EP3531512A1 - Connecteur enfichable à pince de serrage - Google Patents

Connecteur enfichable à pince de serrage Download PDF

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Publication number
EP3531512A1
EP3531512A1 EP18211560.0A EP18211560A EP3531512A1 EP 3531512 A1 EP3531512 A1 EP 3531512A1 EP 18211560 A EP18211560 A EP 18211560A EP 3531512 A1 EP3531512 A1 EP 3531512A1
Authority
EP
European Patent Office
Prior art keywords
collet
insulator body
connector
cable
longitudinal axis
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
EP18211560.0A
Other languages
German (de)
English (en)
Other versions
EP3531512B1 (fr
EP3531512B8 (fr
Inventor
Andreas Pannagl
Michael Quiter
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.)
Yamaichi Electronics Deutschland GmbH
Original Assignee
Yamaichi Electronics Deutschland 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.)
Filing date
Publication date
Application filed by Yamaichi Electronics Deutschland GmbH filed Critical Yamaichi Electronics Deutschland GmbH
Publication of EP3531512A1 publication Critical patent/EP3531512A1/fr
Publication of EP3531512B1 publication Critical patent/EP3531512B1/fr
Application granted granted Critical
Publication of EP3531512B8 publication Critical patent/EP3531512B8/fr
Active legal-status Critical Current
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
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/58Means for relieving strain on wire connection, e.g. cord grip, for avoiding loosening of connections between wires and terminals within a coupling device terminating a cable
    • H01R13/59Threaded ferrule or bolt operating in a direction parallel to the cable or wire
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/46Bases; Cases
    • H01R13/502Bases; Cases composed of different pieces
    • H01R13/506Bases; Cases composed of different pieces assembled by snap action of the parts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/648Protective earth or shield arrangements on coupling devices, e.g. anti-static shielding  
    • H01R13/658High frequency shielding arrangements, e.g. against EMI [Electro-Magnetic Interference] or EMP [Electro-Magnetic Pulse]
    • H01R13/6591Specific features or arrangements of connection of shield to conductive members
    • H01R13/6592Specific features or arrangements of connection of shield to conductive members the conductive member being a shielded cable
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R2105/00Three poles

Definitions

  • the invention relates to a connector with a collet, a use of the connector for connecting the connector to a cable end, and a method for connecting a connector with a cable end.
  • the invention is in the field of electrical engineering, in particular in the field of connector technology.
  • contact ends of a cable for use in connectors are stored and held in an insulator to connect to a complementary connector.
  • the insulator can in this case be fixed in the connector in order to avoid slippage of the insulator, this fixation being made possible, for example, via a half-shell system and abutment surfaces of a connector housing.
  • cable retaining systems such as collet systems are used.
  • This object is achieved in each case by a connector, a use of the connector and a method according to the independent claims. Preferred embodiments form the subject of the dependent claims.
  • the connector comprises at least one insulator body and a collet.
  • the at least one insulator body is configured to receive a plurality of contact portions of at least one cable end.
  • the insulator body may be at least partially formed from an electrically insulating material or electrically non-conductive material, and / or be formed from a magneto-insulating material or from a material having high magnetic permeability.
  • the insulator body may further be formed cylindrical or cylindrical, wherein the insulator body is not limited to such a shape. Rather, the insulator body may have a variety of shapes and / or cross-sectional shapes.
  • the insulator body could be cylinder-like at one end, and parallelepiped at a second end.
  • the at least one insulator body is in particular designed to receive at least one contact portion or a plurality of contact portions of the cable end at a first end of the at least one insulator body.
  • a contact section may in this case be, for example, in particular a wire contact.
  • the at least one insulator body may have a plurality of contact receptacles, the contact receptacles extending in particular from the first end to a second end opposite the first end through the at least one insulator body or through the at least one insulator body.
  • each contact receptacle can be designed to receive at least one contact section of the cable end.
  • the contact receptacles can furthermore be designed, in particular in an operating state of the connector, to support at least one contact section.
  • the operating state of the connector is to be understood in the context of this description as the state in which the at least one insulator body is held or fixed to the collet, at least one cable end is fixed or clamped in the collet, and at least one contact portion of the cable end in the at least one insulator body is received.
  • the contact portions may in this case be slidably mounted in the contact receptacles and / or the insulator body may comprise at least one locking element, which is designed to hold or fix at least one contact portion in at least one contact each.
  • the at least one locking element may be formed here as a spring element and / or spring clip element and / or as Feststellschraubelement.
  • the contact receptacles may further have a diameter perpendicular to an axis of a received contact portion which is larger than a diameter of the received contact portion perpendicular to the axis of the received contact portion.
  • the insulation effect of the at least one insulator body can be increased, since an at least partial environment of the received contact sections is made possible by an insulating fluid, in particular air or an inert gas, or by a vacuum.
  • the at least one insulator body may further comprise at least one internal contact element, which is formed or fixed in at least one contact receptacle.
  • the at least one internal contact element may extend or extend at least partially from the first end of the at least one insulator body to the second end of the at least one insulator body.
  • the at least one internal contact element may be formed to receive at least one contact section of the cable end and / or to fix or establish and / or to establish an electrical contact with the at least one contact section.
  • connection reliability and production of the connector can be improved because it firmly provides contact elements connected to the at least one insulator body for connection to the plurality of contact portions of the at least one cable end and a connector complementary to the connector, and threading process of the plurality of contact portions of the connector at least one cable end is simplified by the at least one insulator body.
  • the at least one cable end may, for example, be designed here as a cable end of a power cable and / or a data cable.
  • the connector further comprises a collet, which is integrally formed.
  • the collet in this case comprises at least one cable holding element which is designed to fix or clamp the at least one cable end in the operating state of the connector.
  • the at least one cable holding element can be configured to be able to exert a force on the cable end in order to clamp or clamp the at least one cable end in the collet, thereby ensuring a secure fit of the at least one cable end to the collet.
  • the at least one cable holding element may be designed to press by a pressing force or a compression force which acts radially relative to the cable end in the direction of the cable end on the at least one cable holding member against the at least one cable end in the collet and thus set or clamp.
  • the at least one cable holding element can be designed to be elastic in order to press by an elastic restoring force against the at least one cable end in the collet, for example as a retaining bracket element, and thus set or clamp this.
