CN107954262B

CN107954262B - Take-up equipment

Info

Publication number: CN107954262B
Application number: CN201711404806.7A
Authority: CN
Inventors: 李家春; 张雷; 陈跃威; 邹中妃
Original assignee: Guizhou Dongfeng Automation Technology Co ltd; Guizhou University
Current assignee: Guizhou Dongfeng Automation Technology Co ltd; Guizhou University
Priority date: 2017-12-22
Filing date: 2017-12-22
Publication date: 2023-05-16
Anticipated expiration: 2037-12-22
Also published as: CN107954262A

Abstract

The invention discloses wire collecting equipment which comprises a left side plate, a right side plate, a connecting plate, two wire collecting hubs, a front end mounting and dismounting joint, a rear end mounting and dismounting joint and a wire collecting frame, wherein the middle parts of the front end mounting and dismounting joint and the rear end mounting and dismounting joint are fixedly connected with a rotating shaft, one end of the rotating shaft is rotationally connected with the left side plate, the other end of the rotating shaft is rotationally connected with the right side plate, a bolt matched with a pin hole in the rotating shaft is arranged on the right side plate, the two wire collecting hubs are respectively fixedly connected with a driven shaft, one end of the driven shaft is connected with a transmission shaft of the front end mounting and dismounting joint, the other end of the driven shaft is arranged on a bearing seat of the rear end mounting and dismounting joint, one driven gear on the front end mounting and dismounting joint is meshed with a driving gear on a first driving shaft, and the wire collecting frame is respectively connected with the driving shafts through a bidirectional ball screw.

Description

Take-up equipment

Technical Field

The present invention relates to a wire winding apparatus, and more particularly, to a wire winding apparatus for mass production.

Background

After the wire is produced, it is generally collected on a take-up hub for use in the next process step. The existing line winding equipment adopts a line winding hub to collect, and the defects of the mode are that: when the wire winding hub is fully wound, the wire winding hub needs to be disassembled, and then the empty wire winding hub is installed on wire winding equipment, so that the problems that the assembly and disassembly are inconvenient, the interval time is long, the wire winding efficiency is affected and the like exist.

Disclosure of Invention

The invention aims to solve the technical problems that: a wire-winding device is provided to solve the technical problems in the prior art.

The technical scheme of the invention is as follows: the utility model provides a take-up equipment, includes left side board, right side board and connecting plate, connects through the connecting plate between left side board internal face and the right side board internal face, still includes:

the two wire winding hubs are arranged between the left side plate and the right side plate;

the front end mounting and dismounting connector comprises a fixed plate, a transmission shaft and a driven gear, wherein the transmission shaft and the driven gear are symmetrically arranged at two ends of the fixed plate, and the transmission shaft vertically penetrates through the fixed plate and is rigidly connected with the driven gear positioned at the outer side of the fixed plate;

the rear end mounting and dismounting joint comprises a mounting plate and a pinch plate, wherein the pinch plate is symmetrically arranged at two ends of the mounting plate through pins, and a bearing seat is arranged on the pinch plate;

the middle parts of the front end mounting and dismounting joint and the rear end mounting and dismounting joint are fixedly connected with a rotating shaft, one end of the rotating shaft extends out of the mounting plate and is rotationally connected with the left side plate, the other end extends out of the fixing plate and is rotationally connected with the right side plate, a bolt is arranged on the right side plate and is matched with a pin hole on the rotating shaft, so that the rotating shaft is converted between fixing and rotating;

the two wire collecting hubs are fixedly connected with a driven shaft respectively, one end of the driven shaft is connected with a transmission shaft of the front-end mounting and dismounting joint, and the other end of the driven shaft is arranged on a bearing seat of the rear-end mounting and dismounting joint;

the first driving shaft is arranged on the right side plate corresponding to the front end mounting and dismounting joint, the inner end of the first driving shaft is connected with a driving gear, and the driving gear is meshed with one of the driven gears on the front end mounting and dismounting joint;

the inner side end of the bidirectional ball screw is connected with a lead frame arranged at the corresponding outer side of the wire collecting hub through a connecting arm, the outer side end of the bidirectional ball screw is rigidly connected with a second driving shaft arranged on the right side plate, and the lead frame is provided with a threading hole corresponding to the wire collecting hub;

and the driving shaft is arranged on the right side plate and is connected with the first driving shaft and the second driving shaft through transmission elements respectively.

The wire winding hub is provided with hub grids along the axial direction interval of the wire winding hub, the two sides of the hub grids are provided with barriers, the wire winding hub is provided with an axle center hole for installing a driven shaft, a cushion block is arranged on the driven shaft near one end of the front end mounting and dismounting connector, a clamping block connected with the driven shaft by a key is arranged near one end of the rear end mounting and dismounting connector, a clamping arm is arranged on the inner side of the clamping block, a compression spring and a locking nut are arranged on the outer side of the clamping block, and the clamping arm is converted between the states of being clamped on the barriers for transmitting force and being separated from the barriers for not transmitting force through unscrewing and screwing of the locking nut and the compression spring.

