EP1276173A2 - Dispositif de connexion de dérivation pour câble plat - Google Patents

Dispositif de connexion de dérivation pour câble plat Download PDF

Info

Publication number: EP1276173A2
Authority: EP; European Patent Office
Prior art keywords: tapping; connection device; flat cable; energy transmission; elements
Prior art date: 2001-07-11
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 Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP02015557A

Other languages

German (de)

English (en)

Other versions

EP1276173A3 (fr

Inventor

Tamas Onodi

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.)

Daetwyler AG Schweizerische Kabel Gummi und Kunststoffwerke

Original Assignee

Daetwyler AG Schweizerische Kabel Gummi und Kunststoffwerke

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.)

2001-07-11

Filing date

2002-07-11

Publication date

2003-01-15

2002-07-11 Application filed by Daetwyler AG Schweizerische Kabel Gummi und Kunststoffwerke filed Critical Daetwyler AG Schweizerische Kabel Gummi und Kunststoffwerke

2003-01-15 Publication of EP1276173A2 publication Critical patent/EP1276173A2/fr

2003-09-03 Publication of EP1276173A3 publication Critical patent/EP1276173A3/fr

Status Withdrawn legal-status Critical Current

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Classifications

- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/50—Fixed connections
- H01R12/59—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
- H01R12/65—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures characterised by the terminal
- H01R12/67—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures characterised by the terminal insulation penetrating terminals
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R4/00—Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
- H01R4/24—Connections using contact members penetrating or cutting insulation or cable strands
- H01R4/2404—Connections using contact members penetrating or cutting insulation or cable strands the contact members having teeth, prongs, pins or needles penetrating the insulation
- H01R4/2406—Connections using contact members penetrating or cutting insulation or cable strands the contact members having teeth, prongs, pins or needles penetrating the insulation having needles or pins

