CN204449123U - Full-automatic centreless filament winding device - Google Patents
Full-automatic centreless filament winding device Download PDFInfo
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- CN204449123U CN204449123U CN201520137276.4U CN201520137276U CN204449123U CN 204449123 U CN204449123 U CN 204449123U CN 201520137276 U CN201520137276 U CN 201520137276U CN 204449123 U CN204449123 U CN 204449123U
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Abstract
The utility model discloses a kind of full-automatic centreless filament winding device, comprise support (1), the synchronous polish rod driving device (2) be arranged on support (1), the wrapping wire push rod frame head apparatus (4) be arranged on support (1), the wrapping wire draw-bar machine head unit (3) be arranged on support (1), the electromagnet shredding knife (6) that is arranged on the wire feeder (5) on bedstead and is arranged on support (1).The beneficial effects of the utility model are: the utility model in wrapping wire without the need to fuse, therefore without the need to using sulfuric acid etc., stop the pollution that fuse produces, and the utility model is except needing when just starting wrapping wire manually tungsten filament and wrapping wire tungsten bar plug to be overlapped, without the need to manual operation when reusing wrapping wire, there is programme-control completely, reduce the input of manpower, and programme-control precision is high, decreases the waste of material, improve economic benefit.
Description
Technical field
The utility model relates to a kind of full-automatic centreless filament winding device.
Background technology
In the electric light source such as incandescent lamp, halogen tungsten lamp, tungsten filament is the most frequently used filament, filament resistance at room temperature has even hundreds of Europe, tens Europe, resistance large like this, and its length is very long, bulb cannot hold, and the heat that electric current is produced by filament will soon exhale, filament can not be made to reach predetermined temperature (about 2000 °), and filament does curl, be conducive to insulation, also can add when same resistance filament simultaneously and greatly shorten filament length.
Prior art is: making filament roughly has three steps by helically wound for tungsten filament step, sizing respectively, cut silk and fuse, be specially and core silk is set on spiral filament forming machine, then by tungsten filament around on core silk, at tungsten filament when to the length specified, after annealing in hydrogen atmosphere sizing, tungsten filament and core silk are together cut, being placed on by the core silk being wound with tungsten filament holds in the container of sulfuric acid again, core silk is dissolved in sulfuric acid, the tungsten filament wound, in the prior art, sulfuric acid will be used in fuse process, seriously polluted, instantly stricter in environmental protection requirement, this is obviously not all right, according to statistics, only Nanjing one city just has tens of filament manufactories to be forced to stop production by government due to pollution problem, some even closes down, on the other hand, each step of above-mentioned three steps all will manually complete, human input is large, the cost of filament winding is also in higher level all the time, simultaneously because manually-operated speed is slow, the efficiency of whole coiling is not high yet, therefore design a kind of can not be imperative to environment, cost is low, coiling efficiency is high filament winding device.
When making filament, annealing in process to be done to tungsten filament, to reduce the hardness of tungsten filament, improving the machinability of tungsten filament, eliminate the residual stress of tungsten filament, stable dimensions, at the annealing way making routine in filament be, before tungsten filament wrapping wire, first energising makes tungsten filament temperature raise, be energized to the cooling of Filament Winding process tungsten filament, complete annealing, in prior art, tungsten filament and core silk are communicated with respectively to two electrodes of the annealing of tungsten filament, such result is, the close together of two electrodes, the distance of tungsten filament heating is very short, therefore the filament that coiling is shorter is only suitable for, and longer filament winding will be realized, existing filament winding device or can not realize, though can lay out, but the filament effect extreme difference laid out.
Summary of the invention
The purpose of this utility model is to provide a kind of full-automatic centreless filament winding device, solves the technical problem that in prior art filament manufacture process, environmental pollution is serious.
