CN109226335B

CN109226335B - Steel belt winding system

Info

Publication number: CN109226335B
Application number: CN201811326089.5A
Authority: CN
Inventors: 戴泽辉; 卢威
Original assignee: Shandong Hongwang Industrial Co Ltd
Current assignee: Shandong Hongwang Industrial Co Ltd
Priority date: 2018-11-08
Filing date: 2018-11-08
Publication date: 2023-12-01
Anticipated expiration: 2038-11-08
Also published as: CN109226335A

Abstract

The invention provides a steel belt winding system, which comprises: the cutting mechanism, the guiding mechanism and the conveying mechanism, wherein the guiding mechanism is arranged between the cutting mechanism and the conveying mechanism. The conveying mechanism comprises a first conveying section, wherein the first conveying section comprises a first conveying frame, a first conveying belt, a first conveying motor, a first driving shaft and a first driven shaft; the first conveying frame comprises two convex tooth guide rails which are arranged in parallel and a moving frame; the first driving shaft and the first driven shaft are both arranged on the movable frame, the first conveyor belt is sleeved on the first driving shaft and the first driven shaft, and the first driving shaft is connected with the first conveying motor; the movable frame is connected with a driving motor. The steel belt winding system can effectively improve production efficiency and reduce production cost.

Description

Steel belt winding system

Technical Field

The invention relates to the technical field of steel belt production equipment, in particular to a steel belt winding system.

Background

The head and the tail of the steel coil produced in the prior art are scratched, and the length of the scratch is about 4.8 meters, so that the head and the tail of the steel coil are required to be cut off because the scratch can bring great influence on the quality of the whole steel coil.

However, the length of the steel belt to be sheared reaches 4.8 meters, and the steel belt of 4.8 meters is required to be conveyed out on the premise of not influencing the running speed of the production line, the existing steel belt winding machine does not have the function of transportation, and the sheared steel belt is easy to pile up on the winding machine, so that the running speed of the production line is influenced, the production efficiency is greatly reduced, and the production cost is increased.

Disclosure of Invention

The invention provides a steel belt winding system which can effectively improve production efficiency and reduce production cost.

The invention adopts the technical scheme that: a steel strip winding system, comprising: the cutting mechanism, the guiding mechanism and the conveying mechanism are arranged between the cutting mechanism and the conveying mechanism;

the conveying mechanism comprises a first conveying section, wherein the first conveying section comprises a first conveying frame, a first conveying belt, a first conveying motor, a first driving shaft and a first driven shaft; the first conveying frame comprises two convex tooth guide rails which are arranged in parallel and a moving frame; the first driving shaft and the first driven shaft are both arranged on the movable frame, the first conveyor belt is sleeved on the first driving shaft and the first driven shaft, and the first driving shaft is connected with the first conveying motor;

the movable frame is provided with gears corresponding to the two convex tooth guide rails, each gear is meshed with the corresponding convex tooth guide rail, and one gear is connected with a fourth driving motor.

Further, the cutting mechanism comprises a mounting seat, a cutting knife, a first roller set and a second roller set; the mounting seat is vertically provided with a mounting column, the cutting knife is mounted on the mounting column, the first roller set is mounted on one side of the mounting column, and the second roller set is mounted on the other side of the mounting column.

Further, the first roll set includes a first upper pinch roll and a first lower pinch roll; a first driving cylinder and a mounting arm are arranged on one side of the mounting column, and the first driving cylinder is positioned above the mounting arm; the first lower pinch roll 302 is mounted on the mounting arm, and the first upper pinch roll is connected with the first driving cylinder.

Further, the second roll set includes a second upper pinch roll and a second lower pinch roll; a second driving cylinder and a swing arm are arranged on the other side of the mounting column; the swing arm is connected to the lower part of the second driving cylinder, and the second upper pinch roll is installed on the swing arm.

Further, the guide mechanism comprises a mounting frame, a third driving cylinder and a guide plate; the mounting frame is arranged between the mounting seat and the first conveying frame, the third driving cylinder is mounted on the mounting frame, and the guide plate is connected with the third driving cylinder.

Further, the conveying mechanism further comprises a second conveying section, and the second conveying section is arranged at the output end of the first conveying section; the second conveying section comprises a second conveying frame, a second conveying belt, a second conveying motor, a second driving shaft and a second driven shaft; the second driving shaft and the second driven shaft are both arranged on the second conveying frame, and the second conveying belt is sleeved on the second driving shaft and the second driven shaft; the second conveying motor is arranged on the second conveying frame and is connected with the second driving shaft.

