CN116443634A

CN116443634A - Winding device for steel belt production

Info

Publication number: CN116443634A
Application number: CN202310690195.6A
Authority: CN
Inventors: 钱忠义; 吉巧云
Original assignee: Taizhou Quande Stainless Steel Co ltd
Current assignee: Taizhou Quande Stainless Steel Co ltd
Priority date: 2023-06-12
Filing date: 2023-06-12
Publication date: 2023-07-18
Anticipated expiration: 2043-06-12
Also published as: CN116443634B

Abstract

The invention discloses a winding device for steel belt production, which belongs to the technical field of steel belt production equipment. According to the invention, the second clamping plate and the first clamping plate clamp the steel belt to be transported between the first clamping arc plate and the second clamping arc plate, the first clamping arc plate and the second clamping arc plate clamp one end of the steel belt to roll the steel belt to form a steel belt roll, the cutting machine slides along the horizontal direction to cut the steel belt, the two pushing plates abut against one end of the steel belt roll and push the steel belt roll into the fixed cylinder, the binding machine binds the steel belt roll, and all the operations of feeding, rolling, cutting, discharging and binding can be automatically completed.

Description

Winding device for steel belt production

Technical Field

The invention belongs to the technical field of steel belt production equipment, and particularly relates to a winding device for steel belt production.

Background

The steel strip is a narrow and long product produced by various steel rolling enterprises in order to meet the requirements of various industrial departments for industrially producing various metal or mechanical products, the steel strip is widely applied in industrial production, and the quality of rolling of the steel strip can influence the quality of the product and the surface quality of the steel strip due to the folding in the rolling process in the transportation and loading and unloading processes of a large number of steel coils.

The current steel band rolling device needs the manual work to fix the steel band on the gyro wheel, manual operation gyro wheel realizes the rolling to the steel band, the skew of steel band appears often in the rolling process, have intensity of labour big, the uneven shortcoming of rolling, produce the stress easily at the rolling in-process to the great steel band of thickness in addition, easily cause the outer bullet of steel band because of the stress is too big, have very big potential safety hazard to the staff, also influence the rolling efficiency of steel band, simultaneously, current steel band rolling device can not accomplish feeding, pay-off, rolling, cutting, ejection of compact, tie up a series of work more automatically, all need the manual work to it.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects of the prior art, and provide the winding device for the steel belt production, which automatically completes feeding, winding, cutting, discharging and bundling.

The technical scheme adopted for solving the technical problems is as follows: a feeding mechanism for feeding the steel belt is arranged on the support frame, a feeding mechanism for conveying the steel belt to a rolling mechanism is arranged on the support frame, the rolling mechanism rolls the steel belt, a cutting mechanism for cutting the rolled steel belt is arranged on the support frame, the cutting mechanism is connected with a discharging mechanism, a fixed cylinder is arranged on a first support plate of the support frame, and the discharging mechanism conveys the rolled steel belt into the fixed cylinder; the winding mechanism is as follows: the fixed cylinder one side is provided with a limit circle section of thick bamboo that communicates with each other with it, processing has two central symmetry's first slide hole on the limit circle section of thick bamboo, two first slide holes respectively with discharge mechanism along horizontal direction sliding connection, limit circle section of thick bamboo inner circumference is connected with conflict switch through the fourth spring, conflict switch one end is connected with limit circle section of thick bamboo rotation, conflict switch is contradicted with the steel band after lapping, conflict switch is connected with cutting mechanism, be provided with the second motor of drive center pin pivoted on the support frame, center pin outer circumference one side is provided with the second centre gripping arc, center pin outer circumference sliding connection has first centre gripping arc, second centre gripping arc one side and first centre gripping arc one side centre gripping steel band one end, the go-between is installed in the rotation of center pin both ends respectively, be processed fluted on every go-between respectively, first centre gripping arc both ends are provided with the sixth spring respectively through fifth spring and recess connection on every go-between, sixth spring one end and go-between fixed connection, the other end and second centre gripping arc another side contact.

Further, the feeding mechanism is: be provided with second fixed plate, first fixed plate, two curb plates on the support frame, the second fixed plate is located first fixed plate top, two curb plates are located both sides between second fixed plate and the first fixed plate, first fixed plate is connected with first feed plate through first spring, first feed plate both ends are connected with two curb plates rotation respectively, the second fixed plate is connected with the second feed plate through the second spring, second feed plate both ends are connected with two curb plates rotation respectively, the second feed plate is located first feed plate top, get into the steel band between second feed plate and the first feed plate.