Definitions

the invention relates to connection devices for tapping a flat cable having energy transmission cores, which tap elements with a contact tip to penetrate the flat cable jacket and / or the core insulation and to contact the respective energy transmission wire exhibit.
connection devices are in the prior art known with which continuous flat cable can be tapped without stripping and separation.
the tapping elements are U-shaped Insulation clamps are formed, each of which Pick up the contacting wire between the U-legs (see e.g. DE 27 36 244 A1).
Such connection devices are particularly widespread for tapping data cables found.
connection devices In another known type, namely the connection devices of the type mentioned at the beginning is the tap element however equipped with a contact tip.
this contact tip is centered in the for tapping certain wire pierced and through the flat cable jacket and / or the wire insulation is pressed.
Such Connection device is for example from DE-AS 2 206 Known in 187.
the tapping elements are as with a Contact tip provided screws formed. The stabbing the contact tip in the flat cable jacket and / or the Wire insulation for the purpose of contacting the relevant energy transmission wire is done by screwing in the concerned Anzapfschraube. Similar, on the use of tap screws based solutions are from EP 0 877 445 A2 and DE 297 06 750 U1 known.
connection device in the manner of a socket
coupling devices e.g. a relay for Switching the power current
connection devices for stripping and eye-free tapping of cables have advantages (especially with regard to the simple and quick installability), they were able to for power transmission lines not compared to the conventional installation technology (in which the cables must be separated and stripped) in general push through.
the invention provides a connection device for tapping an energy transmission core having flat cable ready.
the connection device assigns tap elements with a contact tip Penetration of the flat cable jacket and / or the wire insulation and to contact the respective energy transmission wire on.
the contact tip forms a flat angle of at least 70 °, in particular at least 80 °.
the invention relates to a connection device for tapping an energy transmission core having flat cable.
the connection device has tapping elements with a contact tip for penetration the flat cable jacket and / or the wire insulation and to contact the respective energy transmission wire on.
the contact tip has a pointed area and in a flank area different angles. Here is the Angles in the flank area are flatter than those in the tip area.
FIG 1 is first a flat cable 1 with five in one Level energy transmission wires 2 shown.
the two external wires 2 as protective earth conductor (PE) and neutral conductor (N) and the three inside Cores 2 as the three conductors (L1, L2, L3) of a three-phase system (e.g. a 380 volt three-phase system for Europe or a 190 volt three-phase system for the USA).
the Cores 2 are each from a conductor 3, generally one Strand, and a wire insulation 4 built.
the single ones Veins 2 are embedded in a jacket 5, which defines the flat cable geometry, and in particular the individual wires 2 in a precisely defined position relative fixed to the outside of the cable.
the flat cable 1 is with longitudinal notches (or, if not shown Embodiments, equipped with surveys), namely such that the flat cable 1 has no 180 ° rotational symmetry (i.e. the cross-sectional shape against twisting is not invariant by 180 ° around the longitudinal axis).
This forms a "coding" which ensures that when in use a complementary connection device, the cable only one defined location can be tapped.
this coding formed that 2 notches in the area between three of the wires 6 are provided, a corresponding notch an outer end (between the wires PE and L1), however is missing.
the wire insulation 4 and / or the jacket 5 are i.a. made of a thermoplastic.
Embodiments are direct conductors - So without separate wire insulation - embedded in the jacket. In these embodiments, therefore, has cable insulation the functions of wire insulation and the cable jacket.
the hardness is first shown schematically in FIG. 2 one usually for core insulation 4 and Sheath 5 used thermoplastic material shown as a function of temperature.
the core insulation 4 essentially made of polyethylene
the jacket 5 is constructed essentially of PVC his; a relationship corresponding to FIG. 2 also applies to various networked plastics, which are alternative for the Core insulation 4 and / or the jacket 5 are used can.
Fig. 2 shows, the hardness of such increases Plastic material with increasing temperature, whereby this decrease - depending on the plastic considered - for example concave (as shown in Fig. 2), convex, or can be concave / convex in sections.
a flat cable The present type becomes ambient temperature on the one hand (e.g.
3 shows a schematic cross-sectional view a flat cable 1 in operation, with lines same hardness 7 (so-called iso hardness lines) are.
iso hardness lines lines same hardness 7
3 shows three iso-hardness lines 7a, 7b and 7c, which have correspondingly marked hardnesses correspond in Fig. 2.
the furthest inside is the Iso hardness line 7a with the smallest, in the transition area hardness to flow.
Fig. 3 particularly illustrates that the cable jacket 5 in the area the connection level of two conductors 3 is relatively soft while he is leading to the outside from a conductor 3 Range reached greater hardness relatively soon.
the inventor recognized that due to this spatial hardness course a shift of the ladder 3 in the conductor level only relatively low elastic Restoring forces (because the conductor 3 essentially in the low hardness range) while a shift across to it, i.e. outwards, to higher ones elastic restoring forces (because then the conductor 3 against the harder remaining elastic part of the Jacket 5 is pressed.
