CN208903835U - Multiaxis hollow windings' machine - Google Patents

Abstract

The utility model provides a kind of multiaxis hollow windings machine, which includes injecting glue component, thread feeding mechanism, winding mechanism and heating mechanism, and injecting glue component includes injected rubber hose；Thread feeding mechanism includes line mouth and line mouth driving mechanism, and line mouth driving mechanism drives line mouth mobile, and the top of thread feeding mechanism is arranged in injected rubber hose；The lower section of thread feeding mechanism is arranged in winding mechanism, winding mechanism includes front axle, rear axle, rear axle moving drive mechanism and rotating drive mechanism, protruding block is provided on rear axle, the first groove is provided on front axle, rear axle moving drive mechanism drives rear axle mobile, line pressing component and cutter is provided on front axle, line pressing component is for compressing wire rod, cutter drives front axis for cutting wire rod, rotating drive mechanism；Heating mechanism includes heating mouth, heats the winding position between the gas outlet face front axle of mouth and rear axle, using the above structure, without realizing the sizing of coil by heating mould, effectively saves energy consumption.

Description

Multiaxis hollow windings' machine

Technical field

The utility model relates to spooling equipment fields, more particularly, to a kind of multiaxis hollow windings machine.

Background technique

Currently, be usually used and entire mold is heated when completing coil winding, it is real by the heating to mold The now heating to the coil being located in roll, the coil after heating completes sizing, but this kind of heating method energy consumption is larger.

Summary of the invention

The main purpose of the utility model is to provide a kind of multiaxis hollow windings' machine for effectively saving energy consumption.

To realize above-mentioned main purpose, multiaxis hollow windings machine provided by the utility model includes injecting glue component, line sending Mechanism, winding mechanism and heating mechanism, injecting glue component include injected rubber hose；Thread feeding mechanism includes line mouth and line mouth driving machine Structure, line mouth driving mechanism drive line mouth mobile, and the top of thread feeding mechanism is arranged in injected rubber hose；Winding mechanism is arranged in thread feeding mechanism Lower section, winding mechanism includes front axle, rear axle, line pressing component, cutter, driving assembly, rear axle moving drive mechanism and rotation Driving mechanism, one end of rear axle towards front axle are provided with protruding block, and the first groove, rear axle moving drive mechanism are provided on front axle It is mobile towards front axle to drive rear axle, and enters protruding block in the first groove, is provided on front axle and hooks conjunction portion, front axle and rear axle Between form winding position, winding position is located at the periphery of protruding block, line mouth driving mechanism drive line mouth through hook conjunction portion with around Line position, line pressing component, cutter and driving assembly are arranged on front axle, and the line pressing component is used for compressing wire rod, cutter In cutting wire rod, driving assembly is mobile for driving line pressing component and cutter, and rotating drive mechanism drives front axle and rear axle rotation； Heating mechanism includes heating mouth, heats the gas outlet of mouth towards winding position.

As it can be seen that before insulated wire passes through line mouth, the nozzle face wire rod of injected rubber hose, so that the viscose glue liquid stream in injected rubber hose To wire rod, the wire rod for being coated with viscose progress coiling is heated the gas outlet face of mouth during coiling by winding mechanism Winding position directly heats the wire rod in coiling, so that the viscose on wire rod solidifies, so that coil is determined Type is formed to coil using viscose, while being heated to binding liquid, and the sizing of coil is realized using this kind of mode, is not necessarily to The sizing of coil is realized by heating mould, effectively saves energy consumption.

Further embodiment is that injecting glue component further includes pulvinus and liquid recovery, is provided with back in liquid recovery It closes up, through slot is provided in pulvinus, the top of pulvinus is arranged in injected rubber hose, and towards through slot, pulvinus setting exists for the outlet of injected rubber hose The surface of recovery port.

As it can be seen that in winding process, through slot of the insulated wire in pulvinus, the outlet face pulvinus of injected rubber hose, so that viscous Glue all enters in pulvinus, so that viscose can be equably stained with by passing through the insulated wire of pulvinus, extra viscose in pulvinus It flow in accumulator tank.

Further embodiment is that first annular groove is provided on front axle, and first annular groove is arranged around the circumferential direction of front axle, Driving lever is provided in front of line mouth, line mouth driving mechanism driving driving lever enters in first annular groove.