Further, the feeding mechanism is: the first transmission shaft, the second transmission shaft, the third transmission shaft and the fourth transmission shaft are rotatably arranged between two vertical plates of the support frame, one end of the fourth transmission shaft is connected with an output shaft of the first motor, two ends of the first transmission shaft are respectively provided with the second transmission wheels, two ends of the second transmission shaft are respectively provided with the first transmission wheels, two ends of the third transmission shaft are respectively provided with the third transmission wheels, two ends of the fourth transmission shaft are respectively provided with the fourth transmission wheels, the first transmission wheels, the second transmission wheels, the third transmission wheels and the fourth transmission wheels at two ends are respectively connected through first chains in a transmission mode, the first chains are rectangular chains, each first chain is respectively provided with a second clamping plate, two vertical plates on the support frame are respectively provided with first sliding rails, each first sliding rail is respectively connected with a first sliding plate in a horizontal direction in a sliding mode, each first sliding plate is connected with the first clamping plates through a third spring, the bottoms of the first guiding rods are respectively connected with the second clamping plates in a sliding mode along the vertical direction, and the first clamping plates are fixedly connected with the second clamping steel belts.

Further, the horizontal plane of the horizontal center line of the first transmission shaft is the same as the horizontal plane of the horizontal center line of the third transmission shaft, the horizontal plane of the horizontal center line of the second transmission shaft is the same as the horizontal plane of the horizontal center line of the fourth transmission shaft, the perpendicular bisector of the second transmission shaft is the same straight line with the perpendicular bisector of the first transmission shaft, and the perpendicular bisector of the fourth transmission shaft is the same straight line with the perpendicular bisector of the third transmission shaft.

Further, the supporting frame is provided with a binding machine used for binding the rolled steel belt on one side of the first supporting plate.

Further, the cutting mechanism is: the support frame is provided with a second support plate, a fifth driving wheel, a sixth driving wheel, a seventh driving wheel and an eighth driving wheel are rotatably arranged on the second support plate, a third motor for driving the fifth driving wheel to rotate is arranged on the second support plate, the fifth driving wheel, the sixth driving wheel and the seventh driving wheel are in transmission connection with the eighth driving wheel through a second chain, the second chain is a rectangular chain, the support frame is provided with a second sliding rail and a third sliding rail, the second sliding rail is positioned above the third sliding rail, the third sliding rail is connected with a second sliding plate in a sliding manner along the horizontal direction, a discharging mechanism is arranged on the second sliding plate, a third connecting plate penetrates through the second sliding plate and is connected with the second sliding plate in a sliding manner along the vertical direction, one end of the third connecting plate is connected with the second chain, the other end of the third connecting plate is connected with a second guide rod, a cutter for cutting a steel strip coil is arranged on the second guide rod, the second sliding rail is connected with a sliding block along the horizontal direction, and the second guide rod penetrates through the sliding block and is connected with the sliding block along the vertical direction.

Further, the horizontal plane of the horizontal center line of the fifth driving wheel is the same horizontal plane as the horizontal plane of the horizontal center line of the seventh driving wheel, the horizontal plane of the horizontal center line of the sixth driving wheel is the same horizontal plane as the horizontal plane of the horizontal center line of the eighth driving wheel, the perpendicular bisector of the fifth driving wheel is the same straight line as the perpendicular bisector of the sixth driving wheel, and the perpendicular bisector of the seventh driving wheel is the same straight line as the perpendicular bisector of the eighth driving wheel.

Further, the discharging mechanism is as follows: the second sliding plate is provided with a semicircular ring, a pushing plate with central symmetry is rotatably arranged on the inner circumferential side surface of the sliding semicircular ring, two third fixing plates are arranged on the outer circumferential side surface of the sliding semicircular ring, each pushing plate is connected with the third fixing plates through a seventh spring, and each pushing plate is respectively connected with a first sliding hole and a second sliding hole on the ring limiting cylinder in a sliding mode along the horizontal direction.

The beneficial effects of the invention are as follows: (1) The invention adopts the second clamping plate and the first clamping plate to clamp the steel belt to transport the steel belt between the first clamping arc plate and the second clamping arc plate, the second clamping arc plate moves to be attached to the first clamping arc plate and clamps one end of the steel belt to roll the steel belt to form a steel belt coil, the cutting machine slides along the horizontal direction to cut the steel belt, the two pushing plates are abutted against one end of the steel belt coil and push the steel belt coil into the fixed cylinder, the binding machine binds the steel belt coil, and all the work of feeding, rolling, cutting, discharging and binding can be automatically completed.

