EP0185788A1 - Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés - Google Patents

Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés Download PDF

Info

Publication number: EP0185788A1
Authority: EP; European Patent Office
Prior art keywords: toothed belt; cable; transport device; belt wheels; pressure plate
Prior art date: 1984-12-21
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

EP84116120A

Other languages

German (de)

English (en)

Other versions

EP0185788B1 (fr

Inventor

Rudolf Oexler

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.)

Audi AG

Original Assignee

Audi AG

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.)

1984-12-21

Filing date

1984-12-21

Publication date

1986-07-02

1984-12-21 Application filed by Audi AG filed Critical Audi AG

1984-12-21 Priority to EP19840116120 priority Critical patent/EP0185788B1/fr

1984-12-21 Priority to DE8484116120T priority patent/DE3473698D1/de

1986-07-02 Publication of EP0185788A1 publication Critical patent/EP0185788A1/fr

1988-08-24 Application granted granted Critical

1988-08-24 Publication of EP0185788B1 publication Critical patent/EP0185788B1/fr

Status Expired legal-status Critical Current

Images

Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H51/00—Forwarding filamentary material
- B65H51/02—Rotary devices, e.g. with helical forwarding surfaces
- B65H51/04—Rollers, pulleys, capstans, or intermeshing rotary elements
- B65H51/08—Rollers, pulleys, capstans, or intermeshing rotary elements arranged to operate in groups or in co-operation with other elements
- B65H51/10—Rollers, pulleys, capstans, or intermeshing rotary elements arranged to operate in groups or in co-operation with other elements with opposed coacting surfaces, e.g. providing nips
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H51/00—Forwarding filamentary material
- B65H51/14—Aprons, endless belts, lattices, or like driven elements
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/28—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for wire processing before connecting to contact members, not provided for in groups H01R43/02 - H01R43/26