As it can be seen that insulated wire is delivered in line pressing component by line mouth before coiling, the briquetting in line pressing component compresses insulation Line, after the completion of coiling, insulated wire is delivered in line pressing component by line mouth again, and at the same time, driving lever enters first annular groove It is interior, it pushes the one end for the insulated wire that line pressing component pressed originally aside, compresses the another of the insulated wire conveyed after line mouth convenient for line pressing component One end.

Further embodiment is that front axle includes preceding thread managing table and preceding connecting shaft, connecting shaft direction before preceding thread managing table connects One end of rear axle, the side of preceding thread managing table towards rear axle are provided with coiling face, circumferential side wall of the preceding thread managing table along preceding thread managing table On be provided with the first locating slot and the second locating slot, the first locating slot and the second locating slot are respectively along the axially extending of front axle, Along preceding thread managing table towards the center line symmetrical setting in coiling face, the first locating slot is to hook conjunction portion for a positioning groove and the second locating slot, Guide groove is provided on coiling face, between the first locating slot and the first groove, guide groove is positioned with first guide groove simultaneously Slot is connected to the first groove.

As it can be seen that line mouth drives insulated wire to enter in the first locating slot, and is being oriented to after line pressing component compresses insulated wire Under the guiding role of slot, line mouth drives the protruding block of insulated wire abutting rear axle, so that in front axis, in the first locating slot Under effect, front axle is able to drive by the insulated wire rotation in the first locating slot, and realizes coiling, so that the effect of coiling is more Good, after the completion of coiling, line mouth drives insulated wire to enter the second locating slot, and cutter tangent line after line pressing component crimping completes coil Coiling；The setting of first locating slot and the second locating slot for positioning end to end to coil, convenient for insulated wire preferably into Enter or goes out between front axle and rear axle.

Further embodiment is, line pressing component includes briquetting and the first spring, and driving assembly includes second spring and give up the throne Component, the both ends of the first spring are separately connected briquetting and sliding block, and cutter connection sliding block, in a ring, sliding block connects sliding block before being set in Outside spindle, before second spring is also set in outside connecting shaft, and second spring is connected between sliding block and preceding connecting shaft, preceding coiling Live conductor face is arranged towards line pressing component in platform, is provided with the second groove, the second groove of cutter face, in second spring on crimping face Elastic force effect under, sliding block is mobile towards crimping face, and Component driver sliding block of giving up the throne is mobile far from crimping face.

As it can be seen that briquetting and cutter all connection sliding blocks, under the elastic force effect of second spring, sliding block is mobile towards crimping face, The movement of briquetting and cutter is driven, so that briquetting abuts crimping face, the first spring is compressed, and is acted in the elastic force of the first spring Under, briquetting can press insulated wire；After briquetting abuts crimping face, cutter is continued to move to, and is entered in the second groove, will be insulated Line cutting, for driving sliding block mobile towards crimping face, component of giving up the throne is used to drive sliding block mobile far from crimping face the first spring, So that briquetting discharges insulated wire.

It includes first driving device and fixture that further embodiment, which is component of giving up the throne, and fixture includes two pieces of fixture blocks, sliding block On be provided with second annular groove, for second annular groove along the outer circumferential setting of sliding block, it is recessed that two pieces of fixture blocks are placed on the second annular In slot, first driving device drives fixture mobile far from crimping face.

As it can be seen that since fixture block is arranged in the second annular groove of sliding block, when first driving device driving fixture is mobile, Movement with movable slider, so that the movement of briquetting and cutter is driven, thus the insulated wire that release is pressed by briquetting.

Further embodiment is that multiple sawtooth are provided on the free end of briquetting.

As it can be seen that briquetting presses insulated wire under the action of the first spring, it is provided with multiple sawtooth on the free end of briquetting, prevents When only briquetting compresses insulated wire, the case where insulated wire has skidded.

Further embodiment is that rear axle moving drive mechanism includes that the first mounting plate and the second driving device, rear axle are set It sets on the first mounting plate, the second driving device drives the first mounting plate mobile, and rear axle moving drive mechanism connects cutting agency, Cutting agency includes scraper plate and scraper plate driving assembly, and the top of rear axle is arranged in scraper plate, and scraper plate driving assembly drives scraper plate court It is mobile to the winding position of rear axle.

