CN105070407A - Processing mechanism of power supply flexible cable for power supply of telecommunication equipment - Google Patents
Processing mechanism of power supply flexible cable for power supply of telecommunication equipment Download PDFInfo
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- CN105070407A CN105070407A CN201510460464.5A CN201510460464A CN105070407A CN 105070407 A CN105070407 A CN 105070407A CN 201510460464 A CN201510460464 A CN 201510460464A CN 105070407 A CN105070407 A CN 105070407A
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Abstract
The invention discloses a processing mechanism of a power supply flexible cable for power supply of telecommunication equipment. The power supply flexible cable respectively comprises at least one first semicircular copper conductor and one second semicircular copper conductor which are formed by twisting a plurality of copper strands and compacting the copper stands through a mold, wherein respective end surfaces of the first semicircular copper conductor and the second semicircular copper conductor form a circular wire pair; a cambered surface guide wheel mechanism comprises cambered-surface circular wheels which have cambered-surface end surfaces and are in parallel arrangement with a substrate, a through hole at the center of the cambered-surface circular wheel is installed at the upper end of a second support rod through a bearing, and the cambered-surface circular wheel can rotate around the second support rod; the first semicircular copper conductor and the second semicircular copper conductor respectively wire along opposite sides of two planar circular wheels and are in contact with planar surfaces of the two planar circular wheels, and the first semicircular copper conductor and the second semicircular copper conductor respectively wire along opposite sides of two cambered-surface circular wheels and are in contact with the cambered surfaces of the two cambered-surface circular wheels. The processing mechanism provided by the invention solves the problem of low roundness of cables of conventional semicircular conductors, effectively avoids turning over of the semicircular conductors during cabling and improves the production efficiency.
Description
Technical field
The present invention relates to a kind of cable process equipment, particularly relate to the organisation of working of a kind of telecommunication apparatus power consumption source flexible cable.
Background technology
Data transmission flexible cable is that a kind of equipment for communication machine rooms such as movement, telecommunications, Netcoms supplies electric connection line, the performances such as product requirement is soft, fire-retardant.For guaranteeing the roundness of cable, cable core domestic demand adds more filling member, and cause finished cable external diameter comparatively large, poor radiation, cable laying takes up room greatly, and the manufacturing cost of cable also increases.In power cable manufacturing, multicore cable forms mainly through stranded, for ensureing core rounding, filler is added in cabling process, thus cause that the outside diameter of cable is large, weak heat-dissipating, cost are high, in order to the outside diameter of cable that saves material, reduces, reduce cables manufacturing cost, technical staff have devised the special-shaped conductor structures such as semicircular conductor, sector conductor, watt shape conductor, this conductor structure solves that the outside diameter of cable is large, weak heat-dissipating, high in cost of production shortcoming substantially, but in cable production process, there is certain difficulty, particularly in cabling process.
Summary of the invention
The invention provides the organisation of working of a kind of telecommunication apparatus power consumption source flexible cable, this process equipment solves the not rounding problem of the cable of existing semicircular conductor, stand up phenomenon when effectively prevent semicircular conductor stranding, production efficiency improves 30% and reduces the generation of stress.
