CN103219091A

CN103219091A - Processing device for data transmission flexible cable

Info

Publication number: CN103219091A
Application number: CN2013101388113A
Authority: CN
Inventors: 陆春良; 王惠兵; 金春敏; 吕秀云; 陈夏裕; 吴士杰
Original assignee: Jiangsu Hengtong Wire and Cable Technology Co Ltd
Current assignee: Jiangsu Hengtong Wire and Cable Technology Co Ltd
Priority date: 2013-04-19
Filing date: 2013-04-19
Publication date: 2013-07-24
Anticipated expiration: 2033-04-19
Also published as: CN105070406A; CN105097135A; CN105070408A; CN105097141A; CN105070407A; CN103219091B

Abstract

The invention discloses a processing device for a data transmission flexible cable. The processing device comprises two sets of pay-off racks, two sets of tension rods, a front drawing device, a locating device, an extruding machine, a cooling water trough, a blow-dry mechanism, a rear drawing mechanism and a take-up rack. The locating device comprises a fixing support, two arc-shaped guide wheel mechanisms, two plane guide wheel mechanisms and a line collecting seat provided with a line collecting through hole in the center. The fixing support is composed of a supporting rack and a substrate. A first installation groove and a second installation groove are formed at one end of the substrate in parallel along the direction perpendicular to a moving direction. The line collecting seat is installed at the other end of the substrate. The second installation groove is placed between the first installation groove and the line collecting seat. Each arc-shaped guide wheel mechanism comprises an arc-shaped circular wheel with an arc-shaped end face and placed parallel to the substrate. Each plane guide wheel mechanism comprises a plane circular wheel with a plane end face and placed parallel to the substrate. The ratio of a circular line pair diameter and the diameter of the line collecting through hole of the line collecting seat is 1:1.1. The processing device for the data transmission flexible cable solves the problem that a cable of an existing semicircular conductor is not round and effectively avoids a turn-over phenomenon when the cabling is conducted on the semicircular conductor. Production efficiency is increased by 30% and generation of stress is reduced.

Description

The process equipment that is used for the transfer of data flexible cable

Technical field

The present invention relates to a kind of cable process equipment, relate in particular to a kind of process equipment that is used for the transfer of data flexible cable.

Background technology

The transfer of data flexible cable be a kind ofly be used to move, the power devices connecting line of communication machine room such as telecommunications, Netcom, product requirement softness, performance such as fire-retardant.For guaranteeing the roundness of cable, the cable core domestic demand is added more filling member, causes the finished cable external diameter bigger, poor radiation, and cable laying takes up room greatly, and the manufacturing cost of cable also increases.In the power cable manufacturing, multicore cable mainly forms by stranded, for guaranteeing the core rounding, in the stranding process, add filler, thereby cause that the outside diameter of cable is big, weak heat-dissipating, cost height, in order to save material, to dwindle the outside diameter of cable, reducing the cables manufacturing cost, the technical staff has designed special-shaped conductor structures such as semicircular conductor, sector conductor, watt shape conductor, this conductor structure has solved shortcomings such as the outside diameter of cable is big, weak heat-dissipating, cost height substantially, but in the cable production process, certain degree of difficulty is arranged, particularly in the stranding process.

Summary of the invention

The invention provides a kind of process equipment that is used for the transfer of data flexible cable, this process equipment has solved the not rounding problem of the cable of existing semicircular conductor, stand up phenomenon when effectively having avoided the semicircular conductor stranding, production efficiency has improved 30% and reduced the generation of stress.