As it can be seen that the second driving device drives the first mounting plate mobile towards or away from front axle simultaneously, so that setting be driven to exist Rear axle on first mounting plate towards or away from front axle movement, cutting agency also with the first mounting plate movement and move, The winding position that plate driving assembly in cutting agency drives scraper plate towards rear axle is mobile, and the coil on rear axle is scraped, thus Realize blanking.

Further embodiment is that rear axle is connected far from abutting platform, rear axle moving drive mechanism is provided on one end of front axle Second mounting plate, third driving device is provided on the second mounting plate, and the drive rod of third driving device abuts platform.

As it can be seen that the drive rod of third driving device abuts platform, so that rear axle can not rotate, so that the transmission on rear axle The angle of slot is fixed, in front axle and rear axle cooperation coiling, when the protruding block on rear axle enters the first groove of front axle, front axle Drive block can accurately cooperate with the driving groove of rear axle.

Detailed description of the invention

Fig. 1 is the structure chart of the utility model multiaxis hollow windings' machine embodiment.

Fig. 2 is the structure chart of another angle of the utility model multiaxis hollow windings' machine embodiment.

Fig. 3 is the structure chart of injecting glue component and thread feeding mechanism in the utility model multiaxis hollow windings' machine embodiment.

Fig. 4 is the structure chart of rear axle in the utility model multiaxis hollow windings' machine embodiment.

Fig. 5 is the structure chart of front axle in the utility model multiaxis hollow windings' machine embodiment.

Fig. 6 is the part-structure figure of the utility model multiaxis hollow windings' machine embodiment.

Fig. 7 is the cross-section diagram of rear axle in the utility model multiaxis hollow windings' machine embodiment.

Fig. 8 is the structure chart of component of giving up the throne in the utility model multiaxis hollow windings' machine embodiment.

Fig. 9 is the structure chart of rear axle moving drive mechanism in the utility model multiaxis hollow windings' machine embodiment.

The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.

Specific embodiment

Referring to Fig. 1 and Fig. 2, multiaxis hollow windings' machine of the utility model include rack 1, injecting glue component 2, thread feeding mechanism 3, Winding mechanism 4 and heating mechanism 10, injecting glue component 2, thread feeding mechanism 3, winding mechanism 4 and heating mechanism 10 are respectively provided with organic On frame 1, in the present embodiment, the top of thread feeding mechanism 3 is arranged in injecting glue component 2, and thread feeding mechanism 3 is arranged in winding mechanism 4 Lower section, insulated wire, into the line mouth 31 of thread feeding mechanism 3, then pass through line mouth 31 for 5 pairs of winding mechanism after injecting glue component 2 Insulated wire carries out coiling, and while coiling, the heater 101 in heating mechanism 10 directly heats insulated wire, so that line Viscose solidification on material, so that the sizing of coil, is formed to coil using viscose, while adding to binding liquid Heat realizes the sizing of coil using this kind of mode, without realizing the sizing of coil by heating mould, effectively saves energy consumption.

Referring to Fig. 3, injecting glue component 2 includes mounting plate 21, fixed frame 22, multiple injected rubber hoses 23, multiple pulvinus 24 and liquid Body accumulator tank 25, multiple injected rubber hoses 23 are arranged on mounting plate 21 simultaneously, and multiple pulvinus 24 are mounted on the upper of liquid recovery 25 Side, liquid recovery 25 are mounted on fixed frame 22.It is provided with through slot 241 in pulvinus 24, is provided in liquid recovery 25 more The top of pulvinus 24 is arranged in a recovery port, injected rubber hose 23, and in the present embodiment, outlet face one of an injected rubber hose 22 is logical The top of liquid recovery 25 is arranged in slot 241, pulvinus 24, and the top of a recovery port is arranged in a pulvinus 24.In coiling In the process, through slot 241 of the insulated wire in pulvinus 24, the outlet face pulvinus 24 of injected rubber hose 23, so that viscose all enters In pulvinus 24, so that viscose can be equably stained with by passing through the insulated wire of pulvinus 24, extra viscose is flow in pulvinus 24 In liquid recovery 25.Alternatively, pulvinus 24 includes two pulvinus pieces, two hairs of nozzle face of injected rubber hose 22 Gap between gasket, insulated wire are passed through between two pieces of pulvinus pieces.In the present embodiment, injected rubber hose 23 connects peristaltic pump, by It is acetone in the viscose, peristaltic pump can preferably extract acetone.In the present embodiment, injecting glue component further includes liquid Level sensor 26, liquid level sensor 26 is used to detect the storage of the viscose in coil winding machine, if storage can stop working in time, to It works on after supplement viscose.

