CN216435545U - Special stranding machine for enameled wire - Google Patents

Abstract

The utility model provides a special type stranding machine of enameled wire, is in including frame assembly and assembly inlet wire subassembly, frame cradle subassembly, ground shaft assembly, A end main shaft assembly, B end main shaft assembly and connection on the frame assembly hank worker's subassembly between the swing arm of A end main shaft assembly and B end main shaft assembly, the inlet wire subassembly is introduced the stranded line body of outside inlet wire system and is separated a time via the deconcentrator, passes through in proper order after A end main shaft assembly concentrates, hank worker's subassembly hank, B end main shaft assembly, frame cradle subassembly, the stranded line body passes through in proper order the initiative guy wire wheel subassembly, driven guy wire wheel subassembly, switching-over guide wheel subassembly, winding displacement subassembly, the take-up reel subassembly rolling of take-up reel subassembly. The utility model discloses an unique ship type structural design, the initiative is acted as go-between the guide pulley and is located the central line of main shaft assembly, compares conventional stranding machine and has optimized enameled wire transposition line system, reduces enameled wire transposition back pinhole quantity, improves the transposition quality.

Description

Special stranding machine for enameled wire

Technical Field

The utility model relates to a stranded conductor equipment field, especially a enameled wire special type stranding machine.

Background

The stranding machine is equipment for stranding conductors and comprises a machine body, a driving shaft, a take-up device and a stranding frame, wherein the stranding frame is fixed with the driving shaft and can rotate on the machine body, and the stranding frame surrounds the take-up device in the rotating process. The twisted wire frame drives the conductors to rotate in the rotating process, so that at least 2 conductors are mutually twisted in a surrounding manner, and the function of twisting the conductors is realized.

In the prior art, aiming at the special wire twisting equipment for the enameled wire, because the positions of the traction wheels and the guide wheel, the twisting wire passing system and the like are unreasonable in design, the number of pinholes after the enameled wire is twisted is difficult to control, and the twisting quality of the enameled wire is influenced.

SUMMERY OF THE UTILITY MODEL

To above-mentioned one or more problem, the utility model provides a special type stranding machine of enameled wire optimizes the enameled wire transposition line system, reduces enameled wire transposition back pinhole quantity, improves the transposition quality.

In order to achieve the above purpose, the utility model discloses choose for use following technical scheme: the utility model provides a special type stranding machine of enameled wire, is in including frame assembly and assembly inlet wire subassembly, frame cradle subassembly, ground axle assembly, A end main shaft assembly, B end main shaft assembly and connection on the frame assembly the hank worker subassembly between the swing arm of A end main shaft assembly and B end main shaft assembly, wherein:

the wire inlet assembly is used for introducing multi-strand wire bodies of an external wire inlet system to be separated by a wire separating plate, the multi-strand wire bodies sequentially pass through a connecting shaft, an A-end main shaft and an A-end main shaft guide wheel of an A-end main shaft assembly to be concentrated, the concentrated wire bodies are stranded into stranded wire bodies by the stranding assembly and then pass through a B-end main shaft guide wheel and a B-end main shaft of a B-end main shaft assembly to enter the frame type cradle assembly, the stranded wire bodies sequentially pass through a driving wire pulling wheel assembly, a driven wire pulling wheel assembly, a reversing guide wheel assembly, a wire arranging assembly and a wire collecting disc assembly of the frame type cradle assembly, and the stranded wire bodies are wound by the wire collecting disc of the wire collecting disc assembly.

Preferably, the end a main shaft assembly and the end B main shaft assembly are respectively provided with an end a main shaft and an end B main shaft, one end of the end a main shaft and one end of the end B main shaft are respectively assembled on the support frame body of the frame-type cradle component through main shaft bearing seats, and the other end of the end a main shaft and the other end of the end B main shaft are respectively in transmission connection with the ground shaft assembly through synchronous belts.

Preferably, the end that the swing arm was kept away from to end main shaft assembly is equipped with a connecting axle, the one end of connecting axle is aimed at and is located the separated time board of the inlet wire subassembly in the frame assembly outside, the inlet wire subassembly be connected with outside inlet wire system, end main shaft and B end main shaft and connecting axle are located the axle center position and are equipped with the through wires hole that is used for the threading, and are close to the swing arm position is equipped with end main shaft guide pulley and B end main shaft guide pulley respectively.

