the aluminum braided screen via the secondary insulation or via the inner sleeve and subsequently the outer sleeve from the stripped region of the cable in the direction of the inner sleeve to push.
  • the inner sleeve is pushed over the secondary insulation and subsequently the aluminum braided screen is folded over the first contact surface before the outer sleeve is displaced in the direction of the inner sleeve.
  • the outer sleeve is moved from the direction of the open end of the cable in the direction of the secondary insulation having portion of the electrically conductive cable to be brought into the contact position.
  • the outer sleeve is first pushed onto the secondary insulation of the cable.
  • the inner sleeve is subsequently inserted between the primary insulation and the aluminum braided shield so that it is no longer necessary to turn over the aluminum braided shield.
  • the outer sleeve is then pushed in the direction of the stripped region of the cable or in the direction of the inner sleeve.
  • the outer sleeve is pushed over the secondary insulation and subsequently the inner sleeve between the aluminum braided shield and primary insulation is inserted before the outer sleeve is moved in the direction of the inner sleeve. At this time, the outer sleeve is shifted from the portion of the electric wire having the secondary insulation toward the open end of the cable to be brought into the contact position.
  • the inner sleeve is first pushed over the aluminum braided screen and subsequently a section of the aluminum braided shield projecting over the inner sleeve is folded over the first contact surface before the outer sleeve is displaced in the direction of the inner sleeve.
  • the outer sleeve is moved from the direction of the open end of the cable in the direction of the secondary insulation having portion of the electrically conductive cable to be brought into the contact position.
  • the inner sleeve is placed in the radial direction between the inner conductor and the braided shield, optionally with the interposition of the primary insulation and / or the secondary insulation.
  • the aluminum screen braid 7 comprises a plurality of aluminum wires and extends between a primary insulation 6 and a secondary insulation 8 of an electrically conductive cable 4.
  • the structure of the cable. 4 which in particular in FIG. 2 and 4 is apparent, looks like this:
  • the core of the cable 4 is formed by an electrical inner conductor 5, which defines a rectilinear conductor axis 15 in the figures.
  • the inner conductor 5 is formed by a plurality of individual conductors bundled as a strand and has a substantially circular cross-section. It goes without saying that the number of individual conductors of a strand and the number of strands or the geometry of the cross section for the invention itself are irrelevant.
  • both individual conductors as well as elliptical or polygonal cross sections of the inner conductor 5 are conceivable.
  • a primary insulation 6 also called inner sheath or conductor insulation, applied, which causes an insulation between the inner conductor 5 and the aluminum shield braid 7.
  • a secondary insulation 8 also known as outer sheath or cable sheath, applied, which inner conductor 5 and aluminum shield braid 7 isolated from the environment.
  • the electrically conductive cable 4 Before the contacting of the aluminum screen mesh 7 and the contact element 1 can be realized, usually the electrically conductive cable 4 must be cut to length, so that an open end of the cable 4 is formed. In that region of the electrically conductive cable 4, in which the contact element 1 can be arranged in the contact position, the secondary insulation 8 is removed. In the following, therefore, in this context, the stripped area is spoken. In general, the stripped portion is disposed in the portion of the open end of the cable 4 and extends as in Figs As can be seen in the figures, furthermore, an end-side section of the cable 4 can be freed of primary insulation 6, aluminum screen braid 7 and secondary insulation 8, so that the inner conductor 5 can be used for electrical purposes Connection is free.
  • the contact element 1 comprises an inner sleeve 2 with a first contact surface 2a and an outer sleeve 3 with a second contact surface 3a, wherein the contact surfaces 2a, 3a are formed for the contacting of the aluminum screen mesh 7 in the illustrated contact position.
  • the inner sleeve 2 is at least partially inserted into the outer sleeve 3.
  • At least one of the two sleeves 2, 3 is designed as a contact sleeve and can be electrically connected to a ground for the purpose of equipotential bonding.
  • the contact surfaces 2a, 3a of the sleeves 2,3 are formed such that the aluminum wires of the aluminum screen mesh 7 in the contact position of the contact part 1 by axially nesting of inner sleeve 2 and outer sleeve 3 between the contact surfaces 2a, 3a clamped and with the contact part 1 are contacted, the aluminum braid 7 is clamped in the illustrated contact position between the contact surfaces 2a, 3a.
  • the contact surfaces 2a, 3a in the embodiments are also formed such that in the contact position of the contact element 1 by axially compressing the outer sleeve 3 and inner sleeve 2, a pinch / shear of the aluminum wires of the aluminum screen braid 7 and cold welding of the aluminum wires of the aluminum screen braid.