  • the collet chuck can press at least two cable support members which are adapted to press by a pressing force or a compressive force against the at least one cable end in the collet and thus clamp this, and at least two cable holding elements which are designed to by a To press elastic restoring force against the at least one end of the cable in the collet and thus set or clamp this include.
  • this makes it possible to simplify a connection process of the at least one cable end with the collet or the connector, since the at least one cable end is already held by the elastic restoring force before a pressing force or a compressive force acts on the remaining or other cable elements.
  • the at least one cable holding element may further comprise at least one Having friction-increasing inner element, which is formed on a cable end facing the side of the at least one cable holding member.
  • the at least one friction-increasing inner element may for example be formed as a wedge projection, which is designed to at least partially engage with the cable end or a cable sheath of the cable end into engagement.
  • the at least one friction-increasing inner element can be designed, for example, as an inner surface with an increased coefficient of static friction relative to an average static friction coefficient of an overall surface of the collet.
  • the at least one friction-increasing inner element may be formed, for example, as a coated inner surface, wherein the inner surface is coated with an adhesive. In particular, all cable holding elements may have the same or identical friction-increasing inner elements.
  • the collet comprises at least one insulator holding device, which holds the at least one insulator body on the collet, in particular in the operating state of the connector.
  • the at least one insulator holding device is in this case formed integrally with the collet chuck.
  • the at least one insulator holding device can furthermore be designed to engage with the at least one insulator body, preferably detachably, in order to hold or fix the insulator body to the collet.
  • the at least one insulator holding device can be designed in particular to fix the at least one insulator body such that the at least one insulator holding device blocks or prevents a relative movement of the insulator body along two opposite directions. This ensures a secure fit of the at least one insulator body on the collet, and a simplified manufacturing process of the connector can be made possible.
  • the collet chuck can be designed to connect the at least one insulator body to a first end or to a first end section of the first To hold or fix collet.
  • the collet can be designed to hold or fix the at least one cable end to a second end opposite the first end of the collet or to a second end section of the collet opposite the first end section of the collet.
  • the collet may have a through opening extending from the first end of the collet to the second end of the collet.
  • the collet may in this case in particular be formed from a metal, preferably from brass or nickel-plated brass, and / or from a plastic, preferably from a conductive plastic, and / or from a composite material.
  • the collet may be formed as a shielding element, wherein the collet shields the cable end at least partially from external electromagnetic influences and / or mechanical effects or protects.
  • the at least one insulator holding device comprises at least one front holding element, which holds the at least one insulator body along a first direction on the collet chuck.
  • the first direction may be parallel to a longitudinal axis of the collet.
  • the longitudinal axis of the collet here is a fictitious axis which extends from the first end of the collet to the second end of the collet or extends from the first end of the collet to the second end of the collet.
  • the at least one front retaining element may be designed to releasably hold the at least one insulator body, wherein a solution of the at least one insulator body from the at least one front retaining element without damaging and / or destroying the at least one insulator body and / or the at least one front body. Retaining element is possible.
  • the at least one front retaining element may be formed elastically deformable.
  • the at least one front support member may project radially inwardly from an inner surface of the collet with respect to the longitudinal axis of the collet.
  • the inner surface of the collet here is in particular a surface of the collet, which at least partially surrounds the longitudinal axis and facing the same.
  • the at least one insulator holding device comprises at least one rear retaining element, which holds the at least one insulator body along a second direction on the collet.
  • the second direction may in this case be parallel to a longitudinal axis of the collet, wherein the second direction is antiparallel to the first direction.
  • the at least one rear retaining element can be designed to releasably hold the at least one insulator body, wherein a solution of the at least one insulator body from the at least one rear retaining element without damage and / or destruction of the at least one insulator body and / or the at least one return Retaining element is possible.
  • the at least one rear retaining element may be formed elastically deformable.
  • the at least one retainer may project radially inwardly from the inner surface of the collet with respect to the longitudinal axis of the collet.
  • the at least one front support member may include at least one front latch hook member, the at least one front latch member engaging the at least one insulator body to retain the at least one insulator body along the first direction on the collet.
  • the at least one front latching hook element can in particular protrude radially inwards with respect to the longitudinal axis of the collet chuck from an inner surface of the collet chuck.
  • the at least one front latching hook element in particular protrude radially outwardly with respect to the longitudinal axis of the collet from an outer surface of the collet.
  • the at least one front retaining element may comprise at least two front latching hook elements, wherein the at least two front latching hook elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least two front latching hook elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least one front-holding element may comprise at least one front-projection element, wherein the at least one Front-projection element comes into contact with the at least one insulator body to hold the at least one insulator body along the first direction in the collet, and, optionally, wherein the at least one front-projection element is at least partially circumferentially formed with respect to the longitudinal axis of the collet.
  • the at least one front-projection element can protrude in particular radially inwardly with respect to the longitudinal axis of the collet from an inner surface of the collet.
  • the at least one front-projection element can protrude in particular radially outward with respect to the longitudinal axis of the collet from an outer surface of the collet.
  • the at least one front-holding element may comprise at least two front-projection elements, wherein the at least two front-projection elements are rotationally symmetrical with respect to the longitudinal axis. In this way, a secure fit of the at least one insulator body on the collet, and a simple mounting of the at least one insulator body on the collet is possible.
  • the at least one front support member may comprise at least one front rotary latch member, the at least one front rotary latch member engaging the at least one insulator body to retain the at least one insulator body along the first direction in the collet.
  • the at least one front rotary hook hook element can engage the insulator body in particular by a rotational movement of the insulator body relative to the collet about the longitudinal axis.
  • a rotation lock can additionally be made possible in this way, with the at least one front rotary hook element engaging with the insulator body blocking or preventing a rotational movement of the insulator body relative to the collet about the longitudinal axis.
  • the at least one front rotary hook hook element can in particular protrude radially inwards with respect to the longitudinal axis of the collet from an inner surface of the collet.
  • the at least one front rotary hook hook element can protrude, in particular radially outward with respect to the longitudinal axis of the collet chuck, from an outer surface of the collet chuck.
  • the at least one front retaining element may comprise at least two front rotary latch hook elements, wherein the at least two front rotary latch hook elements are rotationally symmetrical with respect to the longitudinal axis. In this way, a secure fit of the at least one insulator body on the collet, and a simple mounting of the at least one insulator body on the collet is possible.