When the second clamping plate moves to the section A of the first chain, the first guide rod on the second clamping plate slides in the first clamping plate along the vertical direction, the second clamping plate is in a separated state with the first clamping plate, when the second clamping plate moves to the section B of the first chain, the second clamping plate is attached to the first clamping plate and clamps the steel belt, meanwhile, the second clamping plate drives the first clamping plate to slide along the horizontal direction through the first guide rod, the first clamping plate drives the first sliding plate to slide along the horizontal direction through the third spring, and the second clamping plate and the first clamping plate clamp the steel belt to convey the steel belt between the first clamping arc plate and the second clamping arc plate.

The invention adopts the technical scheme that when a third connecting plate moves on an E section of a second chain, the third connecting plate slides on a second sliding plate in the vertical direction, the third connecting plate drives a cutting machine to move in the vertical direction through a second guide rod, the cutting machine moves to a position close to a steel belt, the second guide rod slides on a sliding block in the vertical direction, when the third connecting plate moves on the F section of the second chain, the second sliding plate slides on a third sliding rail in the horizontal direction, two pushing plates on a semicircular ring are in contact with a steel belt roll, meanwhile, the second sliding plate drives the cutting machine to slide in the horizontal direction to cut the steel belt, when the third connecting plate moves on a G section of the second chain, the cutting machine moves to a position far away from the steel belt, when the third connecting plate moves on an H section of the second chain, the cutting machine returns to reset, the two pushing plates are in contact with one end of the steel belt roll and push the steel belt roll into a fixed cylinder.

Drawings

Fig. 1 is a schematic view showing the structure of an embodiment of a winding apparatus for steel strip production according to the present invention.

Fig. 2 is a schematic view of the structure of fig. 1 at another angle.

Fig. 3 is a schematic structural view of the feeding mechanism.

Fig. 4 is a schematic structural view of the feeding mechanism.

Fig. 5 is a schematic view of a part of the structure in fig. 4.

Fig. 6 is a schematic view of a part of the structure in fig. 5.

Fig. 7 is a schematic structural view of the first chain.

Fig. 8 is a schematic structural view of the winding mechanism.

Fig. 9 is a partial schematic structure of fig. 8.

Fig. 10 is a schematic structural view of the central shaft, the first clamping arc plate, and the second clamping arc plate.

Fig. 11 is a schematic view of the structure of fig. 10 at another angle.

Fig. 12 is a schematic structural view of the connection ring.

Fig. 13 is a schematic view of the structure of the central shaft and the second clamping arc plate.

Fig. 14 is a schematic view of the structure of the first clamping arc.

Fig. 15 is a schematic structural view of the coil regulating cylinder.

Fig. 16 is a schematic structural view of the cutting mechanism.

Fig. 17 is a schematic view of the structure of fig. 16 at another angle.

Fig. 18 is a partial schematic view of the structure in fig. 16.

Fig. 19 is a schematic structural view of the second chain.

Fig. 20 is a schematic structural view of the discharging mechanism.

Fig. 21 is a schematic view of the structure of fig. 20 at another angle.

Reference numerals: 1. a support frame; 201. a first fixing plate; 202. a first spring; 203. a first feed plate; 204. a second feed plate; 205. a second spring; 206. a second fixing plate; 207. a side plate; 301. a first slide rail; 302. a first drive shaft; 303. a second drive shaft; 304. a first chain; 305. a first driving wheel; 306. a second driving wheel; 307. a first motor; 308. a third driving wheel; 309. a third drive shaft; 310. a fourth drive shaft; 311. a third spring; 312. a first slide plate; 313. a first guide bar; 314. a first clamping plate; 315. a second clamping plate; 316. a fourth driving wheel; 401. a first slide hole; 402. a second motor; 403. a ring limiting cylinder; 404. a central shaft; 405. a fourth spring; 406. a contact switch; 407. a second slide hole; 408. a connecting ring; 409. a first clamping arcuate plate; 410. a second clamping arcuate plate; 411. a fifth spring; 412. a sixth spring; 413. a groove; 501. a second support plate; 502. a second slide plate; 503. a third connecting plate; 504. a cutting machine; 505. a second guide bar; 506. a second slide rail; 507. a third slide rail; 508. a fifth driving wheel; 509. a sixth driving wheel; 510. a second chain; 511. a seventh driving wheel; 512. an eighth driving wheel; 513. a third motor; 514. a slide block; 601. a semicircular ring; 602. a push plate; 603. a seventh spring; 604. a third fixing plate; 7. a strapping machine; 8. a first support plate; 9. and fixing the cylinder.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1 to 2, the winding device for steel strip production of the present embodiment is composed of a support frame 1, a feeding mechanism, a winding mechanism, a cutting mechanism, a discharging mechanism, a strapping machine 7, a first support plate 8, and a fixed cylinder 9.