Definitions

the invention relates to a cable transport device in a cable cutting and stripping device according to the preamble of claim 1.
the cable is first passed through a cable straightening unit from the roll between two guide wheels.
This cable straightening unit consists of two opposing pressure rollers, between which the cable is pulled and thus aligned along the axial direction of the rollers. This is followed by an identical design of pinch rollers, the axes of which are offset by 90, so that the cable is also straightened in the other direction.
the cable straightening unit is followed by two measuring rollers, which are driven by the cable passing through and whose number of revolutions is a measure of the length of the cable passing through.
the number of revolutions is fed to a control unit which can be set to specific cable lengths and which stops the cable transport in accordance with the set length and then actuates the cable cutting device.
the cable transport unit which is connected to a drive unit and which provides the train for transporting the cable.
the known cable transport unit consists of two pressure rollers placed against each other, only one of which is driven and between which the cable to be transported is held. The treads are perforated to increase friction. The mutual contact pressure is applied via springs, but can also be set manually via a spindle.
a disadvantage of this device is that because of the small contact surface of the transport pressure rollers on the cable, the cable insulation, particularly in the case of thin insulating layers, can be damaged. Cables with insulation damage, which are installed in a motor vehicle, are obviously a difficult source of interference to fix, since the cables are usually inaccessible in cable ducts. There is also a risk of short circuits and the resulting vehicle fire.
the contact pressure on the cable straightening unit is set manually using a spindle or springs.
Manual adjustment by the mostly unskilled operators is also problematic there, since this has to be carried out precisely in order to function properly.
Pressure springs slow down over time and are temperature-dependent, so that no constant contact pressure can be achieved.
the cutting and stripping device consists of a unit that cuts the cable to the desired length after stopping, then moves it back a little in the direction of the transport unit, cuts the cable insulation there and then strips the insulation piece by moving it forward. This means that this unit moves back and forth operationally, thereby bending the cable freely and without guidance. This can lead to transport problems.
the object of the invention in contrast, is to develop a cable transport device in a cable cutting and stripping device in such a way that the cable insulation is no longer injured and the setting of the contact forces can also be reproduced precisely in the cable alignment unit and can be carried out without readjustment. Transport disruptions should also be prevented.
This task is carried out in a generic cable transport device with the characteristic features of the An spell 1 solved.
the pressure rollers are designed as toothed belt wheels in the cable transport device.
One toothed belt is guided over at least two toothed belt wheels.
a toothed belt arrangement is mounted on a pressure plate, which can be biased towards the other toothed belt arrangement.
the two toothed belts are each driven by a toothed belt wheel so that they run at the same speed.
a major advantage of the arrangement according to the invention is that the cable to be transported is held between the two toothed belts for a relatively long distance.
the contact pressure on the cable is thus also distributed over a relatively long cable area, so that no punctiform pressure points occur
the measure that both toothed belts are driven also contributes to a gentle and precise cable transport, so that the cable is immediately transported on to the start of the transport unit at the contact surfaces on both sides. Shear forces that can lead to damage to the insulation and slip are practically excluded by this measure.
toothed belt wheels should be attached to each toothed belt as pressure rollers.
the other toothed belt wheels are expediently chosen to be smaller than the two end toothed belt wheels, since then the toothed belt engages only on one side and there are no problems with synchronous engagement on the other side.
the smaller toothed belt wheels can be arranged close to one another, so that the contact points on the toothed belt are also close to one another in the desired manner.
the pressure plate, or the pressure rollers on the pressure plate is no longer pressed with the aid of a spindle or a spring, but with the aid of a pneumatic cylinder-piston unit in a particularly advantageous manner.
the pneumatic pressure can be set precisely and reproducibly with the help of an integrated manometer. Since the pneumatic piston is flexible, irregularities in the cable thickness are absorbed and compensated for. When processing cables of different thicknesses, no readjustment or readjustment on the pressing device is necessary.