Referring to fig. 2 with Fig. 3, thread feeding mechanism 3 includes multiple line mouths 31, line mouth driving mechanism 32 and mounting plate 33, installation Multiple through-holes 331 are set on plate 33, multiple line mouths 31 are mounted on mounting plate 33 simultaneously, and line mouth 31 is mounted in through-hole 331, The top of thread feeding mechanism 3 is arranged in the corresponding line mouth 31 of one through-hole 331, injected rubber hose 23, and insulated wire is passed through from injecting glue component 2 Afterwards, the line mouth 31 on mounting plate 33, the corresponding insulated wire of a line mouth 31, is finally moved to winding mechanism 4.Line mouth drives 32 drive installation plate 33 of motivation structure, 32 drive installation plate 33 of line mouth driving mechanism realize X-axis, on three directions of Y-axis and Z axis It is mobile, to drive shifting of the multiple line mouths 31 being mounted on mounting plate 33 simultaneously on three X-axis, Y-axis and Z axis directions It is dynamic.In the present embodiment, the front of each line mouth 31 is provided with a driving lever 34, and multiple driving levers 34 are also disposed at mounting plate 33 On, so that driving lever 34 is moved with the movement of line mouth 31.

The lower section of thread feeding mechanism 3 is arranged in winding mechanism 4, and line mouth driving mechanism 32 drives insulated wire to enter winding mechanism 4 It is interior.Referring to fig. 4, winding mechanism 4 includes multiple front axles 5, multiple rear axles 6, rear axle moving drive mechanism 7 and rotating drive mechanism 8, rear axle moving drive mechanism 7 drives multiple rear axles 6 mobile towards or away from front axle 5 simultaneously, and rotating drive mechanism 7 drives simultaneously Multiple front axles 5 rotate, and the rotation of front axle 5 drives the rotation of rear axle 6.Winding position, line mouth are provided between front axle 5 and rear axle 6 31 driving insulated wires to winding position carries out coiling.

Multiple front axles 5 are mounted in rack 1, referring to Fig. 5, front axle 5 include preceding thread managing table 51 and preceding connecting shaft 52, it is preceding around For connecting shaft 52 towards one end of rear axle 6, the side of preceding thread managing table 51 towards rear axle 6 is provided with coiling face 511 before line platform 51 connects, Live conductor face 512 is arranged away from the side of rear axle 6 in preceding thread managing table 51.The crimping face 512 of thread managing table 51 before preceding connecting shaft 52 connects. Axial direction on the periphery wall 513 of preceding thread managing table 51 along front axle 5 is provided with the first locating slot 514 and the second locating slot 515, and first is fixed Position slot 514 and the second locating slot 515 are fixed towards the center line symmetrical setting in the coiling face of rear axle 6 511, first along preceding thread managing table 51 Position slot needs before line mouth driving insulated wire is moved to winding position by the first locating slot, as conjunction portion is hooked so that front axis Afterwards, it is able to drive insulated wire rotation, to turn to coil.The first groove 516 and guide groove 517 are provided on coiling face 511, In the present embodiment, the first groove 516 is provided with the center in coiling face 511.Guide groove 517 is located at the first locating slot 514 and Between one groove 516, guide groove 517 is connected to the first locating slot 514, the first groove 516 simultaneously.In the present embodiment, it is preceding around First annular groove 518, circumferential direction of the first annular groove 518 around the periphery wall 513 of preceding thread managing table 51 are additionally provided on line platform 51 Setting, the first locating slot 514 and the second locating slot 515 are respectively along front axle 5 axially across first annular groove 518, so that the A positioning groove 514, the second locating slot 515 are arranged in a crossed manner with first annular groove 518 respectively.Biography is provided in first groove 516 Motion block 519, drive block 519 are in linear type, are based on coiling face 511, and the depth of the first groove 516 is greater than drive block 519 the The height being arranged in one groove 516, so that drive block 519 is arranged in the first groove 516.