For solving the problem, the technological means that the utility model is taked is:
A kind of full-automatic centreless filament winding device, comprises support, the synchronous polish rod driving device be arranged on support, the wrapping wire push rod frame head apparatus be arranged on support, the wrapping wire draw-bar machine head unit be arranged on support, is arranged on the wire feeder on support and is arranged on the electromagnet shredding knife on support.
Described wrapping wire draw-bar machine head unit comprises the servo motor seat be slidably arranged on support, is arranged on the servomotor in servo motor seat and is arranged on the electromagnet jaw in servo motor seat; Servo motor seat is slided in the horizontal direction on support, drives servomotor to move in the horizontal direction.
Described synchronous polish rod driving device comprises the polished rod rotated by driven by servomotor, and the two ends of described polished rod are rotated and are arranged on support; While described servomotor moves in the horizontal direction, the first polished rod is also driven to rotate.
Described wrapping wire push rod frame head apparatus comprises two ends and rotates the first stepper motor being arranged on hollow rotational slide orbitron on support, being arranged on the wrapping wire tungsten bar plug in hollow rotational slide orbitron and driving wrapping wire tungsten bar to move horizontally in hollow rotational slide orbitron, described hollow rotational slide orbitron and electromagnet jaw conllinear and described hollow rotational slide orbitron and polished rod synchronous axial system; Described wrapping wire tungsten bar plug moves in the horizontal direction in hollow rotational slide orbitron, for wrapping wire, because wrapping wire tungsten bar plug is reciprocating in the horizontal direction by the first driving stepper motor, so after wrapping wire completes, wrapping wire plug can be extracted out from the tungsten filament wound, in the tungsten filament after that is winding, there is no wrapping wire plug, therefore also just not be used in follow-up fuse process, therefore, also just do not pollute.
Described wire feeder comprises the wire feed slide plate be slidably arranged on support, the electromagnet be arranged on wire feed slide plate, electromagnet wire guiding nipple and energising annealing folder, and described electromagnet wire guiding nipple is fixed on electromagnet, energising annealing folder connects zero line and live wire respectively, tungsten filament is through the heating of energising annealing folder, tungsten filament clips to the time cooling reached between wrapping wire tungsten bar plug by two annealing, realize annealing, after a wrapping wire completes, wire feed slide plate retreats to the distance of setting towards the direction away from wrapping wire tungsten bar plug, electromagnet energising clamping tungsten filament, then tungsten filament is cut off, electromagnet jaw unclamps, now wrapping wire tungsten bar plug is extracted out, filament falls naturally, wire feed slide plate advances towards the direction of wrapping wire tungsten bar plug again, tungsten filament is ridden on wrapping wire tungsten bar plug, electromagnet jaw clamping tungsten filament and wrapping wire tungsten bar plug, proceed wrapping wire, thus realize uninterruptedly carrying out of wrapping wire, herein two energising annealing folders distance can according to will around the length of tungsten filament set.
The blade of described electromagnet shredding knife is positioned at hollow rotational slide orbitron near the end of wrapping wire draw-bar machine head unit one end, and electromagnet shredding knife is arranged on one end of hollow rotational slide orbitron, for cutting off the tungsten filament wound.
As further improvement of the utility model, described support is arranged by the second stepper motor driven first screw mandrel, the first described screw mandrel passes the bottom of servo motor seat and is connected with the bottom thread of servo motor seat; First screw mandrel is connected with the bottom thread of servo motor seat, and the first screw mandrel rotates, and drive servo motor seat is moved along the axial direction of screw mandrel.
As further improvement of the utility model, described support is provided with the first track polished rod parallel with the first screw mandrel, the first described track polished rod is through servo motor seat, and servo motor seat is driven by the first screw mandrel and moves back and forth on the first track polished rod; First track polished rod is set, spacing effect is played to servo motor seat, rotate around the first screw mandrel when preventing servo motor seat from moving on the first screw mandrel.
