CN203366854U - Cable production line - Google Patents

Abstract

The utility model relates to a cable production line and its operating method. The cable production line comprises a roll production line and a frame-type single winch or stranding-bundling machine. The roll production line comprises a plurality of roll forming machines which are arranged in a line from left to right and used for roll forming of a plurality of wire harnesses and wire pass stands which are respectively arranged at the right side of each roll forming machine and used for arranging the plurality of roll-molded wire harnesses according to requirements. Each wire pass stand comprises a substrate which is provided with a central through hole and a plurality of wire pass holes which are distributed around the central through hole and a central wire harness which passes through the central through hole. Non-central wire harnesses which respectively pass through the wire pass holes are distributed around the central wire harness. When the wire harnesses are combined in a strand, the non-central wire harnesses form a complete circle. By the application of the cable production line, wire harnesses can be roll-molded according to a required shape, the wire harnesses are stranded to form multilayer core cables of required specification, and then the multilayer core cables are wound around a wire coil so as to reduce cable wire-harness gap to the greatest extent.

Description

A kind of cable production line

Technical field

The utility model relates to a kind of cable production line and method of work thereof, after wire harness can being carried out to roll-forming by required form and wire harness being twisted into to the multilayer core cable of required specification, is wound on drum, to reduce cable center line interfascicular gap as far as possible.

Background technology

In the cable production process, often need many fine rule bundles are twisted into to one thick line cable.Existing single twist cabling machine, in stranded cable process, mainly completes stranded to many wire harness, because the wire harness cross section is generally rounded, there is larger wire harness gap in the cable be twisted into, each wire harness is stranded not tight, makes each wire harness easily scatter, and causes the resistance of cable larger simultaneously.Existing wire harness rolling device, be mostly that the cable for producing special shape once is rolled into cable by many wire harness, for single twist cabling machine, do not form a complete and comprehensive system for collecting real estate fees a wire harness rolling device for having improved the stranded tightness of wire harness.

Single twist cabling machine is mainly used in control cables, communication cable, the PE such as power line or PVC coating heart yearn are stranded, it is having widely and is using aspect making twisted wire, but there is speed difference with spiral due to twisted wire (lead-in wire) when moving, Wire twisting frame is when carrying out the twisted wire operation, difference along with wire harness and strand winder, the speed faster or slower of twisted wire (lead-in wire), in order not affect the twisted wire quality of production, need to keep spiral speed identical with twisted wire (lead-in wire) speed, one of existing method is to regulate in real time spiral speed with servomotor, but the rotating speed adjustable extent of servomotor is limited, can not adapt to multiple wire harness, two of existing method is to adopt differential mechanism to carry out regulating and controlling spiral speed, but because the transducer arranged can not be measured the thickness wound the line on drum in real time, thereby can not control in real time spiral speed.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of cable production line and method of work thereof, after wire harness can being carried out to roll-forming by required form and wire harness being twisted into to the multilayer core cable of required specification, is wound on drum, to reduce the wire harness gap as far as possible .

In order to solve the problems of the technologies described above, the utility model provides a kind of cable production line, and it comprises: for the rolling production line by many wire harness roll-formings and for wire harness is stranded and be wound in the single twist cabling machine on drum, or the bundle winch, or pair twister.

Described rolling production line comprises: left and right linear array a plurality of for the roller pressing forming machine by many wire harness roll-formings, be located at each roller pressing forming machine right side for the line crossing bracket of arranged on request of the many wire harness by roll-forming; Described line crossing bracket comprises: substrate is provided with central through hole and a plurality of cable-through hole arranged around this central through hole on this substrate; The many wire harness through described line crossing bracket comprise: a centred beam through described central through hole; Non-central wire harness through described cable-through hole distributes around described centred beam respectively; When each wire harness forms one, described non-central wire harness is suitable for forming a complete circumference.

Described single twist cabling machine is the frame single twist cabling machine, it comprises: base, which is provided with pair of brackets two, one rectangular frame is rotatably assorted on described pair of brackets two, the pair of lead wires wheel is rotatably assorted in the rectangle frame of the left side of this framework by a rotating shaft respectively, each wire leading wheel synchronously rotates around corresponding rotating shaft, and the outer circumference of each wire leading wheel is provided with a plurality of wire casings; One drum is rotatably assorted in the rectangle frame of the right side of described framework and the drum central axis overlaps with the pivot axis of framework; The wire-arranging mechanism that cable evenly is wound on described drum is fixed at the drum top in described frame right rectangle frame, and wire leading wheel, wire-arranging mechanism are suitable for rotating with framework.

Described rolling production line also comprises: setting up and down, be suitable for rolling and press the pair of rolls pinch roller of cooperation, the cylinder of each rolling wheel set is provided with a plurality of annular wire casings, this corresponds to each other up and down to each the annular wire casing on rolling wheel set, with the wire harness roll-forming by respective numbers; Described pair of rolls pinch roller is suitable for the opposing parallel displacement, and the bearing pedestal at rolling wheel set two ends respectively is snug fit between a column, and each column is provided with a pair of extruding screw for this bearing pedestal downforce of adjusted in concert, to regulate this compaction forces to rolling wheel set; Also be provided with motor five, its a pair of power transmission shaft coordinated by gear drive each other of consistency from top to bottom on described roller pressing forming machine, motor five is connected with a transmission shaft driven, and this end to power transmission shaft is in transmission connection by the end of universal joint and described pair of rolls pinch roller respectively.

Described frame single twist cabling machine also comprises: pair of bearing one, framework is rotatably assorted on support two to bearing pedestal one by this, the left inside axle of the hollow that is rotatably assorted in the bearing pedestal one in described left side, in this left inside axle, be provided with for crossing the through hole of line, this through hole center line, left inside shaft centre line and framework rotation centerline overlap, also be provided with a pair of reducer of turbodrill that drives described wire leading wheel to rotate on described framework, described wire leading wheel is respectively the wire leading wheel one and wire leading wheel two be oppositely arranged, one side of this wire leading wheel two is fixed with the lambda line wheel, wire casing on this lambda line wheel aligns with the through hole center line in described left inside axle.

Described rolling production line also comprises: be located at the pair of rolls pinch roller top a plurality of left and right towards and for wearing respectively the penetration pipe of many wire harness, a cable in each penetration pipe on one roller pressing forming machine is sent into respectively in the roller pressing forming machine on adjacent right side, to carry out roll-forming; Be provided with and make the multiply wire harness become one rotary die seat on each line crossing bracket right side.