For achieving the above object, the technical solution used in the present invention is: a kind of process equipment that is used for the transfer of data flexible cable, described communication flexible cord cable comprise respectively at least one by several copper strand wires the first semicircle copper conductor, the second semicircle copper conductor stranded and that form through mould compacting, it is right that the end face contact separately of this first semicircle copper conductor, the second semicircle copper conductor forms round wire, and it is right that a restrictive coating extrudes in described round wire;

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 2 groups of pay off racks that are used for unwrapping wire are used to leave with the first semicircle copper conductor for one group, and another group is used to leave with the second semicircle copper conductor;

Described 2 groups of tension rails are used for regulating the first semicircle copper conductor, the second semicircle copper conductor laying tension in the stranding process;

Described pre-traction device is used to stablize the first semicircle copper conductor, the second semicircle copper conductor;

Described positioner comprises that fixed mount, 2 plane guide wheel mechanisms, 2 cambered surface guide wheel mechanisms and center have the line concentration base of 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 first mounting groove, 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 first mounting groove and line concentration base;

Described plane guide wheel mechanism comprise end face be the plane face and with the flat circle of the parallel placement of substrate wheel, described plane face upper and lower end is respectively equipped with block, this through hole that is positioned at flat circle wheel center passes through a Bearing Installation in first support stick upper end, and this flat circle wheel can rotate around first support stick;

Described cambered surface guide wheel mechanism comprise end face be the cambered surface face and with the cambered surface circular wheel of the parallel placement of substrate, in second support stick upper end, this cambered surface circular wheel can rotate around second support stick this through hole that is positioned at the cambered surface circular wheel center by a Bearing Installation; The described first semicircle copper conductor and the second semicircle copper conductor sidle line and contact with its plane face along 2 flat circle wheels are opposing respectively, and the described first semicircle copper conductor contacts along 2 cambered surface circular wheel opposite sides cablings and with its cambered surface face respectively with the second semicircle copper conductor;

The first support stick lower end embeds in first mounting groove and by nut and is installed on the substrate in the guide wheel mechanism of described plane, the second support stick lower end embeds in second mounting groove and by nut and is installed on the substrate in the described cambered surface guide wheel mechanism, the line concentration through hole of described line concentration base, flat circle wheel, cambered surface circular wheel is in the same plane and cambered surface circular wheel between line concentration base and flat circle wheel, the interval of described 2 flat circle wheel is greater than the interval of described 2 cambered surface circular wheels; Described round wire is 1:1.1 to the ratio of the line concentration through-hole diameter of diameter and line concentration base;

Described plastic extruding machine is used in described round wire extruding one deck restrictive coating;

Described bosh is used to cool off the flexible cord cable from described plastic extruding machine;

Dry body is used to dry up the moisture content on flexible cord cable surface;

Rear haulage mechanism is used for to power of advancing according to fixed speed of flexible cord cable;

Described take-up stand is used to receive and keep described communication flexible cord cable.

It is as follows further to improve technical scheme in the technique scheme:

1,1.1 ~ 1.3 times of the interval that is spaced apart described 2 cambered surface circular wheels of described 2 flat circle wheel.

2, in the such scheme, the diameter proportion that the interval of described 2 flat circle wheel and described round wire are right is 100:3 ~ 6.

Because the technique scheme utilization, the present invention compared with prior art has following advantage:

1, the present invention is used for the process equipment of transfer of data flexible cable, and it comprises that fixed mount, 2 arc guide wheel mechanisms, 2 plane guide wheel mechanisms and center have the line concentration base of 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 first mounting groove, 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 first mounting groove and line concentration base; Described arc guide wheel mechanism comprise end face be arcwall face and with the curved circular of the parallel placement of substrate wheel, in second support stick upper end, this curved circular wheel can rotate around second support stick this through hole that is positioned at curved circular wheel center by a Bearing Installation; Described plane guide wheel mechanism comprise end face be the plane face and with the flat circle of the parallel placement of substrate wheel, this through hole that is positioned at flat circle wheel center passes through a Bearing Installation in first support stick upper end, this flat circle wheel can rotate around first support stick, the described first semicircle copper conductor contacts along the flat circle wheel outside and with its plane face respectively with the second semicircle copper conductor, contact through the cambered surface circular wheel inboard and with its cambered surface face again, solved the not rounding problem of the cable of existing semicircular conductor, stand up phenomenon when effectively having avoided the semicircular conductor stranding, production efficiency has improved 30% and reduced the generation of stress.