As further improvement of the utility model, described synchronous polish rod driving device also comprises the first slide head be arranged on polished rod, the first described slide head comprises the first linear bearing be arranged on polished rod, first inner sleeve, first rolling bearing and the first overcoat be arranged on the first housing washer, the stub end of the first described inner sleeve is enclosed within the first linear bearing, the little head end radial direction of the first inner sleeve have T-shaped through hole, described polished rod has the first keyway, in described T-shaped through hole, T-shaped key is set, the little head end of described T-shaped key stretches in the first keyway, the first described overcoat and servo motor seat fix, the first described inner sleeve is rotated by driven by servomotor.The setting of the first linear bearing, realize the first slide head on polished rod along horizontal movement on the direction of polished rod axis, first rolling bearing is set, while realizing the first linear bearing rotation, first overcoat does not rotate, due to the setting of the first keyway and T-shaped key, while achieving polished rod, the first linear bearing and the first inner sleeve synchronous axial system, can move in the horizontal direction again, the effect of T-shaped key prevents the first inner sleeve and polished rod from relatively rotating, and the ultimate range that the first slide head moves in the horizontal direction is determined by the length of the first keyway.
As further improvement of the utility model, the little head end of the first described inner sleeve arranges the first synchronous pulley, the output shaft of described servomotor is arranged the second synchronous pulley, the first described synchronous pulley is connected by Timing Belt with the second synchronous pulley.Toothed belt transmission, stable drive, eliminates the vibration produced in transmission process.
As further improvement of the utility model, described wrapping wire push rod frame head apparatus also comprises and to be arranged on support by the first stepper motor driven second screw mandrel and to be arranged on the second slide head on hollow rotational slide orbitron, the second described slide head comprises the second linear bearing be arranged on hollow rotational slide orbitron, second inner sleeve, be arranged on the second rolling bearing put in second and the second overcoat be arranged on the second housing washer, the stub end of the second described inner sleeve is enclosed within the second linear bearing, described hollow rotational slide orbitron in axial direction has the second keyway, the little head end of the second described inner sleeve is connected with wrapping wire tungsten bar plug by the connector through the second keyway, put outside described second and slide is set, described slide is connected with the second wire rod thread.Second linear bearing is set, achieve the horizontal movement of the second slide head along the axis direction of hollow rotational slide orbitron, second rolling bearing is set, realize first axle bearing while rotation, second overcoat does not rotate, second inner sleeve, hollow rotational slide orbitron, wrapping wire tungsten bar plug and the first linear bearing synchronous axial system, the length of the second keyway determines the ultimate range that the second slide head moves on hollow rotational slide orbitron.
As further improvement of the utility model, the little head end radial direction of the second described inner sleeve have the first screwed hole and the second screwed hole, described connector comprises the sliding sleeve be arranged on wrapping wire tungsten bar plug, first screw rod and the second screw rod, described sliding sleeve have along the through hole of its axis and the 3rd screwed hole radially and the 4th screwed hole, the first described screw rod has the hole passed for wrapping wire tungsten bar plug, the first described screw rod is threaded with the first screwed hole and the 3rd screwed hole, the second described screw rod is threaded with the second screwed hole and the 4th screwed hole and compresses wrapping wire tungsten bar plug.First screw rod rocks in the radial direction of sliding sleeve for preventing wrapping wire tungsten bar plug, second screw rod is used for preventing wrapping wire tungsten bar plug in its axis direction and sliding sleeve generation relative motion, because the little head end of the first inner sleeve does not arrange synchronous pulley, so, be threaded with the first inner sleeve and sliding sleeve with screw rod, prevent connector from coming off in rotation.
As further improvement of the utility model: described hollow rotational slide orbitron arranges the 3rd synchronous pulley, described polished rod is arranged the 4th synchronous pulley, the 3rd described synchronous pulley is connected by Timing Belt with the 4th synchronous pulley.Toothed belt transmission, stable drive, eliminates the vibration produced in transmission process.
