CN214166922U

CN214166922U - Three-core cable winding machine

Info

Publication number: CN214166922U
Application number: CN202022871787.2U
Authority: CN
Inventors: 潘廷校; 张爽
Original assignee: Guian New District Dongjiangfeihang Automation Equipment Co ltd
Current assignee: Guian New District Dongjiangfeihang Automation Equipment Co ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-09-10
Anticipated expiration: 2030-12-04

Abstract

The utility model provides a three-core cable winding machine, which comprises a base; the top of the base is rotatably provided with a wheel disc through hinge connection; three groups of mounting frames are fixedly arranged at the top of the wheel disc; a bracket is fixedly arranged on one side of the top of the base through a bolt; a third motor is fixedly arranged in the middle of the bottom of the bracket through a bolt; by arranging the base, the wheel disc, the mounting frame and the support, the tensile force of the cable can be ensured, the cable can be prevented from being broken in the winding process, the stress of the cable can be fully released, the cable is prevented from being broken, and the product quality is improved; due to the arrangement of the mounting frame, broken ends and joints can be detected, so that defects of products are prevented, and meanwhile, the safety in the production process can be improved; the device can be used for rapidly winding cables which are short, various in matching and frequently required, and fills the market of light and small winding machines.

Description

Three-core cable winding machine

Technical Field

The utility model belongs to the technical field of the cable winding, more specifically say, in particular to three-core cable winding machine.

Background

The cable is an electric energy or signal transmission device and generally consists of a plurality of wires or groups of wires; a winding machine is a device for winding a linear object onto a specific workpiece; some cables are composed of three cores, and a three-core cable winding machine is needed when the three-core cable is produced.

Through searching for example, patent No. CN207529723U discloses a multiunit combination core cable coiling machine, three groups of one-level bobbins are equally arranged on a one-level reel of the machine, a wire coil is arranged in the middle of the one-level bobbin, one end of the one-level bobbin is connected with a rotation motor through a reversing device, a second-level bobbin is fixedly arranged at the rear end of a central rotating shaft of the one-level bobbin, a cable on the second-level bobbin, which is arranged in the middle of the second-level bobbin, is led out from a central cavity of the central rotating shaft, a third-level bobbin is fixedly arranged on the central rotating shaft at the rear end of the second-level bobbin, a third-level wire coil is arranged in the middle of the third-level bobbin, a cable on the third-level wire coil is led out from a central shaft at the. The technology can be used for producing five products with the same wire core, three-thick two-thin cables, four-thick one-thin cables and three-thick one-thin cables, and the types of the produced products are increased by two.

Based on the above, the market of winding machines is relatively mature at present, but for some small and medium-sized enterprises, when the wound cables are short, the use is frequent, and the color matching among the cables is complex. The cost required by purchasing from the market is more, the construction period is longer, the production is influenced, and the conditions of uneven stress, uneven pitch and the like are generated by manual winding; in this case, a light and small winding machine is required.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a three-core cable winding machine is provided to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a three-core cable winding machine to solve present that proposes in the above-mentioned background art, the winding machine market is mature relatively, nevertheless in the face of some small and medium enterprises, and when the coiling cable is short, it is frequent to use, and colour collocation is complicated between the cable. The cost required by purchasing from the market is more, the construction period is longer, the production is influenced, and the conditions of uneven stress, uneven pitch and the like are generated by manual winding; in this case, a small and light winding machine is required.

The utility model relates to a purpose and efficiency of three-core cable coiling machine is reached by following concrete technical means: a three-core cable winding machine comprises a base; the top of the base is rotatably provided with a wheel disc through hinge connection, and the interior of the wheel disc is of a hollow structure; three groups of mounting frames are fixedly arranged at the top of the wheel disc, and the mounting frames are distributed in an equilateral triangle shape; a bracket is fixedly arranged on one side of the top of the base through a bolt; the bracket also comprises a coil winding and a reversing wheel; a winding coil is fixedly arranged at the bottom of the front side of the bracket through a bolt; the top of the front side of the bracket is rotatably provided with a reversing wheel through a hinge connection, and the outer side of the reversing wheel is provided with a groove; and a third motor is fixedly arranged in the middle of the bottom of the support through a bolt.