2, the present invention is used for the process equipment of transfer of data flexible cable, 2 curved circular wheels have further been optimized at interval, 2 flat circle wheels at interval, round wire is to the matching relationship between diameter and the line concentration through-hole diameter, promptly 1.1 ~ 1.3 times of the interval that is spaced apart described 2 curved circular wheel of 2 flat circle wheels, round wire is 1:1.1 to the ratio of the line concentration through-hole diameter of diameter and line concentration base, the diameter proportion that the interval of 2 flat circle wheel and described round wire are right is 100:3 ~ 6, further solved the not rounding problem of the cable of existing semicircular conductor, stand up phenomenon when effectively having avoided the semicircular conductor stranding, production efficiency has improved 30% and reduced the generation of stress, avoided core bigger than normal owing to standing up the external diameter that causes in process of production, the insulating barrier damage, insulation resistance descends, quality problems such as cable breakdown are guaranteed the stability of cable; Secondly, because core reverses in the stranding process, the stress on the core is bigger, and this kind stress need be cancelled, otherwise core can stand up because stress is big; If less than 1.1 ~ 1.3 times, suffered stress can not be offset by guide wheel fully, and core easily stands up; If greater than, guide wheel acts on bigger on the core, friction to the core surface is bigger, can damage insulating barrier when serious, thereby damages cable, be control core external diameter during stranding, need to control, and line concentration through hole herein plays the effect of mould, if less than wire core diameter by the mould of certain size, then core can not pass through the line concentration through hole, can't produce; If too big, it is very tight that core can not be pressed by the line concentration through hole time, can make core loose, and external diameter is bigger, and the material of subsequent handling is caused waste, can cause product size defective when serious.

Description of drawings

Accompanying drawing 1 is transfer of data soft cable structure schematic diagram of the present invention;

Accompanying drawing 2 is used for the process equipment structural representation of transfer of data flexible cable for the present invention;

Accompanying drawing 3 is positioning device structure schematic diagram of the present invention;

Accompanying drawing 4 is plane of the present invention guide wheel mechanism structural representation;

Accompanying drawing 5 is arc guide wheel mechanism structural representation of the present invention.

In the above accompanying drawing: 1, semicircle core; 11, the first semicircle copper conductor; 12, the second semicircle copper conductor; 2, round wire is right; 3, restrictive coating; 4, pre-traction device; 5, positioner; 6, fixed mount; 61, bracing frame; 62, substrate; 631, first mounting groove; 632, 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, first support stick; 8, cambered surface guide wheel mechanism; 81, cambered surface face; 82, cambered surface circular wheel; 83, through hole; 84, bearing; 85, 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 present invention is further described:

Embodiment 1: a kind of process equipment that is used for the transfer of data flexible cable, described communication flexible cord cable 1 comprise respectively at least one by several copper strand wires first semicircle copper conductor 11, the second semicircle copper conductor 12 stranded and that form through mould compacting, the end face contact separately of this first semicircle copper conductor 11, second semicircle copper conductor 12 forms round wire 2, one restrictive coatings 3 is extruded 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 2 groups of pay off racks that are used for unwrapping wire are used to leave with the first semicircle copper conductor 11 for 10 1 groups, and another group is used to leave with the second semicircle copper conductor 12;

Described 2 groups of tension rails 20 are used for regulating the laying tension of first semicircle copper conductor 11, the second semicircle copper conductor 12 in the stranding process;

Described pre-traction device 4 is used to stablize first semicircle copper conductor 11, the second semicircle copper conductor 12;

Described positioner 5 comprises that 7,2 cambered surface guide wheel mechanisms 8 of 6,2 plane guide wheel mechanisms of fixed mount and center have the line concentration base 9 of line concentration through hole 91;

Described fixed mount 6 is made up of bracing frame 61 and substrate 62, these substrate 62 1 ends are along being provided with 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 ends, and described second mounting groove 632 is between first mounting groove 631 and line concentration base 9;