Referring to Fig. 6, one end of rear axle 6 towards front axle 5 is also equipped with coiling face 61, and coiling face 61 and preceding coiling face 511 exist It is corresponding in shape and size.Protruding block 62 is provided on coiling face 61, the center in coiling face 61 is arranged in protruding block 62.? In the present embodiment, driving groove 93 is provided on protruding block 62, rear axle moving drive mechanism 7 drives rear axle 6 towards or away from front axle 5 When mobile, protruding block 62 enters in the first groove 516, and drive block 519 enters in driving groove 93, and drive block 519 is in linear type, Driving groove 93 is also in linear type.It is one-shaped drive block 519 and driving groove 93, effectively improves front axle 5 and rear axle 6 The accuracy of cooperation, so that front axle 5 preferably drives rear axle 6 to rotate when rotating drive mechanism 8 drives front axle 5 to rotate.It is passing In drive mechanism between motion block and driving groove, the shape of drive block and driving groove is non-circular, it is also possible to enough to realize preferably It is driven effect, such as the shape of drive block and driving groove can be cross, star-shaped.

Rotating drive mechanism 8 includes motor 111 and transmission belt 112, motor 111 by transmission belt 112 simultaneously with it is multiple before Axis 511 connects, and drives multiple front axles 511 while rotating.

Heating mechanism includes multiple heating mouths 101 and mounting rack 102, and multiple heating mouths 101 are mounted on mounting rack 102 On, heat the winding position between the gas outlet face front axle 5 and rear axle 6 of mouth 101.Before insulated wire passes through line mouth 31, note The nozzle face wire rod of sebific duct 23, so that the viscose in injected rubber hose 23 is flow on wire rod, winding mechanism 4 will be coated with viscose Wire rod carries out coiling, during coiling, the gas outlet face winding position of mouth 101 is heated, directly to the wire rod in coiling It is heated, so that the viscose on wire rod solidifies, to realize the sizing of coil, realizes determining for coil using this kind of mode Type effectively saves energy consumption without realizing the sizing of coil by heating mould.

Referring to fig. 4, Fig. 5 and Fig. 7, line pressing component 9, cutter 92 and driving assembly are provided on front axle 5, line pressing component 9 include briquetting 91 and the first spring 94, driving assembly include sliding block 93, second spring 95 and component 11 of giving up the throne, sliding block 93 are in Annular, before sliding block 93 is set in outside connecting shaft 52, in the present embodiment, there are also hollow portion 931, the first springs for setting in sliding block 93 94 are arranged in hollow portion, and the both ends of the first spring 94 are separately connected briquetting 91 and sliding block 93.Cutter 92 is also disposed at hollow portion It is interior, 92 connection sliding block 93 of cutter.Before second spring 95 is also set in outside connecting shaft 52, it is provided on the free end of preceding connecting shaft 52 Connected unit 561, second spring 95 are connected between sliding block 93 and the connected unit 521 of preceding connecting shaft 52.It is provided on crimping face 512 Second groove 510, briquetting 91 and cutter 92 all connection sliding blocks 93, under the elastic force effect of second spring 95, sliding block 93 is towards pressure Line face 512 is mobile, drives the movement of briquetting 91 and cutter 92, so that briquetting 91 abuts crimping face 512, the first spring 94 is pressed Contracting, under the elastic force effect of the first spring 94, briquetting 91 can press insulated wire；After briquetting 91 abuts crimping face 512, cutter 92 It continues to move to, and enters in the second groove 510, insulated wire is cut off, the first spring 94 is for driving sliding block 93 towards crimping Face 512 is mobile, and component 7 of giving up the throne is mobile far from crimping face 512 for driving sliding block 93, so that briquetting 91 discharges insulated wire.At this In embodiment, referring to Fig. 8, component 11 of giving up the throne includes first driving device 101 and multiple fixtures 102, first driving device 101 For cylinder, multiple fixtures 102 are mounted on mounting plate 103 simultaneously.Each fixture 102 includes two pieces of fixture blocks 104 and groove 105, 105 semicircular in shape of groove, the diameter of groove 105 are greater than the diameter of sliding block 93, and front axle 5 is arranged in groove 105, two fixture blocks 104 are arranged in groove 105 simultaneously, and the horizontal line based on fixture 102, and two fixture blocks 104 are arranged on sustained height, and two A fixture block 104 is oppositely arranged.Second annular groove 931 is provided on sliding block 93, second annular groove 931 is along the periphery of sliding block 93 Setting, two pieces of fixture blocks 104 are placed in second annular groove 931, when the movement of 101 drive installation plate 103 of first driving device, band When dynamic fixture 102 is mobile far from crimping face 512, the movement with movable slider 93, so that the movement of briquetting 91 Yu cutter 92 is driven, from And discharge the insulated wire pressed by briquetting 91.In the present embodiment, push rod 96 is connected on briquetting 91, push rod 96 and briquetting 91 hang down Directly.Alternatively, line pressing component 9 can connect different driving devices from cutter 92, to respectively drive line pressing component With the movement of cutter 92.