Further, the base further comprises a first motor, a first involute gear and a third involute gear; the bottom of the base is fixedly provided with a first motor through a bolt; the top of the first motor is in transmission connection with a first involute gear, the modulus of the first involute gear is 1.5, and the tooth number of the first involute gear is 28; the top of the first involute gear is coaxially provided with a third involute gear, the modulus of the third involute gear is 1.5, and the tooth number of the third involute gear is 24.

Furthermore, the wheel disc also comprises a beam collector, a sun wheel, a second involute gear, a fourth involute gear and a planet wheel; the top of the wheel disc is rotatably provided with a beam receiver through a hinge; the inner part of the wheel disc is rotatably provided with a sun wheel through a hinge connection, and the beam collector and the sun wheel are coaxially arranged; a second involute gear is fixedly arranged at the bottom of a rotating shaft of the sun gear, the modulus of the second involute gear is 105, and the tooth number is 50; a fourth involute gear is coaxially arranged at the top of the second involute gear, the modulus of the fourth involute gear is 1.5, and the tooth number of the fourth involute gear is 54; a plurality of groups of planet wheels are arranged around the wheel disc through hinge connection, and the planet wheels are all meshed with the sun wheel; the distance between the sun wheel and each group of planet wheels is determined, and each group of planet wheels rotates for a circle when the wheel disc rotates for one circle.

Furthermore, the mounting rack also comprises a paying-off wheel, a broken line detection head, a joint detection head, a contact piece and a damper; the front side of the mounting rack is rotatably provided with a paying-off wheel through a hinge; the top of the mounting rack is rotatably provided with a broken line detection head through hinge connection, and the broken line detection head is in a horn-shaped structure; a bearing is arranged on one side of the broken line detection head, and the rear side of the broken line detection head is connected with one side of the mounting frame through a spring; one side of the mounting rack is rotatably provided with a contact piece through hinge connection; the bottom of the contact piece is rotatably provided with a joint detection head, and the top of the joint detection head is provided with a slotted hole; and a damper is fixedly arranged on one side of the paying-off wheel.

Furthermore, the bracket also comprises a stress-relief bearing seat, a second motor, a take-up pulley, a driven pulley and a follow-up take-up pulley; the top of the bracket is fixedly provided with a destressing bearing seat through a bolt, the front side of the destressing bearing seat is rotatably provided with rollers through hinge connection, and the rollers are distributed in a sine reinforcing manner; a second motor is fixedly arranged at the top of the bracket; the top of the bracket is rotatably provided with a take-up pulley through hinge connection, and the take-up pulley is in transmission connection with a second motor; the top of the bracket is rotatably provided with a driven wheel through a hinge connection, and the driven wheel is in transmission connection with a second motor; the inner side of the bottom of the support is rotatably provided with a follow-up take-up pulley through hinge connection, and the follow-up take-up pulley is in transmission connection with a driven wheel through a belt.

Furthermore, the third motor also comprises a screw rod and a wire shifting block; the front side of the third motor is in transmission connection with a lead screw; the outside of lead screw slides and is provided with group line piece, and the slotted hole has been seted up at the top of group line piece.

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

1. through being provided with the base, the rim plate, mounting bracket and support, can tentatively release the stress of cable through the cooperation of sun gear cooperation multiunit planet wheel and the planet wheel that gradually bursts at seams when the cable winding, then through the further reduction cable stress of destressing bearing at the in-process of the cable transportation that the winding is good, drive the follow-up take-up pulley through following the driving wheel simultaneously and rotate, simultaneously pass through same motor drive from driving wheel and take-up pulley, prevent the cable fracture in winding in-process when can guaranteeing the cable pulling force, can release the stress of cable is abundant, thereby prevent the cable fracture, the quality of product is improved.

2. Through being provided with the mounting bracket, through passing the cable core in the slotted hole that connects the detection head, extend the top of closing the ware from the rear side extension of broken string detection head gyro wheel, can detect the head pulling contact piece rotation through connecting when the joint appears in the cable, thereby by the sensor response, when the broken string appears in the cable, the cable disappears to the pulling force that the broken string detection head provided, the pulling force through the spring will break the string detection head and pull back, thereby by the sensor response, thereby can detect broken string and joint, prevent that the flaw from appearing in the product, the quality of further improvement product, can improve the security in the production process simultaneously.