The steel strip rolling machine comprises a supporting frame 1, wherein a feeding mechanism for entering a steel strip is arranged on the supporting frame 1, a feeding mechanism for conveying the steel strip to a rolling mechanism is arranged on the supporting frame 1, the rolling mechanism rolls the steel strip, a cutting mechanism for cutting the rolled steel strip is arranged on the supporting frame 1 and is connected with a discharging mechanism, a fixed cylinder 9 is arranged on a first supporting plate 8 of the supporting frame 1, and the discharging mechanism conveys the rolled steel strip to the fixed cylinder 9. The supporting frame 1 is provided with a bundling machine 7 which is used for bundling the rolled steel belt on one side of the first supporting plate 8, the bundling machine 7 adopts the known technology, and the model of the bundling machine 7 is KH1216.

As shown in fig. 1 and 3, the feeding mechanism is formed by connecting a first fixing plate 201, a first spring 202, a first feeding plate 203, a second feeding plate 204, a second spring 205, a second fixing plate 206 and a side plate 207.

The feeding mechanism is as follows: be provided with second fixed plate 206, first fixed plate 201, two curb plates 207 on the support frame 1, second fixed plate 206 is located first fixed plate 201 top, two curb plates 207 are located both sides between second fixed plate 206 and the first fixed plate 201, first fixed plate 201 is connected with first feed plate 203 through first spring 202, first feed plate 203 both ends are connected with two curb plates 207 rotation respectively, second fixed plate 206 is connected with second feed plate 204 through second spring 205, second feed plate 204 both ends are connected with two curb plates 207 rotation respectively, second feed plate 204 is located first feed plate 203 top, get into the steel band between second feed plate 204 and the first feed plate 203.

As shown in fig. 4 to 7, the feeding mechanism is formed by connecting a first slide rail 301, a first transmission shaft 302, a second transmission shaft 303, a first chain 304, a first transmission wheel 305, a second transmission wheel 306, a first motor 307, a third transmission wheel 308, a third transmission shaft 309, a fourth transmission shaft 310, a third spring 311, a first sliding plate 312, a first guide rod 313, a first clamping plate 314, a second clamping plate 315 and a fourth transmission wheel 316.

The feeding mechanism comprises: the first transmission shaft 302, the second transmission shaft 303, the third transmission shaft 309 and the fourth transmission shaft 310 are rotatably arranged between the two vertical plates of the support frame 1, the horizontal plane of the horizontal center line of the first transmission shaft 302 and the horizontal plane of the horizontal center line of the third transmission shaft 309 are the same horizontal plane, the horizontal plane of the horizontal center line of the second transmission shaft 303 and the horizontal plane of the horizontal center line of the fourth transmission shaft 310 are the same horizontal plane, the perpendicular bisector of the second transmission shaft 303 and the perpendicular bisector of the first transmission shaft 302 are the same straight line, and the perpendicular bisector of the fourth transmission shaft 310 and the perpendicular bisector of the third transmission shaft 309 are the same straight line.

One end of a fourth transmission shaft 310 is connected with an output shaft of a first motor 307, two ends of a first transmission shaft 302 are respectively provided with a second transmission wheel 306, two ends of a second transmission shaft 303 are respectively provided with a first transmission wheel 305, two ends of a third transmission shaft 309 are respectively provided with a third transmission wheel 308, two ends of the fourth transmission shaft 310 are respectively provided with a fourth transmission wheel 316, the first transmission wheels 305, the second transmission wheels 306, the third transmission wheels 308 and the fourth transmission wheels 316 at two ends are respectively connected through first chains 304 in a transmission way, the first chains 304 are respectively provided with second clamping plates 315 on each first chain 304, two vertical plates on a support frame 1 are respectively provided with first sliding rails 301, each first sliding rail 301 is respectively connected with a first sliding plate 312 in a sliding way along the horizontal direction, each first sliding plate 312 is connected with a first clamping plate 314 through a third spring 311, the first clamping plates 314 are respectively connected with first guide rods 313 in a sliding way along the vertical direction, the bottoms of the first guide rods 313 are fixedly connected with the second clamping plates 315, and the first clamping plates 314 are clamped by the second clamping plates 315.