As further improvement of the utility model, described wire feeder also comprises and being arranged on by the 3rd stepper motor driven 3rd screw mandrel on support, and described wire feed slide plate is connected with the 3rd wire rod thread.Wire feed slide plate and the 3rd wire rod thread connect and compose screw thread pair, when the 3rd driving stepper motor the 3rd screw mandrel rotates, drive wire feed skateboarding.
As further improvement of the utility model, described wire feeder also comprises the second track polished rod parallel with the 3rd screw mandrel, and the second described track polished rod passes wire feed slide plate and two ends are arranged on support.Second track polished rod is set, spacing effect is played to wire feed slide plate, rotate around the 3rd screw mandrel when preventing wire feed slide plate from moving on the 3rd screw mandrel.
In sum, the beneficial effects of the utility model are: the utility model in wrapping wire without the need to fuse, therefore without the need to using sulfuric acid etc., stopped the pollution that fuse produces, and the utility model is except needing when just starting wrapping wire manually tungsten filament and wrapping wire tungsten bar plug to be overlapped, without the need to manual operation when reusing wrapping wire, there is programme-control completely, reduce the input of manpower, and programme-control precision is high, decrease the waste of material, improve economic benefit.Can according to the distance will annealed between folder around length setting two energising of tungsten filament in the utility model, namely the application can around longer silk, also can around shorter filament, compared to existing technology two energising annealing folder respectively connect tungsten filament be connected with plug, the length of annealing rises appreciably, and therefore the application can be longer around the length of tungsten filament.It is simple that the utility model also has structure, easy to operate advantage.
Accompanying drawing explanation
Fig. 1 is top view of the present utility model.
Fig. 2 is front view of the present utility model.
Fig. 3 is the structural representation of the second slide head in reaction the utility model.
Fig. 4 is the partial enlarged drawing at A place in Fig. 3.
Fig. 5 is the structural representation of the first slide head in reaction the utility model.
Fig. 6 is the partial enlarged drawing at B place in Fig. 5.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further.
Full-automatic centreless filament winding device as depicted in figs. 1 and 2, comprise support 1, the synchronous polish rod driving device 2 be arranged on support 1, the wrapping wire push rod frame head apparatus 4 be arranged on support 1, the wrapping wire draw-bar machine head unit 3 be arranged on support 1, the electromagnet shredding knife 6 that is arranged on the wire feeder 5 on support 1 and is arranged on support 1.
The electromagnet jaw 303 that described wrapping wire draw-bar machine head unit 3 comprises the servo motor seat 301 be slidably arranged on support 1, is arranged on the servomotor 302 in servo motor seat 301 and is arranged in servo motor seat 301; Described support 1 is arranged by the second stepper motor driven first screw mandrel 304, the first described screw mandrel 304 passes the bottom of servo motor seat 301 and is connected with the bottom thread of servo motor seat 301, described support 1 is provided with the first track polished rod 305 parallel with the first screw mandrel 304, the first described track polished rod 305 is through servo motor seat 301, and servo motor seat 301 is driven by the first screw mandrel 304 and moves back and forth on the first track polished rod 305.
Described synchronous polish rod driving device 2 comprises the polished rod 201 being driven rotation by servomotor 302, and the two ends of described polished rod 201 are rotated and are arranged on support 1, described synchronous polish rod driving device 2 also comprises the first slide head 202 be arranged on polished rod 201, the first described slide head 202 comprises the first linear bearing 203 be arranged on polished rod 201, first inner sleeve 204, first rolling bearing 205 and the first overcoat 208 be arranged on the first rolling bearing 205 outer ring, the stub end of the first described inner sleeve 204 is enclosed within the first linear bearing 203, the little head end radial direction of the first inner sleeve 204 have T-shaped through hole 210, described polished rod 201 has the first keyway 209, in described T-shaped through hole 210, T-shaped key 211 is set, the little head end of described T-shaped key 211 stretches in the first keyway 209, the first described overcoat 208 fixes with servo motor seat 301, the first described inner sleeve 204 drives rotation by servomotor 302.The little head end of the first described inner sleeve 204 arranges the first synchronous pulley 206, the output shaft of described servomotor 302 is arranged the second synchronous pulley 207, the first described synchronous pulley 206 is connected by Timing Belt with the second synchronous pulley 207.