Described frame single twist cabling machine also comprises: be located at the middle crossbeam of described framework, described wire-arranging mechanism comprises the motor that is suitable for rotating four be fixed on crossbeam, the twisted wire wheel, the pulley one and pulley two that are rotatably assorted on crossbeam, the parallel guide rail be fixed on crossbeam, be snug fit at arc-like rows coil holder on this guide rail; Creel stand is provided with a laser range finder one that is positioned at the cable thickness in coiling point left side on distance for measuring creel stand and drum left edge and drum, also is provided with the laser range finder two that is positioned at the cable thickness on a coiling right side on the distance of measuring creel stand and the right-hand edge of drum and drum on creel stand; On creel stand, also being provided with a plurality of is the guide wheel of cable guide and guide roller, also be provided with pulley three on the frame right shelf, in a plurality of wire casings of annular guy winding on described twisted wire wheel, and pass creel stand through pulley one, pulley three, pulley two, be fixedly connected with creel stand.

Described rolling production line also comprises: the burn out detection ring for detection of the wire harness fracture of being located at the line crossing bracket left side; On described line crossing bracket and in each cable-through hole inboard, be respectively equipped with for being respectively a plurality of line directive wheels of crossing of described non-central wire harness guiding.

Described frame single twist cabling machine also comprises: the addendum cone mechanism that described crossbeam center is provided with, this addendum cone mechanism comprises cylinder block, the piston that can move left and right is located in cylinder block and cylinder block is divided into to left and right two chambeies, be provided with a blind hole in piston, the addendum cone axle is actively tied in this blind hole by bearing rotary, this addendum cone axle right-hand member is provided with a round boss one, between described piston left end and cylinder block inner left wall, is provided with a spring, and the top, right side of described cylinder block is provided with an air admission hole and communicates with the right chamber of cylinder; The right-hand member center rotating of described framework is combined with right inside axle, the left end of this right inside axle is rotatably assorted and is provided with round boss two, the left side of right inside axle is fixedly connected with alignment pin, described drum center is provided with through hole, this through hole one side is sheathed on described boss one, opposite side is sheathed on boss two, and described drum right flank is provided with location hole, and described alignment pin is located at and is carried out spacing to drum in this location hole.

The method of work of this cable production line comprises the following steps:

The pair of rolls pinch roller of one roller pressing forming machine of A, rolling production line is by many wire harness roll-formings, and then these many wire harness are directed to the contiguous line crossing bracket in right side; Described many wire harness respectively through described central through hole and a plurality of cable-through hole, then, through after a rotary die seat, form the first core cable that meets required arranged mode;

B, described the first core cable are through the annular wire casing on the pair of rolls pinch roller of a roller pressing forming machine on its right side, the many wire harness that simultaneously a plurality of penetration pipes of the pair of rolls pinch roller top adjacent roller pressing forming machine pass from left side are caused respectively in all the other the annular wire casings on the pair of rolls pinch roller of roller pressing forming machine on described right side, be directed to the contiguous line crossing bracket in right side after roll-forming, through after a rotary die seat, form the second core cable that meets required arranged mode again; Wherein, described the first core cable passes respectively the cable-through hole of the respective numbers on this line crossing bracket through central through hole, all the other a plurality of wire harness of this line crossing bracket;

C, described the second core cable is sent into to the roller pressing forming machine on its right side, and repeating said steps B at least one times, to obtain the multilayer core cable of required specification;

D, the wire harness that this multilayer core cable is formed are sent into single twist cabling machine, and single twist cabling machine is stranded and be wound on drum by wire harness.

Described single twist cabling machine is the frame single twist cabling machine; The method of work of this frame single twist cabling machine comprises the following steps:

E, use high-pressure air pipe are connected with air admission hole, make gases at high pressure enter the left chamber of described cylinder block, piston moves to left, use is located at lifting machine lifting ceases to be busy dish on described base to proper height, pull out high-pressure air pipe from air admission hole, at spring action lower piston return, the interior bone of this drum is pressed and be sheathed on boss one and boss two outsides, and alignment pin is located in the location hole of this drum, the lifting machine return;

F, the multilayer cable that will draw through rolling production line pass the through hole in left inside axle, first be wound in the wire casing on the lambda line wheel, and then be around in successively in a plurality of wire casings of described wire leading wheel one and wire leading wheel two, draw and pass described gear line wheel, guide wheel, the guide roller of being located on crossbeam finally by the wire casing by wire leading wheel one and be around on described drum;

G, the rotation of described framework, cable is during along the path movement of step F, when cable arrives the tangent point of cable and lambda line wheel wire casing through the through hole in left inside axle, the center line rotation around left inside axle with framework due to this lambda line wheel, cable is by stranded tightening again, and cable arrives on wire-arranging mechanism after wire leading wheel one and wire leading wheel two;

The distance of H, the creel stand recorded according to described laser range finder one and laser range finder two by computer and the left and right two edges of drum is controlled described motor four rotatings, drives the rotating of twisted wire wheel, makes creel stand along the reciprocating motion of guide rail left and right; Simultaneously described drum rotation, make cable be wound on equably on described drum; The cable thickness that being positioned at coiling point left and right side on the drum recorded according to laser range finder one and laser range finder two by computer is regulated the threading speed of drum, and the wire speed of itself and described wire leading wheel one, wire leading wheel two is consistent constantly.

With respect to prior art, the technique effect the utlity model has is:

(1) cable production line of the present utility model, carry out roll-forming and wire harness carried out stranded in advance many wire harness, makes cable tightr, and intensity is larger, and resistance is less and can reduce the use of cable insulating material, eliminates the fracture of wire phenomenon of cable; Simultaneously roller pressing forming machine and line crossing bracket for the wire harness that distributes, the pre-stranded rotary die seat adjacent setting successively for wire harness, rolling process and pre-stranded technique are hocketed, be applicable to process the multilayer cable, and can arbitrarily increase or reduce the quantity of roller pressing forming machine, line crossing bracket and rotary die seat according to customer requirement.