Further, a plurality of second rotating shafts are arranged at intervals on the second conveying frame, and the second rotating shafts are located between the second driving shaft and the second driven shaft.

Further, the conveying mechanism further comprises a third conveying section, and the third conveying section is arranged at the output end of the second conveying section; the third conveying section comprises a third conveying frame and a discharging structure arranged on the third conveying frame; the unloading structure comprises two unloading parts which are oppositely arranged on the third conveying frame, and each unloading part comprises an unloading machine and an unloading frame connected with the unloading machine; the position department that the third carriage corresponds every the portion of unloading all is equipped with two installation department, the both ends of unloading the frame all are connected with the connecting piece, every the connecting piece rotation installation in every installation department.

Further, a connecting rod is arranged between the two connecting pieces, the top of the unloading machine is arranged on the connecting rod, and the bottom of the unloading machine is connected with the unloading frame.

Further, the third conveying frame is further provided with a receiving mechanism, and the receiving mechanism is positioned below the two discharging frames.

Compared with the prior art, the steel belt winding system provided by the invention has the advantages that the belt head and the belt tail cut off by the cutting mechanism are conveyed to the appointed position by arranging the conveying mechanism, so that the influence on the line speed caused by accumulation of the belt head and the belt tail in the steel belt winding system is effectively avoided, the production efficiency is effectively improved, and the production cost is reduced.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the description serve to explain the invention. In the drawings of which there are shown,

fig. 1: the invention discloses a schematic diagram of a steel belt winding system;

fig. 2: the steel belt winding system is a partial perspective view;

fig. 3: the invention relates to a partial enlarged view of a steel belt winding system;

fig. 4: another part of the steel belt winding system is in a perspective view;

fig. 5: another partial enlarged view of the steel strip winding system of the present invention.

Detailed Description

The following describes specific embodiments of the present invention in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the invention.

As shown in fig. 1 and 2, the steel strip winding system of the present invention includes a cutting mechanism, a winding mechanism, a guiding mechanism, and a conveying mechanism, the guiding mechanism being disposed between the cutting mechanism and the conveying mechanism; firstly, a steel belt is cut by a cutting mechanism to scratch the belt head, and the cut belt head is conveyed to a conveying mechanism by a guiding mechanism and then is output by the conveying mechanism; then, the steel belt with the head cut off is wound by a winding mechanism; finally, the scratched tape tail is cut by the cutting mechanism, and the cut tape tail is conveyed to the conveying mechanism through the guiding mechanism and then is output by the conveying mechanism.

Specifically, the cutting mechanism comprises a mounting seat 1, a cutting knife 2, a first roller set 3 and a second roller set 4, wherein the cutting knife 2 is mounted on the mounting seat 1; wherein, be equipped with erection column 101 perpendicularly on the mount pad 1, cut cutter 2 and install in erection column 101, first roller set 3 are installed in erection column 101 one side of keeping away from guiding mechanism, and second roller set 4 is installed in erection column 101 one side of being close to helping guiding mechanism. The first roll set 3 includes a first upper pinch roll 301 and a first lower pinch roll 302; wherein the first upper pinch roll 301 is located above the first lower pinch roll 302. A first driving cylinder 5 and a mounting arm 6 are arranged on one side of the mounting column 101 away from the guide mechanism, and the first driving cylinder 5 is positioned above the mounting arm 6; the first lower pinch roller 302 is attached to the mounting arm 6, and the first upper pinch roller 301 is connected to the first driving cylinder 5. The first upper pinch roll 301 is driven to be pressed down to the first lower pinch roll 302 by the first driving cylinder 5, so that the steel strip is convenient to convey.

The second roll set 4 includes a second upper pinch roll 401 and a second lower pinch roll 402; wherein the second lower pinch roll 402 is mounted on the mounting base 1, and the highest point of the second lower pinch roll 402 is equal to the highest point of the first lower pinch roll 302; the second upper pinch roll 401 is located above the second lower pinch roll 402. A second driving cylinder 7 and a swing arm 8 are arranged on one side of the mounting column 101, which is close to the guide mechanism; wherein, swing arm 8 is connected and is located the below of second drive cylinder 7, and second upper pinch roll 401 installs in swing arm 8. The swing arm 8 is pulled by the second driving air cylinder 7 to drive the second upper pinch roll 401 to move up and down, and when the second upper pinch roll 401 is pressed down to the first lower pinch roll 302, the second upper pinch roll is in a steel belt conveying state.