a further advantageous embodiment results from the features of claim 4 in that the pressure plate is rotatably connected to a slide whose slide guide is approximately perpendicular to the direction of travel of the toothed belt, and the pressure plate is connected on both sides of the pivot point to two pneumatic cylinder-piston units .
the pressure plate When the pressure source is switched off, the pressure plate can be moved far out of the contact area over the carriage, so that the cable can be easily inserted by hand before starting. After the pressure has been applied, the pressure plate is pressed onto the slide on both sides of the pivot point.
the pressure plate, and thus the toothed belt running on it can perform oscillating movements around the pivot point, so that the transport device runs very evenly and compensates for all irregularities in the cable very well.
Claim 7 proposes to feed the previously freely guided cable in a flexible tube, in particular a spiral spring. This ensures safe onward transport.
a cable transport device which consists essentially of a base plate 2, a support plate 3, a pressure plate 4 and two toothed belts 5 and 6.
the toothed belt 5 runs on two end toothed belt wheels 7, 8 and is supported at the bottom by four smaller toothed belt wheels 9.
the toothed belt wheels 7, 8, 9 are rotatably arranged on the pressure plate 4 and the toothed belt wheel 8 is driven.
the toothed belt 5 is opposite the toothed belt 6, the runs over the toothed wheels 10, 11 and is supported in the middle by smaller toothed belt wheels 12 upwards.
the toothed belt wheel 11 is also driven in such a way that both toothed belts 5, 6 run at the same speed.
the pressure plate 4 is attached to a carriage 14 via an axis 13, so that the pressure plate 4 can perform up and down movements and pendulum movements.
Pneumatic cylinder-piston units 15, 16 are arranged on both sides of the pressure plate 4 and press the pressure plate 4 and thus the toothed belt 5 downward in the direction of the other toothed belt 6 when pressure is applied.
a cable 17 is clamped and guided between the two toothed belts 5, 6 and is to be transported from right to left.
the cable 17 continues on the left side in a spiral spring 18, which is connected to a high-voltage tester 19 or directly to the cutting and stripping device.
the high-voltage tester 19 for the insulation test moves operationally as shown with the arrows drawn below.
the spiral spring 18 bends as shown in dashed lines.
FIGS. 3 and 4 show the gear arrangement for driving the toothed belts 5, 6.
the toothed belt wheels 8 and 11 are firmly connected to gear wheels 22 and 23 via common axes.
the gear wheels 22, 23 are driven by the gear wheels 20, 21.
the gear arrangement for this is shown in FIG. 4.
the gears 20, 21, 22 are attached to the support plate 3 and are in constant engagement.
the gear 20 is connected via its elongated axis 24 to a drive, not shown.
the gear 23 is arranged on the displaceable pressure plate 4. If the pressure plate 4, for example when inserting the cable 17, is shifted upward, the gears 21 and 23 are not in engagement. In operation, however, the gear 23 is pushed as far downwards in the area of the gear 21 that both gears are in engagement for all common cable sizes.
the arrangement shown has the following function: To insert the cable 17, the pressure in the cylinder-piston units 15, 16 is switched off and the pressure plate 4 on the carriage 14 is shifted upwards. This leaves a large gap between the toothed belts 5, 6, in which the cable 17 can be conveniently inserted. For operation, pressure is then brought into the cylinder-piston units 15, 16, as a result of which the toothed belt 5 is pressed against the toothed belt 6 via the cable 17. At the same time, the gear wheel 23 meshes with the driven gear wheel 21. During transport, the cable is gently moved between the contact surfaces on the toothed belts 5, 6, irregularities in the cable diameter being compensated for by the oscillating suspension of the pressure plate 4 and the resilient pneumatic pressure load.
FIG. 5 shows a cable straightening unit 25 which is arranged in front of the unit from FIG. 1.
the cable straightening unit consists of two rows of rollers 26, 27, of which the row of rollers 27 is arranged on a pressure plate 28.
the pressure plate 28 is connected to a pneumatic cylinder-piston unit 29, so that at brought pressure, the row of rollers 27 is pressed against the row of rollers 26.
the rows of rollers 26, 27 there are two further rows of rollers, the axes of which are offset by 90 ° and of which only one row of rollers 30 can be seen in FIG.
These rows of rollers are also pressed together pneumatically.
the dashed circles 31, 32 indicate two pneumatic cylinder-piston units for applying the contact pressure.
the pressure in the cylinder-piston units is switched off, as a result of which the rows of rollers can be moved apart and the cable 17 can be inserted easily.
the contact pressure can be set precisely and reproducibly with the help of a manometer.
the innovation provides a cable transport device which, with a simple construction and simple handling, enables problem-free cable transport without damaging the cable insulation.