  • the at least one front holding element may comprise at least one front screwing element, in particular a front threaded element, wherein the at least one front screwing element can be screwed to the at least one insulator body in order to hold the at least one insulator body along the first direction in the collet.
  • the at least one front screwing element can be designed to be screwable relative to the collet around the longitudinal axis with the insulator body, in particular by a rotational movement of the insulator body.
  • the at least one front screwing element can in particular be arranged on an inner surface of the collet, which faces the longitudinal axis.
  • the at least one front screwing element can be arranged, in particular, on an outer surface of the collet, which faces the inner surface of the collet radially outwards with respect to the longitudinal axis.
  • the at least one front screwing element may be formed at least partially circumferentially with respect to the longitudinal axis of the collet.
  • the at least one front screwing element may have any desired thread, for example a cylindrical and / or a conical thread. In this way, a secure fit of the at least one insulator body on the collet, and a simple mounting of the at least one insulator body on the collet is possible.
  • the at least one front support member may include at least one front crimp member, the at least one front crimp member being engaged with the at least one insulator body to move the at least one insulator body along the first direction on the collet to keep.
  • the at least one front crimping element can come into engagement with the insulator body by deformation of the at least one front crimping element, in particular by crimping, crimping, curling, squeezing and / or folding.
  • the at least one front crimping element can in particular be arranged on an inner surface of the collet, which faces the longitudinal axis.
  • the at least one front crimping element can be arranged, in particular, on an outer surface of the collet, which lies opposite the inner surface of the collet radially outward with respect to the longitudinal axis.
  • the at least one front crimp element may be formed at least partially circumferentially with respect to the longitudinal axis of the collet.
  • the at least one front retaining element may comprise at least two front crimping elements, wherein the at least two front crimping elements are rotationally symmetrical with respect to the longitudinal axis. In this way, a secure fit of the at least one insulator body on the collet, and a simple mounting of the at least one insulator body on the collet is possible.
  • the at least one rear retaining element may comprise at least one rear latching hook element, wherein the at least one rear latching hook element engages with the at least one insulator body to hold the at least one insulator body along the second direction on the collet.
  • the at least one rear latching hook element can in particular protrude radially inwards with respect to the longitudinal axis of the collet chuck from an inner surface of the collet chuck.
  • the at least one rear latching hook element in particular protrude radially outward with respect to the longitudinal axis of the collet from an outer surface of the collet.
  • the at least one rear retaining element may comprise at least two rear latching hook elements, wherein the at least two rear latching hook elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least two rear latching hook elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least one rear retaining member may include at least one rearward protrusion member, the at least one rearward protrusion member contacting the at least one insulator body to hold the at least one insulator body along the second direction in the collet, and optionally the at least one rear-projection element is formed at least partially circumferentially with respect to the longitudinal axis of the collet.
  • the at least one rear-projection element may in particular protrude radially inwards relative to the longitudinal axis of the collet from an inner surface of the collet.
  • the at least one rear-projection element in particular radially outwardly with respect to the longitudinal axis of the collet protrude from an outer surface of the collet.
  • the at least one rear retaining element may comprise at least two rear projection elements, wherein the at least two rear projection elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least two rear projection elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least one rear retaining member may include at least one rear rotary latch member, the at least one rear rotary latch member engaging the at least one insulator body to retain the at least one insulator body along the second direction in the collet.
  • the at least one rear rotary hook element can engage the insulator body in particular by a rotational movement of the insulator body relative to the collet about the longitudinal axis.
  • a rotation lock can additionally be made possible thereby, wherein the at least one rear rotary hook element engaging with the insulator body blocks or prevents a rotational movement of the insulator body relative to the collet about the longitudinal axis.
  • the at least one reverse rotary hook hook element can in particular be directed radially inwards with respect to the longitudinal axis of the collet from an inner surface of the Protruding collet.
  • the at least one rear rotary hook element can protrude in particular radially outward with respect to the longitudinal axis of the collet from an outer surface of the collet.
  • the at least one rear retaining element may comprise at least two rear rotary latch hook elements, wherein the at least two rear rotary latch hook elements are rotationally symmetrical with respect to the longitudinal axis.
  • the at least one rear retaining element may comprise at least one rear-threaded fastener, in particular a rear threaded element, wherein the at least one remind-Verschraubungselement is screwed to the at least one insulator body to hold the at least one insulator body along the second direction in the collet.
  • the at least one rear-screwing element can be designed to be screwable relative to the collet around the longitudinal axis with the insulator body in particular by a rotational movement of the insulator body.
  • the at least one rear-screwing element can in particular be arranged on an inner surface of the collet, which faces the longitudinal axis.
  • the at least one rear-screwing element can be arranged, in particular, on an outer surface of the collet, which faces the inner surface of the collet radially outward with respect to the longitudinal axis.
  • the at least one rear-screwing element may be formed at least partially circumferentially with respect to the longitudinal axis of the collet.
  • the at least one return screw element may have any desired thread, for example a cylindrical and / or a conical thread. In this way, a secure fit of the at least one insulator body on the collet, and a simple mounting of the at least one insulator body on the collet is possible.
  • the at least one rear retaining element may comprise at least one rear crimping element wherein the at least one rear crimping element engages the at least one insulator body to hold the at least one insulator body along the second direction in the collet.
  • the at least one rear crimping element can come into engagement with the insulator body by deformation of the at least one rear crimping element, in particular by crimping, crimping, curling, squeezing and / or folding.
  • the at least one rear crimping element can in particular be arranged on an inner surface of the collet, which faces the longitudinal axis.
  • the at least one rear crimping element can be arranged, in particular, on an outer surface of the collet, which faces the inner surface of the collet radially outward with respect to the longitudinal axis.
  • the at least one rear crimp element may be formed at least partially circumferentially with respect to the longitudinal axis of the collet.
  • the at least one front retaining element may comprise at least two rear crimping elements, wherein the at least two rear crimping elements are rotationally symmetrical with respect to the longitudinal axis. In this way, a secure fit of the at least one insulator body on the collet, and a simple mounting of the at least one insulator body on the collet is possible.
  • the at least one insulator body has at least one at least partially circumferential projection, wherein the at least one at least partially circumferential projection is adapted to engage with the at least one front holding member and the at least one rear holding member to engage the To fix at least one insulator body along the first direction and the second direction in the collet.