The lead frame is provided with a threading hole corresponding to each hub lattice.

The transmission shaft and the driven shaft adopt a bolt type matching structure.

The two wire winding hubs are arranged on the same horizontal plane side by side and are respectively positioned on the front side surface and the rear side surface of the left side plate and the right side plate to form a layer of wire winding hubs.

And 4 layers of wire winding hubs are arranged between the left side plate and the right side plate.

The lead frame is provided with a sleeve which is sleeved on a guide rod transversely arranged between the left side plate and the right side plate, and the lead frame is guided to reciprocate between the left side plate and the right side plate.

The invention has the beneficial effects that: according to the winding equipment designed by the invention, after one winding hub is fully wound, only the bolt is required to be pulled out, the front end of the bolt is rotated to mount and dismount the connector, the driven gear corresponding to the other winding hub is meshed with the driving gear on the first driving shaft, and then the bolt is inserted into the fixed rotating shaft, so that the winding function can be realized by rotating the empty winding hub. In addition, for the full wire hub, the corresponding buckle plate can be detached, the corresponding driven shaft is pulled out to be separated from the transmission shaft, and the nut is unscrewed to be detached. And finally, installing the empty wire-collecting hub at the position. The invention has the advantages of simple structure, convenient operation, strong practicability, high working efficiency and the like.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view taken along the direction K-K in FIG. 1;

FIG. 3 is a schematic view of a connection structure between a winding hub and a front end mounting/dismounting connector and a rear end mounting/dismounting connector;

FIG. 4 is a schematic diagram of a pad structure;

FIG. 5 is a schematic view of the connection structure of the nut, compression spring and latch;

FIG. 6 is a schematic view of an end face structure of the take-up hub;

fig. 7 is a schematic structural diagram of a lead frame;

FIG. 8 is a schematic view of the structure of the connecting arm;

reference numerals illustrate: 1. left side plate, 2, right side plate, 3, guide rod, 4, connecting plate, 5, wire collecting hub, 6, rear end dismounting connector, 7, front end dismounting connector, 8, lead frame, 9, driving gear, 10, connecting arm, 11, bidirectional ball screw, 12, box, 13, first driving shaft, 14, first transmission gear, 15, second driving shaft, 16, second transmission gear, 17, driving shaft, 18, first driving gear, 19, second driving gear, 20, bolt, 21, mounting hole, 22, gear belt, 101, nut, 501, hub lattice, 502, barrier, 503, axle center hole, 504, supporting arm, 601, mounting plate, 602, buckle, 603, pin, 604, driven shaft, 605, locking nut, 606, compression spring, 607, cushion block, 608, radial hole, 609, fixture block, 610, clip arm, 701, fixing plate, 702, driven gear, 703, transmission shaft, rotating shaft, 705, pin hole, 801, vertical rod, cross rod, threading plate, 804, threading hole, 805, connecting ear, 803.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific examples:

referring to fig. 1 to 8, a wire-rewinding device of the present embodiment includes:

a left side plate 1;

a right side plate 2;

the connecting plate 4 is connected between the inner wall surface of the left side plate 1 and the inner wall surface of the right side plate 2 to form an entire bracket structure:

the two wire winding hubs 5 are arranged between the left side plate 1 and the right side plate 2 and are used for realizing a wire winding function;

the front end mounting and dismounting joint 7 comprises a fixed plate 701, a transmission shaft 703 and a driven gear 702, wherein the transmission shaft 703 and the driven gear 702 are symmetrically arranged at two ends of the fixed plate 701, and the transmission shaft 703 vertically penetrates through the fixed plate 701 and is rigidly connected with the driven gear 702 positioned at the outer side of the fixed plate 701;

the rear end mounting and dismounting joint 6 comprises a mounting plate 601 and a pinch plate 602, wherein the pinch plate 602 is symmetrically arranged at two ends of the mounting plate 601 through pins 603, and a bearing seat is arranged on the pinch plate 602;

a rotating shaft 704 is fixedly connected to the middle parts of the front end dismounting joint 7 and the rear end dismounting joint 6, namely, the rotating shaft 704 rotates together with the front end dismounting joint 7 and the rear end dismounting joint 6, one end of the rotating shaft 704 extends out of the mounting plate 601 and is rotationally connected with the left side plate 1, the other end extends out of the fixing plate 701 and is rotationally connected with the right side plate 2, a bolt 20 is arranged on the right side plate 2, and the bolt 20 is matched with a pin hole 705 on the rotating shaft 704 to enable the rotating shaft 704 to be converted between fixing and rotating;