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Engineering & Computer Science (AREA)
Manufacturing & Machinery (AREA)
Forwarding And Storing Of Filamentary Material (AREA)

EP19840116120 1984-12-21 1984-12-21 Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés Expired EP0185788B1 (fr)

Priority Applications (2)

Application Number	Priority Date	Filing Date	Title
EP19840116120 EP0185788B1 (fr)	1984-12-21	1984-12-21	Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés
DE8484116120T DE3473698D1 (en)	1984-12-21	1984-12-21	Wire-feeding device for an insulated wire cutting and stripping apparatus

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
EP19840116120 EP0185788B1 (fr)	1984-12-21	1984-12-21	Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés

Publications (2)

Publication Number	Publication Date
EP0185788A1 true EP0185788A1 (fr)	1986-07-02
EP0185788B1 EP0185788B1 (fr)	1988-08-24

Family

ID=8192382

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP19840116120 Expired EP0185788B1 (fr)	1984-12-21	1984-12-21	Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés

Country Status (2)

Country	Link
EP (1)	EP0185788B1 (fr)
DE (1)	DE3473698D1 (fr)

Cited By (24)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR2604697A1 (fr) *	1986-10-03	1988-04-08	Geco As	Appareil de manutention de cable
EP0423443A1 (fr) *	1989-10-18	1991-04-24	Ttc Technology Trading Company	Procédé et dispositif de réalisation du procédé pour l'alimentation d'un câble dans un automate pour façonner des câbles
EP0943570A1 (fr) *	1998-03-18	1999-09-22	Plumettaz Sa	Dispositif d'entraínement en déplacement d'un élément longiligne
WO1999048785A1 (fr) *	1998-03-26	1999-09-30	Nextrom Holding S.A.	Systeme associe a un dispositif d'entrainement par courroie
WO2000073865A1 (fr) *	1999-05-27	2000-12-07	Abb Ab	Bobinage de cable electrique dans des machines electriques
US7220197B2 (en) *	2001-07-18	2007-05-22	Plumettaz Sa	Tracked drive device
EP2796238A1 (fr) *	2013-04-26	2014-10-29	Hans Hundegger	Dispositif de mesure et installation de traitement du bois dotée d'un tel dispositif de mesure
EP2642118A3 (fr) *	2006-07-04	2014-11-05	Kite Gen Research S.R.L.	Système éolien de conversion de l'énergie à travers une turbine à axe vertical actionnée au moyen de voiles et procédé de production d'énergie électrique utilisant un tel système
CN107856713A (zh) *	2017-11-02	2018-03-30	盐城融凡纺织制衣有限公司	一种服装厂房用服装转运推车
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DE69727508T2 (de)	1996-05-29	2004-12-23	Abb Ab	Rotierende elektrische maschine mit einer hochspannungs-statorwicklung und länglichen stützvorrichtungen, welche die wicklung stützen, sowie verfahren zur herstellung einer derartigen maschine
AU729780B2 (en)	1996-05-29	2001-02-08	Abb Ab	Electromagnetic device
CZ385898A3 (cs)	1996-05-29	1999-05-12	Abb Ab	Elektrický vysokonapěťový AC stroj
WO1997045918A1 (fr)	1996-05-29	1997-12-04	Asea Brown Boveri Ab	Conducteur isole pour enroulements a haute tension et son procede de production
DE69725181D1 (de)	1996-05-29	2003-10-30	Abb Ab Vaesteraas	Leiter für hochspannungswicklungen und rotierende elektrische maschine mit einem solchen leiter
SE9602079D0 (sv)	1996-05-29	1996-05-29	Asea Brown Boveri	Roterande elektriska maskiner med magnetkrets för hög spänning och ett förfarande för tillverkning av densamma
SE512917C2 (sv)	1996-11-04	2000-06-05	Abb Ab	Förfarande, anordning och kabelförare för lindning av en elektrisk maskin
SE509072C2 (sv)	1996-11-04	1998-11-30	Asea Brown Boveri	Anod, anodiseringsprocess, anodiserad tråd och användning av sådan tråd i en elektrisk anordning
SE510422C2 (sv)	1996-11-04	1999-05-25	Asea Brown Boveri	Magnetplåtkärna för elektriska maskiner
SE515843C2 (sv)	1996-11-04	2001-10-15	Abb Ab	Axiell kylning av rotor
SE508544C2 (sv)	1997-02-03	1998-10-12	Asea Brown Boveri	Förfarande och anordning för montering av en stator -lindning bestående av en kabel.
SE508543C2 (sv)	1997-02-03	1998-10-12	Asea Brown Boveri	Hasplingsanordning
SE9704422D0 (sv)	1997-02-03	1997-11-28	Asea Brown Boveri	Ändplatta
SE9704413D0 (sv)	1997-02-03	1997-11-28	Asea Brown Boveri	Krafttransformator/reaktor
SE9704423D0 (sv)	1997-02-03	1997-11-28	Asea Brown Boveri	Roterande elektrisk maskin med spolstöd
SE510452C2 (sv)	1997-02-03	1999-05-25	Asea Brown Boveri	Transformator med spänningsregleringsorgan
SE9704421D0 (sv)	1997-02-03	1997-11-28	Asea Brown Boveri	Seriekompensering av elektrisk växelströmsmaskin
SE9704427D0 (sv)	1997-02-03	1997-11-28	Asea Brown Boveri	Infästningsanordning för elektriska roterande maskiner
SE9704412D0 (sv)	1997-02-03	1997-11-28	Asea Brown Boveri	Krafttransformator/reaktor
SE513083C2 (sv)	1997-09-30	2000-07-03	Abb Ab	Synkronkompensatoranläggning jämte användning av dylik samt förfarande för faskompensation i ett högspänt kraftfält
SE513555C2 (sv)	1997-11-27	2000-10-02	Abb Ab	Förfarande för applicering av ett rörorgan i ett utrymme i en roterande elektrisk maskin och roterande elektrisk maskin enligt förfarandet
EP1042853A2 (fr)	1997-11-28	2000-10-11	Abb Ab	Procede et dispositif de commande du flux magnetique avec en enroulement auxiliaire dans une machine rotative electrique a courant alternatif haute tension
GB2331858A (en)	1997-11-28	1999-06-02	Asea Brown Boveri	A wind power plant
US6801421B1 (en)	1998-09-29	2004-10-05	Abb Ab	Switchable flux control for high power static electromagnetic devices
SE516002C2 (sv)	2000-03-01	2001-11-05	Abb Ab	Roterande elektrisk maskin samt förfarande för framställning av en statorlindning
US6885273B2 (en)	2000-03-30	2005-04-26	Abb Ab	Induction devices with distributed air gaps
SE516442C2 (sv)	2000-04-28	2002-01-15	Abb Ab	Stationär induktionsmaskin och kabel därför

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1984
- 1984-12-21 DE DE8484116120T patent/DE3473698D1/de not_active Expired
- 1984-12-21 EP EP19840116120 patent/EP0185788B1/fr not_active Expired