For achieving the above object, the technical solution used in the present invention is: the organisation of working of a kind of telecommunication apparatus power consumption source flexible cable, described power supply flexible cable comprise respectively at least one by several copper strand wires stranded and through mould compacting the first semicircle copper conductor, the second semicircle copper conductor, this first semicircle copper conductor, the second semicircle copper conductor end contact separately forms round wire pair, and a restrictive coating extrudes in described round wire pair;
Described process equipment comprises 2 groups of pay off racks, 2 groups of tension rails, pre-traction device, positioner, plastic extruding machine, bosh, dry body, rear haulage mechanism and take-up stands;
Described in 2 groups of pay off racks of unwrapping wire one group be used for leaving with the first semicircle copper conductor, another group is used for leaving with the second semicircle copper conductor;
Described 2 groups of tension rails, for regulating the first semicircle copper conductor, the laying tension of the second semicircle copper conductor in cabling process;
Described pre-traction device, for stablizing the first semicircle copper conductor, the second semicircle copper conductor;
The line concentration base that described positioner comprises fixed mount, 2 plane guide wheel mechanisms, 2 cambered surface guide wheel mechanisms and centers have line concentration through hole;
Described fixed mount is made up of bracing frame and substrate, and this substrate one end is along being provided with the first mounting groove, the second mounting groove abreast perpendicular to moving towards direction, and described line concentration base is installed on the substrate other end, and described second mounting groove is between the first mounting groove and line concentration base;
Described plane guide wheel mechanism comprises end face and is plane face and takes turns with the flat circle that substrate-parallel is placed, described plane face upper and lower end is respectively equipped with block, this through hole being positioned at flat circle wheel center is installed on the first support stick upper end by a bearing, and this flat circle wheel can rotate around the first support stick;
Described cambered surface guide wheel mechanism comprises end face and is cambered surface face and the cambered surface circular wheel placed with substrate-parallel, and this through hole being positioned at cambered surface circular wheel center is installed on the second support stick upper end by a bearing, and this cambered surface circular wheel can rotate around the second support stick; Described first semicircle copper conductor and the second semicircle copper conductor sidle line and plane-plane contact flat with it along 2 flat circle wheel is opposing respectively, described first semicircle copper conductor and the second semicircle copper conductor respectively along 2 cambered surface circular wheel opposite sides cablings and with its arc plane-plane contact;
In described plane guide wheel mechanism, the first support stick lower end to embed in the first mounting groove and to be installed on substrate by nut, in described cambered surface guide wheel mechanism, the second support stick lower end to embed in the second mounting groove and to be installed on substrate by nut, in the same plane and the cambered surface circular wheel of the line concentration through hole of described line concentration base, flat circle wheel, cambered surface circular wheel is between line concentration base and flat circle wheel, and the interval of described 2 flat circle wheel is greater than the interval of described 2 cambered surface circular wheels; The ratio of described round wire to the line concentration through-hole diameter of diameter and line concentration base is 1:1.1;
Described plastic extruding machine, in described round wire to extruding one deck restrictive coating;
Described bosh, for cooling the flexible cable from described plastic extruding machine;
Dry body, for drying up the moisture content on flexible cable surface;
Rear haulage mechanism, for the power of advancing to flexible cable one according to fixed speed;
Described take-up stand, for receiving and keeping described power supply flexible cable;
The interval of described 2 flat circle wheel and the right diameter proportion of described round wire are 100:3 ~ 6.
Because technique scheme is used, the present invention compared with prior art has following advantages:
1, the organisation of working of telecommunication apparatus power consumption source of the present invention flexible cable, the line concentration base that it comprises fixed mount, 2 arc guide wheel mechanisms, 2 plane guide wheel mechanisms and centers have line concentration through hole, described fixed mount is made up of bracing frame and substrate, and this substrate one end is along being provided with the first mounting groove, the second mounting groove abreast perpendicular to moving towards direction, and described line concentration base is installed on the substrate other end, and described second mounting groove is between the first mounting groove and line concentration base, described arc guide wheel mechanism comprises end face and is arcwall face and takes turns with the curved circular that substrate-parallel is placed, and this through hole being positioned at curved circular wheel center is installed on the second support stick upper end by a bearing, and this curved circular wheel can rotate around the second support stick, described plane guide wheel mechanism comprises end face and is plane face and takes turns with the flat circle that substrate-parallel is placed, this through hole being positioned at flat circle wheel center is installed on the first support stick upper end by a bearing, this flat circle wheel can rotate around the first support stick, described first semicircle copper conductor and the second semicircle copper conductor take turns outside and plane-plane contact flat with it along flat circle respectively, again inside cambered surface circular wheel and with its arc plane-plane contact, solve the not rounding problem of the cable of existing semicircular conductor, phenomenon is stood up when effectively prevent semicircular conductor stranding, production efficiency improves 30% and reduces the generation of stress.