Therefore, the device can rapidly wind cables which are short, various in matching and frequently required, has good economical and practical properties, is suitable for different production scales, and fills the market of light and small winding machines.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a schematic side view of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic axial-side perspective structure of the present invention.

Fig. 5 is a schematic view of the internal structure of the wheel disc of the present invention.

Fig. 6 is a schematic view of a local structure of the mounting bracket of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1-a base; 101-a first motor; 102-a first involute gear; 103-third involute gear; 2-a wheel disc; 201-a beam-closing device; 202-sun gear; 203-second involute gear; 204-a fourth involute gear; 205-planet wheel; 3-mounting a frame; 301-a paying-off wheel; 302-disconnection detection head; 303-a joint detection head; 304-contact piece; 305-a damper; 4-a scaffold; 401-winding coil; 402-a reversing wheel; 403-destressing the bearing seat; 404-a second motor; 405-a take-up pulley; 406-a driven wheel; 407-follow-up take-up pulley; 5-a third motor; 501-a screw rod; 502-line-shifting block.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Example (b):

as shown in figures 1 to 6: the utility model provides a three-core cable winding machine, which comprises a base 1; wherein, the base 1 further comprises a first motor 101, a first involute gear 102 and a third involute gear 103; the bottom of the base 1 is fixedly provided with a first motor 101 through bolts; a first involute gear 102 is arranged at the top of the first motor 101 in a transmission connection manner, the modulus of the first involute gear 102 is 1.5, and the tooth number is 28; a third involute gear 103 is coaxially arranged on the top of the first involute gear 102, the modulus of the third involute gear 103 is 1.5, and the tooth number is 24; the top of the base 1 is rotatably provided with a wheel disc 2 through hinge connection, and the inner part of the wheel disc 2 is of a hollow structure; wherein, the wheel disc 2 also comprises a beam collector 201, a sun wheel 202, a second involute gear 203, a fourth involute gear 204 and a planet wheel 205; the top of the wheel disc 2 is rotatably provided with a beam receiver 201 through hinge connection; the inner part of the wheel disc 2 is rotatably provided with a sun wheel 202 through hinge connection, and the beam receiver 201 and the sun wheel 202 are coaxially arranged; a second involute gear 203 is fixedly arranged at the bottom of a rotating shaft of the sun gear 202, the modulus of the second involute gear 203 is 105, and the tooth number is 50; a fourth involute gear 204 is coaxially arranged on the top of the second involute gear 203, the modulus of the fourth involute gear 204 is 1.5, and the tooth number is 54; a plurality of groups of planet wheels 205 are arranged around the wheel disc 2 through hinge connection, and the planet wheels 205 are all meshed with the sun wheel 202; the distance between the sun gear 202 and each set of planet gears 205 is planned, and each set of planet gears 205 rotates for one circle every revolution of the wheel disc 2; three groups of mounting frames 3 are fixedly arranged at the top of the wheel disc 2, and the mounting frames 3 are distributed in an equilateral triangle shape; a bracket 4 is fixedly arranged on one side of the top of the base 1 through a bolt; the bracket 4 also comprises a winding coil 401 and a reversing wheel 402; a winding coil 401 is fixedly arranged at the bottom of the front side of the bracket 4 through a bolt; the top of the front side of the bracket 4 is rotatably provided with a reversing wheel 402 through a hinge connection, and the outer side of the reversing wheel 402 is provided with a groove; a third motor 5 is fixedly arranged in the middle of the bottom of the bracket 4 through a bolt; the third motor 5 further comprises a lead screw 501 and a wire shifting block 502; the front side of the third motor 5 is provided with a screw 501 in a transmission connection way; the outside of lead screw 501 is provided with line shifting block 502 in a sliding manner, and the top of line shifting block 502 is provided with a slotted hole.