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Cited By (34)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR2604697A1 (fr) *	1986-10-03	1988-04-08	Geco As	Appareil de manutention de cable
EP0423443A1 (fr) *	1989-10-18	1991-04-24	Ttc Technology Trading Company	Procédé et dispositif de réalisation du procédé pour l'alimentation d'un câble dans un automate pour façonner des câbles
US5109598A (en) *	1989-10-18	1992-05-05	Ttc Technology Trading Company	Method and apparatus for feeding cable to a cable processor
EP0943570A1 (fr) *	1998-03-18	1999-09-22	Plumettaz Sa	Dispositif d'entraínement en déplacement d'un élément longiligne
US6189758B1 (en)	1998-03-18	2001-02-20	Plumettaz Sa	Driving device using a flexible element to adjust the nip gap
WO1999048785A1 (fr) *	1998-03-26	1999-09-30	Nextrom Holding S.A.	Systeme associe a un dispositif d'entrainement par courroie
US6409619B1 (en)	1998-03-26	2002-06-25	Maillefer S.A.	Arrangement in connection with belt drive device
WO2000073865A1 (fr) *	1999-05-27	2000-12-07	Abb Ab	Bobinage de cable electrique dans des machines electriques
US7220197B2 (en) *	2001-07-18	2007-05-22	Plumettaz Sa	Tracked drive device
EP2642118A3 (fr) *	2006-07-04	2014-11-05	Kite Gen Research S.R.L.	Système éolien de conversion de l'énergie à travers une turbine à axe vertical actionnée au moyen de voiles et procédé de production d'énergie électrique utilisant un tel système
EP2796238A1 (fr) *	2013-04-26	2014-10-29	Hans Hundegger	Dispositif de mesure et installation de traitement du bois dotée d'un tel dispositif de mesure
JP2014213447A (ja) *	2013-04-26	2014-11-17	ハンデガーハンズ	測定装置及び測定装置を備えた木材加工システム
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Publication number	Publication date
EP0185788B1 (fr)	1988-08-24
DE3473698D1 (en)	1988-09-29

Publication	Publication Date	Title
EP0185788B1 (fr)	1988-08-24	Dispositif d'alimentation en fil pour une machine à couper et dénuder les fils conducteurs isolés
EP0423443B1 (fr)	1994-09-28	Procédé et dispositif de réalisation du procédé pour l'alimentation d'un câble dans un automate pour façonner des câbles
DE68910381T2 (de)	1994-05-26	Vorrichtung zum Herstellen von Rohren.
DE2559695A1 (de)	1977-08-04	Vorrichtung und verfahren zum biegen von langgestreckten werkstuecken unter verwendung von zwei rohren
DE1260580B (de)	1968-02-08	Wickelhaspelstaender
DE2217639B2 (de)	1974-03-21	Vorrichtung zum Aufbringen von Strängen in vorbestimmter, insbesondere gekreuzter Zickzacklage auf eine antreibbare AufbautrommeL
EP0030402B1 (fr)	1984-07-18	Appareil pour l'enroulage de bandes coupées
DE2829801A1 (de)	1979-01-25	Drahtabmess- und -zufuhreinrichtung
EP0810969B1 (fr)	1999-03-17	Dispositif suppresseur du cintrage pour machines de traitement du papier
DE1615066C3 (de)	1975-01-23	Vorrichtung zum Herstellen eines Hochfrequenz-Koaxialkabels
DE69427604T2 (de)	2001-10-18	Kabelführungseinrichtung
EP0622136A1 (fr)	1994-11-02	Dispositif pour la fabrication de treillis d'armature pour panneaux en béton
DE3346997A1 (de)	1985-07-04	Vorrichtung zum aufreihen elektrischer bauelemente zu einem gurt
DE2818909C2 (de)	1982-12-16	Richtmaschine für Stangen, Rohre oder dergleichen Werkstücke
DE2640800A1 (de)	1977-03-24	Verfahren und vorrichtung zum biegen flachen bandmaterials in eine zylindrische gestalt
DE1281030B (de)	1968-10-24	Vorrichtung zum Fuehren, Aufwickeln und Anpressen der Draehte beim Herstellen von Wicklungen elektrischer Geraete
DE2635615C2 (de)	1983-08-25	Abzugsvorrichtung für aus einer Ziehmatrize austretende metallische Rohre
EP0240605A2 (fr)	1987-10-14	Dispositif pour transporter des longueurs mesurées de câble
DE3641895A1 (de)	1987-06-19	Verfahren und einrichtung zum biegen von hohlprofilen, vorzugsweise manometerfedern
DE3707889A1 (de)	1988-09-22	Vorrichtung zum durchziehen von langgestrecktem gut mit kreisfoermigem querschnitt durch eine matrize
DE3022691A1 (de)	1981-12-24	Arrondiervorrichtung fuer scharfkantige bandraender
DE102019206162A1 (de)	2020-11-05	Vorrichtung
DE2458240C2 (fr)	1989-04-06
DE2504121C3 (de)	1977-10-27	Verfahren und Vorrichtung zum Anschließen eines isolierten Schaltdrahts an einen Kontaktstift durch Umwickeln
DE3421350A1 (de)	1986-01-23	Transportvorrichtung fuer einen kabelkonfektionierungsautomaten

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