CN209000756U - Hollow windings' machine - Google Patents

Abstract

The utility model provides a kind of hollow windings' machine, the coil winding machine includes thread feeding mechanism, winding mechanism and heating mechanism, thread feeding mechanism includes winding displacement block and wire clamp, multiple winding displacement holes are provided on winding displacement block, wire clamp is used to simultaneously clamp on more wire rods across multiple winding displacement holes, line sending while carrying out more insulated wires using this kind of method, so that during coiling, coil is turned to simultaneously using more insulated wires, effectively offer production efficiency；Winding mechanism includes roll, upper axis moving drive mechanism and rotating drive mechanism, and roll includes upper axis and lower axle, and rotating drive mechanism drives upper axis to rotate simultaneously with lower axle；Heating mechanism includes heater, heater is in U-shape, chute is provided in heater, heaters set is located at outside roll, the side of heater towards roll is provided with multiple through-holes, and through-hole is connected to chute, the winding position of through-hole face roll, so that heater directly heats the coil in coiling, energy consumption is effectively reduced.

Description

Hollow windings' machine

Technical field

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

Background technique

Currently, removing one air core coil of coiling using an enameled wire when preparing air core coil, then winding N is needed to enclose, Cause the production efficiency of the air core coil lower.When completing coil winding, it is usually used and entire mold is heated, mould The heating to coil is realized after the heating of tool, the coil after heating completes sizing, but this kind of heating method energy consumption is larger.

Utility model content

The main purpose of the utility model is to provide a kind of hollow windings' machine of effectively offer production efficiency.

To realize above-mentioned main purpose, hollow windings' machine provided by the utility model includes thread feeding mechanism, winding mechanism And heating mechanism, thread feeding mechanism include winding displacement block, wire clamp, scissors and line sending driving mechanism, are provided with multiple rows on winding displacement block String holes, wire clamp are used to simultaneously clamp on the more wire rods across multiple winding displacement holes, and a winding displacement hole corresponds to single line material, wire clamp setting Between winding displacement block and scissors, line sending driving mechanism drives wire clamp and scissors mobile simultaneously；Winding mechanism includes roll, upper axis Moving drive mechanism and rotating drive mechanism, roll include upper axis and lower axle, are provided with protruding block in lower axle, on protruding block It is provided with the first groove, the second groove, briquetting and cutter are provided on upper axis, briquetting and the cutter pass through the second groove, Upper axis moving drive mechanism drives upper axis towards or away from lower axle mobile, and protruding block briquetting and is cut into the second groove Knife enters in the first groove simultaneously, and rotating drive mechanism drives upper axis to rotate simultaneously with lower axle；Heating mechanism includes heat driven Device and heater, heater are in U-shape, and chute is provided in heater, and heater driver drives heater towards coiling Axis is mobile, and heaters set is located at outside roll, and the side of heater towards roll is provided with multiple through-holes, and through-hole and chute connect It is logical.

It can be seen that a piece insulated wire is one corresponding by the winding displacement hole on the more insulated wires to pitch of the laps simultaneously winding displacement block Winding displacement hole, wire clamp simultaneously clamp on more insulated wires, and more insulated wires extend to scissors, and driving scissors cutting prepares coil In extra insulated wire, this kind of method carry out line sending while more insulated wires, so that during coiling, using more Root insulated wire turns to coil simultaneously, and effectively more insulated wires are moved to the top of lower axle by offer production efficiency, wire clamp, then The groove of upper axis towards lower axle is mobile, so that more insulated wires enter in the groove on the protruding block of lower axle, upper axis is mobile at this time Driving mechanism drives upper axis mobile towards lower axle, and the protruding block of lower axle enters in the groove of upper axis, and the briquetting of upper axis enters lower axle Groove first point of slot, the insulated wire in groove is compressed under the action of the spring, and cutter is by the insulated wire in groove Redundance excision, upper axis is next by more insulating clamps with lower axle, and heating cylinder driving heater is mobile, logical in heater The winding position of hole face roll, so that heater directly heats the coil in coiling, so that coil heats are formed Effect is more preferable, and effectively reduces energy consumption.

Further embodiment is that thread feeding mechanism further includes fair line block, and line sending driving mechanism includes sliding block, fair line block, wire clamp And scissors is arranged on sliding block simultaneously, and fair line block is arranged between winding displacement block and wire clamp, the first through slot is provided in fair line block, The side of fair line block towards roll is provided with opening, and opening is connected to the first through slot.

As it can be seen that more insulated wires for being maintained at the same horizontal plane by fair line block, fair line block, wire clamp and scissors are simultaneously It is arranged on sliding block, so that sending money driving mechanism driving line block, wire clamp and scissors while movement, wire clamp is in clamp, more Insulated wire is able to maintain in same level.