  • the contact surfaces 2 a, 3 a surrounding the aluminum screen mesh 7 in any case achieve a uniform contacting of all aluminum wires, if possible, without radial compression, such as crimping, or additional welding being necessary. Nevertheless, the electrical contact can be produced by simply pushing together or compressing the sleeves 2, 3.
  • FIG. 3 shows an axonometric view of a first embodiment of the system according to the invention in an intermediate position in which the contact surfaces 2a, 3a of the sleeves 2,3 are not yet in contact with the aluminum screen mesh 7.
  • the first contact surface 2a of the inner sleeve 2 is conical, so that the size of the cross sections or diameter normal to the conductor axis 15 along the entire longitudinal extent of the sleeves 2.3 change.
  • both contact surfaces 2a, 3a run obliquely to the conductor axis 15.
  • the contact surface 2a has two sections of different pitch, which merge into one another at a kink 12.
  • the contact surface 2a in a first in the present illustration of the outer sleeve 3 facing portion on a larger opening angle, is therefore steeper than in the second section.
  • FIG. 4 shows one too FIG. 3 analogous axonometric view of a second embodiment of the system according to the invention in the intermediate position.
  • the first contact surface 2a of the inner sleeve 2 consists of three cylindrical sections of different sizes or diameter, wherein two first stages 13 each separate two successive sections from each other.
  • FIG. 5 is a contact element 1 of the first embodiment
  • FIG. 6 a contact element 1 of the second embodiment, that is, in each case the inner sleeve 2 and the outer sleeve 3, shown in detail.
  • inner sleeve 2 and outer sleeve 3 each have a through opening and that the inner sleeve 2 is at least partially inserted into the outer sleeve 3.
  • the passage opening of the inner sleeve 2 is formed as a cable bushing 11, through which the cable 4 is feasible.
  • the first contact surface 2 a of the inner sleeve 2 is formed by an outer circumferential surface of the inner sleeve 2.
  • the passage opening of the outer sleeve 3 is formed as an insertion volume 9 for receiving an insertable portion 10 of the inner sleeve 2 and further serves to pass the cable 4.
  • the insertable portion 10 includes the entire extension of the inner sleeve 2, so that the inner sleeve 2 in the contact position completely absorbed in the outer sleeve 3.
  • the insertable portion 10 includes only a part of the longitudinal extent of the inner sleeve 2, so that a part of the inner sleeve 2 protrudes in the contact position of the outer sleeve 3 also.
  • the second contact surface 3a is formed by an inner peripheral surface of the outer sleeve 3a and limits the insertion volume 9.
  • the geometry of the first contact surface 2a corresponds to that of the second contact surface 3a, in that between the contact surfaces 2a, 3a the aluminum screen braid 7 can be clamped or cold-welded.
  • FIG. 5 the conicity of the first contact surface 2a described above in connection with the first exemplary embodiment is again shown together with the kink 12.
  • the conical design of the second contact surface 3a of the outer sleeve 3 can be seen.
  • the opening angles of the cones of the contact surfaces 2a, 3a differ from each other, so that when inserting the inner sleeve 2 in the outer sleeve 3 and when pushing the outer sleeve 3 on the inner sleeve 2, a wedge-shaped cross-sectional constriction is achieved.
  • the kink 12 defines that region in which a clamping force is exerted on the aluminum wires by the contact surfaces 2a, 3a or in which a pressure peak for crushing / shearing and cold welding of the aluminum wires is formed.
  • the area is thus a circumferential contact edge defined by the kink.
  • FIG. 6 By contrast, the first steps 13 of the first contact surface 2 a described above in connection with the second embodiment variant can be seen.
  • the second contact surface 3a is also shown, which has with the first stages 13 cooperating second stages 14, which divides the second contact surface 3a in three sections.
  • the steps 13, 14 define the region in which a clamping force is exerted on the aluminum wires by the contact surfaces 2a, 3a or in which a pressure peak for crushing / shearing and cold welding of the aluminum wires is formed.
  • a circumferential contact edge is formed by each of the stages 13, 14, which constitutes the above-mentioned range.
  • FIGS. 7a, b, c . d and 8a . b, c, d show different positions of the contact element 1 and the inner sleeve 2 and the outer sleeve 3 during the contacting process, wherein in the the former figures a system according to the first embodiment and in the latter figures, a system according to the second embodiment is shown.
  • a first step in each case the outer sleeve 3 is pushed onto the electrically conductive cable 4.
  • the outer sleeve 3 is thereby pushed beyond the stripped area, so that the outer sleeve 3 comes to rest over the secondary insulation 8.
  • the smallest diameter of its passage opening is greater than or equal to the diameter of the cable 4 together with secondary insulation 8.
  • the cable 4 is partially accommodated in the insertion volume 9 of the outer sleeve 3.
  • the second step (pictured in the FIGS. 7b, 7c and 8b, 8c ) is that the inner sleeve 2 is pushed onto the electrically conductive cable 4.