Preferably, the frame-type cradle assembly is provided with a driving wire pulling wheel assembly, a driven wire pulling wheel assembly positioned above one side of the driving wire pulling wheel assembly and a reversing guide wheel assembly positioned above the other side of the driving wire pulling wheel assembly on a support frame body close to the B-end main shaft.

Preferably, the driving wire pulling wheel assembly comprises a servo motor assembly assembled at the bottom of the supporting frame body and a speed reducer assembly assembled on the supporting frame body, the servo motor assembly is connected with the input end of the speed reducer assembly through a synchronous belt so as to transmit to a driving wire pulling guide wheel assembled at the output end of the speed reducer assembly, and a driven wire pulling guide wheel of the driven wire pulling wheel assembly is fixed above the speed reducer assembly in an inclined manner through the frame body.

Preferably, the winding displacement ware subassembly is located the support body middle part of frame cradle subassembly, including the winding displacement ware mount pad, install lead screw, slidable mounting on the winding displacement ware mount pad are in winding displacement ware on the lead screw and the guide pulley of arranging wire on the winding displacement ware, one side of reduction gear assembly is equipped with the magnetic powder clutch, the entry shaft of magnetic powder clutch is driven by reduction gear assembly, the play power axle pass through the hold-in range with the one end of lead screw is connected.

Preferably, frame cradle subassembly is being close to supporting the support body A end main shaft is equipped with take-up reel subassembly, the take-up reel subassembly is including assembling a fixed top and a movable top of supporting the support body and fixed top with take-up reel between the movable top, the take-up reel by the take-up shaft transmission of fixed top is so that rotate, the one end of take-up shaft pass through the hold-in range with the magnetic powder clutch transmission of reduction gear subassembly one side is connected.

Preferably, the twister component comprises an A-end twister fixing plate arranged at the end part of the swing arm of the A-end main shaft assembly, a B-end twister fixing plate arranged at the end part of the swing arm of the B-end main shaft assembly, and a twister connected between the A-end twister fixing plate and the B-end twister fixing plate, wherein the twister faces towards one side of the frame type cradle component and is provided with a plurality of twister magnetic eye seats for penetrating through a wire body, the A-end twister fixing plate further comprises a twister guide wheel frame for assembling a twister guide wheel, and the wire body is led out by the A-end main shaft guide wheel and then bypasses the twister guide wheel to enter the twister magnetic eye seats.

Preferably, the wire inlet assembly comprises a wire inlet frame fixing rod fixed on the outer side of the rack assembly and a special meter counter, a wire breakage detection frame, a wire dividing eye die frame, a wire dividing frame and a wire dividing plate on the wire dividing frame which are sequentially arranged on the wire inlet frame fixing rod along the moving direction of the wire body.

Preferably, the multi-strand wire body enters from an external wire inlet system, sequentially passes through a special meter counter, a wire breakage detection frame, a wire dividing eye die frame, a wire dividing plate of a wire dividing frame, a wire threading hole of a connecting shaft, a wire threading hole of an A-end main shaft, an A-end main shaft guide wheel, a twisting guide wheel, a plurality of twisting magnetic eye seats, a B-end main shaft guide wheel, a wire threading hole of a B-end main shaft pair, a driving wire drawing guide wheel, a driven wire drawing guide wheel, a reversing guide wheel and a wire arrangement guide wheel, and is wound by a wire collecting disc.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses an unique ship type structural design, the initiative is acted as go-between the guide pulley and is located the central line of main shaft assembly, compares conventional stranding machine and has optimized enameled wire transposition wire passing system, reduces enameled wire transposition back pinhole quantity, improves the transposition quality, and the power control of the subassembly of acting as go-between is servo motor subassembly, and the accessible changes the numerical value of electronic gear ratio and obtains the pitch adjustment on a large scale.

Drawings

In order to illustrate the technical solutions more clearly, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for a person skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Detailed Description

In order to clearly and completely understand the technical solution, the present invention is further described with reference to the embodiments and the accompanying drawings, it is obvious that the described embodiments are only some embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 3, a twisting machine dedicated for enameled wires comprises a frame assembly (not shown in the figure), and an incoming wire assembly 100, a frame-type cradle assembly 200, a ground shaft assembly 300, an a-side main shaft assembly 400, a B-side main shaft assembly 500, and a twisting tool assembly 600 connected between an a-side swing arm 402 and a B-side swing arm 502 of the a-side main shaft assembly 400 and the B-side main shaft assembly 500, which are assembled on the frame assembly.