As shown in fig. 3 to 5, the guide mechanism includes a mounting bracket 9, a third driving cylinder 10, and a guide plate 11; wherein, the mounting frame 9 is arranged between the mounting seat 1 and the conveying mechanism, the third driving cylinder 10 is arranged on the mounting frame 9, the guide plate 11 is connected with the third driving cylinder 10, and the guide plate 11 is inclined; the end of the guide plate 11 close to the second roller set 4 is lower than the end close to the first conveying section 12. The guide plate 11 is driven to move up and down along the mounting frame 9 by the third driving cylinder 10, and the belt head and tail cut by the cutting mechanism are guided to the conveying mechanism and then output by the conveying mechanism.

The conveying mechanism comprises a first conveying section 12, a second conveying section 13 and a third conveying section 14; wherein the first conveying section 12 is arranged between the guiding mechanism and the second conveying section 13, and the second conveying section 13 is arranged between the first conveying section 12 and the third conveying section 14.

The first conveying section 12 includes a first conveying frame 120, a first conveyor belt 121, a first conveying motor 122, a first driving shaft 123, and a first driven shaft 124; the input end of the first conveying frame 120 is mounted on the mounting frame 9, the output end is located above the second conveying section 13, and the output end of the first conveying frame 120 is higher than the input end, so that the first conveying frame 120 is obliquely erected between the mounting frame 9 and the second conveying section 13.

Further, the first carriage 120 includes two parallel tooth guide rails 1201 and a moving frame 1202 movably mounted to the two tooth guide rails 1201; the first driving shaft 123 is installed at one end of the moving frame 1202 close to the second conveying section 13, the first driven shaft 124 is installed at one end of the moving frame 1202 close to the mounting frame 9, and the first conveying belt 121 is sleeved on the first driving shaft 123 and the first driven shaft 124; and the first driving shaft 123 is connected to the first conveying motor 122. The first driving shaft 123 is driven to rotate by the first conveying motor 122, so that the first conveying belt 121 is driven to drive, and the first driven shaft 124 is driven to rotate, so that the first conveying section 12 is in a conveying state.

In addition, the gear 15 is installed at one end of the moving frame 1202 where the first driving shaft 123 is installed corresponding to both the two tooth guide rails 1201, the gear 15 is also installed at one end of the moving frame 1202 where the first driven shaft 124 is installed corresponding to both the two tooth guide rails 1201, each gear 15 is meshed with the corresponding tooth guide rail 1201, and one of the gears 15 is connected with the fourth driving motor 16. The fourth driving motor 16 drives the gear 15 to move along the corresponding convex tooth guide rail 1201, so that the moving frame 1202 is driven to move back and forth along the two convex tooth guide rails 1201, and the first conveyor belt 121 is driven to move back and forth along the two convex tooth guide rails 1201, so that the first conveyor belt 121 is close to or far away from the second conveying section 13, and the belt is convenient to convey the belt head and tail from the guiding mechanism to the second conveying section 13. In addition, a plurality of first rotating shafts 17 are mounted on the moving frame 1202 at intervals, and the first rotating shafts 17 are located between the first driving shaft 123 and the first driven shaft 124 to support the first conveyor belt 121.

The second conveying section 13 includes a second conveying frame 130, a second conveying belt 131, a second conveying motor 132, a second driving shaft 133, and a second driven shaft 134. Wherein, the second driving shaft 133 is mounted at the output end of the second carriage 130, and the second driven shaft 134 is mounted at the input end of the second carriage 130; the second conveyor belt 131 is sleeved on the second driving shaft 133 and the second driven shaft 134, the second conveying motor 132 is installed on the second conveying frame 130, and the second driving shaft 133 of the second conveying motor 132 is connected. The second driving shaft 133 is driven to rotate by the second conveying motor 132, so as to drive the second conveying belt 131 to drive the second driven shaft 134 to rotate, and the second conveying section 13 is in a conveying state. Further, a plurality of second rotating shafts 18 are mounted on the second carriage 130 at intervals, and the plurality of second rotating shafts 18 are located between the second driving shaft 133 and the second driven shaft 134, supporting the second conveyor belt 131.