Multiple sawtooth 911 are provided on the free end of briquetting 91, briquetting 91 presses insulation under the action of the first spring 94 When line, the case where can preventing insulated wire from having skidded.

Referring to Fig. 9, rear axle moving drive mechanism 7 includes the first mounting plate 71 and the second driving device 72, the second driving Device 72 is cylinder, and multiple rear axles 6 are arranged on the first mounting plate 71, and the second driving device 72 drives the first mounting plate 71 to move It is dynamic, drive multiple rear axles 6 mobile towards front axle 5.Rear axle moving drive mechanism 7 connects cutting agency 11, and cutting agency 11 includes The top of multiple rear axles 6 is arranged in scraper plate 111 and scraper plate driving assembly, scraper plate 111, and scraper plate driving assembly drives scraper plate 111 Winding position towards rear axle 6 is mobile.In the present embodiment, annular groove 64 is provided on rear axle 6, annular groove 64 is around rear axle 6 circumferential setting, the corresponding rear axle 6 of 111 moving assembly of scraper plate, 111 moving assembly of scraper plate include two fixture blocks 112 with And cylinder, two fixture blocks 112 are connect with scraper plate 111 simultaneously, cylinder drives two fixture blocks 112 mobile simultaneously, in the present embodiment, Two fixture blocks 112 are arranged in the annular groove 64 of rear axle 6 simultaneously, so that annular groove 64 of two fixture blocks 112 in rear axle 6 It is moved in width range, thus the moving range of limiting scraper 111.Cylinder drives two fixture blocks 112 mobile simultaneously, to drive Scraper plate 111 is mobile towards front axle 5, the coil for being pasted onto rear axle 6 is blown off from rear axle 6, in the present embodiment, under rear axle 6 Side is provided with inclined plate 12, and the lower section of inclined plate 12 is provided with magazine 13, after being detached from the coil of rear axle 6, falls and sets inclined plate 12, from oblique It slides on plate 12 to magazine 13, charges convenient for operator.Second driving device 72 drives 71 court of the first mounting plate simultaneously It is mobile to or far from front axle 5, to drive, the shifting of multiple rear axles 6 on the first mounting plate 71 towards or away from front axle 5 is set It is dynamic, cutting agency 11 also with the first mounting plate 71 movement and move, the plate driving assembly in cutting agency 11 drives scraper plate 111 towards rear axle 6 winding position it is mobile, the coil on rear axle 6 is scraped, to realize blanking, in the present embodiment, scraper plate Spring 114 is also connected between 111 and rear axle moving drive mechanism 7, the spring is for limiting the movement of scraper plate 111. In the present embodiment, infrared sensor 113 is additionally provided with by the coiling face 61 of rear axle 6, infrared sensor 113 is for detecting rear axle On be all to be stained with coil.

Referring to Fig. 1, rear axle 6 is provided on one end far from front axle 5 abuts platform 65, and rear axle moving drive mechanism 7 is also connected with Second mounting plate 132 is provided with multiple third driving devices 13, the drive rod of third driving device 13 on second mounting plate 132 131 abut platform 65.The drive rod 131 of third driving device 13 abuts platform 65, so that rear axle 6 can not rotate, so that The angle of driving groove 93 on rear axle 6 is fixed, when front axle 5 and rear axle 6 cooperate coiling, before the protruding block 62 on rear axle 6 enters When the first groove 516 of axis 5, the drive block 519 of front axle 5 can accurately cooperate with the driving groove 93 of rear axle 6.