Further embodiment is that spring is provided in upper axis, and spring connects briquetting, and cutter is arranged by briquetting, and first is recessed Slot is " T " shape, and the first groove includes first point of slot and second point of slot, and first point of slot is vertical with second point of slot, the width of first point of slot Spend the width less than second point of slot, based on lower axle towards the end face of upward axis, the depth of first point of slot less than second point of slot depth, Upper axis driving mechanism driving briquetting enters first point of slot, and cutter enters in second point of slot.

As it can be seen that upper axis driving mechanism driving briquetting enters first point of slot, cutter enters in second point of slot, the width of first point of slot The width less than second point of slot is spent, cutter is enabled accurately to cut off the insulated wire of briquetting compression, the depth of first point of slot is small In the depth of second point of slot, so that cutter can continue to move, and insulated wire is cut off after briquetting compresses insulated wire.

Further embodiment is that cutter is arranged on fixed block, and one end of fixed block towards lower axle is provided with recess portion, cutter It is arranged in recess portion.

As it can be seen that cutter is arranged in the recess portion of fixed block, the stability of enhancing cutter installation, so that the service life of cutter It is longer.

Further embodiment is that upper axis moving drive mechanism includes first driving device and link block, and link block is in ring Shape, upper axis are arranged in the inner circle of link block, and it is mobile towards lower axle that first driving device is drivingly connected block.

As it can be seen that first driving device is drivingly connected, block is mobile towards lower axle, drives the upper axis being arranged in link block mobile.

Further embodiment is that upper axis includes upper thread managing table and Upper shaft sleeve, and upper thread managing table is arranged in Upper shaft sleeve close to lower axle One end on, rotating drive mechanism include connecting rod, multiple hollow wheel gears, the first transmission belt, the second transmission belt and second drive Dynamic device, multiple hollow wheel gears include the first hollow wheel gear, the second hollow wheel gear, third hollow wheel gear and the 4th hollow tooth It takes turns, the axial direction on Upper shaft sleeve along upper axis is provided with the second through slot, and Upper shaft sleeve is arranged in the first hollow wheel gear, the first hollow wheel gear The side of Upper shaft sleeve is provided with convex block, convex block runs through the second through slot, and convex block relatively moves in the second through slot, lower axle It is arranged in the second hollow wheel gear, third hollow wheel gear and the 4th hollow wheel gear are connected to axial direction of the connecting rod along connecting rod Both ends, the first hollow wheel gear connect by the first transmission belt with third hollow wheel gear, and the second hollow wheel gear passes through second and is driven Band is connect with the 4th hollow wheel gear, and the second driving device connects the first transmission belt.

As it can be seen that the convex block of first gear runs through the second through slot of Upper shaft sleeve, upper axis moving drive mechanism drives upper axis mobile When, Upper shaft sleeve is mobile, and convex block remains stationary in the second through slot, so that the second through slot relative bump is mobile, the second driving dress When setting the second hollow wheel gear of driving and the rotation of the 4th hollow wheel gear, connecting rod rotation is driven, to drive the first hollow wheel gear Rotation, in realization axis with lower axle while rotate.

Further embodiment is that the first hollow portion is provided in Upper shaft sleeve, and hollow windings' machine further includes upper demoulding mechanism, on Demoulding mechanism includes third driving device, upper push-rod, upper pushing block and multiple upper ejector pins, axial direction of multiple upper ejector pins along Upper shaft sleeve It is arranged in upper thread managing table, the periphery of the second groove is arranged in multiple upper ejector pins, and upper push-rod is arranged in the first hollow portion, Upper shaft sleeve On be provided with third through slot, the extending direction of third through slot and Upper shaft sleeve it is axially vertical, the width of upper pushing block is greater than Upper shaft sleeve Width radially, upper pushing block run through third through slot, and upper push-rod connect with upper pushing block, third driving device driving upper push-rod, on Pushing block is mobile towards upper ejector pin.

As it can be seen that three driving devices driving upper push-rod, upper pushing block are mobile towards upper ejector pin, upper ejector pin is driven to run through upper coiling Platform realizes demoulding of the coil on upper axis so that upper ejector pin pushes the coil pasted in upper thread managing table.

Further embodiment is, winding mechanism includes protruding block driving mechanism, and lower axle includes Lower shaft sleeve and lower thread managing table, under Thread managing table connects Lower shaft sleeve close to one end of upper axis, and it is hollow that protruding block setting is provided with second in lower thread managing table, in Lower shaft sleeve Portion, protruding block driving mechanism include fourth drive device and inner push-rod, and inner push-rod is connect after running through the second hollow portion with protruding block, Fourth drive device drives inner push-rod mobile towards upward axis.

As it can be seen that fourth drive device driving push rod is mobile towards upward axis, drive protruding block mobile towards or away from upper axis, it is convex When the bittiness head face hump for descending coiling relatively, insulated wire carries out coiling around protruding block, and protruding block has no the end face for descending coiling relatively When raised, realize the fast demoulding of coil, coil is avoided to paste on protruding block.