(2) cable production line of the present utility model can carry out roll-forming by many wire harness, changes on request its cross sectional shape, makes many wire harness stranded tightr, to reduce the wire harness gap as far as possible; By changing dissimilar rolling wheel set, can adapt to different roll-in wire harness quantity and wire harness cross section type, can obtain the wire harness of multiple section shape, can produce the polytype cable, strong adaptability;

(3) the different upper-lower position of rolling wheel set when described universal joint of the present utility model can adapt to the different wire harness of roll-in;

(4) described penetration pipe of the present utility model can pass through many wire harness, is convenient to follow-up wire harness roll-in and stranded;

(5) described extruding screw of the present utility model can be according to the compaction forces between the described pair of rolls pinch roller of wire harness type adjustment;

(6) described a pair of power transmission shaft of the present utility model coordinates by identical a pair of gear drive, guarantee this to power transmission shaft and coupled rolling wheel set with the same rotational speed reverse rotation;

(7) variable-frequency motor five that described roller pressing forming machine of the present utility model is provided with, can change motor speed according to the type of wire harness, the inlet wire speed of single twist cabling machine, thereby regulate the speed of wire harness roll-in;

(8) rotary die seat of the present utility model is provided with the annulus of rotation, is convenient to wire harness stranded;

(9) line crossing bracket of the present utility model is suitable for different wire harness are separated, and is convenient to wire harness and carries out stranded according to setting means;

(10) whether burn out detection ring of the present utility model fracture occurs in the roll-in process for detection of wire harness;

(11) described frame single twist cabling machine of the present utility model, adopt laser range finder to measure coiling thickness on drum and by the coordinating of motor and differential mechanism, assurance wire speed and threading speed exact matching;

(12) wire casing on described lambda line wheel of the present utility model aligns with the through hole center line of left inside axle, when cable arrives the tangent point of cable and lambda line wheel wire casing through the through hole in left inside axle, due to the center line rotation around left inside shaft through-hole of lambda line wheel, cable is by stranded tightening again;

(13) described frame single twist cabling machine of the present utility model, the distance at the creel stand of being measured according to laser range finder by computer and the left and right edge of drum is controlled the arc-like rows coil holder and is suitable for moving left and right along guide rail, makes cable more evenly must be wound on described drum;

(14) described addendum cone mechanism of the present utility model and hydraulic jack are convenient to the replacing of drum;

(15) described alignment pin of the present utility model matches with the location hole of drum side, for belt wheel seven, by right inside axle, drives this drum to rotate.

The accompanying drawing explanation

In order to clearly demonstrate innovative principle of the present utility model and than the technical advantage of existing product, the following possible embodiment of limiting examples explanation by the described principle of application by means of accompanying drawing.In the drawings:

The front view that Fig. 1 is the wire harness rolling production line;

The vertical view that Fig. 2 is the wire harness rolling production line;

The left view that Fig. 3 is the wire harness rolling production line;

The front view that Fig. 4 is roller pressing forming machine;

The left view that Fig. 5 is roller pressing forming machine;

The separation graph that Fig. 6 is rolling wheel set;

The figure that presses that Fig. 7 is rolling wheel set;

Fig. 8 is the wire harness sectional view after roll-in;

The sectional view that Fig. 9 is the first core cable;

The side view that Figure 10 is the first line crossing bracket, " 1+6 " wherein refers to the centred beam through the central through hole in this figure, and the non-central wire harness of the six roots of sensation that passes respectively six cable-through holes in this figure;

The side view that Figure 11 is the second line crossing bracket, " 1+6+9 " wherein refers to: the centred beam that " 1+6 " root wire harness in Figure 10 forms is through the central through hole in this Figure 11, and nine non-central wire harness that pass respectively nine cable-through holes in this Figure 11;

The side view of Figure 12 Wei tri-road line crossing brackets, " 1+6+9+14 " wherein refers to: the centred beam that " 1+6+9 " root wire harness in Figure 11 forms is through the central through hole in this Figure 12, and 14 non-central wire harness that pass respectively 14 cable-through holes in this Figure 12;

The side view of Figure 13 Wei tetra-road line crossing brackets, " 1+6+9+14+18 " wherein refers to: the centred beam that " 1+6+9+14 " root wire harness in Figure 11 forms is through the central through hole in this Figure 13, and 18 non-central wire harness that pass respectively 18 cable-through holes in this Figure 13;

The sectional view that Figure 14 is the second core cable;

The sectional view that Figure 15 is the 3rd core cable;

The sectional view that Figure 16 is the four-core cable;

The partial enlarged drawing that Figure 17 is guide roller and guard bar;

The front elevation that Figure 18 is the frame single twist cabling machine;

The side view that Figure 19 is wire leading wheel and reducer of turbodrill;

Figure 20 is addendum cone mechanism partial enlarged drawing;

Figure 21 is the wire-arranging mechanism partial enlarged drawing;

Figure 22 is the wire-arranging mechanism end view;

Figure 23 is motor and transmission mechanism vertical view;

Figure 24 is the transmission mechanism right view;

Figure 25 is the transmission mechanism front elevation;

Figure 26 is distribution mechanism partial enlarged drawing;

The front elevation that Figure 27 is wire leading wheel and reducer of turbodrill;

The schematic diagram of relative wire casing up and down when Figure 28 is the use on the pair of rolls pinch roller;

Figure 29 is another schematic diagram of relative wire casing up and down during to the use on rolling wheel set.

Embodiment

Embodiment 1

As shown in Figures 1 to 3, cable production line of the present utility model comprises rolling production line and single twist cabling machine (can adopt for example Chinese patent literature publication number CN 201749740U or the disclosed Cantilevering single-twist machine of CN202196620U, can also adopt the disclosed single twist cabling machine of other documents).

As a kind of preferred, the single twist cabling machine of the present embodiment adopts the frame single twist cabling machine.