  • the at least one at least partially encircling projection can in this case in particular be designed to be compatible with the at least one front retaining element and the at least one rear retaining element.
  • the at least one at least partially circumferential projection hook elements, recesses, threaded portions, and / or abutment surfaces corresponding to the at least one front-holding element and the at least one rear-holding element. This ensures a secure fit of the at least one insulator body to the Collet, as well as a simple mounting of the at least one insulator body on the collet allows.
  • the collet surrounds or encloses the at least one insulator body, in particular in the operating state, at least partially.
  • This allows, for example, a secure fit of the at least one insulator body on the collet.
  • the collet can be designed to completely surround the at least one insulator body radially with respect to the longitudinal axis, whereby a radial movement of the at least one insulator body in the operating state is prevented or blocked.
  • the collet is designed so that the at least one insulator body is at least partially slidable along the longitudinal axis of the collet chuck through the collet.
  • the collet can be designed so that the at least one insulator body is at least partially slidable through the first end of the collet along the longitudinal axis of the collet or at least partially inserted into the first end of the collet along the longitudinal axis of the collet.
  • the collet may be designed so that the at least one insulator body is at least partially slidable through the second end of the collet along the longitudinal axis of the collet or at least partially inserted into the second end of the collet along the longitudinal axis of the collet.
  • the collet is designed such that the cable end is at least partially slidable along the longitudinal axis of the collet, in particular in a region between the at least one insulator holding device and the at least one cable holding element, through the collet chuck.
  • the collet can be designed in particular such that the cable end is at least partially slidable along the longitudinal axis of the collet in a direction from the second end of the collet to the first end of the collet.
  • the at least one insulator body has at least one Block projection on.
  • the at least one block projection may be integrally formed with the at least one insulator body or connectable to the at least one insulator body.
  • the at least one block projection can be movably arranged or mounted on the at least one insulator body.
  • the at least one block projection can be designed to be movable, in particular like a key, radially relative to a body axis of the at least one insulator body.
  • the at least one block projection protrudes at a predetermined level from the at least one insulator body in a rest state in which no external applied forces acting on the at least one block projection, and wherein the at least one block projection by a Force, which is aligned radially inwardly with respect to the body axis and acts on the at least one block projection, is movable radially inwardly relative to the body axis or displaceable.
  • the at least one block projection can optionally be designed to restore the idle state as soon as the applied force no longer acts on the at least one block projection.
  • the collet can have at least one block recess which is designed to at least partially receive the at least one block projection in the operating state, wherein the at least one block recess and the at least one block projection are designed, in the operating state a rotational movement of the at least one insulator body relative to the collet around the Longitudinal axis of the collet block.
  • the at least one block recess can hereby extend or extend in particular through the collet, the at least one block recess extending in particular from the inner surface to the outer surface of the collet through the collet.
  • the at least one block recess may be formed as a radial recess with respect to the longitudinal axis on the inner surface and / or the outer surface.
  • the at least one block recess and the at least one block projection may also be configured to hold the insulator body along the first direction and / or along the second direction.
  • the at least one cable holding element is designed as a strain relief element, wherein the strain relief element is configured to hold the at least one cable end by radial compression of the strain relief element with respect to the longitudinal axis, wherein the at least one rear retaining element between the at least one front retaining element and the at least one cable holding element is arranged.
  • the connector further comprises a sleeve member which at least partially surrounds the at least one insulator body and at least partially the collet.
  • the sleeve element may be formed from a plastic, preferably a conductive plastic, and / or from a metal, preferably brass and / or nickel-plated brass, and / or from a composite material.
  • the sleeve member may further be integrally formed, but the sleeve member is not limited to a one-piece design.
  • the sleeve member may be formed such that the sleeve member additionally surrounds a portion which is at least partially occupied by a connector complementary to the connector in a state in which the connector is connected to the complementary connector.
  • the sleeve element can be designed such that the sleeve element surrounds or surrounds at least the plurality of contact sections of the at least one cable end circumferentially with respect to the longitudinal axis.
  • an electromagnetic shielding or a protection of a contact region of the connector can be made possible with a complementary connector.
  • the sleeve member may be formed such that no direct, in particular electrical contact between the sleeve member and the plurality of contact portions of the at least one cable end takes place in the operating state. In particular, this ensures that there is no flow of electrons from the cable end to the sleeve element during operation of the connector.
  • the sleeve member may be formed latched with the collet and / or the at least one insulator body.
  • the sleeve element at least partially accommodates the at least one block protrusion of the at least one insulator body or at least partially in the at least one protrusion of the at least one insulator body
  • Sleeve block recess is arranged to block a rotary movement collet relative to the sleeve member about the longitudinal axis of the collet.
  • the at least one block projection can be formed as a continuous rotation lock of the connector against a relative rotational movement of the at least one insulator body, the collet and the sleeve member.
  • the at least one sleeve block recess may be formed to align the sleeve member relative to the at least one insulator body.
  • the connector may comprise at least one coding element, wherein the at least one coding element is designed to make a category and / or an identity of the connector to the outside apparent or mark and / or to prevent connection of the connector with a non-compatible connector or to block.
  • the connector in particular the plurality of contact portions can be protected from damage by a connection of the connector with a non-compatible connector.
  • the use of the connector can be simplified because the category and / or the identity of the connector is made visible or marked to the outside.
  • the at least one coding element may comprise at least one protective projection projecting radially inward with respect to the longitudinal axis, in particular by the sleeve element, which is designed to form a connection of the connector with a non-compatible connector to prevent or block.
  • the collet preferably has at least one outer nose protruding outward with respect to the longitudinal axis of the collet, and the sleeve element has at least one nose recess.
  • the at least one nose recess may in particular at least partially accommodate the at least one outer nose or the at least one outer nose of the collet may be at least partially disposed in the at least one nose recess of the sleeve member to block rotational movement of the collet relative to the sleeve member about the longitudinal axis of the collet.
  • the outer nose can be formed in an end region of the collet at the second end of the collet, which in particular an efficient anti-rotation against rotation of the collet relative to the sleeve member, which is in particular caused by a rotational movement of the at least one cable end.
  • the outer nose of the collet and the block recess of the collet may be formed at opposite ends, and at the first end and the second end of the collet.
  • the connector comprises at least one compression nut, wherein the at least one compression nut is formed, wherein by screwing the at least one cable holding member is at least partially compressible to set or clamp at least one cable end in the collet.