The third conveyor section 14 includes a third conveyor frame 140 and a discharge structure mounted to the third conveyor frame 140. The discharge structure comprises two discharge portions oppositely arranged to the third carrier 140, each discharge portion comprising a discharge machine 19 and a discharge frame 20 connected to the discharge machine 19. Wherein, the third conveying frame 140 is provided with two mounting portions 1401 at positions corresponding to each discharging portion, two ends of the discharging frame 20 are connected with connecting pieces 21, and each connecting piece 21 is rotatably mounted on each mounting portion 1401.

A connecting rod 22 is arranged between the two connecting pieces 21, the top of the unloading machine 19 is arranged on the connecting rod 22, and the bottom is connected with the unloading frame 20. The corresponding unloading frame 20 is driven to rotate around the two mounting parts 1401 through each unloading machine 19, so that the unloading frame 20 is in a downward inclined or level state, the unloading parts are opened or closed, and the belt head and the belt tail conveyed by the second conveying section 13 are unloaded, so that the influence on the line speed caused by accumulation of the belt head and the belt tail in the steel belt winding system is effectively avoided, the production efficiency is effectively improved, and the production cost is reduced.

In addition, the third conveying frame 140 is further provided with a receiving mechanism 23, and the receiving mechanism 23 is located below the two discharging frames 20. When the two discharging frames 20 are opened, the belt-head belt tails drop to the receiving mechanism 23 and are collected, and the belt-head belt tails are cleaned by staff at regular time.

The winding mechanism is arranged below the first conveying frame 120 and the second conveying frame 130; the winding mechanism includes a wind-up roller 24 and a wrapper 25. Wherein the winding aid 25 is slidably disposed below the second carriage 130, and the wind-up roller 24 is disposed between the guiding mechanism and the winding aid 25 and below the first carriage 120; the winding roller 24 winds the strip with the head and tail cut off by the cutting mechanism, and the winding assisting device 25 assists the winding roller 24 to wind up the strip.

Besides, the steel belt winding system also comprises a paper winding mechanism; the paper winding mechanism comprises a paper winding platform 26 and at least one paper unreeling roller 27; the paper winding platform 26 is arranged above the wind-up roller 24, and the height of the paper winding platform 26 is higher than that of the first conveying frame 120 and the second conveying frame 130; the unreeling roller 27 is mounted on the reeling platform 26. Further, the winding platform 26 is provided with a through hole 260 for passing the backing paper on the unreeling roller 27 and conveying the backing paper downwards to the winding roller 24. When the winding roller 24 winds the steel strip, the winding roller 24 simultaneously winds up the backing paper on the unreeling roller 27 and is padded in the steel coil.

In this embodiment, two unreeling rollers 27 are installed on the reeling platform 26, when the backing paper on one unreeling roller 27 is used up, the other unreeling roller 27 is directly replaced, so that the production stopping state caused by the lack of the backing paper is avoided, and the working efficiency is effectively improved. It will be appreciated that in other embodiments, the number of unreeling rollers 27 may be set according to the actual production situation, and is not limited thereto.

In summary, the steel belt winding system of the invention conveys the belt head and belt tail cut by the cutting mechanism to the receiving mechanism 23 by arranging the conveying mechanism, thereby effectively avoiding the influence of the accumulation of the belt head and belt tail in the steel belt winding system on the line speed, effectively improving the production efficiency and reducing the production cost.

Any combination of the various embodiments of the invention should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the invention, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the invention should be within the scope of the invention.

Claims

1. A steel strip winding system, comprising: the cutting mechanism, the guiding mechanism and the conveying mechanism are arranged between the cutting mechanism and the conveying mechanism;

the conveying mechanism comprises a first conveying section (12), wherein the first conveying section (12) comprises a first conveying frame (120), a first conveying belt (121), a first conveying motor (122), a first driving shaft (123) and a first driven shaft (124); the first conveying frame (120) comprises two parallel convex tooth guide rails (1201) and a moving frame (1202); the first driving shaft (123) and the first driven shaft (124) are both arranged on the movable frame (1202), the first conveyor belt (121) is sleeved on the first driving shaft (123) and the first driven shaft (124), and the first driving shaft (123) is connected with the first conveying motor (122);

the movable frame (1202) is provided with gears (15) corresponding to the two convex tooth guide rails (1201), each gear (15) is meshed with the corresponding convex tooth guide rail (1201), and one gear (15) is connected with a fourth driving motor (16);