Further embodiment is, hollow windings' machine further includes bottom knockout mechanism, bottom knockout mechanism include multiple lower push rods with And top rod driving mechanism, along thread managing table under being axially disposed within of lower axle, multiple lower push rods are arranged in protruding block multiple lower push rods Periphery, top rod driving mechanism includes that the 5th driving device and annular jacking block, lower axle are set in annular jacking block, and the 5th drives Dynamic device drives annular jacking block mobile towards multiple lower push rods.

As it can be seen that the 5th driving device drives annular jacking block mobile towards multiple lower push rods, under driving multiple lower push rods to run through Thread managing table pushes the coil pasted in lower thread managing table, realizes the demoulding of coil.

Further embodiment be further include cooling body on hollow windings' machine, cooling body includes blowing nozzle, blowing nozzle It exports towards roll.

As it can be seen that coil winding completion after, upper axis far from lower axle move, blowing nozzle towards roll winding position into Row is blown, and is rapidly cooled to the rigid coil for completing coiling.

Detailed description of the invention

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

Fig. 2 is the structure chart of thread feeding mechanism in the utility model hollow windings' machine embodiment.

Fig. 3 is the structure chart of roll in the utility model hollow windings' machine embodiment.

Fig. 4 is the sectional view of roll in the utility model hollow windings' machine embodiment.

Fig. 5 is the structure chart of upper thread managing table in the utility model hollow windings' machine embodiment.

Fig. 6 is the sectional view that the line A-A in Fig. 5 obtains.

Fig. 7 is the structure chart of lower axle in the utility model hollow windings' machine embodiment.

Fig. 8 is the sectional view that line B-B obtains along Fig. 7.

Fig. 9 is the structure chart of lower thread managing table in the utility model hollow windings' machine embodiment.

Figure 10 is sectional view when upper thread managing table is bonded with lower thread managing table in the utility model hollow windings' machine embodiment.

Figure 11 is the structure chart of heating mechanism in the utility model hollow windings' machine embodiment.

Figure 12 is the schematic internal view of heater in the utility model hollow windings' machine embodiment.

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

Specific embodiment

Hollow windings' machine of the utility model is applied in the technique of coiling air core coil, by thread feeding mechanism by insulated wire It is moved in roll, the upper axis and lower axle in roll clamp insulated wire, and roll rotation drives the protruding block band of lower axle Dynamic insulated wire starts coiling, and heater carries out heat-shaping, after coiling, demoulding mechanism driving coil to insulated wire while coiling Blanking is carried out after demoulding out of roll, several insulated wires are delivered in roll by thread feeding mechanism simultaneously by winding displacement block, several Root insulated wire pitch of the laps simultaneously, effectively improves working efficiency, and heater is in coiling excessively, directly to the coil heats in coiling, from And reduce energy consumption.

Referring to Fig. 1, hollow windings' machine of the utility model includes thread feeding mechanism 2, winding mechanism 3 and heating mechanism 4, is sent Line mechanism 2 is arranged in first support 1, and winding mechanism 3 and heating mechanism 4 are arranged in simultaneously in second support 11, second support 11 are arranged on table 12 by supporting block, and workbench 12 is arranged on working box 13.Thread feeding mechanism 2 is used for insulated wire It is delivered in winding mechanism 3, winding mechanism 3 carries out pitch of the laps to insulated wire, and heating mechanism 4 is used to carry out the insulated wire in coiling Heat-shaping.In the present embodiment, second support 1 is in the shape of an " I ", on hollow windings' machine setting there are two by thread feeding mechanism 2, The wire-winding unit that winding mechanism 3 and heating mechanism 4 form, two wire-winding units along second support 1 center line symmetrical setting, Two wire-winding units work independently, and do not interfere with each other.Referring to fig. 2, thread feeding mechanism 2 include winding displacement block 21, fair line block 22, wire clamp 23, Scissors 24 and line sending driving mechanism 25, winding displacement block 21 are arranged on table 12, and first support 1 is arranged in working box 13 It is interior, and thread feeding mechanism 2 stretches out in working box 13.Multiple winding displacement holes 211, each winding displacement hole 211 are provided on winding displacement block 21 A corresponding insulated wire.The first through slot 221 is provided in fair line block 22, more insulated wires enter fair line block after passing through winding displacement block 21 In 22 the first through slot 221, fair line block 22 is for avoiding the more insulated wires in the first through slot 221 in the process of coiling In intersect, phenomena such as overlapping, so that more insulated wires remain in same level, to guarantee finally obtained Phenomena such as coil is not in intersection or overlapping, so that the height of the first through slot 221 is greater than single insulated wire in the present embodiment The thickness thickness that is superimposed along the vertical direction less than two insulated wires simultaneously.In the present embodiment, it is provided with out on fair line block 22 Mouth 222, opening 222 are connected to the first through slot 221, and fair line block 22 includes the first fair line piecemeal 223 and the second fair line piecemeal 224, Along the vertical direction, the top of the second fair line piecemeal 224 is arranged in the first fair line piecemeal 223, and the first through slot 221 and opening 222 are same When be arranged between the first fair line piecemeal 223 and the second fair line piecemeal 224, the extension elongation of the second fair line piecemeal 224 is longer than the The extension elongation of one fair line piecemeal 223, thus during placing insulated wire, opposite first fair line of the second fair line piecemeal 224 The extension of piecemeal 223 enables more insulated wires to pass rapidly through opening 222 and enters the first through slot 221 as guide part, Improve the placement efficiency of insulated wire.