2, the organisation of working of telecommunication apparatus power consumption source of the present invention flexible cable, optimize 2 curved circular wheel intervals further, 2 flat circle wheel intervals, round wire is to the matching relationship between diameter and line concentration through-hole diameter, 1.1 ~ 1.3 times that are spaced apart the interval of described 2 curved circular wheel of i.e. 2 flat circle wheel, the ratio of round wire to the line concentration through-hole diameter of diameter and line concentration base is 1:1.1, the interval of 2 flat circle wheel and the right diameter proportion of described round wire are 100:3 ~ 6, solve the not rounding problem of the cable of existing semicircular conductor further, phenomenon is stood up when effectively prevent semicircular conductor stranding, production efficiency improves 30% and reduces the generation of stress, avoid core bigger than normal owing to standing up the external diameter caused in process of production, insulating barrier damages, insulation resistance declines, the quality problems such as cable breakdown, the stability of cable is guaranteed, secondly, because core has torsion in cabling process, the stress on core is comparatively large, and this kind of stress needs to be cancelled, otherwise core can stand up because stress is comparatively large, if be less than 1.1 ~ 1.3 times, suffered stress can not be offset by guide wheel completely, and core easily stands up, if be greater than, it is larger that guide wheel acts on core, comparatively large to the friction on core surface, meeting Damage to insulation layer time serious, thus damage cable, it is control conductor external diameter during stranding, need be controlled by the mould of certain size, and line concentration through hole herein plays the effect of mould, if be less than wire core diameter, then core is not by line concentration through hole, cannot produce, if too large, core is very tight by what can not press during line concentration through hole, and core can be made loose, and external diameter is comparatively large, causes waste, product size can be caused time serious defective to the material of subsequent handling.
Accompanying drawing explanation
Accompanying drawing 1 is data transmission flexible cable structural representation of the present invention;
Accompanying drawing 2 is the organisation of working structural representation of telecommunication apparatus power consumption source of the present invention flexible cable;
Accompanying drawing 3 is the partial structurtes schematic diagram of accompanying drawing 2;
Accompanying drawing 4 is positioning device structure schematic diagram of the present invention;
Accompanying drawing 5 is plane guide wheel mechanism structural representation of the present invention;
Accompanying drawing 6 is arc guide wheel mechanism structural representation of the present invention.
In above accompanying drawing: 1, data transmission flexible cable; 11, the first semicircle copper conductor; 12, the second semicircle copper conductor; 2, round wire pair; 3, restrictive coating; 4, pre-traction device; 5, positioner; 6, fixed mount; 61, bracing frame; 62, substrate; 631, the first mounting groove; 632, the second mounting groove; 633, the 3rd mounting groove; 64, nut; 7, plane guide wheel mechanism; 71, plane face; 72, flat circle wheel; 73, through hole; 74, bearing; 75, the first support stick; 8, cambered surface guide wheel mechanism; 81, cambered surface face; 82, cambered surface circular wheel; 83, through hole; 84, bearing; 85, the second support stick; 9, line concentration base; 91, line concentration through hole; 92, through hole is installed; 93, bolt; 94, nut; 10, pay off rack; 20, tension rail; 30, plastic extruding machine; 40, take-up stand; 50, bosh; 60, dry body; 70, rear haulage mechanism.