the tapping elements are relatively acute-angled Contact tips equipped, which lead to the fact that when pressing the contact tip into the wire of the conductor 3 these essentially to the side (i.e. at the ladder level) is pushed apart. The displaced strand deformed the surrounding plastic material, so that this is the Braid back - i.e. against the tap element - presses. This lateral displacement goes in that area of the Cable sheath that for the reasons given above the elastic restoring forces is rather unfavorable.
heating and cooling cycles With each of these cycles can because of the approach to the flow area the elastic Restoring forces of the cable sheath become somewhat lower, so that possibly after a long period of operation contact problems occur at the tap.
the inventor has recognized that it is therefore advantageous to tap the conductor 3 so that the wire tends towards the outside rather than the side Direction is shifted.
FIG. 4 relating to the first aspect of the invention forms the contact tip 12 'in a tapping element 11' a flat tip angle 13 of at least 70 °, in particular at least 80 °.
the tap element 11 ' has, for example the shape of a cylindrical pin.
the tap element formed as a screw the part shown in Fig. 4 then corresponds essentially to the screw tip.
the Point angle 13 ' is defined as the angle that viewed in cross section according to FIG. 4, the two boundary lines the tip 12 'together. At the in 4 example, this angle is approximately 100 °.
the contact tip is therefore advantageous formed so that they are in a pointed area and has different angles in a flank area, where the angle in the flank area is flatter than in the pointed area is.
the flatter angle need not be at least 70 °; rather, the training is with two different ones Angles then also advantageous in the sense of a reduced lateral displacement of the strand if the flatter Angle is less than 70 °.
the flatter angle i.e. the angle in Flank area, or, at several angles, the flattest Angle in the flank area again at least 70 °, in particular is at least 80 ° as defined above.
FIG. 5 11 An embodiment of a tapping element shown in FIG. 5 11 "has a contact tip 12" whose angle increases from the tip area to the flank area in one step (In other, not shown embodiments further angular gradations may be provided).
the contact tip 12 has the shape of an acute angle Dorns 14 ", which is centered on a flat-angle rotation cone 15 ", which forms the flank area is.
the tip angle 16 "of the mandrel 14" is, for example 30 °, the flatter angle 13 "of the flank area
15 is, for example, at least 50 ° in which 5, for example, approximately 100 °.
the contact tip 12 "' is designed so that the apex angle from the apex to the flanks steadily increasing.
the top 12 "'thus a concave curved (e.g. parabolic) outer shape.
the tip angle 16 ′′ for example 20 °
the angle 13 "' is defined as, for example Angle at which the cross-sectional view each at the extreme point of the tip 12 "' Cut tangents.
the width D of the tapping elements 11 ', 11 ", 11"' above the Tip 12 ', 12 “, 12"' transverse to the longitudinal direction of the cable is advantageous greater than or equal to the diameter d of the conductor 3 selected. This is illustrated in FIGS. 4, 5 and 6.
Such a wide design of the tapping elements contributes to avoid lateral displacement of the strand of the Head 3 and to achieve a possible in the tap direction displacement of the tapping elements 11 ', 11 ", 11 “'.
the in Fig. 7 embodiment shown is particularly advantageous.
the length of the tapping element 11 is selected so that that the outer end of the contact tip 12 on the one hand penetrates as deep as possible into the conductor 3, but on the other hand not on the opposite side of the indentation side Leader comes out again.
the length of the tapping element 11 is advantageously measured not at the nominal position of the conductor 3 in Flat cable, but at the position that the conductor 3 actually in the assembled state of the connection device occupies. Due to that caused by the tap element 11 The pressure of the conductor 3 is namely in the flat cable in the direction of insertion of the tapping element 11 shifted.
tapping element 11 is straight chosen so that the outer end of the tip 12 in the normal position would exit from head 3 because of actual displacement of the conductor 3 but does not emerge. In other words, the end of the tip 12 in the area that in Fig. 7 between the dashed and the solid line.
the above-mentioned configurations of the contact tips can are used for such connection devices, where the tap elements are equipped with a thread are so that they are screwed in individually the flat cable can be pressed in.
connection devices in which the tapping elements can be pressed into the flat cable without rotation.
All tap elements are embodied simultaneously pressed together into the flat cable. This is the tapping of a multi-core cable in one Operation possible.
a flat cable to be tapped can also be designed as a hybrid cable.
8 is an example of such a hybrid cable 21 shown, which next to Energy transmission cores 2 also a shielded symmetrical Pair line with two data transmission cores 22a, 22b having.
the data transmission lines run 22a, 22b not twisted.
FIG. 9 shows an example of a tap element 31 for a Data transmission line 22 of a shielded double line.
the heating phenomena discussed above occur in data transmission wires not because the signal currents flowing here serve essentially only a potential adjustment and are therefore negligibly small. For warming because of ohmic losses it does not come.
tapping of a data transmission conductor therefore leads to displacement sufficient elastic only in the lateral direction Restoring forces.
a flat-angled education the contact tip 32 could be unfavorable here, since one such a flat tip, the shield 28 rather at Piercing the wire insulation of a data transmission wire would be drawn in, which could lead to a short circuit.
Advantageous is therefore the contact tip of the data transmission tap 31 more pointed than that (12 ') of the energy transmission wire tapping elements 11 'trained.
connection devices 10 to 14 are preferred embodiments of connection devices described in more detail. First some more general comments follow.