the two wire-collecting hubs 5 are fixedly connected with a driven shaft 604 respectively, one end of the driven shaft 604 is connected with a transmission shaft 703 of the front-end mounting and dismounting joint 7, and the other end of the driven shaft 604 is arranged on a bearing seat of the rear-end mounting and dismounting joint 6;

the first driving shaft 13 is arranged on the right side plate 2 corresponding to the front end dismounting joint 7, the inner end of the first driving shaft is connected with a driving gear 9, and the driving gear 9 is meshed with one driven gear 702 on the front end dismounting joint 7;

the inner end of the bidirectional ball screw 11 is connected with a lead frame 8 arranged at the corresponding outer side of the wire collecting hub 5 through a connecting arm 10, the outer end of the bidirectional ball screw is rigidly connected with a second driving shaft 15 arranged on the right side plate 2, the lead frame 8 is provided with a threading hole 804 corresponding to the wire collecting hub 5, and the bidirectional ball screw 11 is driven to rotate through the second driving shaft 15, so that the connecting arm 10 and the lead frame 8 can reciprocate; one end of the connecting arm 10 is connected with a connecting lug 806 on the lead frame 8, and the other end is connected with a nut 101 on the bidirectional ball screw 11;

a drive shaft 17 is arranged on the right side plate 2, which is connected to the first drive shaft 13 and the second drive shaft 15, respectively, via transmission elements.

The above structure is the core component of the equipment, and the working principle is as follows: the driving shaft 17 is connected with the driving mechanism to obtain rotation torque, and the rotation torque is respectively transmitted to the first driving shaft 13 and the second driving shaft 15, wherein the first driving shaft 13 drives the driven gear 702 meshed with the driving gear 9 on the front end mounting and dismounting joint 7, and the driven gear 702 transmits power to the driven shaft 604, so that the winding hub 5 is driven to rotate, and the winding function is realized. The second driving shaft 15 drives the bidirectional ball screw 11 to rotate, so that the lead frame 8 connected with the bidirectional ball screw can swing reciprocally, and the wire is uniformly wound on the wire winding hub 5.

After the wire winding hub 5 is fully wound, the plug pin 20 is pulled out, the front end of the plug pin is rotated to install and detach the joint 7, the driven gear 702 corresponding to the other wire winding hub 5 is meshed with the driving gear 9 on the first driving shaft 13, and then the plug pin 20 is inserted to fix the rotating shaft 704, so that the empty wire winding hub 5 can be rotated and the wire winding function can be realized. For the full hub, the corresponding pinch plate 602 can be detached, and the corresponding driven shaft 604 can be pulled out and separated from the transmission shaft 703 to be detached.

For convenient replacement, two wire winding hubs 5 are arranged side by side on the same horizontal plane and are respectively positioned on the front side and the rear side of the left side plate 1 and the right side plate 2 to form a layer of wire winding hubs. Therefore, in practice, in order to improve the working efficiency, a plurality of layers of wire winding hubs can be arranged, and through experiments of the applicant, the wire winding efficiency can be considered by adopting 4 layers of wire winding hubs, and meanwhile, the corresponding power requirements can be met. The first driving shafts 13 among the multi-layer winding hubs are connected by adopting the first transmission gears 14 and the gear belts 22, so that the slipping phenomenon is prevented. One of the first drive shafts 13 is further provided with a gear which meshes with a first drive gear 18 on the drive shaft 17 to receive a corresponding rotational torque. The second driving shaft 15 is provided with a second transmission gear 16 and is engaged with a second driving gear 19 on the driving shaft 17 to receive a corresponding rotational torque. In order to cope with the winding requirement of the multi-layer winding hub 5, the lead frame 8 adopts a structure that a plurality of cross bars 802 are connected between two vertical bars 801, a plurality of threading plates 803 are arranged on the cross bars 802 according to the winding position of the winding hub 5, and a threading hole 804 is designed on the threading plates 803 to guide the wire feeding track. A guide rod 3 is also connected to the left side plate 1 and the right side plate 2, and a sleeve 805 on the guide frame 8 is sleeved on the guide rod 3, and the guide rod 3 guides the set reciprocating motion of the guide frame 8 between the left side plate 1 and the right side plate 2.

Hub grid 501 is arranged on hub 5 along the axial direction of hub grid 5 at intervals, barrier 502 is arranged on two sides of hub grid (501), barrier 502 is connected to hub grid 501 through supporting arm 504, axle center hole 503 is arranged on hub 5, cushion block 607 is arranged on driven shaft 604 near front end dismounting joint 7, radial hole 608 is arranged on cushion block 607, cushion block 607 can be fixed on driven shaft 604 through a radial pin, clamping block 609 connected with driven shaft 604 by a key is arranged near rear end dismounting joint 6, clamping arm 610 arranged on the inner side of clamping block 609 is provided with compression spring 606 and locking nut 605, and through unscrewing and screwing of locking nut 605 and compression spring 606, clamping arm 610 is converted between the state of being clamped on barrier 502 to transmit force and the state of being separated from barrier 502 to not transmit force, and driven shaft 604 and transmission shaft 703 adopt a bolt type matching structure. The advantage of this construction is that a quick detachment and installation of the winding hub 5 can be achieved.