Described rolling production line comprises: frame 39, which is provided with four roller pressing forming machines 1, this roller pressing forming machine 1 comprises the motor 52 be fixed on frame, jack shaft 1 is matched with on motor 52 the place ahead bearings 3 by the bearing parallel rotation with jack shaft 26, the rear end of jack shaft 1 is provided with belt wheel 4, this belt wheel 4 is in transmission connection by the rotor of belt and described motor 52, be fixed with gear 1 on described jack shaft 1, be fixed with gear 27 on described jack shaft 26, gear 1 equates with gear 27 engagements and the described two gear numbers of teeth, the front end of described jack shaft 1 is connected with the rear end of power transmission shaft 1 by universal joint 11, the front end of described jack shaft 26 is connected with the rear end of power transmission shaft 29 by universal joint 11, be positioned at frame 39 front ends on this roller pressing forming machine 1 and be provided with the rectangular frame 17 formed by four root posts, the top of this framework 17 is provided with the top cover 171 of hollow, worm reduction gear 12 is fixed in this top cover top, the output shaft 13 of this worm reduction gear 12 is located in top cover 171, the lower end of output shaft 13 is fixed with gear 3 14, before described top cover 171, rear two ends are combined with extruding screw 1 and extruding screw 2 24 by the bearing vertical rotation, described extruding screw one 18 upper ends are fixed with gear 4 15, described extruding screw 2 24 upper ends are fixed with gear 5 16, described gear 3 14 and gear 4 15, gear 5 16 engagements, crushing block one 26 threaded engagement of described extruding screw 1 and below, crushing block 2 25 threaded engagement of described extruding screw 2 24 and below.

The bottom of described framework 17 is provided with the pallet-changing device, this pallet-changing device comprises a plurality of guide wheels 33 of being rotatably assorted on described framework 17 and can be along the square pallet 30 of guide wheel 33 forward and backward movements, the front end of pallet 30 is provided with handle 32, on this pallet 30 and between the left and right column of framework 7, the parallel step 29 that is provided with a square shaped in front and back, lower rolling wheel set 22 is rotatably assorted between this is to step 29, and the rear end of lower rolling wheel set is connected with the front end of described power transmission shaft 1 by spline 23, universal joint 11; As shown in Figure 4, this top to step 29 is provided with butterfly spring 28, on butterfly spring 28 and between the left and right column of framework 7, the parallel top chock 27 that is provided with a square shaped in front and back, upper rolling wheel set 21 is rotatably assorted between this is to top chock 27, and the rear end of upper rolling wheel set also is connected with the front end of described power transmission shaft 29 by spline 23, universal joint 11; As shown in Figure 4, Figure 5, this top to top chock 27 is pressed and is coordinated with the bottom of described crushing block 1, crushing block 2 25 respectively, the pressing plate 31 that all do not lead on the lateral surface of the forward and backward column of described framework 17, for spacing with a pair of step 29 to described a pair of top chock 27.

Described butterfly spring 28, for when dismantling rolling wheel set, makes rolling wheel set 21 separate with lower rolling wheel set 22; When needs are changed rolling wheel set, worm reduction gear 12 is driven on described crushing block 1, crushing block 2 25 and retract position, under the bounce effect of upper butterfly spring 28, rolling wheel set 21 is separated with lower rolling wheel set 22, unload guiding pressing plate 31, pull handle 32, make described upper and lower bearing pedestal shift out in framework 17 with pallet 30.

As shown in Figure 3, on the upper box type column of described upper rolling wheel set 21, be fixed with a plurality of left and right towards penetration pipe, form many rows penetration pipe 19 setting up and down; As shown in Fig. 4, Figure 17, be fixed with support 380 on the lateral surface of described framework 17 right side columns, these support 380 bottoms are provided with the rotating shaft 381 perpendicular with described many row's penetration pipes 19, a plurality of guide rollers 38 have been rotatably assorted in this rotating shaft 381, the upper end of described support 380 is provided with the guard bar 382 perpendicular with many rows penetration pipe 19, for giving wire harness spacing; The outlets of each guide roller 38 and the one row's penetration pipe of the bottoms in described many row's penetration pipes 19 settings of aliging, between the pair of rolls pinch roller with the roller pressing forming machine that will guide to from the wire harness of described bottom one row's penetration pipe discharge right side.

As shown in Figure 6, Figure 7, wire casing 1 and wire casing 2 37 that described upper rolling wheel set 21 is alignd respectively and is provided with the section semicircular in shape with the cylinder middle part, the outside of lower rolling wheel set 22, after upper rolling wheel set 21 and lower rolling wheel set 22 compress, it is circular hole that wire casing 1 and wire casing 2 37 form section relatively; The lateral surface of described upper rolling wheel set 21 and lower rolling wheel set 22 center line symmetry and aligned fashion respectively has a plurality of wire casings 3 34 and wire casing 4 35, after upper rolling wheel set 21 and lower rolling wheel set 22 compress, the section in the roll-in hole that wire casing 3 34 and wire casing 4 35 form up and down relatively is the fan looping pit, as shown in Figure 8, wire harness section through this fan looping pit will be rolled into the fan annular, and the wire harness after rolling wheel set on this 21 and lower rolling wheel set 22 by the stranded cable section obtained as shown in Figure 9.As Figure 28 and 29, in other embodiments, the roll-in pore cross section that wire casing three and wire casing four relatively form up and down can also be for fan-shaped, semicircle etc., to meet the cable production requirement of different size.

As shown in Figure 1 and Figure 2, this rolling production line is provided with four roller pressing forming machines 1, the right side of each roller pressing forming machine 1 is provided with burn out detection ring 40, line crossing bracket and rotary die seat 41, described burn out detection ring 40 is a becket be connected with the positive level of power supply, if wire harness is pressed down when wire harness process rolling wheel set, wire harness will overlap with becket, because wire harness is connected with negative pole, anodal being connected with negative pole makes the break alarm circuit connect warning; Described line crossing bracket comprises substrate, and substrate one side is provided with for crossing the central through hole 45 of line, around this central through hole 45, circumferentially is laid with a plurality of line directive wheel 46 and cable-through holes 47 crossed; As shown in figure 10, line crossing bracket 1 is provided with 6 and crosses line directive wheel 46 and cable-through hole 47; As shown in figure 11, line crossing bracket 2 402 is provided with 9 and crosses line directive wheel 46 and cable-through hole 47; As shown in figure 12, line crossing bracket 3 403 is provided with 14 and crosses line directive wheel 46 and cable-through hole 47; As shown in figure 13, line crossing bracket 4 404 is provided with 18 and crosses line directive wheel and cable-through hole; The right-hand member of described frame 39 also is provided with two rollers 42 for the mistake line and one group of burn out detection ring 40 on right side thereof, line crossing bracket 5 405 and rotary die seat 41, and this line crossing bracket 405 is provided with 24 and crosses line directive wheels 46 and cable-through holes 47; Described rotary die seat 41 is provided with a rotatable annulus, and the wire harness of process line crossing bracket will collect and pass this annulus.

