CN114906669B

CN114906669B - Automatic wire coiling machine

Info

Publication number: CN114906669B
Application number: CN202210340663.2A
Authority: CN
Inventors: 顾祥春
Original assignee: Suzhou Dioude Electronics Co ltd
Current assignee: Suzhou Dioude Electronics Co ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2024-03-22
Anticipated expiration: 2042-04-02
Also published as: CN114906669A

Abstract

The invention provides an automatic wire coiling machine which comprises a wire feeding mechanism, wherein the rear of the wire feeding mechanism is provided with the automatic wire coiling mechanism, the automatic wire coiling mechanism comprises a supporting base, a translation mechanism is arranged on the supporting base, one end above the translation mechanism is provided with a rotating motor, the driving end of the rotating motor is connected with at least one group of roller mechanisms, the roller mechanisms comprise a driving disc, one side of the driving disc is coaxially provided with a first connecting mechanism, the first connecting mechanism is provided with a second connecting mechanism, the outer edge of the driving disc is provided with a wire replacement mechanism, and when wire coiling work is carried out, the roller mechanisms can be used for carrying out multistage assembly, so that manual wire replacement work is reduced. After the coiling is completed, the wire coil can be easily taken down from the roller, and further the working efficiency of the machine is greatly improved.

Description

Automatic wire coiling machine

Technical Field

The invention relates to a wire coiling mechanism, in particular to an automatic wire coiling machine.

Background

The cable is an electric energy or signal transmission device, usually comprises several or several groups of wires, and in the cable production selling process, the produced cable is often sold into wire reels, and when the wire reels are wound, the existing wire reels are often only capable of completing one wire bundle at a time, so that the operation complexity and the efficiency are low in processing, and meanwhile, the wire reels are difficult to take off after the wire reels are completed by the existing wire reels, so that the time and the labor are wasted, and the problem of an automatic wire winder is urgently needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic wire coiling machine which comprises a wire feeding mechanism, wherein an automatic wire coiling mechanism is arranged behind the wire feeding mechanism, the automatic wire coiling mechanism comprises a supporting base, a translation mechanism is arranged on the supporting base, one end above the translation mechanism is provided with a rotating motor, the transmission end of the rotating motor is connected with at least one group of roller mechanisms, the roller mechanisms comprise transmission disks, one side of each transmission disk is coaxially provided with a first connecting mechanism, the first connecting mechanism is provided with a second connecting mechanism, one end of each second connecting mechanism, far away from the first connecting mechanism, is connected with another group of transmission disks, a wire changing mechanism is arranged between the two groups of transmission disks, and the wire changing mechanism is used for switching cables during wire coiling.

Preferably, the translation mechanism is in including setting up support slide rail on the support base, support slide rail one side is provided with the promotion cylinder, the promotion cylinder driving end is connected with the sliding plate, the rotation motor sets up on the sliding plate, the sliding plate is kept away from promote cylinder one end and be provided with the transfer line, be provided with a plurality of transmission blocks on the transfer line, transmission block sliding connection is in on the support slide rail, be provided with supporting mechanism on the transmission block.

Preferably, the supporting mechanism is including setting up support frame on the transmission piece, the support frame top is provided with the supporting shoe, the supporting shoe both sides are provided with two sets of pivot spouts, the pivot spout shape be arc and with transmission disc swing joint, be provided with a plurality of balls in the pivot spout.

Preferably, the first connecting mechanism comprises a supporting cylinder, a plurality of supporting grooves are regularly arranged on the side face of the supporting cylinder, at least one group of supporting rings are arranged on the inner side of the top end of the supporting cylinder, and the expanding mechanism is connected in a sliding mode in the supporting grooves.

Preferably, the expansion mechanism comprises an opening and closing block arranged in the supporting groove, a limiting plate is arranged on one side, away from the transmission disc, of the opening and closing block, the limiting plate is arranged between the supporting ring and the supporting cylinder, and an auxiliary mechanism is arranged on one side, away from the transmission disc, of the top end of the opening and closing block.

Preferably, the auxiliary mechanism comprises an auxiliary block which is connected to the outer side of the supporting cylinder in a sliding manner, an auxiliary rod is connected to the auxiliary block in a rotating manner, and the other end of the auxiliary rod is connected to the opening and closing block in a rotating manner.