  • the smallest diameter of the cable bushing 11 is greater than or equal to the diameter of the cable 4 together with the primary insulation 6, so that the inner sleeve 2 can be pushed onto the primary insulation 6.
  • the inner sleeve 2 is inserted between the primary insulation 6 and the aluminum braid 7, so that the aluminum braid 7 contacts the first contact surface 2a. It is also conceivable that the aluminum braided screen 7 is lifted in a separate step from the primary insulation 6 and after pushing the inner sleeve 2 is placed on the first contact surface 2a, for example by means of the step described below or in a separate step.
  • the outer sleeve 3 is then displaced in the direction of the inner sleeve 2 until in the contact position the second contact surface 3a and the first contact surface 2a contact the aluminum screen mesh 7 and the aluminum wires of the aluminum screen mesh 7 between the Contact surfaces 2a, 3a are clamped and the electrical contact between the contact element 1 and the aluminum screen mesh 7 is made.
  • one of the two sleeves 2, 3, ie either the inner sleeve 2 or the outer sleeve 3, is designed as a contact sleeve, which is made of copper or a copper alloy and preferably a corrosion-inhibiting coating, for example of nickel and / or tin or alloys from it.
  • a contact sleeve of the potential equalization of the aluminum shield braid 7 is possible with a mass in which the contact sleeve by means of a compensation conductor is electrically connected to the ground.
  • the other sleeve is formed as a support sleeve and is made of aluminum or an aluminum alloy to reduce the corrosion of the aluminum wires.
  • any combination of the first and second embodiments are also suitable for achieving the same technical effects. Also, geometries deviating from the geometry of the contact surfaces 2 a, 3 a shown in the exemplary embodiments are conceivable if they permit clamping or compression / shearing of the aluminum wires of the aluminum screen mesh 7.
  • FIG. 9 a third embodiment of the contact system according to the invention is shown, in which the inner sleeve 2 is seated in the contact position on the secondary insulation 8.
  • a section of the aluminum screen braid 7 has been pushed back over the first contact surface 2a.
  • the outer sleeve 3 is in the axial direction, ie in the direction of the conductor axis 15, pushed onto the inner sleeve 2 to allow the clamping or compression / shearing of the aluminum wires of the aluminum screen mesh 7 between the two contact surfaces 2a, 3a.
  • the method for contacting the aluminum screen mesh 7 with the contact element 1 differs due to the different structure of the contact systems of the previously described in connection with the first two embodiments variants:
  • the inner sleeve 2 on the open end of the electrically conductive cable 4 postponed and pushed over the stripped area on the secondary insulation 8.
  • the first contact surface 2a - as in the illustrated embodiment - has areas with different sized cross-section, it is advantageous if the area with the smallest cross-section is directed towards the open end of the cable 4.
  • the contact surfaces 2 a, 3 a are conical, as in the first and fourth exemplary embodiments, but it is equally conceivable for the contact surfaces 2 a, 3 a to be analogous to the second Embodiment stages have or a combination of slopes and steps.
  • the inner sleeve 2 is flush with the secondary insulation 8, wherein a left-side or right-side offset is conceivable. Subsequently, an exposed by the stripping portion of the aluminum screen mesh 7 is folded over the first contact surface 2a, so that the aluminum screen mesh 7 is folded back and rests on the first contact surface 2a.
  • the outer sleeve 3 is then displaced from the direction of the open end of the cable 4 in the direction of the inner sleeve 2, so that the aluminum braid 7 is first clamped between the contact surfaces 2a, 3a and further compressed by axial compression and cold-welded.
  • FIG. 10 shows a fourth embodiment of the contact system according to the invention, which is constructed similar to the previously described third embodiment.
  • the inner sleeve 2 is seated in the contact position, in contrast to the previously described embodiment, not on the secondary insulation 8, but on an exposed portion of the aluminum screen mesh 7.
  • the aluminum screen mesh 7 is thus exposed or stripped over a larger area than turned over becomes.
  • the method for contacting the aluminum screen braid 7 is carried out analogously to the method described above, wherein the inner sleeve 2 is just pushed onto the exposed portion of the aluminum screen braid 7 and over the inner sleeve 2 projecting portion of the aluminum screen braid 7 on the first contact surface 2a is handled.
  • the sliding of the outer sleeve 3 is carried out as previously described.
  • the like Design allows a particularly space-saving arrangement of the contact element 1 in the contact position. Only by telescoping or compressing the sleeves 2, 3 according to the invention for making the contacting is it possible to rest the inner sleeve 2 on the aluminum braided screen 7, since the aluminum braided shield 7 underlying the inner sleeve 2 could be damaged in conventional radial pressing operations.
  • the secondary insulation 8 can be used as a stop for positioning the inner sleeve 2.