As shown in fig. 8 to 15, the winding mechanism is formed by connecting a first sliding hole 401, a second motor 402, a ring limiting cylinder 403, a central shaft 404, a fourth spring 405, a contact switch 406, a second sliding hole 407, a connecting ring 408, a first clamping arc 409, a second clamping arc 410, a fifth spring 411, a sixth spring 412 and a groove 413.

The winding mechanism is as follows: the fixed cylinder 9 one side is provided with the limit circle section of thick bamboo 403 that communicates with each other with it, the processing has two central symmetry's first slide hole 401 on the limit circle section of thick bamboo 403, two first slide holes 401 respectively with discharge mechanism along horizontal direction sliding connection, the interior circumference of limit circle section of thick bamboo 403 is connected with conflict switch 406 through fourth spring 405, conflict switch 406 one end is connected with limit circle section of thick bamboo 403 rotation, conflict switch 406 is contradicted with the steel band after the lapping, conflict switch 406 is connected with cutting mechanism, be provided with the second motor 402 that drives center pin 404 pivoted on the support frame 1, center pin 404 outer circumference one side is provided with second centre gripping arc 410, center pin 404 outer circumference sliding connection has first centre gripping arc 409, second centre gripping arc 410 one side and first centre gripping arc 409 one side centre gripping steel band one end, the rotation is installed go-between 408 respectively at center pin 404 both ends, be processed recess 413 respectively on each go-between 408, first centre gripping arc 409 both ends are connected with recess 413 through the fifth spring 411 respectively, be provided with sixth spring 412 on each go-between 408 respectively, sixth spring 412 one end is fixedly connected with go-between 408, the other end is contacted with another side with second centre gripping arc 410.

As shown in fig. 16 to 19, the cutting mechanism is formed by connecting a second support plate 501, a second slide plate 502, a third connecting plate 503, a cutting machine 504, a second guide bar 505, a second slide rail 506, a third slide rail 507, a fifth driving wheel 508, a sixth driving wheel 509, a second chain 510, a seventh driving wheel 511, an eighth driving wheel 512, a third motor 513, and a slide block 514.

The cutting mechanism is as follows: the support frame 1 is provided with a second support plate 501, a fifth driving wheel 508, a sixth driving wheel 509, a seventh driving wheel 511 and an eighth driving wheel 512 are rotatably arranged on the second support plate 501, the horizontal plane of the horizontal center line of the fifth driving wheel 508 and the horizontal plane of the horizontal center line of the seventh driving wheel 511 are the same horizontal plane, the horizontal plane of the horizontal center line of the sixth driving wheel 509 and the horizontal plane of the horizontal center line of the eighth driving wheel 512 are the same horizontal plane, the perpendicular bisector of the fifth driving wheel 508 and the perpendicular bisector of the sixth driving wheel 509 are the same straight line, and the perpendicular bisector of the seventh driving wheel 511 and the perpendicular bisector of the eighth driving wheel 512 are the same straight line.

The second supporting plate 501 is provided with a third motor 513 for driving the fifth driving wheel 508 to rotate, the starting of the third motor 513 is controlled by a collision switch 406, the fifth driving wheel 508, the sixth driving wheel 509, the seventh driving wheel 511 and the eighth driving wheel 512 are in transmission connection through a second chain 510, the second chain 510 is a rectangular chain formed by E sections, F sections, G sections and H sections, the supporting frame 1 is provided with a second sliding rail 506 and a third sliding rail 507, the second sliding rail 506 is positioned above the third sliding rail 507, the third sliding rail 507 is connected with a second sliding plate 502 in a sliding manner along the horizontal direction, the second sliding plate 502 is provided with a discharging mechanism, the third connecting plate 503 penetrates through the second sliding plate 502 and is connected with the second sliding plate 502 in a sliding manner along the vertical direction, one end of the third connecting plate 503 is connected with the second chain 510, the other end of the third connecting plate 503 is connected with a second guide rod 505, the second guide rod 505 is provided with a cutter 504 for cutting the steel strip coil, the second sliding rail 506 is connected with a sliding block 514 along the horizontal direction, and the second guide rod 505 penetrates through the sliding block 514 and is connected with the sliding block 514 along the vertical direction.