The end A spindle assembly 400 and the end B spindle assembly 500 are respectively provided with an end A spindle 401 and an end B spindle 501, one end of the end A spindle 401 and one end of the end B spindle 501 are respectively assembled on the support frame body 201 of the frame-type cradle component 200 through spindle bearing seats, and the other end of the end A spindle 401 and the other end of the end B spindle 501 are respectively in transmission connection with the ground spindle assembly 300 through synchronous belts.

One end of the end-A spindle assembly 400, which is far away from the swing arm 402, is provided with a connecting shaft 403, one end of the connecting shaft 403 is aligned to a wire distribution plate of the wire inlet component 100 outside the frame assembly, the wire inlet component 100 is connected with an external wire inlet system, the end-A spindle 401, the end-B spindle 501 and the connecting shaft 403 are provided with wire through holes for threading at the positions of the axes, and are close to the positions of the swing arm, which are respectively provided with an end-A spindle guide wheel 404 and an end-B spindle guide wheel 504.

The frame-type cradle assembly 200 is provided with a driving wire pulling wheel assembly 210, a driven wire pulling wheel assembly 220 positioned above one side of the driving wire pulling wheel assembly 210, and a reversing guide wheel assembly 215 positioned above the other side, on a support frame body close to the B-end main shaft 501.

The driving wire pulling wheel assembly 210 comprises a servo motor assembly 211 assembled at the bottom of the support frame body and a speed reducer assembly 212 assembled on the support frame body, the servo motor assembly 211 is connected with the input end of the speed reducer assembly 212 through a synchronous belt to drive a driving wire pulling guide wheel 213 assembled at the output end of the speed reducer assembly 212, and a driven wire pulling guide wheel 221 of the driven wire pulling wheel assembly 220 is fixed above the speed reducer assembly 212 in an inclined manner through the frame body.

Frame cradle subassembly 200's support body middle part still is equipped with winding displacement ware subassembly 230, including winding displacement ware mount pad 231, install lead screw 232, slidable mounting on the winding displacement ware mount pad are in winding displacement ware 233 on the lead screw and winding displacement guide pulley 234 on the winding displacement ware, one side of reduction gear subassembly 212 is equipped with magnetic powder clutch 214, magnetic powder clutch 214's income power axle is driven by reduction gear assembly, the output shaft pass through the hold-in range with the one end of lead screw 232 is connected.

Frame cradle subassembly 200 is being close to supporting the support body A end main shaft 401 is equipped with take-up reel subassembly 240, take-up reel subassembly 240 is including assembling a fixed top 241 and a movable top 242 of supporting the support body and fixed top with take-up reel 243 between the activity top, take-up reel 243 by the take-up shaft transmission of fixed top is so that rotate, the hold-in range is passed through to the one end of take-up shaft 244 with the transmission of magnetic powder clutch 214 of reduction gear subassembly one side is connected.

The twister component 600 comprises an A-end twister fixing plate 601 arranged at the end part of the swing arm of the A-end main shaft assembly, a B-end twister fixing plate 602 arranged at the end part of the swing arm of the B-end main shaft assembly, and a twister 603 connected between the A-end twister fixing plate and the B-end twister fixing plate, wherein the twister 603 faces towards one side of the frame type cradle component and is provided with a plurality of twister magnetic eye seats 604 for penetrating a wire body, the twister fixing plate further comprises a twister guide wheel frame for assembling a twister guide wheel, the wire body is led out by the A-end main shaft guide wheel and then bypasses the twister guide wheel to enter the twister magnetic eye seats, and the wire body is led into a wire through the plurality of twister magnetic eye seats and then bypasses the B-end main shaft guide wheel to enter a wire through hole of the B-end main shaft.

The wire inlet assembly 100 comprises a wire inlet frame fixing rod 101 fixed on the outer side of the rack assembly, and a special meter counter 102, a wire breakage detection frame 103, a wire dividing eye die frame 104, a wire dividing frame 105 and a wire dividing plate on the wire dividing frame are sequentially arranged on the wire inlet frame fixing rod 101 along the moving direction of a wire body.