the conveying mechanism further comprises a second conveying section (13), and the second conveying section (13) is arranged at the output end of the first conveying section (12); the second conveying section (13) comprises a second conveying frame 130, a second conveying belt (131), a second conveying motor (132), a second driving shaft (133) and a second driven shaft (134); the second driving shaft (133) and the second driven shaft (134) are both arranged on the second conveying frame (130), and the second conveying belt (131) is sleeved on the second driving shaft (133) and the second driven shaft (134); the second conveying motor (132) is mounted on the second conveying frame (130), and the second conveying motor (132) is connected with the second driving shaft (133);

the steel belt winding system further comprises a winding mechanism and a paper winding mechanism; the winding mechanism is arranged below the first conveying frame (120) and the second conveying frame (130); the winding mechanism comprises a winding roller (24) and a winding assisting device (25), wherein the winding assisting device (25) is arranged below the second conveying frame (130) in a sliding manner, the winding roller (24) is arranged between the guiding mechanism and the winding assisting device (25) and is positioned below the first conveying frame (120), the winding roller (24) winds the steel belt which is cut off by the cutting mechanism and is in a band head and band tail state, and the winding assisting device (25) assists the winding roller (24) to wind up the steel belt;

the paper winding mechanism comprises a paper winding platform (26) and at least one paper unreeling roller (27); the paper winding platform (26) is arranged above the winding roller (24), and the height of the paper winding platform (26) is higher than that of the first conveying frame (120) and the second conveying frame (130); the unreeling roller (27) is arranged on the reeling paper platform (26); the paper winding platform (26) is provided with a through hole (260), and the through hole (260) is used for passing through the paper pad on the paper unwinding roller (27) and conveying the paper pad downwards to the wind-up roller (24).

2. The steel strip winding system of claim 1, wherein: the cutting mechanism comprises a mounting seat (1), a cutting knife (2), a first roller set (3) and a second roller set (4); the mounting seat (1) is vertically provided with a mounting column (101), the cutting knife (2) is mounted on the mounting column (101), the first roller set (3) is mounted on one side of the mounting column (101), and the second roller set (4) is mounted on the other side of the mounting column (101).

3. The steel strip winding system of claim 2, wherein: the first roller set (3) comprises a first upper pinch roller (301) and a first lower pinch roller (302); a first driving cylinder (5) and a mounting arm (6) are arranged on one side of the mounting column (101), and the first driving cylinder (5) is positioned above the mounting arm (6); the first lower pinch roll (302) is mounted on the mounting arm (6), and the first upper pinch roll (301) is connected with the first driving cylinder (5).

4. The steel strip winding system of claim 2, wherein: the second roll set (4) comprises a second upper pinch roll (401) and a second lower pinch roll (402); a second driving cylinder (7) and a swing arm (8) are arranged on the other side of the mounting column (101); the swing arm (8) is connected to the lower portion of the second driving cylinder (7), and the second upper pinch roll (401) is installed on the swing arm (8).

5. The steel strip winding system of claim 2, wherein: the guide mechanism comprises a mounting frame (9), a third driving cylinder (10) and a guide plate (11); the mounting frame (9) is arranged between the mounting seat (1) and the first conveying frame (120), the third driving cylinder (10) is mounted on the mounting frame (9), and the guide plate (11) is connected with the third driving cylinder (10).

6. The steel strip winding system of claim 1, wherein: a plurality of second rotating shafts (18) are arranged on the second conveying frames (130) at intervals, and the second rotating shafts (18) are located between the second driving shafts (133) and the second driven shafts (134).

7. The steel strip winding system of claim 1, wherein: the conveying mechanism further comprises a third conveying section (14), and the third conveying section (14) is arranged at the output end of the second conveying section (13); the third conveying section (14) comprises a third conveying frame (140) and a discharging structure mounted on the third conveying frame (140); the unloading structure comprises two unloading parts which are oppositely arranged on the third conveying frame (140), wherein each unloading part comprises an unloading machine (19) and an unloading frame (20) connected with the unloading machine (19); the position of the third conveying frame (140) corresponding to each discharging part is provided with two mounting parts (1401), two ends of the discharging frame (20) are connected with connecting pieces (21), and each connecting piece (21) is rotatably mounted on each mounting part (1401).

8. The steel strip winding system of claim 7, wherein: a connecting rod (22) is arranged between the two connecting pieces (21), the top of the unloading machine (19) is arranged on the connecting rod (22), and the bottom of the unloading machine is connected with the unloading frame (20).

9. The steel strip winding system of claim 7, wherein: the third conveying frame (140) is further provided with a receiving mechanism (23), and the receiving mechanism (23) is located below the two discharging frames (20).