Described wrapping wire push rod frame head apparatus 4 comprises two ends and rotates the first stepper motor being arranged on hollow rotational slide orbitron 401 on support 1, being arranged on the wrapping wire tungsten bar plug 402 in hollow rotational slide orbitron 401 and driving wrapping wire tungsten bar to move horizontally in hollow rotational slide orbitron 401, and described hollow rotational slide orbitron 401 is with electromagnet jaw 303 conllinear and described hollow rotational slide orbitron 401 and polished rod 201 synchronous axial system, described wrapping wire push rod frame head apparatus 4 also comprises and being arranged on support 1 by the first stepper motor driven second screw mandrel 403 and the second slide head 404 of being arranged on hollow rotational slide orbitron 401, the second described slide head 404 comprises the second linear bearing 405 be arranged on hollow rotational slide orbitron 401, second inner sleeve 406, the second overcoat 408 being arranged on the second rolling bearing 407 in the second inner sleeve 406 and being arranged on the second rolling bearing 407 outer ring, the stub end of the second described inner sleeve 406 is enclosed within the second linear bearing 405, described hollow rotational slide orbitron 401 in axial direction has the second keyway 409, the little head end of the second described inner sleeve 406 is connected with wrapping wire tungsten bar plug 402 by the connector through the second keyway 409, the second described overcoat 408 arranges slide 408, described slide 408 is threaded with the second screw mandrel 403.The little head end radial direction of the second described inner sleeve 406 have the first screwed hole 413 and the second screwed hole 414, described connector comprises the sliding sleeve 415 be arranged on wrapping wire tungsten bar plug 402, first screw rod 416 and the second screw rod 417, described sliding sleeve 415 have along the through hole of its axis and the 3rd screwed hole 418 radially and the 4th screwed hole 419, the first described screw rod 416 has the hole passed for wrapping wire tungsten bar plug 402, the first described screw rod 416 is threaded with the first screwed hole 413 and the 3rd screwed hole 418, the second described screw rod 417 is threaded with the second screwed hole 414 and the 4th screwed hole 419 and compresses wrapping wire tungsten bar plug 402.Described hollow rotational slide orbitron 401 arranges the 3rd synchronous pulley 411, described polished rod 201 is arranged the 4th synchronous pulley 412, the 3rd described synchronous pulley 411 is connected by Timing Belt with the 4th synchronous pulley 412.
Described wire feeder 5 comprises the wire feed slide plate 501 be slidably arranged on support 1, the electromagnet 502 be arranged on wire feed slide plate 501, electromagnet wire guiding nipple 503 and energising annealing folder 504, and described electromagnet wire guiding nipple 503 is fixed on electromagnet 502; Described wire feeder 5 also comprises and being arranged on support 1 by the 3rd stepper motor driven 3rd screw mandrel 505, described wire feed slide plate 501 is threaded with the 3rd screw mandrel 505, described wire feeder 5 also comprises the second track polished rod 506 parallel with the 3rd screw mandrel 505, and the second described track polished rod 506 passes wire feed slide plate 501 and two ends are arranged on support 1.
The blade of described electromagnet shredding knife 6 is positioned at the end of hollow rotational slide orbitron 401 near wrapping wire draw-bar machine head unit 3 one end.