Wire clamp 23 includes upper fixture block 231 under for simultaneously clamping on the more insulated wires after fair line block 22, wire clamp 23 The top of lower fixture block 232 is arranged in fixture block 232, along the vertical direction, upper fixture block 231.In the present embodiment, upper fixture block 231 connects Cylinder 233, cylinder drives upper fixture block 231 towards or away from lower fixture block 232, to realize the opening and closure of wire clamp 23.At this In embodiment, the opening direction after wire clamp 23 opens is identical as the opening direction of fair line block 22, so that in the coiling of a coil After the completion, can enter in fair line block 22 and wire clamp 23 simultaneously to the insulated wire of pitch of the laps.Scissors 24 is provided with by wire clamp 23, at this In embodiment, scissors 24 is pneumatic scissors.

In the present embodiment, line sending driving mechanism 25 includes sliding block 251, and fair line block 22, wire clamp 23 and scissors 24 are arranged On same sliding block 251, line sending driving mechanism 25 drives the sliding block 251 to realize the movement in X-axis, Y-axis and Z-direction, To on movable slider fair line block 22, wire clamp 23 and while scissors 24 it is mobile, to guarantee that multiple insulated wires can be suitable Benefit enters in fair line block 22 and wire clamp 23, and scissors 24 can accurately cut insulated wire.In the present embodiment, fair line block 22 is set It sets between winding displacement block 21 and wire clamp 23, wire clamp 23 is arranged between fair line block 22 and scissors 4, so that clamping more in wire clamp 23 Before insulated wire, more insulated wires are maintained at the same horizontal plane by fair line block 22, and after wire clamp 23 clamps more insulated wires, it cuts Knife 24 cuts extra insulated wire portion.

In the present embodiment, pushing block 26 is additionally provided on sliding block, pushing block 26 is arranged by scissors 24, so that scissors 24 is set It sets between wire clamp 23 and pushing block 26, pushing block 26 is used for the coil blanking from winding mechanism 3 for completing coiling.

In the present embodiment, fair line block 22 connects cylinder 225, and wire clamp 23 connects cylinder 234, and scissors 24 connects cylinder 241, Pushing block 26 connects cylinder 261, and sliding block drives fair line block 22, wire clamp 23, scissors 24 to move simultaneously with pushing block 26, but fair line block 22, wire clamp 23, scissors 24 are respectively connect with cylinder with pushing block 26, in the engineering of each component work, can effectively provide position Mobile accuracy guarantees the normal work of each component.

Referring to Fig. 3, winding mechanism 3 includes roll 5, upper axis moving drive mechanism 6, rotating drive mechanism 7, upper ingot stripper Structure 8 and bottom knockout mechanism 9, roll 5 include upper axis 51 and lower axle 52, and along the vertical direction, lower axle 52 is arranged in upper axis 51 Top.Upper axis moving drive mechanism 6 drives upper axis 51 mobile towards or away from lower axle 52；Rotating drive mechanism 7 drives upper axis 51 It is rotated simultaneously with lower axle 52；Upper demoulding mechanism 8 drives the coil for being pasted onto axis 51 to be detached from upper axis 51；Bottom knockout mechanism 9 drives The coil for being pasted onto lower axle 52 is detached from lower axle 52.