Preferably, the second connecting mechanism comprises a connecting column, and at least one group of jogging mechanisms are uniformly distributed on the axial surface of the connecting column.

Preferably, the jogging mechanism comprises an expansion plate which is connected to the transmission disc in a sliding way, one end of the expansion plate, which is far away from the transmission disc, is provided with a guide slope, at least one group of return springs are arranged below the expansion plate, and the other ends of the return springs are connected to the connecting columns.

Preferably, the line changing mechanism comprises a line changing plate rotatably connected to the transmission disc, a plurality of line clamping mechanisms are uniformly distributed on the outer edge of the line changing plate, a connecting hole is formed in the center of the line changing plate, and a connecting shaft is rotationally arranged in the connecting hole.

Preferably, the wire clamping mechanism comprises a wire clamping base, a wire clamping spring is arranged on the wire clamping base, the other end of the wire clamping spring is connected with a wire clamping plate, the wire clamping plate is semicircular, and two ends of the wire clamping plate are respectively connected with a wire feeding slope.

Compared with the prior art, the invention has the following beneficial effects;

when the wire is coiled, the existing wire coiling machine can only finish one wire bundle at one time, and the wire replacement mechanism is arranged, so that the wire coiling machine can finish multiple wire coiling operations in the wire coiling operation again, and the working efficiency of the machine is improved.

The wire coil is arranged on the roller after the wire coiling is finished and is difficult to be taken down sometimes.

When the wire coiling operation is performed, the roller mechanism can be used for multi-section assembly, and when different operations are performed, the adjustment is convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the description of the embodiments will be briefly described below.

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

FIG. 2 is a schematic diagram of the present automatic wire coiling mechanism;

FIG. 3 is a schematic view of a translation mechanism according to the present invention;

FIG. 4 is an enlarged view of the support mechanism of the present invention;

FIG. 5 is a schematic view of the supporting mechanism and the mechanism thereon according to the present invention;

FIG. 6 is a schematic view of a first connecting mechanism according to the present invention;

FIG. 7 is an end view of the invention at A-A of FIG. 6;

FIG. 8 is a schematic view of an expansion mechanism according to the present invention;

FIG. 9 is an enlarged view of the invention at A of FIG. 8;

FIG. 10 is a schematic view of a second connection mechanism according to the present invention;

FIG. 11 is a schematic diagram of a wire changing mechanism according to the present invention;

FIG. 12 is an enlarged view of FIG. 11 at B in accordance with the present invention;

FIG. 13 is a schematic view of a connecting shaft according to the present invention;

1, a wire feeding mechanism; 2. an automatic wire coiling mechanism; 201. a support base; 202. a rotating motor; 203. a drive disc; 3. a translation mechanism; 301. supporting the slide rail; 302. a pushing cylinder; 303. a sliding plate; 304. a transmission rod; 305. a transmission block; 4. a first connection mechanism; 401. a support cylinder; 402. a support groove; 403. a support ring; 5. a second connection mechanism; 501. a connecting column; 502. a fitting mechanism; 503. an expansion plate; 504. a guide slope; 505. a return spring; 6. a wire changing mechanism; 601. a wire changing plate; 602. a wire clamping mechanism; 603. a wire clamping base; 604. a wire clamping spring; 605. a wire clamping plate; 606. a wire feeding slope; 607. a connection hole; 608. a connecting shaft; 7. a support mechanism; 701. a support frame; 702. a rotating shaft chute; 703. a plurality of balls; 704. a support block; 8. an expansion mechanism; 801. an opening and closing block; 802. a limiting plate; 803. an auxiliary mechanism; 804. an auxiliary block; 805. an auxiliary rod.

Detailed Description

In order to overcome the defects in the prior art, the invention provides an automatic wire coiling machine, referring to fig. 1, comprising a wire feeding mechanism 1, wherein an automatic wire coiling mechanism 2 is arranged behind the wire feeding mechanism 1,

referring to fig. 2, the automatic wire coiling mechanism 2 includes a support base 201, a rotating motor 202 is disposed at one end above the support base 201, and after the wire feeding mechanism 1 sends a processed cable, the automatic wire coiling mechanism 2 performs wire coiling operation on the cable, and processes the cable into a wire coil, so that subsequent packaging and selling are facilitated.