As shown in fig. 20 to 21, the discharging mechanism is composed of a semicircular ring 601, a push plate 602, a seventh spring 603, and a third fixing plate 604 which are connected.

The discharging mechanism comprises: the second slide plate 502 is provided with a semicircular ring 601, a pushing plate 602 with central symmetry is rotatably arranged on the inner circumferential side surface of the sliding semicircular ring 601, two third fixing plates 604 are arranged on the outer circumferential side surface of the sliding semicircular ring 601, each pushing plate 602 is connected with the third fixing plates 604 through a seventh spring 603, and each pushing plate 602 is respectively connected with a first sliding hole 401 and a second sliding hole 407 on the ring limiting cylinder 403 in a sliding manner along the horizontal direction.

The working principle of this embodiment is as follows, (1) transport steel strip: the steel strip enters the feeding mechanism through the space between the first feeding plate 203 and the second feeding plate 204, and the first feeding plate 203 and the second feeding plate 204 rotate on the side plates 207 on the two sides due to the action of the first spring 202 and the second spring 205, so that the steel strip feeding mechanism can be suitable for steel sheets with different thicknesses.

The output shaft of the first motor 307 drives the fourth transmission shaft 310 to rotate, the fourth transmission wheel 316 at the two ends on the fourth transmission shaft 310 drives the first transmission wheel 305, the second transmission wheel 306 and the third transmission wheel 308 to rotate through the first chain 304 respectively, the first transmission wheel 305 drives the second transmission shaft 303 to rotate, the second transmission wheel 306 drives the first transmission shaft 302 to rotate, the third transmission wheel 308 drives the third transmission shaft 309 to rotate, the fourth transmission wheel 316 drives the fourth transmission shaft 310 to rotate, the first chain 304 drives the second clamping plate 315 to move in the transmission process, when the second clamping plate 315 moves to the A section of the first chain 304, the first guide rod 313 on the second clamping plate 315 slides in the first clamping plate 314 along the vertical direction, the second clamping plate 315 is in a separated state with the first clamping plate 314, when the second clamping plate 315 is in a separated state with the first clamping plate 314, the second clamping plate 315 is attached to the first clamping plate 314 and clamps a steel belt, and simultaneously the second clamping plate 314 drives the first clamping plate 314 to slide along the horizontal direction through the first guide rod 313, and the first clamping plate 314 slides along the second clamping plate 314 is horizontally along the second clamping plate 315, and the second clamping plate 315 is clamped between the second clamping plate 315 and the first clamping plate 315 and the second clamping plate 315 when the second clamping plate is in the horizontal direction, and the second clamping plate 315 is in the second clamping state, and the second clamping plate 315 is clamped by the second clamping plate 315, and the second clamping plate 315 is in the second clamping plate section, and the second clamping plate 315 is in the second clamping state.

And (3) winding the steel belt: when one end of the steel belt is transported between the first clamping arc 409 and the second clamping arc 410, the second motor 402 is started, the output shaft of the second motor 402 drives the central shaft 404 to rotate, the central shaft 404 drives the second clamping arc 410 to rotate, the second clamping arc 410 moves to be attached to the first clamping arc 409 and clamp one end of the steel belt, the two ends of the first clamping arc 409 drive the connecting rings 408 at the two ends to rotate through the fifth springs 411 respectively, the steel belt is wound on the outer circumferential surfaces of the first clamping arc 409 and the second clamping arc 410, when the steel belt is wound on the contact switch 406 and the contact switch 406 is pressed, the second motor 402 is closed, the central shaft 404 stops rotating, and the steel belt winding is completed to form the steel belt.

Cutting the steel belt: the third motor 513 is electrically connected by the abutting switch 406, the output shaft of the third motor 513 drives the fifth driving wheel 508 to rotate, the fifth driving wheel 508 drives the sixth driving wheel 509, the eighth driving wheel 512 and the seventh driving wheel 511 to rotate through the second chain 510, the second chain 510 drives the third connecting plate 503 to move, when the third connecting plate 503 moves on the E section of the second chain 510, the third connecting plate 503 slides on the second sliding plate 502 in the vertical direction, the third connecting plate 503 drives the cutting machine 504 to move on the second guiding rod 505 in the vertical direction, the cutting machine 504 moves to a position close to the steel belt, the second guiding rod 505 slides on the sliding block 514 in the vertical direction, when the third connecting plate 503 moves on the F section of the second chain 510, the second sliding plate 502 slides on the third sliding rail 507 in the horizontal direction, the second sliding plate 502 drives the discharging mechanism to slide in the horizontal direction, and simultaneously the second sliding plate 502 drives the third connecting plate 503, the second guiding rod 505 and the cutting machine 504 to slide in the horizontal direction, the steel belt is cut, when the third connecting plate 503 moves on the G section of the second chain 510, the cutting machine 504 moves to a position far away from the third connecting plate 504, and returns to the H section of the cutting machine 510 when the third connecting plate 504 moves back to the H section of the cutting machine.