Wire feeder 5 in the utility model and wrapping wire push rod frame head apparatus 4 are in 90 ° of angles.Second driving stepper motor first screw mandrel 304 rotates, because the first screw mandrel 304 is threaded with servo motor seat 301, so servo motor seat 301 the first screw axis to side move upward, thus drive servomotor 302 and electromagnet jaw 303 to move in the same way together, servomotor 302 drives the first slide head 202 by Timing Belt, first slide head 202 is rotated at drive polished rod 201, moves along polished rod 201 from polished rod 201.Polished rod 201 moves, and drive hollow rotational slide orbitron 401 to rotate by Timing Belt, simultaneously, first driving stepper motor second screw mandrel 403 rotates, because the second overcoat 408 is threaded with the second screw mandrel 403, therefore the second overcoat 408 moves along the length direction of the second screw mandrel 403, thus drive the second slide head 404 to move on the length direction of the second screw mandrel 403, because the second inner sleeve 406 of the second slide head 404 is connected with wrapping wire tungsten bar plug 402 by connector, therefore, wrapping wire tungsten bar plug 402 realizes in hollow rotational slide orbitron 401 mobile.During wrapping wire, tungsten filament is passed electricity annealing folder 504 and the electromagnet wire guiding nipple 503 of wire feeder 5, now wrapping wire tungsten bar plug 402 moves in hollow rotational slide orbitron 401, only expose a bit, manually by the overlapping splice of tungsten filament on wrapping wire tungsten bar plug 402, electromagnet jaw 303 clamps tungsten filament and wrapping wire tungsten bar plug 402, wrapping wire tungsten bar plug 402 rotates and moves to the direction outside hollow rotational slide orbitron 401, by tungsten filament around on wrapping wire tungsten bar plug 402, when to predetermined length, tungsten filament is cut off by electromagnet shredding knife 6, electromagnet jaw 303 unclamps, wrapping wire tungsten bar plug 402 moves in hollow rotational slide orbitron 401, extract out in the tungsten filament wound, filament falls naturally, complete a wrapping wire.After wrapping wire completes for the first time, 3rd stepper motor drives wire feed slide plate 501 to move towards the direction away from wrapping wire tungsten bar plug 402, after stopping, electromagnet 502 clamps tungsten filament, wire feed slide plate 501 is driven to move towards near the direction of wrapping wire tungsten bar plug 402 by the 3rd stepper motor again, tungsten filament to be ridden on wrapping wire tungsten bar plug 402 and to be clamped by electromagnet jaw 303, carrying out second time wrapping wire; Except first time wrapping wire needs the artificial wrapping wire tungsten bar plug 402 that to be overlapped on by tungsten filament upper outside, uninterruptedly carrying out of wrapping wire can be realized without the need to manpower intervention.
In said process, the distance that wire feed slide plate 501 retreats sets in advance.In whole Filament Winding process, because polished rod and hollow rotational slide orbitron 401 are by same driven by servomotor, so, both synchronous, synchronized, equidirectional motions, wrapping wire effective.Each servomotor in the utility model and electromagnet shredding knife 6 by PLC programme-control, PLC program according to will around tungsten filament length finish in advance.
What be not specifically noted in the utility model is prior art, or just can be realized by prior art, and should be understood that described in the utility model, concrete case study on implementation is only better case study on implementation of the present utility model, is not used for limiting practical range of the present utility model.Namely all equivalences done according to the content of the utility model claim change and modify, as replaced the toothed belt transmission etc. in the utility model with gear drive, and all should as technology category of the present utility model.