Many wire harness move toward right-hand member through many rows penetration pipe 19 of first roll squeezer of left side, every through a roll squeezer, there are wire harness in the many rows of part penetration pipes 19 to enter in the pair of rolls pinch roller of next roll squeezer and are rolled into type, the frame single twist cabling machine at this rolling production line and rear is used in conjunction with, and the frame single twist cabling machine provides tractive effort and reverses stranded power for the wire harness through above-mentioned rolling production line, when seven wire harness through the first roll squeezer 101 running rollers are rolled into type, then through the burn out detection ring 40 on its right side and line crossing bracket one 401(as Figure 10), when each wire harness passes through the annulus on rotary die seat 41, as shown in Figure 9, reversing under the strand force action, seven wire harness rotations are twisted into one seven heart yearn, this seven heart yearn will be circular wire casing (as Fig. 6) through the wire casing 1 in second roller pressing machine 102 and the section between wire casing 2 37, now this seven heart yearn is not by roll-in, the many wire harness that penetration pipe 19 in the first roller pressing forming machine 101 is drawn simultaneously are rolled into fan-shaped by the described wire casing 3 34 in second roller pressing machine 102 and wire casing 4 35, then through burn out detection ring 40 and the line crossing bracket 2 402 on right side, during through the annulus on rotary die seat 41, as shown in figure 14, the wire harness stranded outside in described seven heart yearns of rotation that described fan is annular also forms 16 heart yearns, so analogize, as shown in figure 15, be twisted into 30 heart yearns after the 3rd roller pressing forming machine 103, as shown in figure 16, be twisted into 48 heart yearns after the 4th roller pressing forming machine 104, be twisted into seven twelve-core lines after described roller 42, the outermost wire harness section of this seven twelve-cores line is circular, the gapped cable injection moulding foreskin of being convenient between wire harness, can increase arbitrarily or reduce in the rear end of this rolling production line the number of roller pressing forming machine and burn out detection ring 40, line crossing bracket, rotary die seat 41 according to client's requirement, thereby produce the cable of the different numbers of plies, different core numbers.Wire casing 1 and wire casing 2 37 on described each roll squeezer upper roll wheel, the size of wire casing 3 34 and wire casing 4 35 can be adjusted according to core number or the number of plies of last cable.

As shown in figure 18, described frame single twist cabling machine comprises: base 201, support 1, motor 1, support 2 204, left inside axle 501, right inside axle 502, left outside axle 601, right outside axle 602, framework 207, reducer of turbodrill 208, wire-arranging mechanism 209, drum 210, addendum cone mechanism 211, wire leading wheel 212, motor 2 213, motor 3 214, traction belt wheel 215, box of tricks 216, distribution mechanism 217, hydraulic jack 218.

Described base 201 left ends are provided with support 1, and this support 1 is provided with motor 1, and the base middle part is provided with pair of brackets 2 204, and this support 2 204 is provided with pair of bearing 1; Double square framework 207 left ends are fixedly connected with hollow left outside axle 601, and its right-hand member is fixedly connected with hollow right outside axle 602; Left outside axle 601, right outside axle 602 are actively tied on described pair of bearing 1 by bearing rotary respectively, hollow left inside axle 501 is actively tied in left outside axle 601 by bearing rotary, right inside axle 502 is actively tied in right outside axle 602 by bearing rotary, the left outside side of described left outside axle 601 is provided with distribution mechanism 217, the left end of described left inside axle 501 is fixed with belt wheel 1, this belt wheel 1 is connected with the rotor belt wheel 301 of described motor 1 by belt, and the right-hand member fixed cover of described left inside axle 501 is provided with belt wheel 2 504.

As shown in figure 27, be provided with the bearing pedestal 2 701 of pair of discs shape in the left side rectangle frame of described framework 207, respectively be fixed with a rotating shaft 702 in this bearing pedestal 2 701, in each rotating shaft 702 respectively by bearing rotary movingly leaded take turns 212 and rotating shaft with the center line of wire leading wheel, overlap, this center line is vertical with the center line of described left inside axle 501, right inside axle 502, as shown in figure 19, also be provided with reducer of turbodrill 208 on described framework 207, it comprises reducer of turbodrill 1 and reducer of turbodrill 2 802, reducer of turbodrill one 801 left sides are provided with power shaft 1, be fixed with belt wheel 3 805 on this power shaft one, described reducer of turbodrill 2 802 left sides are provided with power shaft 2 804, on this power shaft two, are fixed with belt wheel 4 806, and described belt wheel 3 805 is in transmission connection by belt and described belt wheel 2 504 respectively with belt wheel 4 806, the rear of described reducer of turbodrill 1 is provided with output shaft 1, and these output shaft one 807 ends are provided with output gear 1, and the rear of reducer of turbodrill 2 802 is provided with output shaft 2 808, and these output shaft 2 808 ends are provided with output gear 2 810, described pair of lead wires wheel 212 is respectively wire leading wheel 1 and wire leading wheel 2 122, wire leading wheel one 121 one sides are fixed with and gear one 809 meshed gears 3 123, wire leading wheel 2 122 1 sides are fixed with and gear 2 810 meshed gears 4 124, the opposite side of this wire leading wheel 2 122 is provided with lambda line wheel 125, be respectively equipped with a plurality of wire casings on the outer circumference of described wire leading wheel 1 and wire leading wheel 2 122, described lambda line wheel 125 is fixedly connected with wire leading wheel 2 122 and is rotatably assorted in rotating shaft 702, this lambda line takes turns that 125 lateral surfaces are provided with one wire casing and this wire casing aligns with the through hole center line in described left inside axle 501.

Described framework 207 centers are provided with crossbeam 703, this crossbeam 703 center is provided with addendum cone mechanism 211, as shown in figure 20, this addendum cone mechanism 211 comprises cylinder block 111, the piston 112 that can move left and right is located in cylinder block 111 and is sealed by sealing ring, be provided with a blind hole in piston 112, addendum cone axle 113 is actively tied in this blind hole by bearing rotary, these addendum cone axle 113 right-hand members are provided with a round boss 1, be provided with a spring 114 between described piston 112 left ends and cylinder block 111 inner left wall, the top, right side of described cylinder block 111 is provided with an air admission hole 116 and communicates with the right chamber of cylinder.