The incoming line assembly 100 divides the multiple line bodies of the external incoming line system into lines through the dividing plate, the lines sequentially pass through the connecting shaft 403, the end main shaft 401 and the end main shaft guide wheel 404 of the end a main shaft assembly 400 to be concentrated, the concentrated line bodies are twisted into stranded line bodies through the twister assembly 600, then the stranded line bodies pass through the end main shaft guide wheel 504 and the end main shaft 501 of the end B main shaft assembly 500 to enter the frame-type cradle assembly 200, and the stranded line bodies sequentially pass through the driving wire drawing wheel assembly 210, the driven wire drawing wheel assembly 220, the reversing guide wheel assembly 230, the wire arranger assembly 230 and the wire collecting disc assembly 250 of the frame-type cradle assembly 200 and are wound by the wire collecting disc for collecting wires.

Specifically, the multi-strand wire body enters from an external wire inlet system, sequentially passes through a special meter counter 102, a broken wire detection frame 103, a wire dividing eye die frame 104 and a wire dividing plate of a wire dividing frame 105, enters a wire threading hole of a connecting shaft 403, passes through the wire threading hole of an A-end main shaft 401, then bypasses a guide wheel 404 of the A-end main shaft to reach a twister guide wheel, and then sequentially passes through a plurality of twister magnetic eye seats 604 on the inner side of the twister, when the twister rotates, a plurality of strands of wire bodies are twisted and enter the threading hole of the B-end main shaft 501 through the twister guide wheel and the B-end main shaft guide wheel 504, the B-end main shaft 504 extends into the frame-type cradle assembly 200, the threading hole is aligned with the driving wire-drawing guide wheel 213, the twisted wire body bypasses the driving wire-drawing guide wheel 213 and the driven wire-drawing guide wheel 221 in a clockwise direction, then is reversed by the reversing guide wheel 215, and is wound by a take-up reel after passing through the wire-arranging guide wheel.

The stranded wire bodies are in a unique boat-shaped structural design after being stranded, the active stay wire guide wheel is located on the central line of the main shaft at the B end, and compared with a conventional stranding machine, the enameled wire stranded wire passing system is optimized, the number of pinholes after enameled wires are stranded is reduced, and the stranding quality is improved. The driving wire pulling wheel assembly is driven by the servo motor assembly 211, an encoder assembly 260 is further arranged at the position, close to the B-end spindle, of the supporting frame body, the encoder assembly is connected with the B-axis spindle through a synchronous belt to further obtain the rotation parameters of the B-axis spindle, the encoder assembly and the servo motor assembly are used for controlling the output of the reducer assembly 212 to respectively drive the driving wire pulling guide wheel and the input shaft of the magnetic separation combiner to rotate, and then the numerical value of the electronic gear ratio is changed to obtain large-range lay adjustment.

The above disclosure is intended to be exemplary of the invention, and is not intended to limit the invention to the particular forms disclosed, but rather, to cover all modifications, equivalents, and alternatives falling within the scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a special type stranding machine of enameled wire, is in including frame assembly and assembly inlet wire subassembly, frame cradle subassembly, ground axle assembly, A end main shaft assembly, B end main shaft assembly and connection on the frame assembly the hank worker's subassembly between the swing arm of A end main shaft assembly and B end main shaft assembly, its characterized in that:

the wire inlet assembly leads in multi-strand wire bodies of an external wire inlet system to be separated by a wire separating plate, the multi-strand wire bodies sequentially pass through a connecting shaft of an A-end main shaft assembly, an A-end main shaft and an A-end main shaft guide wheel to be concentrated, the concentrated wire bodies are stranded into stranded wire bodies by the stranding tool assembly and then pass through a B-end main shaft guide wheel and a B-end main shaft of a B-end main shaft assembly to enter the frame type cradle assembly, and the stranded wire bodies sequentially pass through a driving wire pulling wheel assembly, a driven wire pulling wheel assembly, a reversing guide wheel assembly, a wire arranging assembly and a wire collecting disc assembly of the frame type cradle assembly and are coiled by the wire collecting disc of the wire collecting disc assembly.

2. The special stranding machine for enameled wires according to claim 1, characterized in that: the end A main shaft assembly and the end B main shaft assembly are respectively provided with an end A main shaft and an end B main shaft, one ends of the end A main shaft and the end B main shaft are respectively assembled on the support frame body of the frame type cradle component through main shaft bearing seats, and the other ends of the end A main shaft and the end B main shaft are respectively in transmission connection with the ground shaft assembly through synchronous belts.