  • the at least one compression nut can have at least one threaded section, in particular at least one inner threaded section.
  • the at least one threaded portion or the at least one female threaded portion may be formed here as a cylindrical thread and / or as a conical thread.
  • the at least one compression nut may further comprise at least two, preferably opposing engagement surfaces, which are gripped by a tool to transmit a torque to the at least one compression nut.
  • the at least one compression nut is screwed to the collet, wherein the at least one compression nut is formed such that by screwing the at least one compression nut with the collet the at least one cable support member is at least partially compressed to set the at least one cable end in the collet or clamp.
  • the at least one compression nut is screwed to the collet, wherein the at least one compression nut is formed such that by screwing the at least one compression nut with the collet the at least one cable support member is at least partially compressed to set the at least one cable end in the collet or clamp.
  • the at least one compression nut is screwed to the sleeve member, wherein the at least one compression nut is formed such that by screwing the at least one compression nut with the sleeve member, the at least one cable support member is at least partially compressed to set the at least one cable end in the collet or clamp.
  • the at least one compression nut is screwed to the sleeve member, wherein the at least one compression nut is formed such that by screwing the at least one compression nut with the sleeve member, the at least one cable support member is at least partially compressed to set the at least one cable end in the collet or clamp.
  • the at least one compression nut with the collet and the sleeve member is screwed, wherein the at least one compression nut is formed such that by screwing the at least one compression nut with the collet and the sleeve member, the at least one cable support member is at least partially compressed to the set or clamp at least one cable end in the collet.
  • the collet a first male threaded portion and the sleeve member having a second male threaded portion, wherein the first male threaded portion and the second male threaded portion are screwed to the female threaded portion of the at least one compression nut.
  • first male threaded portion and the second male threaded portion may form a continuous overall outer threaded portion.
  • the second male threaded portion may be, for example, in circumferential direction with respect to the longitudinal axis to be arranged adjacent to the at least one nose recess of the sleeve member, and the first male threaded portion may be formed, for example, on an outer side of the at least one outer nose.
  • the connector further comprises a protective element, which is designed to at least partially protect or shield the collet and / or the at least one insulator body from external environmental influences.
  • external environmental influences are in particular electromagnetic fields, forces acting on the plug connector, material flows, and / or chemical reactions.
  • the protective element can at least partially surround or enclose the sleeve element.
  • a connector for connecting the connector to a cable end wherein the connector comprises at least one insulator body, which is adapted to receive a plurality of contact portions of at least one cable end, and a collet, which is integrally formed comprises.
  • the collet in this case comprises in particular at least one cable holding element which is designed to fix or clamp the at least one cable end, and at least one insulator holding device, which is designed in an operating state of the connector to hold the at least one insulator body to the collet.
  • the connector may further comprise any combination of the features described in the description and illustrated in the figures.
  • the method includes providing a connector, wherein the connector comprises at least one insulator body configured to receive a plurality of contact portions of at least one cable end and includes a collet formed integrally, and the collet comprises at least one cable support member configured to define the at least one cable end in the operative condition or clamped, and at least one Isolatorhalte worn comprises, which holds the at least one insulator body on the collet.
  • the method further comprises fixing or holding the at least one insulator body to the collet by the at least one insulator holding device.
  • a further method step comprises inserting the cable end into the collet by the at least one cable holding element and receiving at least one contact section of the cable end in the at least one insulator body. By clamping or fixing the at least one cable end by the at least one cable holding element, the at least one cable end is held or fixed to the connector or the collet.
  • the method can have any combination of the features described in the description and illustrated in the figures.
  • Figures 1A and 1B show an external perspective view of an insulator body 10 and a perspective cross-sectional view of the insulator body 10 .
  • the insulator body 10 is in this case designed in particular like a cylinder and may be formed at least partially from an electrically insulating material or electrically non-conductive material, and / or from a magnetically insulating material or from a material having a high magnetic Permeability formed.
  • the at least one insulator body 10 is in particular designed to receive a multiplicity of contact sections (not shown) of at least one cable end (not shown).
  • the at least one insulator body 10 may have a plurality of contact receptacles 15 , wherein the contact receptacles 15 in particular extend from the first end to a second end opposite the first end through the at least one insulator body 10 or through the at least one insulator body 10 .
  • each contact 15 may be formed to receive at least one contact portion of the cable end, each contact 15 may be formed in particular cylindrical.
  • the contact receptacles 15 can furthermore be designed, in particular in an operating state of the connector 1 , to support at least one contact section.
  • At least two contact receptacles 15 may be at least partially fluidically connected in a region of the insulator body 10 between the first end of the insulator body 10 and the second end of the insulator body 10 in order to enhance an insulating effect of an insulating fluid, for example air, surrounding the contact sections.
  • the at least one contact receptacle 15 may further have a diameter perpendicular to an axis of a received contact portion which is larger than a diameter of the received contact portion perpendicular to the axis of the received contact portion.
  • the insulating effect of the at least one insulator body 10 can be increased, since an at least partial environment of the received contact sections in the contact receptacle 15 is made possible by an insulating fluid, in particular air or a protective gas, or by a vacuum.
  • the at least one contact 15 is designed in this case that at least one contact portion is slidably mounted in the at least one contact 15 .
  • the at least one contact receptacle 15 can have a constant, first diameter in a region from the second end of the insulator body 10 in the direction of the first end of the insulator body 10 .
  • the at least one Contact 15 may further have a second diameter which is smaller than the first diameter in a region from the first end of the insulator body 10 in the direction of the second end of the insulator body 10 .
  • a contact stop 14 or an inwardly projecting circumferential projection in the at least one contact receptacle 15 can be provided.
  • the region of the at least one contact receptacle 15 with the second diameter can in this case form a contact opening 13 of the insulator body.
  • the at least one contact receptacle 15 may further include a portion between the first region and the second region, which tapers from the first region to the second region, thereby providing a continuous inner surface of the at least one contact receptacle 15 .
  • a contact portion of a cable end can be particularly simplified in the at least one contact to be stored 15, since the contact portion is conducted at a pushed into the at least one contact 15 from the inner surface of the contact 15 in the contact opening. 13
  • the at least one contact receptacle 15 parallel to each other and / or parallel to a longitudinal axis LA (see FIG. 4 ) of the connector 1 may be formed.