As Figure 21, shown in Figure 22, described wire-arranging mechanism 209 comprises motor 4 901, this motor 4 901 is located on crossbeam 703, belt wheel 5 902 is located at motor 4 901 rotor left ends and is in transmission connection by belt and belt wheel 6 903, this belt wheel 6 903 is located at jack shaft 904 left ends, this jack shaft 904 is actively tied on described crossbeam 703 by bearing rotary, be fixed with twisted wire wheel 905 in the middle of jack shaft 904, this twisted wire wheel 905 is provided with a plurality of wire casings, also be provided with pulley 1 and pulley 2 907 on described crossbeam 703, gear line wheel 913, pair of guide rails 909 is parallel to be fixed between crossbeam 703 and right side frame 207, arc-like rows coil holder 910 is snug fit on described guide rail 909, creel stand 910 two ends are respectively equipped with the guide wheel 911 play the guiding role, on creel stand 910, also being provided with a plurality of is the guide roller 912 of cable guide, also be provided with pulley 3 914 on framework 207 right side shelfs, annular bracing wire 908 is wound in a plurality of wire casings on described twisted wire wheel 905, and through pulley 1, pulley 3 914, pulley 2 907 passes creel stand 910 and is fixedly connected with creel stand 910, the both sides that the lower end of described creel stand 910 is positioned at guide wheel 911 respectively are provided with laser range finder 1 and laser range finder 2 916, this laser range finder 1 can reach left and send laser downwards, measures the cable thickness that is positioned at coiling point left side on the distance at creel stand and drum left edge and drum simultaneously, this laser range finder 2 916 can reach downward discovery laser to the right, measures the cable thickness that is positioned at coiling point right side on the distance at creel stand and the right-hand edge of drum and drum simultaneously.

The left end of described right inside axle 502 is rotatably assorted and is provided with round boss 2 219, alignment pin 220 is fixedly connected with right inside axle 502, described drum 210 inside are provided with through hole, this through hole one side is sheathed on described boss 1, opposite side is sheathed on boss 2 219, described drum 210 right flanks are provided with location hole, and described alignment pin 220 is located at and is carried out spacing to drum 210 in this location hole; Described hydraulic jack 218 is for lifting or fall described drum, so that the replacing of drum 210.

As shown in Figure 23, Figure 24, Figure 25, the right-hand member of described right inside axle 502 is fixed with belt wheel 7 221, belt wheel 8 222 is located at belt wheel 7 221 left sides and is actively tied on described right inside axle 502 by bearing rotary, this belt wheel 8 222 is fixedly connected with described framework 207 right sides, also be fixed with brake disc 223 on the outer circumference of this belt wheel 8 222, pneumatic brake 224 is located at the outside of this brake disc 223, for belt wheel 8 222 and framework 207 are braked.

Belt wheel 9 215 and belt wheel 10 that left and right be arranged in parallel are fixedly connected with by connecting axle 152, and this connecting axle 152 is actively tied on the support 2 204 on right side by bearing rotary, box of tricks 216 is fixed on the support 2 204 on right side, this box of tricks 216 comprises by bearing rotary and is actively tied in the central shaft 164 on this support 2 204, these central shaft 164 left ends are fixed with belt wheel 11, these belt wheel 11 right sides are provided with belt wheel 12, these belt wheel 12 right sides are provided with a planet carrier 160 be rotatably assorted on central shaft 164, these planet carrier 160 left ends are fixed with belt wheel 13, a pair of planet axis 162 is rotatably assorted in this planet carrier 160, the two ends of each planet axis 162 are fixed with respectively planetary gear 1 and planetary gear 2 161, sun gear 1 is actively tied on described central shaft 164 by bearing rotary, sun gear 2 169 is fixed at central shaft 164 right-hand members, described sun gear 1 and described a pair of planetary gear one 163 engagements, described sun gear 2 169 and described a pair of planetary gear 2 162 engagements, described belt wheel 12 is fixed on the face of cylinder, the outside of described sun gear one 168 left ends.

The right-hand member of described base 201 is provided with motor 2 213, motor 3 214, the belt wheel 14 of motor 2 213 left ends is in transmission connection by the regulating wheel 225 on belt and support 2 204, belt wheel 12, belt wheel 9 215, the belt wheel 15 of motor 3 214 left ends is in transmission connection by belt and belt wheel 13, described belt wheel 11 is in transmission connection by belt and belt wheel 7 221, and described belt wheel 10 is in transmission connection by belt and belt wheel 8 222.

As shown in figure 26, what described distribution mechanism 217 comprised hollow crosses electricity ring 226, the electricity of crossing of this hollow encircles the outside that 226 fixed covers are located at left outside axle 601, support 2 204 upper ends in left side are provided with a plurality of positive brushes 227, negative pole brush 228, this positive brush 227 encircles the electric groove sliding contact of mistake corresponding on 226 with the lower end of negative pole brush 228 with crossing electricity, and this crosses electric groove is described motor 4 901 power supplies by wire.

The method of work of this cable production line, comprise the steps:

The pair of rolls pinch roller of a, the first roller pressing forming machine 101 is by many wire harness roll-formings, and then these many wire harness are directed to the contiguous line crossing bracket 1 in right side; This line crossing bracket comprises: substrate is provided with central through hole 45 and a plurality of cable-through hole 47 around the uniform setting of this central through hole on this substrate; Described many wire harness respectively through described central through hole 45 and a plurality of cable-through hole 47, then, through after a rotary die seat 41, be twisted into the first core cable that meets required arranged mode.

B, the section of described the first core cable from the pair of rolls pinch roller of second roller pressing machine 102 are to pass between circular wire casing, the many wire harness that simultaneously penetration pipe of the top of the pair of rolls pinch roller from the first roller pressing forming machine 101 passes are caused respectively all the other sections on the pair of rolls pinch roller of described second roller pressing machine 102 and are in the annular wire casing of fan, are directed to the contiguous line crossing bracket 2 402 in right side after roll-forming; Described the first core cable passes respectively the corresponding cable-through hole 47 on this line crossing bracket 2 402, then, through after a rotary die seat 41, is twisted into the second core cable that meets required arranged mode through central through hole 45, all the other a plurality of wire harness of this line crossing bracket 2 402.