Upper axis moving drive mechanism 6 includes first driving device 61 and connection ring 62, and upper axis 51 is arranged in connection ring 62 Inner ring in, first driving device 61 be drivingly connected ring 61 it is mobile when, drive the upper axis 51 being arranged in connection ring 62 mobile, the One driving device 61 is motor.Referring to fig. 4, upper demoulding mechanism 8 include third driving device 81, support frame 82, upper push-rod 83, on Pushing block 84 and multiple upper ejector pins 85, upper axis 51 include upper thread managing table 53 and Upper shaft sleeve 54, and upper thread managing table 53 connects Upper shaft sleeve 54 are provided with the first hollow portion 541 in one end of lower axle 52, Upper shaft sleeve 54.Multiple upper ejector pins 85 are set along the axial direction of upper axis 51 It sets in upper thread managing table 53, the periphery of the second groove is arranged in multiple upper ejector pins 85, and support frame 82 supports third driving device 81, Third driving device 81 connects upper push-rod 83, and third through slot, the extending direction of third through slot and upper axis 51 are provided on Upper shaft sleeve Axially vertical, upper pushing block runs through third through slot along the extending direction of third through slot, and upper push-rod 83 passes through the first hollow of Upper shaft sleeve Portion 541, upper push-rod 83 connect upper pushing block 84, and in the present embodiment, the radial width of upper pushing block 84 is greater than the radial direction of Upper shaft sleeve 54 Width, third driving device 81 drive upper push-rod 83 mobile, and pushing block 84 is mobile towards multiple upper ejector pins 85 in drive and drives Multiple upper ejector pins 85 are mobile towards lower axle 52, so that the coil being pasted on upper axis 51 is detached from upper axis 51 by driving.In this implementation In example, support frame 82 connects connection ring 62, so that upper axis moving drive mechanism 6 drives upper demoulding mechanism 8 with upper axis 51 under Axis 52 is mobile, when upper demoulding mechanism 8 is mobile, through-hole can be arranged in first support 1, frame 82 easy to support is through through-hole under Axis 52 is mobile.

In the present embodiment, referring to Fig. 5 and Fig. 6, it is provided with hollow portion 531 in upper thread managing table 53, hollow portion 531 is provided with Spring 532, briquetting 533 and cutter, spring 532 connect briquetting 533, and the elastic force direction of spring 532 is identical as upper 51 axial direction of axis, Cutter is arranged by briquetting 533.Upper thread managing table 53 is fluted towards being arranged on the end face of lower axle, the free end of briquetting 533 with cut The free end of knife is respectively facing lower axle extension, and passes through groove.In the present embodiment, cutter is arranged on fixed block 534, Gu Determine block 534 and one end of lower axle is provided with recess portion 535, cutter is arranged in recess portion 535, peace of the fixed block 534 as cutter Body is loaded, cutter is arranged in recess portion 535, can enhance the stability intensity of cutter, cutter is enabled completely to cut off insulated wire, And cutter is not easy to break.In the present embodiment, the width of the free end of briquetting 533 is less than the width of recess portion 535, so that briquetting 533 free end fully compresses more insulated wires simultaneously, and cutter can accurately cut off more insulated wires simultaneously.

Referring to Fig. 7 and Fig. 8, lower axle 52 includes lower thread managing table 55 and Lower shaft sleeve 56, is provided in second in Lower shaft sleeve 56 Empty portion 561 is provided with protruding block 57 on lower thread managing table 55, referring to Fig. 9, the first groove 571, lower axle 52 is provided on protruding block 57 On be provided with protruding block driving mechanism, protruding block driving mechanism includes inner push-rod 58 and fourth drive device 581, Lower shaft sleeve 56 The second hollow portion 561 in be provided with inner push-rod 58,58 connection bump block 57 of inner push-rod, inner push-rod 58 connects fourth drive device 581, fourth drive device 581 is cylinder, and fourth drive device 581 drives inner push-rod 58 mobile, drives protruding block 57 towards upper Axis 51 is mobile, so that protruding block 57 enters in the second groove of upper axis 51.In the present embodiment, first is provided on protruding block 57 Groove 571, during upper axis 51 is mobile towards lower axle 52, referring to Figure 10, the protruding block 57 of lower axle 52 enters upper axis 51 In second groove, and the briquetting 533 of upper axis 51 and fixed block 534 also enter in the first groove 571 of protruding block 57 of lower axle 52, To which in shape and size, the second groove of upper axis 51 is corresponding with protruding block 57, and the first of the protruding block 57 of lower axle 52 is recessed Slot 571 is also corresponding with briquetting 533, fixed block 534.In the present embodiment, the first groove 571 of lower axle 52 is " T " shape, " T " Connected in star includes first point of slot 572 and second point of slot 573, horizontal, first point of slot at the corresponding "T"-shaped middle top of second point of slot 573 One during 572 correspondences are "T"-shaped is perpendicular, and first point of slot 572 is vertical with second point of slot 573.The width of second point of slot 573 is greater than first point The width of slot 572, in the present embodiment, the width of 534 free end of fixed block are greater than the width of 533 free end of briquetting, and second point Entrance 571 position of the first groove of the corresponding fixed block 534 of slot 573, the first groove of entrance of the corresponding briquetting 533 of first point of slot 572 571 position.In the present embodiment, depth of second point of slot 573 in protruding block 57 is greater than first point of slot 572 in protruding block 57 Depth, during upper axis 51 is mobile towards lower axle 52, briquetting 533 enters protrusion with the fixed block 534 for being mounted on cutter In the first groove 571 on block 57, after briquetting 533 abuts first point of slot 572 of the first groove 571, the bullet of briquetting 533 is connected Spring 532 is compressed, and under the elastic force effect of spring 532, briquetting 533 can compress the insulated wire in the first groove 571, with This simultaneously, the fixed block 534 for being equipped with cutter is gone successively in second point of slot 573 of deeper first groove 571 of depth, by position In the insulated wire cutting in second point of slot 573.