  • the at least one insulator body 10 may have at least one at least partially circumferential projection 11 , wherein the at least one at least partially circumferential projection 11 is designed, with the at least one front holding element 21 (see FIG. 2 ) and the at least one rear retaining element 22 (see FIG. 2 ) to engage the at least one insulator body 10 along a first direction and a second direction opposite to the first direction in a collet 20 (see FIG FIG. 2 ) to fix.
  • the at least partially encircling projection 11 may in this case extend overall over more than one half of a circumference of the at least one insulator body 10 .
  • the at least partially circumferential projection 11 is shown by way of example with a cuboidal cross-sectional profile, but is not limited to such a shape. Rather, the at least partially circumferential Projection 11 have any cross-sectional profile and / or a non-constant cross-sectional profile. In this way, the at least one at least partially circumferential projection 11 can be adapted to optimally with the at least one front-holding element 21 (see FIG. 2 ) and the at least one rear retaining element 22 (see FIG. 2 ) to get in touch or in contact.
  • the at least one insulator body 10 also has a block projection 12 , which protrudes from an outer surface of the insulator body 10 .
  • the one block projection 12 is in this case formed in one piece with the at least one insulator body 10 , but may also be connectable to the at least one insulator body 10 .
  • the at least one block projection 12 can in this case have any desired combination of features, as described above.
  • the block projection 12 may in particular be formed cuboid, wherein any number of edges of the cuboid block projection 12 may be rounded or abraded to facilitate arranging the insulator body 10 in the connector 1 .
  • FIG. 2 shows a collet 20 with an insulator holder.
  • the collet 20 is in this case in particular integrally formed.
  • the collet 20 may in this case in particular be made of a metal, preferably of brass or nickel-plated brass, and / or of a plastic, preferably of a conductive plastic, and / or of a composite material.
  • the collet 20 may be formed as a shielding element, wherein the collet 20, the cable end at least partially shields or protects from external electromagnetic influences and / or mechanical effects.
  • the collet 20 in this case comprises a plurality of cable holding elements 26 , which are designed to set or clamp in the operating state of the connector 1, the at least one cable end.
  • the plurality of cable retainers 26 are configured to exert a force on the cable end about the at least one cable end in the collet set or clamp.
  • the plurality of cable holding members 26 is particularly designed to press by a pressing force or a compressive force which acts radially in the direction of the cable end on the plurality of cable holding members 26 against the at least one cable end in the collet 20 and thus set or clamp.
  • the plurality of cable holding members 26 are designed elastically deformable, whereby a multiple deformation by the pressing force or the compression force is possible.
  • Each cable holding element 26 of the plurality of cable holding elements 26 furthermore has at least one friction-increasing inner element 27 , which is formed on a side of each cable holding element 26 facing the cable end.
  • the at least one friction-increasing inner element 27 is designed, for example, as an arrangement of at least one wedge projection, wherein each of the wedge projections is designed to at least partially engage the cable end or a cable sheath of the cable end.
  • the collet 20 comprises at least one insulator holding device, which holds the at least one insulator body 10 on the collet 20 , in particular in the operating state of the connector 1 .
  • the at least one insulator holding device is in this case formed integrally with the collet 20 .
  • the collet 20 is designed to hold or fix the at least one insulator body 10 at a first end or at a first end section of the collet 20 , and the at least one cable end to a second end opposite the first end of the collet 20 at a second, the first end portion of the collet 20 opposite end portion of the collet 20 to hold or fix.
  • the at least one insulator holding device is in particular designed to fix the at least one insulator body 10 in such a way that the at least one insulator holding device blocks or prevents a relative movement of the insulator body 10 along two opposite directions.
  • the collet 20 further includes a through opening extending from the first end of the collet 20 to the second end of the collet 20 .
  • the at least one insulator holding device has at least one front holding element 21 , which holds the at least one insulator body 10 along a first direction on the collet 20 .
  • the first direction may in this case be parallel to a longitudinal axis LA of the collet 20 .
  • the longitudinal axis LA of the collet 20 here is a fictitious axis, which extends from the first end of the collet 20 to the second end of the collet 20 and extends from the first end of the collet 20 to the second end of the collet 20 .
  • the at least one front-holding element 21 is in this case arranged on a flexible and elastically deformable latching arm 23 of the collet 20 to releasably hold the at least one insulator body 10 , and is radially inwardly of an inner surface of the collet 20 with respect to the longitudinal axis LA of the collet 20th in front.
  • the inner surface of the collet 20 is in this case in particular a surface of the collet 20 , which at least partially surrounds the longitudinal axis LA and faces the same.
  • the at least one front retaining element 21 is designed in particular as at least one front latching hook element, wherein the at least one front latching hook element engages with the at least one insulator body 10 , in particular with the at least partially circumferential projection 11 , around the at least one insulator body 10 to hold the first direction of the collet 20 .
  • the at least one front latching hook element comprises at least two front latching hook elements, these can in particular be designed rotationally symmetrically with respect to the longitudinal axis LA .
  • the at least one insulator holding device comprises in particular at least one rear retaining element 22 , which holds the at least one insulator body 10 along a second direction on the collet 20 .
  • the second direction may be parallel to a longitudinal axis LA of the collet 20 , wherein the second direction is antiparallel to the first direction.
  • the at least one rear retaining element 22 may be designed to releasably hold the at least one insulator body 10 .
  • the at least one rear retaining element 22 may be formed elastically deformable, and is in particular from the inner surface of the collet 20 radially inwardly relative to the longitudinal axis LA of the collet 20 before.
  • the at least one rear retaining element 22 in particular comprises at least one rearward projection element, wherein the at least one rearward projection element comes into contact with the at least one insulator body 10 in order to hold the at least one insulator body 10 along the second direction on the collet 20 , and wherein the at least one rear-projection element is formed at least partially circumferentially with respect to the longitudinal axis LA of the collet 20 .
  • two of the rear retaining elements 22 are arranged on the elastic locking arms 23 .
  • the rear retaining elements 22 are in this case arranged between the at least one front retaining element 21 and the at least one cable retaining element 26 .
  • the collet 20 is particularly designed so that the cable end at least partially along the longitudinal axis LA of the collet 20 , in a region between the at least one insulator holder and the at least one cable holding member 26 , by the collet 20 in a direction from the second end of the collet 20 to the first end of the collet 20 is pushed.