Insulated wire passes through pulvinus 24, spreads viscose so that can uniformly apply on insulated wire.It is coated with the insulation of viscose Property pass through line mouth 31 after, manual actuation push rod 96, pass through briquetting 91 compress insulated wire the end of a thread.Line mouth driving mechanism 32 drives line Mouth 31, drive insulated wire enter in the first locating slot 514 of front axle 5, and under the guiding of guide groove 517 and line mouth driving Under the driving of mechanism 32, insulated wire is located at the coiling face 511 of front axle 5, and at the same time, rear axle moving drive mechanism 7 drives rear axle 6 Towards forward movement, protruding block 62 enters the first groove 516, and drive block 519 enters driving groove 93.It is driven in rotating drive mechanism 8 Before front axle 5 rotates, the drive rod of third driving device is mobile far from platform is abutted, and then rotating drive mechanism 8 drives multiple front axles 5 It rotates simultaneously, each front axle 5 drives rear axle 6 corresponding thereto to rotate.Under the guiding of guide groove 517, insulated wire can be more It is accurately adjacent to the protruding block 62 into the first groove 516, so that the effect of coiling is more preferable.After rotation stops, component 11 of giving up the throne It drives sliding block 93 to retreat, briquetting 91 is driven no longer to press the end of a thread of insulated wire, line mouth 31 drives insulated wire to enter the second locating slot After 515, continue towards the movement of line pressing component 9, in the process of moving, the driving lever 34 in 31 front of line mouth enters the second of front axle 5 Annular groove 518 chooses out the insulated wire decontroled by briquetting 91, vacates position for the subsequent insulated wire into crimping face 512.Line Mouth 31 drives insulated wire to crimping face 512, and under the elastic force effect of second spring 95, sliding block 93 is mobile, and briquetting 91 is driven to press Press insulated wire on line face 512, and cutter 92 enters second groove 510 in crimping face 512, breaks off in 510 inscribe of the second groove Edge line, after briquetting 91 presses insulated wire, 92 ability of cutter cuts off insulated wire, briquetting 91 compress insulated wire after, insulated wire into Enter in the first locating slot 514, under the guiding role of guide groove 517, line mouth 31 drives insulated wire to be close to protruding block 62, so that around The effect of line is more preferable, and the setting of the first locating slot 514 and the second locating slot 515 is convenient for for positioning end to end to coil Insulated wire preferably enters or goes out between front axle 5 and rear axle 6.Rear axle moving drive mechanism 7 drives rear axle 6 to move far from front axle 5 It is dynamic, since during coiling, insulated wire is close to the protruding block 62 of rear axle 6, so that the movement of rear axle 6 is with moving winding It is mobile.Rear axle 6 is mobile stop after, 111 driving mechanism of scraper plate drives scraper plate 111 mobile, will be pasted onto the coil on rear axle 6 from rear It is scraped on axis 6, convenient for charging.After scraper plate 111 resets, the coiling of next coil can be carried out.

Finally it is emphasized that the above is only the preferred embodiment of the present invention, it is not limited to this reality With novel, for those skilled in the art, the utility model can have various change and change, all in the utility model Spirit and principle within, any modification, equivalent substitution, improvement and etc. done should be included in the protection model of the utility model Within enclosing.

Claims (9)

1. multiaxis hollow windings' machine characterized by comprising

Injecting glue component, the injecting glue component includes injected rubber hose；

Thread feeding mechanism, the thread feeding mechanism include line mouth and line mouth driving mechanism, and the line mouth driving mechanism drives the line Mouth is mobile, and the top of the thread feeding mechanism is arranged in the injected rubber hose；