C, described the second core cable section from the pair of rolls pinch roller of the 3rd roller pressing forming machine 103 are that circular wire casing passes, the many wire harness that simultaneously penetration pipe of the top of the pair of rolls pinch roller from second roller pressing machine 102 passes are caused respectively all the other sections on the pair of rolls pinch roller of described the 3rd roller pressing forming machine 103 and are in the annular wire casing of fan, are directed to the contiguous line crossing bracket 3 403 in right side after roll-forming; Described the second core cable passes respectively the corresponding cable-through hole 47 on this line crossing bracket 3 403, then, through after a rotary die seat 41, is twisted into the 3rd core cable that meets required arranged mode through central through hole 45, all the other a plurality of wire harness of this line crossing bracket 3 403.

D, described the 3rd core cable section from the pair of rolls pinch roller of the 4th roller pressing forming machine 104 are that circular wire casing passes, the many wire harness that simultaneously penetration pipe of the top of the pair of rolls pinch roller from the 3rd roller pressing forming machine 103 passes are caused respectively all the other sections on the pair of rolls pinch roller of described the 4th roller pressing forming machine 104 and are in the annular wire casing of fan, are directed to the contiguous line crossing bracket 4 404 in right side after roll-forming; Described the 3rd core cable passes respectively the corresponding cable-through hole 47 on this line crossing bracket 4 404, then, through after a rotary die seat 41, is twisted into the four-core cable that meets required arranged mode through central through hole 45, all the other a plurality of wire harness of this line crossing bracket 4 404.

The roller of below in e, the described pair roller 42 of described four-core cable process, the many wire harness that the penetration pipe of the top of the pair of rolls pinch roller from the 4th roller pressing forming machine 104 passes simultaneously through a described pair roller 42, are directed to the contiguous line crossing bracket 5 405 in right side by respectively; Described four-core cable is through the central through hole 45 of this line crossing bracket 5 405, and all the other a plurality of wire harness pass respectively the corresponding cable-through hole 47 on this line crossing bracket 5 405, then, through after a rotary die seat 41, are twisted into the 5th core cable that meets required arranged mode.

F, use high-pressure air pipe are connected with air admission hole 116, make gases at high pressure enter the left chamber of described cylinder block 111, piston 112 moves to left, use lifting machine 218 lifting ceases to be busy dishes 210 to proper height, pull out high-pressure air pipe from air admission hole 116, at spring 114 effect lower piston 112 returns, make the interior bone of this drum press the outside that is sheathed on boss 1 and boss 2 219, described alignment pin 220 is located in the location hole of this drum, lifting machine 218 returns.

G, starter motor 1, motor 2 213, motor 3 214, motor 4 901, motor 2 213 drives described framework 207 rotations, above-mentioned the 5th core cable is through the through hole in left inside axle 501, first be around in the wire casing on lambda line wheel 125, and then be around in successively in a plurality of wire casings of described wire leading wheel 1 and wire leading wheel 2 122, draw and pass described gear line wheel 913, guide wheel 911, guide roller 912 finally by the wire casing by wire leading wheel 1 and be around on described drum 210; Wherein, when the through hole arrival cable in the left inside axle 501 of cable process and lambda line are taken turns the tangent point of 125 wire casings, due to the center line rotation of lambda line wheel around left inside axle 501, cable is by stranded tightening again, wire leading wheel 1 and wire leading wheel 2 122 rotate with same rotational speed, because cable is around in a plurality of wire casings of above-mentioned wire leading wheel, increased the draw of above-mentioned wire leading wheel to cable.

The distance of h, the creel stand recorded according to described laser range finder 1 and laser range finder 2 916 by computer and the left and right two edges of drum is controlled described motor 4 901 rotatings, drive twisted wire to take turns 905 rotatings, make creel stand 910 along guide rail 909 left and right reciprocating motions; Motor 2 213, motor 3 214 drive described drum 210 rotations by box of tricks 216 simultaneously, make cable be wound on equably on described drum 210; The output speed of the belt wheel 11 of described box of tricks 216 depends on the rotating speed of described motor 3 214, after cable thickness on drum 210 increases, be positioned at coiling on the drum that can be recorded according to laser range finder 1 and laser range finder 2 916 by computer and put the speed that the cable thickness on left side or right side is regulated motor 3 214, thereby change the rotating speed of belt wheel 11, the wire speed of drum 210 threading speeds and described wire leading wheel 1 and wire leading wheel 2 122 is consistent constantly.

As a kind of preferred, after upper rolling wheel set 21 and lower rolling wheel set 22 compress, described upper rolling wheel set 21 is polygonal hole with wire casing 1 and the relative composition of wire casing 2 37 section at the cylinder middle part, the outside of lower rolling wheel set 22, as shown in Figure 28, Figure 29, described wire casing 3 34 and wire casing 4 35 form section relatively also can be polygonal hole, be polygon by the wire harness section after roll-in, the cable section after stranded is polygon or rounded, is convenient to cable injection moulding foreskin.

So the wire casing shape on the upper and lower roll pinch roller can be adjusted according to actual conditions, therefore the adjustment on this wire casing change of shape should be in protection range of the present utility model; Increase as required or reduce simultaneously the number of roller pressing forming machine and line crossing bracket, rotary die seat, produce the cable of the various numbers of plies.

Embodiment 2

The cable production line of the present embodiment comprises rolling production line described in embodiment 1 and another kind of stranding machine, and this stranding machine is located at the right side of this wire harness rolling production line, for the multilayer core cable by described wire harness rolling production line output, is twisted into cable.This stranding machine is cantilever wire twisting machine (for example disclosed cantilever wire twisting machine of Chinese patent literature publication number CN202196619U); Or described stranding machine is for example Chinese patent literature publication number CN103000306A, or CN202196622U for the bundle winch, or the disclosed bundle winch of CN202948783U); Or described stranding machine is pair twister (for example disclosed pair twister of Chinese patent literature publication number CN 102360637A).

Claims (8)

1. a cable production line is characterized in that comprising: for the rolling production line by many wire harness roll-formings and for wire harness is stranded and be wound in the single twist cabling machine on drum, or the bundle winch, or pair twister;

Described rolling production line comprises: left and right linear array a plurality of for the roller pressing forming machine by many wire harness roll-formings (1), be located at each roller pressing forming machine right side for the line crossing bracket of arranged on request of the many wire harness by roll-forming; Described line crossing bracket comprises: substrate is provided with central through hole (45) and a plurality of cable-through hole (47) arranged around this central through hole on this substrate; The many wire harness through described line crossing bracket comprise: a centred beam through described central through hole; Non-central wire harness through described cable-through hole distributes around described centred beam respectively; When each wire harness forms one, described non-central wire harness is suitable for forming a complete circumference.