Described plane guide wheel mechanism 7 comprise end face be plane face 71 and with the flat circle of substrate 62 parallel placements wheel 72, described plane face 71 upper and lower ends are respectively equipped with block 711, this is positioned at flat circle takes turns the through hole 73 at 72 centers and is installed on first support stick, 75 upper ends by a bearing 74, and this flat circle wheel 72 can rotate around 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 placements, this through hole 83 that is positioned at cambered surface circular wheel 82 centers is installed on second support stick, 85 upper ends by a bearing 84, and this cambered surface circular wheel 82 can rotate around second support stick 85; The described first semicircle copper conductor 11 and the second semicircle copper conductor 12 are taken turns 72 along 2 flat circle respectively and are opposingly sidled line and contact with its plane face 71, and the described first semicircle copper conductor 11 contacts along 2 cambered surface circular wheels, 82 opposite sides cablings and with its cambered surface face 81 respectively with the second semicircle copper conductor 12; The described first semicircle copper conductor 11 contacts along the flat circle wheel outside and with its plane face respectively with the second semicircle copper conductor 12, contacts through the cambered surface circular wheel inboard and with its cambered surface face again; Line concentration through hole 91 through line concentration base 9 converges again;

First support stick, 75 lower ends embed in first mounting groove 631 and by nut 64 and are installed on the substrate 62 in the described plane guide wheel mechanism 7, second support stick, 85 lower ends embed in second mounting groove 632 and by nut 64 and are installed on the substrate 62 in the described cambered surface guide wheel mechanism 8, 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 is used for extruding one deck restrictive coating 3 in described round wire to 2;

Described bosh 50 is used to cool off the flexible cord cable from described plastic extruding machine 30;

Described take-up stand 40 is used to receive and keep described communication flexible cord cable.

Be disposed with between described take-up stand 40 and the bosh 50: dry body 60 is used to dry up the moisture content on flexible cord cable surface; Rear haulage mechanism 70 is used for to power of advancing according to fixed speed of flexible cord cable.

The interval of above-mentioned 2 curved circular wheel 72 is greater than the interval of described 2 flat circle wheel 82; Described round wire is 1:1.1 to the ratio of line concentration through hole 91 diameters of 2 diameters and line concentration base 9.

1.1 or 1.2 or 1.3 times of the interval that is spaced apart described 2 flat circle wheel 82 of above-mentioned 2 curved circular wheel 72.

The interval of above-mentioned 2 curved circular wheel 72 and described round wire are 100:3 ~ 6 to 2 diameter proportion.

Embodiment 2: a kind of process equipment that is used for the transfer of data flexible cable, described communication flexible cord cable 1 comprise respectively at least one by several copper strand wires first semicircle copper conductor 11, the second semicircle copper conductor 12 stranded and that form through mould compacting, the end face contact separately of this first semicircle copper conductor 11, second semicircle copper conductor 12 forms round wire 2, one restrictive coatings 3 is extruded in described round wire 2;

The interval of above-mentioned 2 flat circle wheel 72 is greater than the interval of described 2 cambered surface circular wheels 82; Described round wire is 1:1.1 to the ratio of line concentration through hole 91 diameters of 2 diameters and line concentration base 9.

1.1 or 1.2 or 1.3 times of the interval that is spaced apart described 2 cambered surface circular wheels 82 of above-mentioned 2 flat circle wheel 72.

The interval of above-mentioned 2 flat circle wheel 72 and described round wire are 100:3 ~ 6 to 2 diameter proportion.

Between the above-mentioned line concentration base 9 and second mounting groove 632 apart from scalable.

Aforesaid substrate 62 is parallel with line concentration base 9 contact-making surface upper edge direction of routing to be provided with two article of the 3rd mounting groove 633, and described line concentration base 9 both sides have the through hole of installation 92, one bolts 93 and embed installation through hole 92, the 3rd mounting groove 633 successively and install and fix by nut 94.