The mounting rack 3 further comprises a paying-off wheel 301, a broken wire detection head 302, a joint detection head 303, a contact piece 304 and a damper 305; the front side of the mounting rack 3 is rotatably provided with a paying-off wheel 301 through hinge connection; the top of the mounting rack 3 is rotatably provided with a broken line detection head 302 through hinge connection, and the broken line detection head 302 is in a horn-shaped structure; a bearing is arranged on one side of the broken line detection head 302, and the rear side of the broken line detection head 302 is connected with one side of the mounting frame 3 through a spring; one side of the mounting frame 3 is rotatably provided with a contact piece 304 through hinge connection; the bottom of the contact piece 304 is rotatably provided with a joint detection head 303, and the top of the joint detection head 303 is provided with a slotted hole; a damper 305 is fixedly arranged on one side of the paying-off wheel 301; by providing the disconnection detecting head 302 and the joint detecting head 303, the occurrence of disconnection and joint can be detected, and by providing the damper 305, the tension of the cable can be adjusted.

The bracket 4 further comprises a stress-relieving bearing seat 403, a second motor 404, a take-up pulley 405, a driven wheel 406 and a follow-up take-up pulley 407; the top of the bracket 4 is fixedly provided with a destressing bearing seat 403 through a bolt, and the front side of the destressing bearing seat 403 is rotatably provided with rollers through hinged connection, wherein the rollers are distributed in a sine reinforcing manner; a second motor 404 is fixedly arranged at the top of the bracket 4; the top of the bracket 4 is rotatably provided with a take-up pulley 405 through hinge connection, and the take-up pulley 405 is in transmission connection with a second motor 404; the top of the bracket 4 is rotatably provided with a driven wheel 406 through a hinge connection, and the driven wheel 406 is in transmission connection with a second motor 404; the inner side of the bottom of the bracket 4 is rotatably provided with a follow-up take-up pulley 407 through hinge connection, and the follow-up take-up pulley 407 is in transmission connection with the driven pulley 406 through a belt; through setting up destressing bearing frame 403, can further get rid of cable stress, drive driven round 406 and synchronous drive follow-up take-up pulley 407 rotation through second motor 404, can roll up the cable.

The specific use mode and function of the embodiment are as follows:

in the utility model, the cable core of the cable is respectively fixed on the paying-off wheel 301, the cable end passes through the slotted hole of the joint detection head 303, the cable core extends from the rear side of the roller of the broken line detection head 302, through the top of the beam receiving device 201, then extends through the coil receiving device 401, winds from the front side of the reversing wheel 402 to the roller of the front side of the stress-free bearing seat 403, extends from the roller to the top of the take-up wheel 405, winds from the rear side of the take-up wheel 405 to the bottom of the take-up wheel, winds the slotted hole passing through the top of the line shifting block 502 on the outer side of the follow-up take-up wheel 407, passes through the sun wheel 202 driven by the first motor 101 to rotate, synchronously drives the beam receiving device 201 to rotate, winds and twists the cable core, can release the stress between the cables by the matching of a plurality of planetary wheels 205 and a plurality of involute gears, and adjusts the tension of the cable by the damper 305, when the cable is jointed, the contact piece 304 can be pulled to rotate by the joint detection head 303, therefore, the cable is induced by the sensor, when the cable is broken, the pulling force provided by the cable to the broken wire detection head 302 disappears, the broken wire detection head 302 is pulled back by the pulling force of the spring, so that the cable is induced by the sensor, when the wound cable passes through the roller on the front side of the stress bearing seat 403, the stress generated by part of the cable can be reduced, the driven wheel 406 is driven to rotate by the second motor 404, the driven wheel 406 drives the follow-up take-up wheel 407 to rotate, the cable is wound into the hub of the follow-up take-up wheel 407, and the third motor 5 drives the lead screw 501 to rotate positively and negatively while the follow-up take-up wheel 407 is wound, so that the wire shifting block 502 is driven to reciprocate along the take-up shaft of the follow-up take-up wheel 407, and the cable is uniformly shifted into the hub of the follow-up wheel 407.

Claims

1. A three-core cable winding machine is characterized by comprising a base (1); the top of the base (1) is rotatably provided with a wheel disc (2) through hinge connection, and the interior of the wheel disc (2) is of a hollow structure; three groups of mounting frames (3) are fixedly arranged at the top of the wheel disc (2), and the mounting frames (3) are distributed in an equilateral triangle shape; a bracket (4) is fixedly arranged on one side of the top of the base (1) through a bolt; the support (4) further comprises a winding coil (401) and a reversing wheel (402); a coil winding (401) is fixedly arranged at the bottom of the front side of the support (4) through a bolt; the top of the front side of the bracket (4) is rotatably provided with a reversing wheel (402) through a hinge connection, and the outer side of the reversing wheel (402) is provided with a groove; and a third motor (5) is fixedly arranged in the middle of the bottom of the support (4) through a bolt.