Claims (10)
1. a full-automatic centreless filament winding device, is characterized in that: comprise support (1), the synchronous polish rod driving device (2) be arranged on support (1), the wrapping wire push rod frame head apparatus (4) be arranged on support (1), the wrapping wire draw-bar machine head unit (3) be arranged on support (1), the electromagnet shredding knife (6) that is arranged on the wire feeder (5) on support (1) and is arranged on support (1);
The electromagnet jaw (303) that described wrapping wire draw-bar machine head unit (3) comprises the servo motor seat (301) be slidably arranged on support (1), is arranged on the servomotor (302) in servo motor seat (301) and is arranged in servo motor seat (301);
Described synchronous polish rod driving device (2) comprises the polished rod (201) being driven rotation by servomotor (302), and the two ends of described polished rod (201) are rotated and are arranged on support (1);
Described wrapping wire push rod frame head apparatus (4) comprises two ends and rotates the first stepper motor being arranged on hollow rotational slide orbitron (401) on support (1), being arranged on wrapping wire tungsten bar plug (402) in hollow rotational slide orbitron (401) and driving wrapping wire tungsten bar to move horizontally in hollow rotational slide orbitron (401), and described hollow rotational slide orbitron (401) is with electromagnet jaw (303) conllinear and described hollow rotational slide orbitron (401) and polished rod (201) synchronous axial system;
Described wire feeder (5) comprises the wire feed slide plate (501) be slidably arranged on support (1), the electromagnet (502) be arranged on wire feed slide plate (501), electromagnet wire guiding nipple (503) and energising annealing folder (504), and described electromagnet wire guiding nipple (503) is fixed on electromagnet (502);
The blade of described electromagnet shredding knife (6) is positioned at the end of hollow rotational slide orbitron (401) near wrapping wire draw-bar machine head unit (3) one end.
2. full-automatic centreless filament winding device according to claim 1, it is characterized in that: described support (1) is upper to be arranged by the second stepper motor driven first screw mandrel (304), described the first screw mandrel (304) through servo motor seat (301) bottom and be connected with the bottom thread of servo motor seat (301).
3. full-automatic centreless filament winding device according to claim 2, it is characterized in that: described support (1) is provided with the first track polished rod (305) parallel with the first screw mandrel (304), the first described track polished rod (305) is through servo motor seat (301), and servo motor seat (301) is driven in the upper reciprocating motion of the first track polished rod (305) by the first screw mandrel (304).
4. full-automatic centreless filament winding device according to claim 1, it is characterized in that: described synchronous polish rod driving device (2) also comprises the first slide head (202) be arranged on polished rod (201), described the first slide head (202) comprises the first linear bearing (203) be arranged on polished rod (201), first inner sleeve (204), first rolling bearing (205) and the first overcoat (208) be arranged on the first rolling bearing (205) outer ring, the stub end of described the first inner sleeve (204) is enclosed within the first linear bearing (203), the little head end radial direction of the first inner sleeve (204) have T-shaped through hole (210), described polished rod (201) has the first keyway (209), in described T-shaped through hole (210), T-shaped key (211) is set, the little head end of described T-shaped key (211) stretches in the first keyway (209), described the first overcoat (208) and servo motor seat (301) fix, described the first inner sleeve (204) is driven by servomotor (302) and rotates.
5. full-automatic centreless filament winding device according to claim 4, it is characterized in that: the little head end of described the first inner sleeve (204) arranges the first synchronous pulley (206), the output shaft of described servomotor (302) arranges the second synchronous pulley (207), and described the first synchronous pulley (206) is connected by Timing Belt with the second synchronous pulley (207).
6. full-automatic centreless filament winding device according to claim 1, it is characterized in that: described wrapping wire push rod frame head apparatus (4) also comprises and being arranged on support (1) by the first stepper motor driven second screw mandrel (403) and the second slide head (404) of being arranged on hollow rotational slide orbitron (401), described the second slide head (404) comprises the second linear bearing (405) be arranged on hollow rotational slide orbitron (401), second inner sleeve (406), the second overcoat (408) being arranged on the second rolling bearing (407) in the second inner sleeve (406) and being arranged on the second rolling bearing (407) outer ring, the stub end of described the second inner sleeve (406) is enclosed within the second linear bearing (405), described hollow rotational slide orbitron (401) in axial direction has the second keyway (409), the little head end of described the second inner sleeve (406) is connected with wrapping wire tungsten bar plug (402) by the connector through the second keyway (409), described the second overcoat (408) arranges slide (408), described slide (408) is threaded with the second screw mandrel (403).