Embodiment
Below in conjunction with drawings and Examples, the invention will be further described:
Embodiment 1: the organisation of working of a kind of telecommunication apparatus power consumption source flexible cable, described power supply flexible cable 1 comprise respectively at least one by several copper strand wires stranded and through mould compacting the semicircle copper conductor 12 of the first semicircle copper conductor 11, second, the respective end contact of the semicircle copper conductor 12 of this first semicircle copper conductor 11, second forms round wire to 2, and a restrictive coating 3 extrudes in described round wire 2;
Described process equipment comprises 2 groups of pay off racks 10,2 groups of tension rails 20, pre-traction device 4, positioner 5, plastic extruding machine 30, bosh 50, dry body 60, rear haulage mechanism 70 and take-up stands 40;
Described in 2 groups of pay off racks 10 of unwrapping wire one group be used for leaving with the first semicircle copper conductor 11, another group is used for leaving with the second semicircle copper conductor 12;
Described 2 groups of tension rails 20, for regulating the laying tension of first semicircle copper conductor the 11, second semicircle copper conductor 12 in cabling process;
Described pre-traction device 4, for stablizing the semicircle copper conductor 12 of the first semicircle copper conductor 11, second;
Described positioner 5 comprises the line concentration base 9 that fixed mount 6,2 plane guide wheel mechanisms 7,2 cambered surface guide wheel mechanisms 8 and center have line concentration through hole 91;
Described fixed mount 6 is made up of bracing frame 61 and substrate 62, this substrate 62 one end is along being provided with the first mounting groove 631, second mounting groove 632 abreast perpendicular to moving towards direction, described line concentration base 9 is installed on substrate 62 other end, and described second mounting groove 632 is between the first mounting groove 631 and line concentration base 9;
Described plane guide wheel mechanism 7 comprises end face and is plane face 71 and the flat circle of placement parallel with substrate 62 takes turns 72, described plane face 71 upper and lower end is respectively equipped with block 711, this is positioned at the through hole 73 that flat circle takes turns 72 centers and is installed on the first support stick 75 upper end by a bearing 74, and this flat circle wheel 72 can rotate around the first support stick 75;
Described cambered surface guide wheel mechanism 8 comprises end face and is cambered surface face 81 and the cambered surface circular wheel 82 of placement parallel with substrate 62, this through hole 83 being positioned at cambered surface circular wheel 82 center is installed on the second support stick 85 upper end by a bearing 84, and this cambered surface circular wheel 82 can rotate around the second support stick 85; Described first semicircle copper conductor 11 and the second semicircle copper conductor 12 take turns 72 along 2 flat circle respectively and opposingly sidle line and contact with its plane face 71, and described first semicircle copper conductor 11 and the second semicircle copper conductor 12 contact along 2 cambered surface circular wheel 82 opposite sides cablings with its cambered surface face 81 respectively; Described first semicircle copper conductor 11 and the second semicircle copper conductor 12 respectively along flat circle wheel outside and plane-plane contact flat with it, then inside cambered surface circular wheel and with its arc plane-plane contact; Line concentration through hole 91 again through line concentration base 9 converges;
In described plane guide wheel mechanism 7, the first support stick 75 lower end to embed in the first mounting groove 631 and to be installed on substrate 62 by nut 64, in described cambered surface guide wheel mechanism 8, the second support stick 85 lower end to embed in the second mounting groove 632 and to be installed on substrate 62 by nut 64, and the in the same plane and cambered surface circular wheel 82 of the line concentration through hole 91 of described line concentration base 9, flat circle wheel 72, cambered surface circular wheel 82 is between line concentration base 9 and flat circle wheel 72;
Described plastic extruding machine 30, for extruding one deck restrictive coating 3 in described round wire to 2;
Described bosh 50, for cooling the flexible cable from described plastic extruding machine 30;
Described take-up stand 40, for receiving and keeping described power supply flexible cable.
Be disposed with between described take-up stand 40 and bosh 50: dry body 60, for drying up the moisture content on flexible cable surface; Rear haulage mechanism 70, for the power of advancing to flexible cable one according to fixed speed.
The interval of above-mentioned 2 curved circular wheel 72 is greater than the interval of described 2 flat circle wheel 82; The ratio of described round wire to line concentration through hole 91 diameter of 2 diameters and line concentration base 9 is 1:1.1.
Above-mentioned 2 curved circular take turns 1.1 or 1.2 or 1.3 times that are spaced apart the interval of described 2 flat circle wheel 82 of 72.
The interval of above-mentioned 2 curved circular wheel 72 and described round wire are 100:3 ~ 6 to the diameter proportion of 2.