the connector is trained so that they are connected to a live Flat cable can be mounted.
those Parts that are under tension during assembly Flat cables are live, safe to touch designed.
live Parts, e.g. the tapping elements, facing away from the cable Side of the connector only by such small holes (e.g. for inserting plug contacts) accessible are that according to the usual safety standards adequate security against contact with a Finger is guaranteed.
Touching parts with a tool such as the Case is when the tapping elements as electrically conductive Contact screws are designed and for tapping the cable be screwed in with a screwdriver).
the Possibility of tapping an energy transmission cable is under tension especially in the commercial area Building installations are an advantage because of the necessity the shutdown of parts of the supply network i.e. associated with high costs (e.g. due to loss of production) is.
the several tap elements of the connection device together pressed into the flat cable.
the tapping elements are advantageous for this firmly arranged in a tap part, whereby the common Press in the tap elements by pressing on this tap part on a complementary base part - with that already inserted flat cable - can be done.
connection device serves, for example, a branch line to the - generally continuous - flat cable connect and / or directly to the flat cable Device, such as a switch, a sensor, an actuator etc. to arrange.
the branch line or device can be electrically and mechanically fixed with the connection device be connected.
connection device can be interface-like be constructed.
10-14 is, for example, the tap part as a socket trained in which a complementary plug can be inserted is.
This connector carries the branch line or the device.
the interface-like training shown has two advantages: (i) the assembly of the connector is easier because the connection of the branch line or the device on the not yet inserted Plug - and thus removed from the flat cable can; this also allows pre-assembly of Connector with branch line or connector with a device; (ii) One and the same type of tap part can be used for various objects to be connected (branch lines, different types of devices) can be used.
the plug preferably has plug contacts on which is advantageously concentric with the tapping elements of the tap element housing part are arranged.
the tapping elements are on the side facing away from the cable socket-shaped, so that the plug contacts when Insert the plug into the socket directly into the socket-like tapping elements are inserted.
a pair of plug-contact sockets for a ground or earth connection is preferably designed so that when Insert the plug into the socket first a mass or earth connection, and only then connections to the live conductors.
a ground or earth connection serving plug contact slightly longer than the other plug contacts be executed.
connection device is for connecting a branch line advantageously equipped with spring clips. This applies equally for embodiments with socket-plug training are (the spring clips are then arranged in the plug), as for not trained as a socket and plug Embodiments (the latter are the spring clips for example on the tap element housing part ) Are arranged. Equipping with spring clips allows one quick assembly; spring clips are also regarding the contact retention advantageous.
connection device is advantageously designed such that the branch line can be led out of it on both sides is, for example parallel to the flat cable level in the longitudinal direction of the cable and across it.
Such a two-sided Feasibility of the branch line is advantageous both in such embodiments as sockets and plugs are trained, as well as those in which this is not the case.
connection device with a branch line in the connection area of the branch line between the connection points for the individual wires of the branch line Walls to extend the creepage distance.
the walls for crawl lengthening in the case of the socket-plug design, for example in the plug are arranged, for example, in the other type are arranged on the tap part.
Connection devices for tapping hybrid cables are advantageously have in the connection area of the Branch line between the connection points of the energy transmission wires and one of the data transmission wires Partition on the electrically conductive for shielding can be and possibly grounded or with the shield the data line of the hybrid cable be electrically connected can.
FIG. 10 shows a cross-sectional view of a preferred connection device 100 not yet assembled.
the connection device 100 is composed of three assemblies, which in assembled, so to speak form three "floors". It this is a base part 140, a tap part 160 and a plug part 180, which are not yet shown in FIG. 10 assembled state together with one to be contacted Hybrid flat cable 21 (Fig. 8) are shown.
the Base part 140 and tap part 160 are intended to be assembled Condition the cable 21 in a precisely defined position between to record oneself.
the base part 140 has a equipped in the longitudinal direction continuous receptacle 141, which have longitudinal centering ribs on the floor 142 and has also longitudinal side walls 142 is limited.
the centering ribs 142 engage in complementary notches 6 in the cable 21 and set hereby, together with the side walls 143, its exact Position the flat cable securely. Because of their non-axisymmetric Arrangement prevent the centering ribs 142 also a wrong insertion of the cable 21; she thus also have a coding function.
Appropriate Centering ribs can also be located in the tapping part 160 (not shown).
the side walls 143 face outside one or more longitudinal locking lugs each 144 on. Complementary to this are on the tapping part 160 Locking undercuts (not shown) so that the two parts (140, 160) of the tap position with each other can be locked.
the tap part 160 comprises a tap element receiving plate 161 with two longitudinal transverse walls 162, which the Embrace side walls 143 of base part 140 and said, to the locking lugs 144 complementary locking undercuts (not shown in Fig. 10).