  • the collet 20 has a block recess 24 , which is designed to at least partially receive the at least one block projection 12 in the operating state.
  • the at least one block recess 24 may be, in particular by the collet réellecken or run 20, wherein the at least one block extending recess 24 especially from the inner surface to the outer surface of the collet 20 by the collet 20th
  • the collet 20 further has an outwardly with respect to the longitudinal axis LA of the collet 20 projecting outer nose 25 and outer projection.
  • the Outer nose 25 is in this case designed in particular to be at least partially received in a corresponding nose recess 33 of a sleeve member 30 of the connector 1 or to be arranged in this, as described below FIG. 5 will be described in more detail.
  • the outer nose 25 of the collet 20 and the block recess 24 of the collet 20 are formed at opposite ends and at the first end and the second end of the collet 20 , respectively.
  • FIG. 3 shows a connector 1 with an insulator body 10 and a collet 20th
  • the insulator body 10 is exemplary as in Figures 1A and 1B educated.
  • the collet 20 is exemplified as in FIG. 2 educated.
  • the insulator body 10 is fixed to the collet 20 by the at least one front holding element 21 and the at least one rear holding element 22 .
  • the collet 20 surrounds or surrounds the at least one insulator body 10 at least partially along the longitudinal axis LA and completely in the radial direction with respect to the longitudinal axis LA, whereby radial movement of the at least one insulator body 10 relative to the collet 20 is prevented or blocked.
  • the block projection 12 is in this case at least partially received in the block recess 24 or the block projection 12 is arranged in the block recess 24 , whereby the block recess 24 and the block projection 12, a rotational movement of the at least one insulator body 10 relative to the collet 20 about the longitudinal axis LA of the collet 20 block.
  • this alignment of the contact receptacles 15 and the contact openings 13 relative to the collet 20 is possible.
  • the collet 20 is designed such that the at least one insulator body 10 is at least partially slidable along the longitudinal axis LA of the collet 20 by the collet 20 before the insulator body 10 is fixed by the insulator holder.
  • the collet 20 may be designed so that the at least one insulator body 10 at least partially through the first End of the collet 20 along the longitudinal axis LA of the collet 20 is slidable or at least partially into the first end of the collet 20 along the longitudinal axis LA of the collet 20 is inserted.
  • FIG. 4 shows a cross-sectional view of a connector 1 with an insulator body 10 and a collet 20 , wherein the connector 1 in this example as in FIG. 3 is trained.
  • front holding elements 21 and rear holding elements 22 engage with the at least partially circumferential projection 11 in order to fix the insulator body 10 to the collet 20, in particular in the first direction and the second direction along the longitudinal axis LA of the collet 20 .
  • the contact receptacles 15 are here shown as not continuous through the insulator body 10 , but this is based on the choice of cross-sectional area.
  • FIG. 5 shows an external perspective view of a sleeve member 30 for a connector first
  • the sleeve member 30 is formed like a cylinder and in particular designed to at least partially surround the at least one insulator body 10 and the collet 20 .
  • the sleeve element 30 is in particular formed in one piece and may be made of a plastic, preferably a conductive plastic, and / or of a metal, preferably brass and / or nickel-plated brass, and / or of a composite material.
  • the sleeve member 30 has a sleeve block recess 32 , which is designed to at least partially receive the at least one block projection 12 of the at least one insulator body 10 or wherein the block projection 12 of the at least one insulator body 10 at least partially in the sleeve block recess 32 can be arranged to block a rotary movement collet 20 relative to the sleeve member 30 about the longitudinal axis LA of the collet 20 .
  • the block projection 12 is formed as a continuous rotational security of the connector 1 against a relative rotational movement of the at least one insulator body 10 , the collet 20 and the sleeve member 30 .
  • the at least one sleeve block recess 32 is configured to align the sleeve member 30 relative to the at least one insulator body 10 .
  • the sleeve element 30 has in particular a nose recess 33 .
  • the nose recess 33 is particularly adapted to receive the at least one outer projection 25 of the collet 20 at least partially or at least one outer projection 25 of the collet 20 is at least partially in said at least one nose recess 33 of the sleeve member 30 can be arranged to a rotational movement of collet 20 relative to block the sleeve member 30 about the longitudinal axis LA of the collet 20 .
  • the sleeve member 30 is in particular designed such that the sleeve member 30 additionally surrounds or forms a space portion, in particular a plug receptacle 31 , which is at least partially occupied by a complementary to the connector 1 connector in a state in which the connector 1 with the complementary Connector is connected.
  • the sleeve member 30 is formed such that the sleeve member 30 surrounds at least the plurality of contact portions of the at least one cable end circumferentially with respect to the longitudinal axis LA or surrounds.
  • the sleeve member 30 is particularly formed such that no direct electrical contact between the sleeve member 30 and the plurality of contact portions of the at least one cable end takes place in the operating state.
  • the sleeve member 30 further includes an outwardly of the sleeve member 30 protruding sleeve snap hook 34 , which is adapted, the sleeve member 30 with an external object or an external object or an external Device and / or a protective element 50 to connect or fix the sleeve member 30 to an external object or an external object or an external device and / or a protective element 50 .
  • the protective element 50 will be described below FIGS. 9A and 9B described in more detail.
  • the sleeve element 30 has at least one, in particular two engagement surfaces 35 , which are designed so that a tool can grasp the sleeve element 30 on the at least one engagement surface 35 and can transmit a torque to the sleeve element 30 .
  • the engagement surfaces 35 are particularly preferably arranged rotationally symmetrical about the sleeve member 30 .
  • FIG. 6 shows a cross-sectional view of a connector 1 comprising an insulator body 10 , a collet 20 and a sleeve member 30th
  • the insulator body 10 and the collet 20 are exemplified here according to the connector 1 FIG. 3 formed, and the sleeve member 30 is hereby exemplary of the sleeve member 30 from FIG. 5 educated.
  • the insulator body 10 and the collet 20 are at least partially surrounded by the sleeve member 30 , wherein the block projection 12 of the insulator body 10 is at least partially received or arranged in the block recess 24 of the collet 20 and at least partially in the sleeve block recess 32 of the sleeve member 30 .
  • the outer nose 25 of the collet 20 is also received or arranged in the nose recess 33 of the sleeve member 30 .