Referring to fig. 3, a translation mechanism 3 is provided on the support base 201, the translation mechanism 3 is used for driving a mechanism thereon to move to complete a wire coiling operation, the translation mechanism 3 includes a support slide rail 301 provided on the support base 201, a pushing cylinder 302 is provided on one side of the support slide rail 301, a driving end of the pushing cylinder 302 is connected with a sliding plate 303, a rotating motor is provided on the sliding plate 303, a driving rod 304 is provided on one end of the sliding plate 303 far away from the pushing cylinder 302, a plurality of driving blocks 305 are provided on the driving rod 304, the driving blocks 305 are slidably connected on the support slide rail 301, when a wire coiling operation is performed, the translation mechanism 3 starts to move, after a wire end is fixed on a roller, the pushing cylinder 302 starts to operate to push the sliding plate 303 to perform a slow translation operation, and the rotating motor 202 is matched to drive the roller to rotate to complete the wire coiling operation.

Referring to fig. 4 and 5, the transmission block 305 is provided with a supporting mechanism 7 for supporting the roller mechanism, the supporting mechanism 7 includes a supporting frame 701 disposed on the transmission block 305, a supporting block 704 is disposed at the top end of the supporting frame 701, two sets of rotating shaft sliding grooves 702 are disposed on two sides of the supporting block, the rotating shaft sliding grooves 702 are arc-shaped, a plurality of balls 703 are disposed in the rotating shaft sliding grooves 702, when the device works, the transmission disc 203 is disposed on the rotating shaft sliding grooves 702, the transmission disc 203 can slide on the rotating shaft sliding grooves 702 through the balls, and meanwhile, the wire changing plate 601 is disposed on the supporting block 704.

Referring to fig. 11, the driving end of the rotating motor 202 is connected with at least one group of roller mechanisms, the roller mechanisms comprise a driving disc 203, the outer edge of the driving disc 203 is provided with a wire changing mechanism 6, the wire changing mechanism 6 comprises a wire changing plate 601 which is rotationally connected to the driving disc, a connecting hole 607 is formed in the center of the wire changing plate 601, a connecting shaft 608 is rotationally arranged in the connecting hole 607, a plurality of wire clamping mechanisms 602 are uniformly distributed on the outer edge of the wire changing plate 601, the wire clamping mechanisms 602 comprise wire clamping bases 603, wire clamping springs 604 are arranged on the wire clamping bases 603, wire clamping plates 605 are connected to the other ends of the wire clamping springs 604, the wire clamping plates 605 are semicircular in shape, wire clamping plates 605 are respectively connected with wire feeding slopes 606, the wire feeding plates 601 are placed on the supporting blocks 704, cables to be processed are dropped on the wire feeding slopes 606 after the wire changing mechanisms 3 move to the wire changing mechanisms 6, the wire clamping springs 604 rotate, the wire clamping springs 604 shrink, the wire clamping springs 604 are pulled by the wire clamping springs 604, and then move in a wire clamping plate 605 is reset by a wire clamping spring under the wire clamping disc, and then the wire clamping springs are pushed by a reset disc 3.

Referring to fig. 6, a first connection mechanism 4 is coaxially disposed on one side of the driving disc 203, the first connection mechanism 4 includes a supporting cylinder 401, a plurality of supporting grooves 402 are regularly arranged on the supporting cylinder 401, at least one group of supporting rings 403 are disposed on the inner side of the top end of the supporting cylinder, and the first connection mechanism 4 can be used as a connection component to perform multi-roller connection operation.

Referring to fig. 7, the support groove 402 is slidably connected with the expansion mechanism 8. The expansion mechanism 8 comprises an opening and closing block 801 arranged in the supporting groove 402, the opening and closing block 801 is far away from one side of the transmission disc 203 and is provided with a limiting plate 802, the limiting plate 802 is arranged between the supporting ring 403 and the supporting cylinder 401, the opening and closing block 801 moves up and down in the supporting groove 402 to complete the fixing work after assembly, and after coiling is completed, the diameter of a pressed roller of the opening and closing block 801 is reduced, so that a coiled wire coil can be taken down.