Referring to Fig. 7, lower axle 52 is also connected with bottom knockout mechanism 9, and bottom knockout mechanism 9 includes the 5th driving device 91, lower push-rod 92, lower pushing block 93 and multiple lower push rods 94, multiple lower push rods 94 are multiple along thread managing table 55 under being axially disposed within of lower axle 52 The periphery of protruding block 57 is arranged in lower push rod 94, and lower pushing block 93 is annular pushing block, and Lower shaft sleeve 56 is arranged in annular pushing block 93 In circle, lower pushing block 93 connects lower push-rod 92, and the 5th driving device 91 drives lower push-rod 92 mobile, drive lower pushing block 93 under around Line platform 55 is mobile, to push the multiple lower push rods 94 being arranged in lower thread managing table 55 while movement, will be pasted onto lower thread managing table Coil on 54, the 5th driving device 91 are cylinder.

Referring to Fig. 3, rotating mechanism 7 includes the second driving device 71, connecting rod 72, multiple gears and two transmission belts, It in the present embodiment, include four gears in rotating mechanism 7, four gears are hollow wheel gear, and four gears are respectively first Hollow wheel gear 73, the second hollow wheel gear 74, third hollow wheel gear 75 and the 4th hollow wheel gear 76, wherein connecting rod 72 is along connection The axial both ends of bar 72 are connect with third hollow wheel gear 75, the 4th hollow wheel gear 76 respectively.The Upper shaft sleeve 54 of upper axis 51 is arranged In the first hollow wheel gear 73, wherein the Upper shaft sleeve 54 of upper axis 51 is provided with through slot, the first hollow tooth along the axial direction of Upper shaft sleeve 54 Wheel 73 is provided with multiple blocks 731 towards Upper shaft sleeve 54, and block 731 is inserted into through slot, in the driving of upper axis moving drive mechanism 6 When axle sleeve 54 is mobile, block 731 is fixed, but in 54 moving process of Upper shaft sleeve, block 731 is always in through slot.First Hollow wheel gear 73 is connect by the first transmission belt 77 with third hollow wheel gear 75.The axis of lower axle 52 is set on the second hollow wheel gear In 74, the second hollow wheel gear 74 is connect by the second transmission belt 78 with the 4th hollow wheel gear 76, and the second driving device 71 is led to simultaneously Crossing the second transmission belt 78 drives the second hollow wheel gear 74 and the 4th hollow wheel gear 76 to rotate, due to the 4th hollow wheel gear 76 and third Hollow wheel gear 75 is connect with connecting rod 72 respectively, and the rotation of the 4th hollow wheel gear 76 drives third hollow wheel gear 75 to rotate, thus Drive the first hollow wheel gear 73 to rotate, in realization axis 51 with lower axle 52 while rotate.

Referring to Figure 11, heating mechanism 4 includes mounting blocks 41, heater driver 42, heater 43 and heater installation Plate 44, mounting blocks 41 are mounted in first support 1 by mounting post 411, and heater driver 42 is cylinder, and cylinder is mounted on It fills on block 41.In the present embodiment, heater 43 is mounted on heater mounting plate 44, and heater 43 is in U-shape, so that heater It is provided with hollow 48 in 43, circular hollow is provided on heater mounting plate 44, hollow the 48 of heater 43 are pacified with heater The center of circle hollow part of loading board 44 is connected to.Referring to Figure 12, it is arranged jagged 47 on the heater 43 of " u "-shaped, is heated in heater 43 In the process, the rotation of roll 5 carries out coiling, and insulated wire in the notch 47 of heater 43 to enter in roll 5.Heater 43 It is inside provided with chute 45, heater driver 42 drives heater 43 mobile towards roll 5, and roll 5 is simultaneously through heating Hollow the 48 of device 43 in the circular hollow of heater mounting plate 44, and the side of heater 43 towards roll 5 is provided with more A through-hole 46, through-hole 46 are connected to chute 45, and steam inlet is additionally provided in heater, and steam inlet is connected to chute, make to flow High-temperature steam is full of in slot 45.

Further include cooling body on hollow windings' machine, cooling body includes blowing nozzle 10, the outlet of blowing nozzle 10 towards around Line platform.