3. The special stranding machine for enameled wires according to claim 2, characterized in that: the utility model discloses a machine frame assembly, including frame assembly, swing arm, A end main shaft assembly, B end main shaft and connecting axle, the one end that the swing arm was kept away from to A end main shaft assembly the one end of swing arm is equipped with a connecting axle, the one end alignment of connecting axle is located the separated time board of the inlet wire subassembly in the frame assembly outside, the inlet wire subassembly be connected with outside inlet wire system, A end main shaft and B end main shaft and connecting axle are located the axle center position and are equipped with the through wires hole that is used for the threading, and are close to the swing arm position is equipped with A end main shaft guide pulley and B end main shaft guide pulley respectively.

4. The special stranding machine for enameled wires according to claim 1, characterized in that: and the frame-type cradle assembly is provided with a driving stay wheel assembly, a driven stay wheel assembly positioned above one side of the driving stay wheel assembly and a reversing guide wheel assembly positioned above the other side of the driving stay wheel assembly at the position, close to the B-end main shaft, of the supporting frame body.

5. The special stranding machine for enameled wires according to claim 4, characterized in that: the driving wire pulling wheel assembly comprises a servo motor assembly assembled at the bottom of the supporting frame body and a speed reducer assembly assembled on the supporting frame body, the servo motor assembly is connected with the input end of the speed reducer assembly through a synchronous belt to drive a driving wire pulling guide wheel assembled at the output end of the speed reducer assembly, and a driven wire pulling guide wheel of the driven wire pulling wheel assembly is fixed above the speed reducer assembly through the frame body.

6. The special stranding machine for enameled wires according to claim 5, characterized in that: the winding displacement ware subassembly is located the support body middle part of frame cradle subassembly, including the winding displacement ware mount pad, install lead screw, slidable mounting on the winding displacement ware mount pad are in winding displacement ware on the lead screw and the guide pulley of arranging wire on the winding displacement ware, one side of reduction gear subassembly is equipped with magnetic powder clutch, magnetic powder clutch's entry axle is driven by reduction gear assembly, the output axle pass through the hold-in range with the one end of lead screw is connected.

7. The special stranding machine for enameled wires according to claim 6, characterized in that: frame cradle subassembly is being close to supporting the support body A end main shaft is equipped with take-up reel subassembly, the take-up reel subassembly is including the assembly support the support body a fixed top and a movable top and fixed top with take-up reel between the activity top, the take-up reel by the take-up shaft transmission of fixed top is so that rotate, the one end of take-up shaft pass through the hold-in range with the magnetic clutch transmission of reduction gear assembly one side is connected.

8. The special stranding machine for enameled wires according to claim 1, characterized in that: the stranding device comprises a stranding assembly, wherein the stranding assembly comprises an A-end stranding fixing plate and a stranding machine, the A-end stranding fixing plate is arranged at the end of a swing arm of an A-end main shaft assembly, the B-end stranding fixing plate is arranged at the end of a swing arm of the B-end main shaft assembly, and the stranding machine is connected between the A-end stranding fixing plate and the B-end stranding fixing plate, the stranding machine faces towards one side of the frame type cradle assembly and is provided with a plurality of stranding magnetic eye seats for penetrating a wire body, the A-end stranding fixing plate further comprises a stranding guide wheel frame for assembling a stranding guide wheel, and the wire body is led out by the A-end main shaft guide wheel and then bypasses the stranding guide wheel to enter the stranding magnetic eye seats.

9. The special stranding machine for enameled wires according to claim 1, characterized in that: the wire inlet assembly comprises a wire inlet frame fixing rod fixed on the outer side of the rack assembly and a special meter counter, a wire breakage detection frame, a wire dividing eye die frame, a wire dividing frame and a wire dividing plate on the wire dividing frame, wherein the special meter counter, the wire breakage detection frame, the wire dividing eye die frame, the wire dividing frame and the wire dividing plate are sequentially arranged on the wire inlet frame fixing rod along the moving direction of the wire body.

10. The special stranding machine for enameled wires according to claim 1, characterized in that: the multi-strand wire body enters from an external wire inlet system, sequentially passes through a special meter counter, a wire breakage detection frame, a wire dividing eye die frame, a wire dividing plate of a wire dividing frame, a wire threading hole of a connecting shaft, a wire threading hole of an A-end main shaft, an A-end main shaft guide wheel, a stranding guide wheel, a plurality of stranding magnetic eye seats, a B-end main shaft guide wheel, a wire threading hole of a B-end main shaft pair, a driving wire drawing guide wheel, a driven wire drawing guide wheel, a reversing guide wheel and a wire arrangement guide wheel, and is wound by a wire collecting disc.

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