The foregoing description only is explanation technical conceive of the present invention and characteristics, and its purpose is to allow the personage who is familiar with this technology can understand content of the present invention and enforcement according to this, can not limit protection scope of the present invention with this.All equivalences that spirit is done according to the present invention change or modify, and all should be encompassed within protection scope of the present invention.

Claims

1. process equipment that is used for the transfer of data flexible cable, it is characterized in that: described communication flexible cord cable (1) comprise respectively at least one by several copper strand wires the first semicircle copper conductor (11), the second semicircle copper conductor (12) stranded and that form through mould compacting, the end face contact separately 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 stand (40);

Described 2 groups of pay off racks that are used for unwrapping wire are used to leave with the first semicircle copper conductor (11) for (10) one groups, and another group is used to leave with the second semicircle copper conductor (12);

Described 2 groups of tension rails (20) are used for regulating the first semicircle copper conductor (11), the second semicircle copper conductor (12) laying tension in the stranding process;

Described pre-traction device (4) is used to stablize the first semicircle copper conductor (11), the second semicircle copper conductor (12);

Described positioner (5) comprises that fixed mount (6), 2 plane guide wheel mechanisms (7), 2 cambered surface guide wheel mechanisms (8) and center have the line concentration base (9) of line concentration through hole (91);

Described fixed mount (6) is made up of bracing frame (61) and substrate (62), these substrate (62) one ends are along being provided with 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 positioned between first mounting groove (631) and the line concentration base (9);

Described plane guide wheel mechanism (7) comprise end face be plane face (71) and with the flat circle of the parallel placement of substrate (62) wheel (72), described plane face (71) upper and lower end is respectively equipped with block (711), this through hole (73) that is positioned at flat circle wheel (72) center is installed on first support stick (75) upper end by a bearing (74), and this flat circle wheel (72) can rotate around 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 the parallel placement of substrate (62), this through hole (83) that is positioned at cambered surface circular wheel (82) center is installed on second support stick (85) upper end by a bearing (84), and this cambered surface circular wheel (82) can rotate around second support stick (85); The described first semicircle copper conductor (11) and the second semicircle copper conductor (12) sidle line and contact with its plane face (71) along 2 flat circle wheels (72) are opposing respectively, and the described first semicircle copper conductor (11) contacts along 2 cambered surface circular wheels (82) opposite sides cabling and with its cambered surface face (81) respectively with the second semicircle copper conductor (12);

First support stick (75) lower end embeds in first mounting groove (631) and also is installed on the substrate (62) by nut (64) in the described plane guide wheel mechanism (7), second support stick (85) lower end embeds in second mounting groove (632) and also is installed on the substrate (62) by nut (64) in the described cambered surface guide wheel mechanism (8), and the line concentration through hole (91) of described line concentration base (9), flat circle are taken turns (72), cambered surface circular wheel (82) is in the same plane and cambered surface circular wheel (82) is positioned between line concentration base (9) and the flat circle wheel (72); The interval of described 2 flat circle wheels (72) is greater than the interval of described 2 cambered surface circular wheels (82); Described round wire is 1:1.1 to the ratio of line concentration through hole (91) diameter of (2) diameter and line concentration base (9);

Described plastic extruding machine (30) is used in described round wire (2) being extruded one deck restrictive coating (3);

Described bosh (50) is used for the flexible cord cable of cooling from described plastic extruding machine (30);

Dry body (60) is used to dry up the moisture content on flexible cord cable surface;

Rear haulage mechanism (70) is used for to power of advancing according to fixed speed of flexible cord cable;

Described take-up stand (40) is used to receive and keep described communication flexible cord cable.

2. process equipment according to claim 1 is characterized in that: 1.1 ~ 1.3 times of the interval that is spaced apart described 2 cambered surface circular wheels (82) of described 2 flat circle wheels (72).

3. process equipment according to claim 1 and 2 is characterized in that: the interval of described 2 flat circle wheels (72) and described round wire are 100:3 ~ 6 to the diameter proportion of (2).