Referring to fig. 8 and 9, in order that the movement of the opening and closing block is more stable and the direction is more accurate, an auxiliary mechanism 803 is provided on one side of the top end of the opening and closing block 801 away from the connecting plate, the auxiliary mechanism 803 comprises an auxiliary block 804 slidingly connected to the outer side of the supporting cylinder 401, an auxiliary rod 805 is rotatably connected to the auxiliary block 804, the other end of the auxiliary rod 805 is rotatably connected to the opening and closing block 801, the auxiliary mechanism 803 is used for ensuring the movement direction, when the opening and closing block 801 moves up and down, the auxiliary block 804 performs horizontal translational movement, and when the opening and closing block 801 moves, the auxiliary rod 805 rotates on the opening and closing block 801.

Referring to fig. 10, the first connecting mechanism 4 is provided with a second connecting mechanism 5, the second connecting mechanism 5 includes a connecting post 501, the connecting post 501 is in clearance fit with the inner side of the supporting cylinder 401, and the supporting post is inserted into the supporting cylinder 401 when assembled.

Referring to fig. 12, at least one set of engaging mechanisms 502 are uniformly distributed on an axial surface of the connecting column 501, the engaging mechanisms 502 include an expansion plate 503 slidably connected to the driving disc 203, one end of the expansion plate 503, which is far away from the driving disc 203, is provided with a guiding slope 504, at least one set of return springs 505 are provided below the expansion plate 503, the other end of the return springs 505 is connected to the connecting column 501, when the supporting column is inserted into the supporting column 401, the expansion plate 503 is subjected to inward pressure through the guiding of the guiding plate, the return springs 50 are subjected to pressure so as to be compressed after being completely inserted, the return springs 505 are reset, the support plate is pushed to move towards the supporting circle, and then the opening and closing block 801 completes the engagement and clamping work, and when the operation is performed, the length and the number of the rotating spool are adjusted through the first connecting mechanism 4, the second connecting mechanism 5, the driving disc 203 and the line changing mechanism 6.

In a specific implementation, the first connecting mechanism 4 is placed on the supporting mechanism 7, the first connecting mechanism 4 is installed through the wire changing plate 601 and the transmission disc 203, then the connecting post 501 in the second connecting mechanism 5 is inserted into the supporting cylinder 401 in the first connecting mechanism 4, the restoring spring 505 is in a compressed state when the expanding plate 504 completely enters the supporting cylinder 401 through the guiding of the guiding slope 504, and then the restoring spring 505 is in rebound restoring, the expanding plate 504 is pushed to restore and the opening and closing block 801 is pushed to lift up, so that a group of assembly is completed, and when the next group of assembly is performed, the transmission disc 203 is connected to the connecting shaft 608, and the connecting shaft 608 penetrates through the wire changing plate 608 to connect the transmission disc 203 in the next group of first connecting mechanism 4, so that the second group of assembly is completed. When the winding work starts winding wires after the assembly is completed, the first group of roller mechanisms wind the wire coils, after the winding is completed, the translation mechanism 3 continuously moves, the cables fall on the wire feeding slopes 606, the wire clamping springs 604 are pressed and contracted, the wire feeding slopes 606 rotate, the cables are pulled to slide into the wire clamping plates 605, the wire clamping springs 604 rebound and reset to ensure that the cables are clamped into the wire clamping plates 605, the translation mechanism 3 continuously moves and winds the cables in the next group of roller mechanisms, after the winding is completed, the cables in the wire clamping plates 605 are cut off, the multiple groups of wire coil works are completed, the second connecting mechanism 5 can be pulled out, the opening and closing blocks 801 reset after the cables are pulled out, the radius of supporting shafts becomes small, and the wound wire coils can be easily taken down.