Landscapes

  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
  • Cable Accessories (AREA)
  • Details Of Connecting Devices For Male And Female Coupling (AREA)
EP18190109.1A 2017-05-12 2017-06-22 Système de contact destiné à la mise en contacte d'un tressage de blindage et d'un élément de contact Active EP3422480B1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
EP17170864 2017-05-12
PCT/EP2017/065459 WO2018206127A1 (fr) 2017-05-12 2017-06-22 Système de contact pour la mise en contact d'une tresse de blindage et d'un élément de contact
EP17731915.9A EP3417514B1 (fr) 2017-05-12 2017-06-22 Système de contact pour la mise en contact d'une tresse de blindage et d'un élément de contact

Related Parent Applications (2)

Application Number Title Priority Date Filing Date
EP17731915.9A Division-Into EP3417514B1 (fr) 2017-05-12 2017-06-22 Système de contact pour la mise en contact d'une tresse de blindage et d'un élément de contact
EP17731915.9A Division EP3417514B1 (fr) 2017-05-12 2017-06-22 Système de contact pour la mise en contact d'une tresse de blindage et d'un élément de contact

Publications (2)

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EP3422480A1 true EP3422480A1 (fr) 2019-01-02
EP3422480B1 EP3422480B1 (fr) 2020-09-30

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EP18190110.9A Active EP3422481B1 (fr) 2017-05-12 2017-06-22 Système de contact destiné à la mise en contact d'un tressage de blindage et d'un élément de contact
EP18190109.1A Active EP3422480B1 (fr) 2017-05-12 2017-06-22 Système de contact destiné à la mise en contacte d'un tressage de blindage et d'un élément de contact
EP17731915.9A Active EP3417514B1 (fr) 2017-05-12 2017-06-22 Système de contact pour la mise en contact d'une tresse de blindage et d'un élément de contact

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EP18190110.9A Active EP3422481B1 (fr) 2017-05-12 2017-06-22 Système de contact destiné à la mise en contact d'un tressage de blindage et d'un élément de contact

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US (1) US11362445B2 (fr)
EP (3) EP3422481B1 (fr)
CN (1) CN110582894B (fr)
WO (1) WO2018206127A1 (fr)

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DE102019135102A1 (de) * 2019-12-19 2021-06-24 Auto-Kabel Management Gmbh Elektrisches Kabel mit Hülse sowie Verfahren zur Herstellung einer Verbindung eines elektrischen Kabels mit einer Hülse
US12034264B2 (en) 2022-03-31 2024-07-09 Corning Optical Communications Rf Llc Coaxial cable connector assemblies with outer conductor engagement features and methods for using the same

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US20210091518A1 (en) * 2019-09-24 2021-03-25 Corning Optical Communications Rf Llc Coaxial cable connector having braid positioning elements and f-type female port with snap-in features
CN112002469B (zh) * 2020-08-18 2022-02-11 昆山联滔电子有限公司 一种电缆及电缆的加工方法
CN112072336B (zh) * 2020-08-26 2022-09-30 国网山东省电力公司电力科学研究院 一种用于导线连接的非压接接续金具及接续方法
CN113437541B (zh) * 2020-08-26 2023-03-14 河南四达电力设备股份有限公司 一种滑块式楔形防雷引下线接续装置
EP4156417A1 (fr) * 2021-09-22 2023-03-29 Schleich GmbH Dispositif de mise en contact électrique d'un moteur électrique

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EP2874236A1 (fr) 2013-11-19 2015-05-20 Nexans Dispositif de contact pour la mise en contact d'un blindage de câble
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DE102019135102A1 (de) * 2019-12-19 2021-06-24 Auto-Kabel Management Gmbh Elektrisches Kabel mit Hülse sowie Verfahren zur Herstellung einer Verbindung eines elektrischen Kabels mit einer Hülse
DE102019135102B4 (de) 2019-12-19 2024-06-06 Auto-Kabel Management Gmbh Elektrisches Kabel mit Hülse sowie Verfahren zur Herstellung einer Verbindung eines elektrischen Kabels mit einer Hülse
US12034264B2 (en) 2022-03-31 2024-07-09 Corning Optical Communications Rf Llc Coaxial cable connector assemblies with outer conductor engagement features and methods for using the same

Also Published As

Publication number Publication date
EP3417514B1 (fr) 2019-12-18
EP3422481A1 (fr) 2019-01-02
CN110582894A (zh) 2019-12-17
CN110582894B (zh) 2021-11-23
EP3422481B1 (fr) 2020-12-23
WO2018206127A1 (fr) 2018-11-15
US11362445B2 (en) 2022-06-14
US20210143562A1 (en) 2021-05-13
EP3417514A1 (fr) 2018-12-26
EP3422480B1 (fr) 2020-09-30

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