Embodiment 2: the organisation of working of a kind of telecommunication apparatus power consumption source flexible cable, described power supply flexible cable 1 comprise respectively at least one by several copper strand wires stranded and through mould compacting the semicircle copper conductor 12 of the first semicircle copper conductor 11, second, the respective end contact of the semicircle copper conductor 12 of this first semicircle copper conductor 11, second forms round wire to 2, and a restrictive coating 3 extrudes in described round wire 2;
Described process equipment comprises 2 groups of pay off racks 10,2 groups of tension rails 20, pre-traction device 4, positioner 5, plastic extruding machine 30, bosh 50, dry body 60, rear haulage mechanism 70 and take-up stands 40;
Described in 2 groups of pay off racks 10 of unwrapping wire one group be used for leaving with the first semicircle copper conductor 11, another group is used for leaving with the second semicircle copper conductor 12;
Described 2 groups of tension rails 20, for regulating the laying tension of first semicircle copper conductor the 11, second semicircle copper conductor 12 in cabling process;
Described pre-traction device 4, for stablizing the semicircle copper conductor 12 of the first semicircle copper conductor 11, second;
Described positioner 5 comprises the line concentration base 9 that fixed mount 6,2 plane guide wheel mechanisms 7,2 cambered surface guide wheel mechanisms 8 and center have line concentration through hole 91;
Described fixed mount 6 is made up of bracing frame 61 and substrate 62, this substrate 62 one end is along being provided with the first mounting groove 631, second mounting groove 632 abreast perpendicular to moving towards direction, described line concentration base 9 is installed on substrate 62 other end, and described second mounting groove 632 is between the first mounting groove 631 and line concentration base 9;
Described plane guide wheel mechanism 7 comprises end face and is plane face 71 and the flat circle of placement parallel with substrate 62 takes turns 72, described plane face 71 upper and lower end is respectively equipped with block 711, this is positioned at the through hole 73 that flat circle takes turns 72 centers and is installed on the first support stick 75 upper end by a bearing 74, and this flat circle wheel 72 can rotate around the first support stick 75;
Described cambered surface guide wheel mechanism 8 comprises end face and is cambered surface face 81 and the cambered surface circular wheel 82 of placement parallel with substrate 62, this through hole 83 being positioned at cambered surface circular wheel 82 center is installed on the second support stick 85 upper end by a bearing 84, and this cambered surface circular wheel 82 can rotate around the second support stick 85; Described first semicircle copper conductor 11 and the second semicircle copper conductor 12 take turns 72 along 2 flat circle respectively and opposingly sidle line and contact with its plane face 71, and described first semicircle copper conductor 11 and the second semicircle copper conductor 12 contact along 2 cambered surface circular wheel 82 opposite sides cablings with its cambered surface face 81 respectively; Described first semicircle copper conductor 11 and the second semicircle copper conductor 12 respectively along flat circle wheel outside and plane-plane contact flat with it, then inside cambered surface circular wheel and with its arc plane-plane contact; Line concentration through hole 91 again through line concentration base 9 converges;
In described plane guide wheel mechanism 7, the first support stick 75 lower end to embed in the first mounting groove 631 and to be installed on substrate 62 by nut 64, in described cambered surface guide wheel mechanism 8, the second support stick 85 lower end to embed in the second mounting groove 632 and to be installed on substrate 62 by nut 64, and the in the same plane and cambered surface circular wheel 82 of the line concentration through hole 91 of described line concentration base 9, flat circle wheel 72, cambered surface circular wheel 82 is between line concentration base 9 and flat circle wheel 72;
Described plastic extruding machine 30, for extruding one deck restrictive coating 3 in described round wire to 2;
Described bosh 50, for cooling the flexible cable from described plastic extruding machine 30;
Described take-up stand 40, for receiving and keeping described power supply flexible cable.
The interval of above-mentioned 2 flat circle wheel 72 is greater than the interval of described 2 cambered surface circular wheels 82; The ratio of described round wire to line concentration through hole 91 diameter of 2 diameters and line concentration base 9 is 1:1.1.
Above-mentioned 2 flat circle take turns 1.1 or 1.2 or 1.3 times that are spaced apart the interval of described 2 cambered surface circular wheels 82 of 72.