2. cable production line according to claim 1 is characterized in that:

Described single twist cabling machine is the frame single twist cabling machine, it comprises: base (201), which is provided with pair of brackets two (204), one rectangular frame (207) is rotatably assorted on described pair of brackets two (204), pair of lead wires wheel (212) is rotatably assorted in the left side rectangle frame of this framework (207) by a rotating shaft (702) respectively, each wire leading wheel (212) is around the synchronous rotation of corresponding rotating shaft (702), and the outer circumference of each wire leading wheel (212) is provided with a plurality of wire casings; One drum (210) is rotatably assorted in the right side rectangle frame of described framework (207) and drum (210) central axis overlaps with the pivot axis of framework (207);

The wire-arranging mechanism (209) that cable evenly is wound on described drum (210) is fixed at the drum top in the rectangle frame of described framework (207) right side, and wire leading wheel (212), wire-arranging mechanism (209) are suitable for rotating with framework (207).

3. cable production line according to claim 1 and 2 is characterized in that:

Described rolling production line also comprises: setting up and down, be suitable for rolling and press the pair of rolls pinch roller of cooperation, the cylinder of each rolling wheel set is provided with a plurality of annular wire casings, this corresponds to each other up and down to each the annular wire casing on rolling wheel set, with the wire harness roll-forming by respective numbers; Described pair of rolls pinch roller is suitable for the opposing parallel displacement, and the bearing pedestal at rolling wheel set two ends respectively is snug fit between a column, and each column is provided with a pair of extruding screw for this bearing pedestal downforce of adjusted in concert, to regulate this compaction forces to rolling wheel set; Also be provided with motor five (2), its a pair of power transmission shaft coordinated by gear drive each other of consistency from top to bottom on described roller pressing forming machine, motor five (2) is connected with a transmission shaft driven, and this end to power transmission shaft is in transmission connection by universal joint (11) and the end of described pair of rolls pinch roller respectively.

4. cable production line according to claim 3 is characterized in that:

Described frame single twist cabling machine also comprises: pair of bearing one (241), framework (207) is rotatably assorted on support two (204) to bearing pedestal one (241) by this, the left inside axle (501) of the hollow that is rotatably assorted in the bearing pedestal one (241) in described left side, in this left inside axle (501), be provided with for crossing the through hole of line, this through hole center line, left inside axle (501) center line and framework (207) rotation centerline overlap, also be provided with a pair of reducer of turbodrill (208) that drives described wire leading wheel (212) to rotate on described framework (207), described wire leading wheel (212) is respectively the wire leading wheel one (121) and wire leading wheel two (122) be oppositely arranged, one side of this wire leading wheel two (122) is fixed with lambda line wheel (125), wire casing on this lambda line wheel (125) aligns with the through hole center line in described left inside axle (501).

5. cable production line according to claim 1 and 2 is characterized in that:

Described rolling production line also comprises: be located at the pair of rolls pinch roller top a plurality of left and right towards and penetration pipe (19) for wearing respectively many wire harness, a cable in each penetration pipe on one roller pressing forming machine is sent into respectively in the roller pressing forming machine on adjacent right side, to carry out roll-forming; Be provided with on each line crossing bracket right side and make the multiply wire harness become one rotary die seat (41).

6. cable production line according to claim 2 is characterized in that:

Described frame single twist cabling machine also comprises: be located at the middle crossbeam (703) of described framework (207), described wire-arranging mechanism (209) comprises the motor that is suitable for rotating four (901) be fixed on crossbeam (703), the twisted wire wheel (905), the pulley one (906) and pulley two (907) that are rotatably assorted on crossbeam (703), the parallel guide rail (909) be fixed on crossbeam (703), be snug fit at the upper arc-like rows coil holder (910) of this guide rail (909); Creel stand (910) is provided with a laser range finder one (915) that is positioned at the cable thickness in coiling point left side on distance for measuring creel stand and drum left edge and drum, also is provided with the laser range finder two (916) that is positioned at the cable thickness on a coiling right side on the distance of measuring creel stand and the right-hand edge of drum and drum on creel stand (910); On creel stand (910), also being provided with a plurality of is the guide wheel of cable guide (911) and guide roller (912), also be provided with pulley three (914) on the shelf of framework (7) right side, annular bracing wire (908) is wound in a plurality of wire casings on described twisted wire wheel (905), and pass creel stand (910) through pulley one (906), pulley three (914), pulley two (907), with creel stand (910), be fixedly connected with.

7. cable production line according to claim 1 and 2 is characterized in that:

Described rolling production line also comprises: the burn out detection ring (40) for detection of the wire harness fracture of being located at the line crossing bracket left side; On described line crossing bracket and in each cable-through hole inboard, be respectively equipped with for being respectively a plurality of line directive wheels (46) of crossing of described non-central wire harness guiding.

8. cable production line according to claim 6 is characterized in that:

Described frame single twist cabling machine also comprises: the addendum cone mechanism (211) that described crossbeam (703) center is provided with, this addendum cone mechanism (211) comprises cylinder block (111), the piston that can move left and right (112) is located in cylinder block (111) and cylinder block is divided into to a left side, right two chambeies, piston is provided with a blind hole in (112), addendum cone axle (113) is actively tied in this blind hole by bearing rotary, this addendum cone axle (113) right-hand member is provided with a round boss one (115), be provided with a spring (114) between described piston (112) left end and cylinder block (111) inner left wall, the top, right side of described cylinder block (111) is provided with an air admission hole (116) and communicates with the right chamber of cylinder,

The right-hand member center rotating of described framework (207) is combined with right inside axle (502), the left end of this right inside axle (502) is rotatably assorted and is provided with round boss two (219), the left side of right inside axle (502) is fixedly connected with alignment pin (220), described drum (210) center is provided with through hole, this through hole one side is sheathed on described boss one (115), opposite side is sheathed on boss two (219), described drum (210) right flank is provided with location hole, and described alignment pin (220) is located at and is carried out spacing to drum (210) in this location hole.

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