Discharging and bundling steel strip coils: when the third connecting plate 503 moves on the F section of the second chain 510, the second slide plate 502 drives the semicircular ring 601 to slide along the horizontal direction, two pushing plates 602 on the semicircular ring 601 are in contact with the steel strip coil, the two pushing plates 602 respectively slide along the horizontal direction in the first sliding hole 401 and the second sliding hole 407 of the ring limiting cylinder 403, the two pushing plates 602 move to be separated from the steel strip coil along the horizontal direction, when the third connecting plate 503 moves on the H section of the second chain 510, the second slide plate 502 drives the semicircular ring 601 to move along the opposite direction along the horizontal direction, the two pushing plates 602 contact one end of the steel strip coil and push the steel strip coil into the fixed cylinder 9, and the binding machine 7 binds the steel strip coil.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims

1. A coiling mechanism for steel band production, its characterized in that: a feeding mechanism for entering the steel belt is arranged on the support frame (1), a feeding mechanism for conveying the steel belt to a rolling mechanism is arranged on the support frame (1), the rolling mechanism rolls the steel belt, a cutting mechanism for cutting the rolled steel belt is arranged on the support frame (1), the cutting mechanism is connected with a discharging mechanism, a fixed cylinder (9) is arranged on a first support plate (8) of the support frame (1), and the discharging mechanism conveys the rolled steel belt into the fixed cylinder (9);

the winding mechanism is as follows: one side of the fixed cylinder (9) is provided with a limit cylinder (403) which is mutually communicated with the limit cylinder, two first sliding holes (401) which are centrally symmetrical are formed in the limit cylinder (403), the two first sliding holes (401) are respectively connected with a discharging mechanism in a sliding mode along the horizontal direction, the inner circumference of the limit cylinder (403) is connected with a collision switch (406) through a fourth spring (405), one end of the collision switch (406) is rotationally connected with the limit cylinder (403), the collision switch (406) is in collision with a coiled steel belt, the collision switch (406) is connected with a cutting mechanism, a second motor (402) which is used for driving a central shaft (404) to rotate is arranged on the support frame (1), one side of the outer circumference of the central shaft (404) is provided with a second clamping arc plate (410), one side of the central shaft (404) is connected with a first clamping arc plate (409) in a sliding mode, two ends of the central shaft (404) are respectively rotationally provided with connecting rings (408), grooves (413) are respectively formed in each connecting ring (408), the first ends (412) are respectively connected with the six ends (412) of the first clamping arc plates (412) through the first springs (411), and the six ends (412) are respectively connected with the six ends of the springs (408) The other end is contacted with the other side surface of the second clamping arc plate (410).

2. The winding device for steel strip production according to claim 1, wherein the feeding mechanism is: be provided with second fixed plate (206), first fixed plate (201), two curb plates (207) on support frame (1), second fixed plate (206) are located first fixed plate (201) top, two curb plates (207) are located both sides between second fixed plate (206) and first fixed plate (201), first fixed plate (201) are connected with first feed plate (203) through first spring (202), first feed plate (203) both ends are connected with two curb plates (207) rotation respectively, second fixed plate (206) are connected with second feed plate (204) through second spring (205), second feed plate (204) both ends are connected with two curb plates (207) rotation respectively, second feed plate (204) are located first feed plate (203) top, get into the steel band between second feed plate (204) and the first feed plate (203).