7. full-automatic centreless filament winding device according to claim 6, it is characterized in that: the little head end radial direction of described the second inner sleeve (406) have the first screwed hole (413) and the second screwed hole (414), described connector comprises the sliding sleeve (415) be arranged on wrapping wire tungsten bar plug (402), first screw rod (416) and the second screw rod (417), described sliding sleeve (415) have along the through hole of its axis and the 3rd screwed hole (418) radially and the 4th screwed hole (419), described the first screw rod (416) has the hole passed for wrapping wire tungsten bar plug (402), described the first screw rod (416) is threaded with the first screwed hole (413) and the 3rd screwed hole (418), described the second screw rod (417) is threaded with the second screwed hole (414) and the 4th screwed hole (419) and compresses wrapping wire tungsten bar plug (402).
8. full-automatic centreless filament winding device according to claim 6, it is characterized in that: described hollow rotational slide orbitron (401) arranges the 3rd synchronous pulley (411), described polished rod (201) is arranged the 4th synchronous pulley (412), the 3rd described synchronous pulley (411) is connected by Timing Belt with the 4th synchronous pulley (412).
9. full-automatic centreless filament winding device according to claim 1, it is characterized in that: described wire feeder (5) also comprises and being arranged on by the 3rd stepper motor driven 3rd screw mandrel (505) on support (1), and described wire feed slide plate (501) is threaded with the 3rd screw mandrel (505).
10. full-automatic centreless filament winding device according to claim 9, it is characterized in that: described wire feeder (5) also comprises the second track polished rod (506) parallel with the 3rd screw mandrel (505), the second described track polished rod (506) through wire feed slide plate (501) and two ends be arranged on support (1).
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CN201520137276.4U CN204449123U (en) | 2015-03-11 | 2015-03-11 | Full-automatic centreless filament winding device |
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CN201520137276.4U CN204449123U (en) | 2015-03-11 | 2015-03-11 | Full-automatic centreless filament winding device |
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CN201520137276.4U Expired - Fee Related CN204449123U (en) | 2015-03-11 | 2015-03-11 | Full-automatic centreless filament winding device |
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Cited By (4)
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CN106180479A (en) * | 2016-08-31 | 2016-12-07 | 南通通杰照明有限公司 | A kind of coreless spiral filament forming machine of pair of wire feed |
CN106890913A (en) * | 2017-03-17 | 2017-06-27 | 南京科迪钨钼材料有限公司 | A kind of filament winding device |
CN107262633A (en) * | 2015-11-12 | 2017-10-20 | 李乔利 | A kind of coreless spiral filament forming machine of safety and environmental protection |
CN113140443A (en) * | 2021-03-17 | 2021-07-20 | 临沂市蓝晶光电科技有限公司 | Tungsten filament winding device and method |
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2015
- 2015-03-11 CN CN201520137276.4U patent/CN204449123U/en not_active Expired - Fee Related
Cited By (8)
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CN107262633A (en) * | 2015-11-12 | 2017-10-20 | 李乔利 | A kind of coreless spiral filament forming machine of safety and environmental protection |
CN107321882A (en) * | 2015-11-12 | 2017-11-07 | 何磊 | A kind of coreless spiral filament forming machine for being difficult to rock |
CN107262633B (en) * | 2015-11-12 | 2018-10-19 | 中山市衍海贸易有限公司 | A kind of coreless spiral filament forming machine of safety and environmental protection |
CN106180479A (en) * | 2016-08-31 | 2016-12-07 | 南通通杰照明有限公司 | A kind of coreless spiral filament forming machine of pair of wire feed |
CN106180479B (en) * | 2016-08-31 | 2017-11-07 | 南通通杰照明有限公司 | A kind of coreless spiral filament forming machine of pair of wire feed |
CN106890913A (en) * | 2017-03-17 | 2017-06-27 | 南京科迪钨钼材料有限公司 | A kind of filament winding device |
CN106890913B (en) * | 2017-03-17 | 2019-04-05 | 南京科迪钨钼材料有限公司 | A kind of filament winding device |
CN113140443A (en) * | 2021-03-17 | 2021-07-20 | 临沂市蓝晶光电科技有限公司 | Tungsten filament winding device and method |
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