Before carrying out first time coiling, operator is by the more insulated wires to the pitch of the laps winding displacement hole on winding displacement block 21 simultaneously 211, the corresponding winding displacement hole 211 of an insulated wire.After more insulated wires pass through winding displacement hole 211, more insulated wires pass through fair line The opening 222 of block 22 enters in the through slot 221 of fair line block 22, and more insulated wires are in same level by fair line block 22 On.After multiple insulated wires pass through fair line block 22, wire clamp 23 simultaneously clamps on more insulated wires, and more insulated wires are extended to and cut Knife 24, driving 24 cutting of scissors prepare insulated wire extra in coil, and line sending driving mechanism 25 drives fair line folder 22 and line simultaneously Folder 23 is mobile towards roll 5, so that more insulated wires remain in same level during line sending, and This kind of method carries out line sending while more insulated wires so that during coiling, using more insulated wires simultaneously around Coil is made, effectively offer production efficiency.More insulated wires are moved to the top of lower axle 52 with wire clamp 03 by fair line folder 22, then The first groove 571 towards lower axle 52 is mobile, and at the same time, fourth drive device 581 drives protruding block 57 to move towards upward axis 51 It is dynamic, so that more insulated wires enter in the first groove 571 on the protruding block 57 of lower axle 52, axis moving drive mechanism 6 is gone up at this time Axis 51 is mobile towards lower axle 52 in driving, and the protruding block 57 of lower axle 52 enters in the second groove of upper axis 51, the briquetting of upper axis 52 533 enter first point of slot 572 of the first groove 571 of lower axle 52, and briquetting 533 compresses the insulated wire in the first groove 572, and Cutter continues in second point of slot 573 of the first groove 571 that down, the excess portion of the insulated wire in the first groove 571 is cut It removes, then line sending driving mechanism 25 drives fair line folder 22 to exit and reset from winding mechanism 3 with wire clamp 23.Upper axis 51 and lower axle 52 is next by more insulating clamps, and heater driver 42 drives heater 43 mobile, 46 face of through-hole in heater 43 around The winding position of spool 5, so that heater 43 directly heats the coil in coiling, so that coil heats fixed effect is more It is good, and effectively reduce energy consumption.Rotating drive mechanism 7 drives upper axis 51 to rotate simultaneously with lower axle 52, beginning coiling, when coiling, Insulated wire enters in roll 5 from the notch 47 of heater 43.After the rotation of roll 5 stops, line sending driving mechanism 25 drives suitable Line block 22 and wire clamp 23 are moved between winding displacement block 21 and roll 5, and the insulated wire between winding displacement block 21 and roll 5 Into in fair line block 22, then wire clamp 23 clamps insulated wire, since fair line block 22 is between winding displacement block 21 and wire clamp 23, makes It obtains fair line block 22 and keeps in the same plane and then by wire clamp 23 clamping insulated wire by more insulated wires, so that in coiling During, more insulated wires remain in same level.After wire clamp 23 clamps more insulated wires, scissors 24 at this time Between wire clamp 23 and roll 5, scissors 24 cuts the insulated wire between wire clamp 23 and roll 5.Heater driver 42 driving heaters 43 are mobile far from winding position, and upper axis moving drive mechanism 6 drives upper axis 51 mobile far from lower axle 52, detection The position that the coil that coiling is completed is pasted, if coil is pasted on the upper thread managing table 53 of axis 51, cylinder 81 drives upper push-rod 83 is mobile, the movement of pushing block 84 in drive, and the upper ejector pin 85 of upper thread managing table 53 is mobile towards lower axle 52, will be pasted onto coiling The coil of platform 53 is exited from upper thread managing table 53.If coil is pasted on lower thread managing table 55, cylinder 91 drives lower push-rod 92 to drive Circumferential pushing block 93 is mobile, and the lower push rod 94 in lower thread managing table 55 is released, and the coil being pasted on lower thread managing table 55 is released.? There is pushing block 26 between scissors 24 and roll 5, pushing block 26 is also disposed on sliding block 251, and line sending mobile mechanism 25 moves pushing block 26 The coil caught to the lower section of coil and be detached from roll 5 is moved, thread feeding mechanism 2 resets, and 26 blanking of pushing block is dynamic into next coiling Make.

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 (10)

1. hollow windings' machine characterized by comprising

Thread feeding mechanism, the thread feeding mechanism include winding displacement block, wire clamp, scissors and line sending driving mechanism, are set on the winding displacement block Multiple winding displacement holes are equipped with, the wire clamp is for simultaneously clamping on the more wire rods across multiple winding displacement holes, a winding displacement Hole corresponds to a wire rod, and the wire clamp is arranged between the winding displacement block and the scissors, and the line sending driving mechanism is same When drive the wire clamp and the scissors mobile；

Winding mechanism, the winding mechanism include roll, upper axis moving drive mechanism and rotating drive mechanism, the coiling Axis includes upper axis and lower axle, and protruding block is provided in the lower axle, is provided with the first groove on the protruding block, on the upper axis It is provided with the second groove, briquetting and cutter, the briquetting and the cutter pass through second groove, and the upper axis is mobile to be driven Motivation structure drives the upper axis towards or away from the lower axle mobile, and the protruding block enters in second groove, described Briquetting and the cutter enter in first groove simultaneously, and the rotating drive mechanism drives the upper axis and the lower axle It rotates simultaneously；

Heating mechanism, the heating mechanism include heater driver and heater, and the heater is in U-shape, the heating Chute is provided in device, the heater driver drives heater mobile towards the roll, and the heaters set is located at Outside the roll, the side of the heater towards the roll is provided with multiple through-holes, the through-hole and the chute Connection.