the tap element receiving plate 161 In the tap element receiving plate 161 are electrically conductive Tapping elements 11 fixedly arranged which Cable 21, so in the of the mounting plate 161 and Cross walls 162 extend space formed.
the tap elements 11, 31 are exactly in the middle of the one to be tapped Core 2, 22 arranged. Regarding their length refer to the comments on FIG. 7.
the tops of the Tap elements 11, 31 are only shown schematically in FIG. 10; more precise views of preferred training are shown in Figs. 4 to 6 and 9.
the tap elements 11, 31 are arranged offset in the longitudinal direction of the cable, and although preferably along an oblique to the longitudinal direction of the cable straight lines.
the tapping elements 11, 31 are through the receiving plate 141 passed and are to that of the flat cable 21 opposite side formed as sockets 164.
transverse walls 162 and the side walls 143 cover even before the tips of the tapping elements 11 Make contact with the conductors 3 of the flat cable; this it makes it difficult, for example with a tool, the tapping elements 11 between cable 3 and mounting plate 161, if they are already under tension (however in spite of this measure, the tapping elements remain possible 11 from the front e.g. with one tool to touch).
the plug part 180 is on the plug side with pins 181 equipped, which to the sockets 164 of the tapping part 160 are complementary. (The data transfer taps 31 belonging pins are in turn in front of the drawing level and are therefore not shown.) Protective earth conductor (PE) pin 181a to be assigned somewhat longer than the other pins 181b. As a result, when the plug part 180 is inserted into the the tapping part 160 forming the complementary bushing initially made an electrical protective earth connection before there is a connection with the other conductors.
PE protective earth conductor
Branch line to connector 180 are with the pins 181 connected spring clips 182 are provided. This are in a cavity in the embodiment of FIG. 10 arranged of the plug part 180, which - apart from from the possibility of individual wires through wire bushings 183 to insert - only from the plug side of the plug part 180 is accessible after removing a base plate 184.
the branch line is connected through a cable duct 185 with strain relief in the plug part 180 introduced.
the wire to be connected occasionally led through the relevant lead bushing 183 and with the bottom plate 184 removed using the Spring clip 182 connected to the relevant pin 181.
the spring clamp 182 e.g.
Fig. 10 is only one of two different line bushings 185, the one that an exit of the branch line transversely to the longitudinal direction of the cable allowed.
Fig. 11 even closer is explained in the preferred embodiments yet another implementation is provided, which one Leading out of the branch line in the longitudinal direction of the cable allowed.
the base part 140, the tapping part 160 and the plug part 180 are made of insulating plastic, apart from that from the electrically conductive tapping elements 11, 31, pins 181 and spring clips 182.
Fig. 11 shows a side view of another preferred Embodiment of a connection device 200 to which the 10 above also applies, but this is true in some details of the embodiment according to FIG. 10 different. It is an assembled side view State of base part 240 and tap part 260 with plug part 280 attached. In the present side view are next to the tap elements 11 for the energy transmission wires also the tapping elements 31 for the data transmission wires visible (so that the tapping elements 11, 31 are not covered by the flat cable, FIG. 11 shows a view without flat cable; just for clarity such is shown in dashed lines. In Fig. 11 are in addition to the locking lugs 244 on the base part 240 complementary locking undercuts 266 on the tapping part 260 to see.
connection device 200 is suitable, avoiding any force on the continuous flat cable 21 relatively heavy devices or branch lines subject to tensile loads take.
the second line bushing 285 seen in the longitudinal direction of the cable.
the 11 have the line bushings two openings (shown 285a and 285b) on, of which the first larger one to carry out an energy transmission branch line and the second, smaller, for Implementation of a separate data transmission branch line serves.
connection device 200 from FIG. 11 in Top view.
the top view of the tap portion 260 shows the arrangement of FIGS Sockets 264 - and thus the tapping elements 11, 31 along an oblique straight line. Because of the equidistant Arrangement of the wires in the cable 21 are also the tapping elements 11, 31 arranged equidistant, with a corresponding the inclined arrangement increased distance. An im Cable 21 present additional space between the energy and data transmission cores 2, 22 are reflected in one accordingly increased distance between the concerned Power transmission tapping element 11 and the adjacent one Data transmission tap 31 reflected.
connector 280 has one removable cover 286 (Fig. 11). 14 shows a plan view the connector part 250 with the cover 286 removed.
the Connection of the branch conductors here with screw terminals 282.
walls 287 for extending the creepage distance provided a guide at the same time for the single wires connected to screw terminals 282 the branch line.
an intermediate wall 288 is provided, which may be made of conductive Material can be made and grounded.
connection device 200 Because the room is beyond the sloping connecting straight line terminals 282 not for connecting the branch line needed, it is possible to choose the appropriate one Corner of the connecting device 200, so to speak "to cut off". Accordingly, the three parts have 240, 260 and 280 of the connection device 200 the basic form of a Rectangle approximately diagonally halfway along the side clipped corner.
connection devices for tapping flat cables with energy transmission wires which on the one hand is simple, fast and are securely mountable, and on the other hand in terms of Contact retention, even after long use under relative high currents are optimized.