The interval of above-mentioned 2 flat circle wheel 72 and described round wire are 100:3 ~ 6 to the diameter proportion of 2.
Distance between above-mentioned line concentration base 9 and the second mounting groove 632 is adjustable.
Aforesaid substrate 62 is provided with two article of the 3rd mounting groove 633 with on line concentration base 9 contact-making surface along direction of routing is parallel, described line concentration base 9 both sides have install through hole 92, bolt 93 embeds successively through hole 92 is installed, the 3rd mounting groove 633 being installed by nut 94 fixed.
Above-described embodiment, only for technical conceive of the present invention and feature are described, its object is to person skilled in the art can be understood content of the present invention and implement according to this, can not limit the scope of the invention with this.All equivalences done according to Spirit Essence of the present invention change or modify, and all should be encompassed within protection scope of the present invention.
Claims (1)
1. the organisation of working of a telecommunication apparatus power consumption source flexible cable, it is characterized in that: described power supply flexible cable (1) comprise respectively at least one by several copper strand wires stranded and through mould compacting the first semicircle copper conductor (11), the second semicircle copper conductor (12), the respective end contact of this first semicircle copper conductor (11), the second semicircle copper conductor (12) forms round wire to (2), and a restrictive coating (3) extrudes in described round wire (2);
Described process equipment comprises 2 groups of pay off racks (10), 2 groups of tension rails (20), pre-traction device (4), positioner (5), plastic extruding machine (30), bosh (50), dry body (60), rear haulage mechanism (70) and take-up stands (40);
Described in 2 groups of pay off racks (10) of unwrapping wire one group be used for leaving with the first semicircle copper conductor (11), another group is used for leaving with the second semicircle copper conductor (12);
Described 2 groups of tension rails (20), for regulating the first semicircle copper conductor (11), the second semicircle copper conductor (12) laying tension in cabling process;
Described pre-traction device (4), for stablizing the first semicircle copper conductor (11), the second semicircle copper conductor (12);
The line concentration base (9) that described positioner (5) comprises fixed mount (6), 2 plane guide wheel mechanisms (7), 2 cambered surface guide wheel mechanisms (8) and centers have line concentration through hole (91);
Described fixed mount (6) is made up of bracing frame (61) and substrate (62), this substrate (62) one end is along being provided with the first mounting groove (631), the second mounting groove (632) abreast perpendicular to moving towards direction, described line concentration base (9) is installed on substrate (62) other end, and described second mounting groove (632) is positioned between the first mounting groove (631) and line concentration base (9);
Described plane guide wheel mechanism (7) comprises end face and is plane face (71) and takes turns (72) with the flat circle of substrate (62) parallel placement, described plane face (71) upper and lower end is respectively equipped with block (711), this through hole (73) being positioned at flat circle wheel (72) center is installed on the first support stick (75) upper end by a bearing (74), and this flat circle wheel (72) can be rotated around the first support stick (75);
Described cambered surface guide wheel mechanism (8) comprise end face be cambered surface face (81) and with the cambered surface circular wheel (82) of substrate (62) parallel placement, this through hole (83) being positioned at cambered surface circular wheel (82) center is installed on the second support stick (85) upper end by a bearing (84), and this cambered surface circular wheel (82) can rotate around the second support stick (85); Along 2 flat circle wheel, (72) are opposing sidles line and contact with its plane face (71) respectively described first semicircle copper conductor (11) and the second semicircle copper conductor (12), and described first semicircle copper conductor (11) and the second semicircle copper conductor (12) contact along 2 cambered surface circular wheel (82) opposite sides cablings with its cambered surface face (81) respectively;
In described plane guide wheel mechanism (7), the first support stick (75) lower end embeds in the first mounting groove (631) and is also installed on substrate (62) by nut (64), in described cambered surface guide wheel mechanism (8), the second support stick (85) lower end embeds in the second mounting groove (632) and is also installed on substrate (62) by nut (64), and the line concentration through hole (91) of described line concentration base (9), flat circle wheel (72), cambered surface circular wheel (82) are in the same plane and cambered surface circular wheel (82) is positioned between line concentration base (9) and flat circle wheel (72); The interval of described 2 flat circle wheel (72) is greater than the interval of described 2 cambered surface circular wheels (82); The ratio of described round wire to line concentration through hole (91) diameter of (2) diameter and line concentration base (9) is 1:1.1;
Described plastic extruding machine (30), for extruding one deck restrictive coating (3) in described round wire to (2);
Described bosh (50), for the data transmission flexible cable of cooling from described plastic extruding machine (30);
Dry body (60), for drying up the moisture content on data transmission flexible cable surface;
Rear haulage mechanism (70), for the power of advancing to data transmission flexible cable one according to fixed speed;
Described take-up stand (40), for receiving and keeping described data transmission flexible cable;
Interval and the described round wire of described 2 flat circle wheel (72) are 100:3 ~ 6 to the diameter proportion of (2).