The drive shaft 17, the first drive shaft 13, the second drive shaft 15 and the corresponding transmission elements are mounted in the housing 12 outside the right side plate 2.

The foregoing is a further detailed description of the invention in connection with the preferred embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims

1. The utility model provides a take-up device, includes left side board (1), right side board (2) and connecting plate (4), connects its characterized in that through connecting plate (4) between left side board (1) internal face and right side board (2) internal face: further comprises:

the two wire winding hubs (5) are arranged between the left side plate (1) and the right side plate (2);

the front end mounting and dismounting joint (7) comprises a fixed plate (701), a transmission shaft (703) and a driven gear (702), wherein the transmission shaft (703) and the driven gear (702) are symmetrically arranged at two ends of the fixed plate (701), and the transmission shaft (703) vertically penetrates through the fixed plate (701) and is rigidly connected with the driven gear (702) positioned at the outer side of the fixed plate (701);

the rear end mounting and dismounting joint (6) comprises a mounting plate (601) and a buckle plate (602), wherein the buckle plate (602) is symmetrically arranged at two ends of the mounting plate (601) through pins (603), and a bearing seat is arranged on the buckle plate (602);

a rotating shaft (704) is fixedly connected to the middle parts of the front end mounting and dismounting joint (7) and the rear end mounting and dismounting joint (6), one end of the rotating shaft (704) extends out of the mounting plate (601) and is rotationally connected with the left side plate (1), the other end extends out of the fixing plate (701) and is rotationally connected with the right side plate (2), a bolt (20) is arranged on the right side plate (2), and the bolt (20) is matched with a pin hole (705) on the rotating shaft (704) to enable the rotating shaft (704) to be converted between fixing and rotating;

the two wire collecting hubs (5) are fixedly connected with a driven shaft (604), one end of the driven shaft (604) is connected with a transmission shaft (703) of the front-end mounting and dismounting joint (7), and the other end of the driven shaft is mounted on a bearing seat of the rear-end mounting and dismounting joint (6);

the first driving shaft (13) is arranged on the right side plate (2) corresponding to the front end mounting and dismounting joint (7), the inner end of the first driving shaft is connected with a driving gear (9), and the driving gear (9) is meshed with one driven gear (702) on the front end mounting and dismounting joint (7);

the inner side end of the bidirectional ball screw is connected with a lead frame (8) arranged at the corresponding outer side of the wire collecting hub (5) through a connecting arm (10), the outer side end of the bidirectional ball screw is rigidly connected with a second driving shaft (15) arranged on the right side plate (2), and the lead frame (8) is provided with a threading hole (804) corresponding to the wire collecting hub (5);

a drive shaft (17) arranged on the right side plate (2) and connected with the first drive shaft (13) and the second drive shaft (15) through transmission elements respectively;

the wire collecting hub (5) is provided with hub grids (501) at intervals along the axial direction of the wire collecting hub, two sides of each hub grid (501) are provided with a barrier (502), the wire collecting hub (5) is provided with an axle center hole (503) for installing a driven shaft (604), one end, close to a front end mounting and dismounting joint (7), of the driven shaft (604) is provided with a cushion block (607), one end, close to a rear end mounting and dismounting joint (6), of the driven shaft (604) is provided with a clamping block (609) connected with the driven shaft (604) through a key, the inner side of the clamping block (609) is provided with a clamping arm (610) axially arranged, the outer side of the clamping block (609) is provided with a compression spring (606) and a locking nut (605), and the clamping arm (610) is converted between a force transmission state and a force transmission state not separated from the barrier (502) through screwing and unscrewing of the locking nut (605); the lead frame (8) is provided with a threading hole (804) corresponding to each hub (501); the transmission shaft (703) and the driven shaft (604) adopt a bolt (20) matched structure;

the two wire winding hubs (5) are arranged on the same horizontal plane side by side and are respectively positioned on the front side surface and the rear side surface of the left side plate (1) and the right side plate (2) to form a layer of wire winding hubs (5).

2. The take-up device of claim 1, wherein: a4-layer wire-rewinding hub (5) is arranged between the left side plate (1) and the right side plate (2).

3. The take-up device of claim 1, wherein: the lead frame (8) is provided with a sleeve (805), the sleeve (805) is sleeved on a guide rod (3) transversely arranged between the left side plate (1) and the right side plate (2), and the lead frame (8) is guided to reciprocate between the left side plate (1) and the right side plate (2).