3. The winding device for steel strip production according to claim 1, wherein the feeding mechanism is: a first transmission shaft (302), a second transmission shaft (303), a third transmission shaft (309) and a fourth transmission shaft (310) are rotatably arranged between two vertical plates of the support frame (1), one end of the fourth transmission shaft (310) is connected with an output shaft of a first motor (307), two ends of the first transmission shaft (302) are respectively provided with a second transmission wheel (306), two ends of the second transmission shaft (303) are respectively provided with a first transmission wheel (305), two ends of the third transmission shaft (309) are respectively provided with a third transmission wheel (308), two ends of the fourth transmission shaft (310) are respectively provided with a fourth transmission wheel (316), the first transmission wheels (305) at two ends, the second transmission wheels (306), the third transmission wheels (308) and the fourth transmission wheels (316) are respectively connected through first chains (304), the first chains (304) are rectangular chains, each first clamping plate (315) is respectively arranged on each first chain (304), two vertical plates on the support frame (1) are respectively provided with a first sliding rail (301), each first sliding rail (312) is respectively connected with a first sliding plate (312) in a horizontal direction, each first sliding plate (312) is connected with a first sliding plate (314) in a vertical direction through a first sliding plate (314), the bottom of the first guide rod (313) is fixedly connected with the second clamping plate (315), and the first clamping plate (314) and the second clamping plate (315) clamp the steel belt.

4. A coiling assembly for the production of steel strip as in claim 3, wherein: the horizontal plane of the horizontal center line of the first transmission shaft (302) is the same as the horizontal plane of the horizontal center line of the third transmission shaft (309), the horizontal plane of the horizontal center line of the second transmission shaft (303) is the same as the horizontal plane of the horizontal center line of the fourth transmission shaft (310), the perpendicular bisector of the second transmission shaft (303) is the same straight line with the perpendicular bisector of the first transmission shaft (302), and the perpendicular bisector of the fourth transmission shaft (310) is the same straight line with the perpendicular bisector of the third transmission shaft (309).

5. The winding device for steel strip production according to claim 1, wherein: the supporting frame (1) is provided with a bundling machine (7) which is used for bundling the rolled steel belt and is positioned on one side of the first supporting plate (8).

6. The winding device for steel strip production according to claim 1, wherein the cutting mechanism is: a second supporting plate (501) is arranged on the supporting frame (1), a fifth driving wheel (508), a sixth driving wheel (509), a seventh driving wheel (511) and an eighth driving wheel (512) are rotatably arranged on the second supporting plate (501), a third motor (513) for driving the fifth driving wheel (508) to rotate is arranged on the second supporting plate (501), the fifth driving wheel (508), the sixth driving wheel (509), the seventh driving wheel (511) and the eighth driving wheel (512) are in transmission connection through a second chain (510), the second chain (510) is a rectangular chain, a second sliding rail (506) and a third sliding rail (507) are arranged on the supporting frame (1), the second sliding rail (506) is positioned above the third sliding rail (507), a second sliding plate (502) is connected on the third sliding rail (507) in a sliding way along the horizontal direction, a discharging mechanism is arranged on the second sliding plate (502), one end of the third connecting plate (503) penetrates through the second sliding plate (502) and is connected with the second sliding plate (502) in a sliding way along the vertical direction, one end of the third connecting plate (503) is connected with the second sliding plate (510), the other end of the third connecting plate (503) is connected with the second sliding plate (505) along the horizontal direction of the second sliding plate (514), the second sliding plate (506) is connected with the second sliding plate (514) for cutting the second sliding plate (506), the second guide rod (505) penetrates through the sliding block (514) and is connected with the sliding block (514) in a sliding mode along the vertical direction.

7. The winding device for steel strip production according to claim 6, wherein: the horizontal plane of the horizontal center line of the fifth driving wheel (508) is the same horizontal plane as the horizontal plane of the horizontal center line of the seventh driving wheel (511), the horizontal plane of the horizontal center line of the sixth driving wheel (509) is the same horizontal plane as the horizontal plane of the horizontal center line of the eighth driving wheel (512), the perpendicular bisector of the fifth driving wheel (508) is the same straight line as the perpendicular bisector of the sixth driving wheel (509), and the perpendicular bisector of the seventh driving wheel (511) is the same straight line as the perpendicular bisector of the eighth driving wheel (512).

8. The winding device for steel strip production according to claim 6, wherein: the discharging mechanism is as follows: the second sliding plate (502) is provided with a semicircular ring (601), a pushing plate (602) with central symmetry is rotatably arranged on the inner circumferential side surface of the sliding semicircular ring (601), two third fixing plates (604) are arranged on the outer circumferential side surface of the sliding semicircular ring (601), each pushing plate (602) is connected with the third fixing plates (604) through a seventh spring (603) respectively, and each pushing plate (602) is connected with a first sliding hole (401) and a second sliding hole (407) on the ring limiting cylinder (403) in a sliding mode along the horizontal direction.