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

The thread feeding mechanism further includes fair line block, and the line sending driving mechanism includes sliding block, the fair line block, the wire clamp and The scissors is arranged on the slide block simultaneously, and the fair line block is arranged between the winding displacement block and the wire clamp, described suitable The first through slot is provided in line block, the side of fair line block towards the roll is provided with opening, the opening and described first Through slot connection.

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

It is provided with spring in the upper axis, the spring connects the briquetting, and the cutter is arranged by the briquetting, and described the One groove is " T " shape, and first groove includes first point of slot and second point of slot, and first point of slot is vertical with second point of slot, The width of first point of slot is less than the width of second point of slot, described based on the lower axle towards the end face of the upper axis The depth of first point of slot is less than the depth of second point of slot, and the upper axis moving drive mechanism drives described in the briquetting entrance First point of slot, the cutter enter in second point of slot.

4. hollow windings' machine according to claim 3, it is characterised in that:

The cutter is arranged on fixed block, and one end of the fixed block towards the lower axle is provided with recess portion, and the cutter is set It sets within the recess.

5. hollow windings' machine according to claim 1, it is characterised in that:

The upper axis moving drive mechanism includes first driving device and link block, the link block in a ring, the upper axis It is arranged in the inner circle of the link block, the first driving device drives the link block mobile towards the lower axle.

6. hollow windings' machine according to claim 1, it is characterised in that:

The upper axis includes upper thread managing table and Upper shaft sleeve, and the Upper shaft sleeve is arranged in close to the one of the lower axle in the upper thread managing table On end, the rotating drive mechanism includes connecting rod, multiple hollow wheel gears, the first transmission belt, the second transmission belt and the second drive Dynamic device, multiple hollow wheel gears include that the first hollow wheel gear, the second hollow wheel gear, third hollow wheel gear and the 4th are hollow Gear, the axial direction on the Upper shaft sleeve along the upper axis are provided with the second through slot, and the Upper shaft sleeve setting is hollow described first In gear, the side of the first hollow wheel gear towards the Upper shaft sleeve is provided with convex block, and the convex block is logical through described second Slot, the convex block relatively move in second through slot, and the lower axle is arranged in second hollow wheel gear, described Third hollow wheel gear and the 4th hollow wheel gear are connected to axial both ends of the connecting rod along the connecting rod, institute It states the first hollow wheel gear and is connect by first transmission belt with the third hollow wheel gear, second hollow wheel gear passes through institute It states the second transmission belt to connect with the 4th hollow wheel gear, second driving device connects second transmission belt.

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

The first hollow portion is provided in the Upper shaft sleeve, hollow windings' machine further includes upper demoulding mechanism, the upper ingot stripper Structure includes third driving device, upper push-rod, upper pushing block and multiple upper ejector pins, axis of multiple upper ejector pins along the Upper shaft sleeve To being arranged in the upper thread managing table, the periphery of second groove, the upper push-rod setting is arranged in multiple upper ejector pins In first hollow portion, be provided with third through slot on the Upper shaft sleeve, the extending direction of the third through slot and it is described on Axle sleeve it is axially vertical, the width of the upper pushing block is greater than the width of the Upper shaft sleeve radially, and the upper pushing block is through described Third through slot, the upper push-rod are connect with the upper pushing block, and the third driving device drives the upper push-rod, the upper pushing block It is mobile towards the upper ejector pin.

8. hollow windings' machine according to any one of claims 1 to 7, it is characterised in that:

The winding mechanism includes protruding block driving mechanism, and the lower axle includes Lower shaft sleeve and lower thread managing table, the lower thread managing table The Lower shaft sleeve is connected close to one end of the upper axis, the protruding block is arranged in the lower thread managing table, in the Lower shaft sleeve It is provided with the second hollow portion, the protruding block driving mechanism includes fourth drive device and inner push-rod, and the inner push-rod runs through institute It is connect after stating the second hollow portion with the protruding block, the fourth drive device drives the inner push-rod to move towards the upper axis It is dynamic.

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

Hollow windings' machine further includes bottom knockout mechanism, and the bottom knockout mechanism includes multiple lower push rods and top rod driving machine Structure, multiple lower push rods are axially disposed in the lower thread managing table along the lower axle, and multiple lower push rods are arranged in institute The periphery of protruding block is stated, the top rod driving mechanism includes that the 5th driving device and annular jacking block, the lower axle are set on In the annular jacking block, the 5th driving device driving annular jacking block is mobile towards multiple lower push rods.

10. hollow windings' machine according to claim 9, it is characterised in that:

It further include cooling body on hollow windings' machine, the cooling body includes blowing nozzle, the outlet court of the blowing nozzle To the roll.