Landscapes

Coupling Device And Connection With Printed Circuit (AREA)
Multi-Conductor Connections (AREA)

EP02015557A 2001-07-11 2002-07-11 Dispositif de connexion de dérivation pour câble plat Withdrawn EP1276173A3 (fr)

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
DE10133659		2001-07-11
DE10133659A DE10133659A1 (de)	2001-07-11	2001-07-11	Anschlußvorrichtung zum Anzapfen eines Flachkabels

Publications (2)

Publication Number	Publication Date
EP1276173A2 true EP1276173A2 (fr)	2003-01-15
EP1276173A3 EP1276173A3 (fr)	2003-09-03

Family

ID=7691381

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP02015557A Withdrawn EP1276173A3 (fr)	2001-07-11	2002-07-11	Dispositif de connexion de dérivation pour câble plat

Country Status (2)

Country	Link
EP (1)	EP1276173A3 (fr)
DE (1)	DE10133659A1 (fr)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
EP1855356A1 (fr) *	2006-05-11	2007-11-14	Weidmüller Interface GmbH & Co. KG	Appareil de connexion pour câbles multiconducteur
EP2031704A2 (fr)	2007-09-03	2009-03-04	Woertz Ag	Dispositif de fabrication une connexion d'un câble plat sans sa dénudation
EP2031703A2 (fr)	2007-09-03	2009-03-04	Woertz Ag	Dispositif de fabrication une connexion d'un câble plat sans sa dénudation
DE202008013288U1 (de)	2008-10-06	2010-04-08	Woertz Ag	Vorrichtung zur abisolierfreien Herstellung eines Anschlusses an ein Flachkabel und Gebäudebussystem
CN112701498A (zh) *	2014-09-22	2021-04-23	泰科电子斯麦尔公司	用于电线连接组件的紧固螺钉以及电线连接组件
EP4576436A1 (fr) *	2023-12-18	2025-06-25	Tyco Electronics-Simel	Boulon de fixation et procédé de fixation d'un fil conducteur toronné

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DE102004037997A1 (de)	2004-08-04	2006-03-16	Wago Verwaltungsgesellschaft Mbh	Elektrischer Abzweig-Anschlußverbinder
DE102004057169A1 (de) *	2004-11-26	2006-06-08	Audi Ag	Verbindungsanordnung
DE102013224452A1 (de) *	2013-11-28	2015-05-28	Continental Teves Ag & Co. Ohg	Messaufnehmer für einen Sensor

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2001
- 2001-07-11 DE DE10133659A patent/DE10133659A1/de not_active Withdrawn
2002
- 2002-07-11 EP EP02015557A patent/EP1276173A3/fr not_active Withdrawn

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
EP1855356A1 (fr) *	2006-05-11	2007-11-14	Weidmüller Interface GmbH & Co. KG	Appareil de connexion pour câbles multiconducteur
EP2031704A2 (fr)	2007-09-03	2009-03-04	Woertz Ag	Dispositif de fabrication une connexion d'un câble plat sans sa dénudation
EP2031703A2 (fr)	2007-09-03	2009-03-04	Woertz Ag	Dispositif de fabrication une connexion d'un câble plat sans sa dénudation
DE102007041814A1 (de)	2007-09-03	2009-03-05	Woertz Ag	Vorrichtung zur abisolierfreien Herstellung eines Anschlusses an ein Flachkabel
DE102007041815A1 (de)	2007-09-03	2009-03-05	Woertz Ag	Vorrichtung zur abisolierfreien Herstellung eines Anschlusses an ein Flachkabel
DE102007041815B4 (de) *	2007-09-03	2009-07-09	Woertz Ag	Vorrichtung zur abisolierfreien Herstellung eines Anschlusses an ein Flachkabel
EP2031704A3 (fr) *	2007-09-03	2009-12-30	Woertz Ag	Dispositif de fabrication une connexion d'un câble plat sans sa dénudation
EP2031703A3 (fr) *	2007-09-03	2009-12-30	Woertz Ag	Dispositif de fabrication une connexion d'un câble plat sans sa dénudation
DE202008013288U1 (de)	2008-10-06	2010-04-08	Woertz Ag	Vorrichtung zur abisolierfreien Herstellung eines Anschlusses an ein Flachkabel und Gebäudebussystem
CN112701498A (zh) *	2014-09-22	2021-04-23	泰科电子斯麦尔公司	用于电线连接组件的紧固螺钉以及电线连接组件
EP4576436A1 (fr) *	2023-12-18	2025-06-25	Tyco Electronics-Simel	Boulon de fixation et procédé de fixation d'un fil conducteur toronné

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