Claims

1. The automatic wire coiling machine comprises a wire feeding mechanism (1), and is characterized in that an automatic wire coiling mechanism (2) is arranged behind the wire feeding mechanism (1), the automatic wire coiling mechanism (2) comprises a supporting base (201), a translation mechanism (3) is arranged on the supporting base (201), a rotating motor (202) is arranged at one end above the translation mechanism (3), at least one group of roller mechanisms are connected to the driving end of the rotating motor (202), the roller mechanisms comprise driving disks (203), a first connecting mechanism (4) is coaxially arranged at one side of each driving disk (203), a second connecting mechanism (5) is arranged on one side of each first connecting mechanism (4), one end of each second connecting mechanism (5) is far away from the first connecting mechanism (4) and is connected with the other group of driving disks (203), a wire changing mechanism (6) is arranged between the two groups of driving disks (203), and the wire changing mechanism (6) is used for switching wires when coiling wires;

the first connecting mechanism (4) comprises a supporting cylinder (401), a plurality of supporting grooves (402) are regularly arranged on the side face of the supporting cylinder (401), at least one group of supporting rings (403) are arranged on the inner side of the top end of the supporting cylinder (401), an expanding mechanism (8) is connected in a sliding mode in the supporting groove (402), the expanding mechanism (8) comprises an opening and closing block (801) arranged in the supporting groove (402), a limiting plate (802) is arranged on one side, far away from the transmission disc (203), of the opening and closing block (801), the limiting plate (802) is arranged between the supporting rings (403) and the supporting cylinder (401), an auxiliary mechanism (803) is arranged on one side, far away from the transmission disc (203), of the top end of the opening and closing block (801), the auxiliary mechanism (803) comprises an auxiliary block (804) which is connected to the outer side of the supporting cylinder (401) in a sliding mode, an auxiliary rod (805) is connected to the auxiliary rod (805) in a rotating mode, and the other end of the auxiliary rod (805) is connected to the opening and closing block (801) in a rotating mode. The second connecting mechanism (5) comprises a connecting column (501), at least one group of jogging mechanisms (502) are uniformly distributed on the axial surface of the connecting column (501), each jogging mechanism (502) comprises an expansion plate (503) which is slidably connected to the transmission disc (203), one end of each expansion plate (503) away from the transmission disc (203) is provided with a guide slope (504), at least one group of return springs (505) are arranged below each expansion plate (503), and the other ends of the return springs (505) are connected to the connecting column (501).

2. The automatic wire coiling machine as in claim 1, wherein the translation mechanism (3) comprises a supporting slide rail (301) arranged on the supporting base (201), a pushing cylinder (302) is arranged on one side of the supporting slide rail (301), a sliding plate (303) is connected to the driving end of the pushing cylinder (302), the rotating motor (202) is arranged on the sliding plate (303), a transmission rod (304) is arranged at one end of the sliding plate (303) far away from the pushing cylinder (302), a plurality of transmission blocks (305) are arranged on the transmission rod (304), the transmission blocks (305) are slidably connected on the supporting slide rail (301), and a supporting mechanism (7) is arranged on the transmission blocks (305).

3. The automatic wire coiling machine as in claim 2, wherein the supporting mechanism (7) comprises a supporting frame (701) arranged on the transmission block (305), a supporting block (704) is arranged at the top end of the supporting frame (701), two groups of rotating shaft sliding grooves (702) are arranged on two sides of the supporting block (704), the rotating shaft sliding grooves (702) are arc-shaped and are movably connected with the transmission disc (203), and a plurality of balls (703) are arranged in the rotating shaft sliding grooves (702).

4. The automatic wire coiling machine as in claim 1, wherein the wire exchanging mechanism (6) comprises a wire exchanging plate (601) rotatably connected to the transmission disc (203), a plurality of wire clamping mechanisms (602) are uniformly distributed on the outer edge of the wire exchanging plate (601), a connecting hole (607) is formed in the center of the wire exchanging plate, and a connecting shaft (608) is rotatably arranged in the connecting hole.

5. The automatic wire coiling machine as in claim 4, wherein the wire clamping mechanism (602) comprises a wire clamping base (603), a wire clamping spring (604) is arranged on the wire clamping base (603), a wire clamping plate (605) is connected to the other end of the wire clamping spring (604), the wire clamping plate (605) is semicircular, and wire feeding slopes (606) are respectively connected to two ends of the wire clamping plate (605).