  • FIG. 7 shows an external perspective view of the connector 1 from FIG. 6 , wherein in particular the arrangement of the block projection 12 and the outer nose 25 is shown.
  • the cable holding members 26 are not surrounded by the sleeve member 30 here .
  • Each cable element 26 may in particular have a region with a large diameter radially with respect to the longitudinal axis LA , whereby a good structural stability of the cable element 26 is ensured.
  • the large-diameter portion may be further tapered toward one end of the connector 1 , whereby an efficient application of a Compression force, for example by a compression nut 50 (see Figure 8A ).
  • the large diameter portion may be connected to a remainder of the collet 20 over a portion of the small diameter cable member 26 radially with respect to the longitudinal axis LA , the small diameter portion enabling efficient elastic deformability of the cable support members 26 .
  • Figures 8A and 8B each show a compression nut 40 and a connector 1 with a mounted compression nut 40th
  • the connector 1 is in this case exemplary according to the connector 1 off FIG. 7 educated.
  • the compression nut 40 is in particular formed by screwing to a component of the connector 1 , for example the collet 20 and / or the sleeve member 30 , the at least one cable support member 26 is at least partially compress to set the at least one cable end in the collet 20 or to clamp.
  • the at least one compression nut 40 can have at least one threaded section 41 , in particular at least one inner threaded section.
  • the at least one threaded section 41 or the at least one internally threaded section may in this case be formed as a cylindrical thread and / or as a conical thread.
  • the compression nut 40 is embodied screwed to the sleeve member 30, wherein the at least one compression nut 40 is designed such that by screwing the at least one compression nut 40 with the sleeve member 30, the at least one cable retaining member 26 is at least partially pressed in the direction of the longitudinal axis LA, to set or clamp the at least one cable end in the collet 20 .
  • the compression nut 40 may have a compression portion which is disposed adjacent to the threaded portion 41 on an inner side of the compression nut 40 .
  • the compression portion is tapered along the longitudinal axis LA in a cable-side direction and in a direction along the longitudinal axis LA of the connector 1 toward the cable end educated.
  • the at least one compression nut 40 may further comprise at least two, preferably opposing engagement surfaces 42 which are gripped by a tool to transmit a torque to the at least one compression nut 40 .
  • Figures 9A and 9B each show a protective element 50 and a connector 1 with a mounted protective element 50 .
  • the protective element 50 is cylindrical, in particular hollow cylindrical and forms a central receptacle 51 .
  • the central receptacle 51 is here in particular designed to at least partially accommodate the insulator body 10 and / or the collet 20 and / or the sleeve member 30 .
  • the protective element 50 further has, in particular at least one locking hook receiving sleeve 52, which runs through the guard member 50 in the radial direction with respect to the longitudinal axis LA and extends in the radial direction with respect to the longitudinal axis LA by the protective member 50th
  • the at least one sleeve latch hook receptacle 52 is designed to receive at least one sleeve latch hook 34 in the operating state of the connector 1 .
  • the at least one sleeve ratchet hook 34 can protrude from the protective element 50 by at least one sleeve ratchet holder 52 .
  • the connector 1 may in particular have at least one coding element 53 on the protective element 50 , wherein the at least one coding element 53 is designed to make a category and / or identity of the connector 1 visible to the outside or mark and / or a connection of the connector 1 with a non-compatible connector to prevent or block.
  • an alternative or additional coding element can also be formed or arranged on or on the sleeve element 30 .
  • FIG. 10 shows a perspective cross-sectional view of a connector 1 with an insulator body 10 , a collet 20 , a sleeve member 30 , and a protective element 50th
  • a compression nut 40 is screwed to the sleeve member 30 .
  • a method of connecting a cable end to a connector 1 may include providing an insulator body 10 with any combination of the features described above, and providing a collet 20 having any combination of the features described above.
  • the insulator body 10 is fixed or fastened to the collet 20 , wherein an insulator holding device of the collet 20 at least partially engages with the insulator body 10 .
  • the method may further include providing a sleeve member 30 having any combination of the features described above, and connecting the sleeve member 30 to the insulator body 10 and / or the collet chuck 20 , the insulator body 10 and the collet chuck 20 being at least partially engaged during bonding Sleeve member 30 are arranged.
  • the method may further comprise inserting a cable end into the connector 1 , in particular by a plurality of cable holding elements 26 or past a plurality of cable holding elements 26 along the longitudinal axis LA , and receiving at least one contact portion of the cable end into the insulator body 10 .
  • the method may further include providing a compression nut 40 having any combination of the features described above and screwing the compression nut 40 to the collet 20 and / or the sleeve member 30 , during compression a compression force by the compression nut 40 on the collet 20 , In particular, the cable holding elements 26 of the collet 20 is exerted to fix the cable end in the collet 20 or to fix or clamp.
  • the method may further include providing a protective member 50 having any combination of the features described above and disposing the protective member 50 on the sleeve member 30 such that the sleeve member 30 , insulator body 10, and collet 20 are at least partially surrounded by the protective member 50 .
  • a connector may each have any combination of the features disclosed in the description and the figures.

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EP18211560.0A 2017-12-11 2018-12-11 Connecteur enfichable à pince de serrage et procédé de connexion d'un connecteur Active EP3531512B8 (fr)

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DE102017011421.8A DE102017011421B3 (de) 2017-12-11 2017-12-11 Steckverbinder mit Spannzange, Verwendung eines Steckverbinders und Verfahren zur Verbindung eines Steckverbinders mit einem Kabelende

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DE102019133192A1 (de) 2019-12-05 2021-06-10 Harting Electric Gmbh & Co. Kg Verfahren zur Identifikation von Industriesteckverbindern
DE102020000120A1 (de) * 2020-01-10 2021-07-15 Yamaichi Electronics Deutschland Gmbh Halbschalenklemmhülse, Rundsteckverbinder und Stecksystem
DE102022203226B3 (de) 2022-03-31 2023-10-05 Yamaichi Electronics Deutschland Gmbh Rundsteckverbinder und Verfahren zum Herstellen eines Rundsteckverbinders

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CN113820637A (zh) * 2021-09-16 2021-12-21 深圳市联影高端医疗装备创新研究院 射频线缆组件及磁共振成像系统

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EP3531512B1 (fr) 2022-09-21
EP3531512B8 (fr) 2022-11-02
DE102017011421B3 (de) 2019-06-13

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