Applications Claiming Priority (1)
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CN201310138811.3A CN103219091B (en) | 2013-04-19 | 2013-04-19 | For the process equipment of data transmission flexible cable |
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CN201310138811.3A Division CN103219091B (en) | 2013-04-19 | 2013-04-19 | For the process equipment of data transmission flexible cable |
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CN201510460464.5A Pending CN105070407A (en) | 2013-04-19 | 2013-04-19 | Processing mechanism of power supply flexible cable for power supply of telecommunication equipment |
CN201510460286.6A Pending CN105070406A (en) | 2013-04-19 | 2013-04-19 | Processing apparatus of flexible cable for supplying power to mobile device |
CN201510465652.7A Pending CN105097141A (en) | 2013-04-19 | 2013-04-19 | Manufacture device of power cable for supplying power to communication equipment |
CN201510465859.4A Pending CN105070408A (en) | 2013-04-19 | 2013-04-19 | Processing device of telecommunication flexible cable |
CN201510465512.XA Pending CN105097135A (en) | 2013-04-19 | 2013-04-19 | Production device of flexible cable for network communication machine room |
CN201310138811.3A Active CN103219091B (en) | 2013-04-19 | 2013-04-19 | For the process equipment of data transmission flexible cable |
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CN201510460286.6A Pending CN105070406A (en) | 2013-04-19 | 2013-04-19 | Processing apparatus of flexible cable for supplying power to mobile device |
CN201510465652.7A Pending CN105097141A (en) | 2013-04-19 | 2013-04-19 | Manufacture device of power cable for supplying power to communication equipment |
CN201510465859.4A Pending CN105070408A (en) | 2013-04-19 | 2013-04-19 | Processing device of telecommunication flexible cable |
CN201510465512.XA Pending CN105097135A (en) | 2013-04-19 | 2013-04-19 | Production device of flexible cable for network communication machine room |
CN201310138811.3A Active CN103219091B (en) | 2013-04-19 | 2013-04-19 | For the process equipment of data transmission flexible cable |
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CN106782870A (en) * | 2015-11-19 | 2017-05-31 | 重庆力缆电线有限责任公司 | A kind of cable processing construction |
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CN105070408A (en) * | 2013-04-19 | 2015-11-18 | 江苏亨通线缆科技有限公司 | Processing device of telecommunication flexible cable |
CN105097135A (en) * | 2013-04-19 | 2015-11-25 | 江苏亨通线缆科技有限公司 | Production device of flexible cable for network communication machine room |
CN106782870A (en) * | 2015-11-19 | 2017-05-31 | 重庆力缆电线有限责任公司 | A kind of cable processing construction |
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CN106782867A (en) * | 2015-11-19 | 2017-05-31 | 重庆力缆电线有限责任公司 | A kind of cable processing machine |
Also Published As
Publication number | Publication date |
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CN103219091A (en) | 2013-07-24 |
CN105070406A (en) | 2015-11-18 |
CN105097135A (en) | 2015-11-25 |
CN105070408A (en) | 2015-11-18 |
CN105097141A (en) | 2015-11-25 |
CN103219091B (en) | 2015-07-29 |
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