Winding mechanism, the winding mechanism are arranged in the lower section of the thread feeding mechanism, the winding mechanism include front axle, rear axle, Line pressing component, cutter, driving assembly, rear axle moving drive mechanism and rotating drive mechanism, the rear axle is towards the front axle One end be provided with protruding block, be provided with the first groove on the front axle, the rear axle moving drive mechanism drives the rear axle It is mobile towards the front axle, and enter the protruding block in first groove, it is provided on the front axle and hooks conjunction portion, institute It states and forms winding position between front axle and the rear axle, the winding position is located at the periphery of the protruding block, and the line mouth drives Motivation structure drives the line mouth by the hook conjunction portion and the winding position, the line pressing component, the cutter and the drive Dynamic component is arranged on the front axle, and the line pressing component is for compressing wire rod, and the cutter is for cutting off wire rod, the drive Dynamic component is mobile for driving the line pressing component and cutter, and the rotating drive mechanism drives the front axle and the rear axle to turn It is dynamic；

Heating mechanism, the heating mechanism include heating mouth, and the gas outlet of the heating mouth is towards the winding position.

2. multiaxis hollow windings machine according to claim 1, it is characterised in that:

The injecting glue component further includes pulvinus and liquid recovery, and recovery port, the hair are provided in the liquid recovery It is provided with through slot in pad, the injected rubber hose is arranged in the top of the pulvinus, and the outlet of the injected rubber hose is towards the through slot, institute State the surface that the recovery port is arranged in pulvinus.

3. multiaxis hollow windings machine according to claim 1, it is characterised in that:

First annular groove, circumferential direction setting of the first annular groove around the front axle, the line are provided on the front axle Driving lever is provided in front of mouth, the line mouth driving mechanism drives the driving lever to enter in the first annular groove.

4. multiaxis hollow windings machine according to claim 1, it is characterised in that:

The front axle includes preceding thread managing table and preceding connecting shaft, and the preceding thread managing table connects the preceding connecting shaft towards the rear axle One end, the side of preceding thread managing table towards the rear axle is provided with coiling face, and the preceding thread managing table is along the preceding thread managing table Circumferential side wall on be provided with the first locating slot and the second locating slot, first locating slot and second locating slot difference Along the axially extending of front axle, first locating slot and second locating slot are along the preceding thread managing table towards the coiling face Center line symmetrical setting, first locating slot are the hook conjunction portion, are provided with guide groove, the guide groove on the coiling face Between first locating slot and first groove, the guide groove simultaneously with first locating slot and described first Groove connection.

5. multiaxis hollow windings machine according to claim 4, it is characterised in that:

The line pressing component includes briquetting and the first spring, and the driving component includes sliding block, second spring and component of giving up the throne, institute The both ends for stating the first spring are separately connected the briquetting and the sliding block, and the cutter connects the sliding block, and the sliding block is in ring Shape, the sliding block are set in outside the preceding connecting shaft, and the second spring is also set in outside the preceding connecting shaft, and described Two springs are connected between the sliding block and the preceding connecting shaft, and live conductor is arranged towards the line pressing component in the preceding thread managing table Face, the second groove is provided on the crimping face, and the second groove described in the cutter face is made in the elastic force of the second spring Under, the sliding block is mobile towards the crimping face, and the sliding block described in Component driver of giving up the throne is mobile far from the crimping face.

6. multiaxis hollow windings machine according to claim 5, it is characterised in that:

The component of giving up the throne includes first driving device and fixture, and the fixture includes two pieces of fixture blocks, is arranged on the sliding block There is second annular groove, along the outer circumferential setting of the sliding block, two pieces of fixture blocks are placed on described the second annular groove In second annular groove, the first driving device drives the fixture mobile far from the crimping face.

7. multiaxis hollow windings machine according to claim 6, it is characterised in that:

Multiple sawtooth are provided on the free end of the briquetting.

8. multiaxis hollow windings machine according to claim 1, it is characterised in that:

The rear axle moving drive mechanism includes the first mounting plate and the second driving device, and the rear axle is arranged described first On mounting plate, second driving device drives first mounting plate mobile, and the rear axle moving drive mechanism connects blanking Mechanism, the cutting agency include scraper plate and scraper plate driving assembly, and the top of the rear axle is arranged in the scraper plate, described to scrape The winding position that plate driving assembly drives the scraper plate towards the rear axle is mobile.

9. multiaxis hollow windings machine according to claim 8, it is characterised in that:

The rear axle is provided with abutting platform, second installation of rear axle moving drive mechanism connection on one end far from the front axle Plate, third driving device is provided on second mounting plate, and the drive rod of the third driving device abuts the abutting platform.