2. The three-core cable winder of claim 1, wherein: the base (1) further comprises a first motor (101), a first involute gear (102) and a third involute gear (103); the bottom of the base (1) is fixedly provided with a first motor (101) through a bolt; a first involute gear (102) is arranged at the top of the first motor (101) in a transmission connection mode, the modulus of the first involute gear (102) is 1.5, and the tooth number is 28; a third involute gear (103) is coaxially arranged on the top of the first involute gear (102), the modulus of the third involute gear (103) is 1.5, and the number of teeth is 24.

3. The three-core cable winder of claim 1, wherein: the wheel disc (2) further comprises a beam collector (201), a sun wheel (202), a second involute gear (203), a fourth involute gear (204) and a planet wheel (205); the top of the wheel disc (2) is rotatably provided with a beam receiver (201) through a hinge; the inner part of the wheel disc (2) is rotatably provided with a sun wheel (202) through hinged connection, and the beam receiver (201) and the sun wheel (202) are coaxially arranged; a second involute gear (203) is fixedly arranged at the bottom of a rotating shaft of the sun gear (202), the modulus of the second involute gear (203) is 105, and the tooth number is 50; a fourth involute gear (204) is coaxially arranged at the top of the second involute gear (203), the modulus of the fourth involute gear (204) is 1.5, and the tooth number is 54; a plurality of groups of planet wheels (205) are arranged around the wheel disc (2) through hinge connection, and the planet wheels (205) are all meshed with the sun wheel (202); the distance between the sun wheel (202) and each group of planet wheels (205) is determined, and each group of planet wheels (205) rotates for one circle every revolution of the wheel disc (2).

4. The three-core cable winder of claim 1, wherein: the mounting rack (3) further comprises a paying-off wheel (301), a broken line detection head (302), a joint detection head (303), a contact piece (304) and a damper (305); the front side of the mounting rack (3) is rotatably provided with a paying-off wheel (301) through hinge connection; the top of the mounting rack (3) is rotatably provided with a broken line detection head (302) through hinge connection, and the broken line detection head (302) is of a goat horn structure; a bearing is arranged on one side of the broken line detection head (302), and the rear side of the broken line detection head (302) is connected with one side of the mounting frame (3) through a spring; one side of the mounting rack (3) is rotatably provided with a contact piece (304) through hinge connection; the bottom of the contact piece (304) is rotatably provided with a joint detection head (303), and the top of the joint detection head (303) is provided with a slotted hole; a damper (305) is fixedly arranged on one side of the paying-off wheel (301).

5. The three-core cable winder of claim 1, wherein: the support (4) further comprises a stress-relieving bearing seat (403), a second motor (404), a take-up pulley (405), a driven pulley (406) and a follow-up take-up pulley (407); the top of the bracket (4) is fixedly provided with a destressing bearing seat (403) through a bolt, the front side of the destressing bearing seat (403) is rotatably provided with rollers through hinge connection, and the rollers are distributed in a sine reinforcing manner; a second motor (404) is fixedly arranged at the top of the bracket (4); the top of the bracket (4) is rotatably provided with a take-up pulley (405) through hinge connection, and the take-up pulley (405) is in transmission connection with a second motor (404); the top of the bracket (4) is rotatably provided with a driven wheel (406) through hinged connection, and the driven wheel (406) is in transmission connection with a second motor (404); the inner side of the bottom of the bracket (4) is rotatably provided with a follow-up take-up pulley (407) through hinge connection, and the follow-up take-up pulley (407) is in transmission connection with a driven pulley (406) through a belt.

6. The three-core cable winder of claim 1, wherein: the third motor (5) further comprises a lead screw (501) and a wire shifting block (502); the front side of the third motor (5) is provided with a screw rod (501) in a transmission connection way; the outer side of the screw rod (501) is provided with a wire shifting block (502) in a sliding manner, and the top of the wire shifting block (502) is provided with a slotted hole.