CN218950620U - Automatic packing device based on steel belt - Google Patents

Abstract

The utility model relates to an automatic packing device based on steel belts, which comprises a pay-off rack, wherein a conveying assembly for placing the steel belts is arranged on the pay-off rack; the support frame is provided with a tray and a guide assembly for receiving the steel belt on the conveying assembly, the tray is arranged at the output end of the guide assembly, the center of the tray is provided with a lock sleeve, the tray is provided with a sliding channel for sliding the lock sleeve, a power assembly for driving the lock sleeve to rotate and dragging the lock sleeve is arranged below the tray, and one side of the guide assembly is provided with a meter counter; the cutting module is arranged on the support frame and is positioned on one side of the guide assembly, the cutting module comprises a rodless cylinder, the rodless cylinder is connected with an adhesive assembly through a conveying arm, and the adhesive assembly is connected with a cutting assembly for cutting a steel belt at the output end of the guide assembly; the guiding-out module is arranged above the tray in a sliding way. The utility model greatly reduces the labor investment in the packing process, has high automation degree, improves the packing operation efficiency and reduces the operation cost.

Description

Automatic packing device based on steel belt

Technical Field

The utility model relates to the technical field of steel belt packing, in particular to an automatic packing device based on steel belts.

Background

The steel strip is a flat steel strip made of carbon steel as a traction part of an elevator, and is generally packed during transportation to be rolled into a circular shape, which enables the steel strip to be transported conveniently.

But at present, the steel belt packaging is usually carried out by manually dragging the steel belt wound on the pay-off rack, manually winding the steel belt into a disc, cutting the disc into required length, carrying the disc to the next position after bonding and fixing, and the whole process needs to spend a great deal of physical strength and time of operators, so that the labor cost is greatly increased, and the working efficiency is reduced.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is to overcome the defects that in the prior art, the steel belt is manually pulled and coiled on the pay-off rack, the steel belt is manually coiled into a disc, then the required length is cut, and the steel belt is conveyed to the next position after being adhered and fixed, so that the whole process needs to spend a great deal of physical effort and time of operators, the labor cost is greatly increased, and the working efficiency is reduced.

In order to solve the technical problems, the utility model provides an automatic packing device based on steel belts, which comprises

The pay-off rack is provided with a conveying assembly for placing the steel belt;

the support frame is arranged at the output end of the pay-off rack, a tray and a guide assembly for receiving the steel belt on the conveying assembly are arranged on the support frame, the tray is arranged at the output end of the guide assembly, a lock sleeve is arranged at the center of the tray, a sliding channel for sliding the lock sleeve is arranged on the tray, a power assembly for driving the lock sleeve to rotate and dragging the lock sleeve is arranged below the tray, and a meter counter is arranged at one side of the guide assembly;

the cutting module is arranged on the supporting frame and is positioned on one side of the guide assembly, the cutting module comprises a rodless cylinder, the rodless cylinder is connected with an adhesive assembly through a conveying arm, and the adhesive assembly is connected with a cutting assembly for cutting a steel belt at the output end of the guide assembly;

and the export module is arranged above the tray in a sliding way.

In one embodiment of the present utility model, the slip path includes a center hole, a drag-and-drop hole, and a drag-and-drop path communicating the center hole and the drag-and-drop hole.

In one embodiment of the utility model, the guide assembly comprises a jacking cylinder and a plurality of groups of symmetrically arranged guide rollers, the steel strip is arranged between the symmetrically arranged guide rollers, the jacking cylinder is arranged between the guide rollers and the tray, one side of the jacking cylinder is provided with a clamping frame, one end of the clamping frame is connected with the output end of the jacking cylinder, the other end of the clamping frame is arranged on the supporting frame, a conveying piece for conveying the steel strip is arranged between the clamping frame and the jacking cylinder, and the conveying piece is arranged on one side of the drag-drop hole.

In one embodiment of the utility model, the bonding assembly comprises a frame, one end of the conveying arm is connected with the rodless cylinder, the other end of the conveying arm is connected with the frame, an adhesive tape is sleeved in the frame, and a rotating roller used for connecting the adhesive tape is arranged at one end of the frame away from the conveying arm.

In one embodiment of the utility model, the cutting assembly comprises a thrust cylinder, the thrust cylinder is mounted on the frame, a cutting knife is connected to the thrust cylinder in a driving mode, the cutting knife is located on one side of the rotating roller, and the cutting knife is close to the guiding assembly.

In one embodiment of the utility model, the power assembly comprises a second cylinder arranged at the bottom of the support frame, the second cylinder is in driving connection with a motor, and the output end of the motor is connected with the lock sleeve through a rotating shaft.

In one embodiment of the utility model, the guiding-out module comprises a vertical frame, the vertical frame is arranged on one side of the supporting frame, a sliding rail is arranged on the vertical frame through a fixing plate, a sliding block is arranged on the sliding rail in a sliding mode, the sliding block is connected with a first air cylinder through a mounting arm, an output shaft of the first air cylinder is connected with a pressing piece, the pressing piece is positioned above the tray, and the pressing piece and the lock sleeve are the same in size.

In one embodiment of the utility model, the meter further comprises a control module, wherein the control module is electrically connected with the power assembly, the export module and the meter respectively.

In one embodiment of the utility model, the conveying assembly comprises a conveying roller, the conveying roller is arranged on the pay-off rack and is close to one side of the supporting frame, and the steel belt is arranged on the conveying roller.

In one embodiment of the utility model, one end of the supporting frame is provided with the pay-off rack, the other end of the supporting frame is provided with the transplanting rack, and a plurality of rows of rollers are arranged on the transplanting rack.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

according to the automatic packing device based on the steel belt, firstly, the steel belt is conveyed to the guide assembly through the conveying assembly of the pay-off rack, the guide assembly can adjust the steel belt to move in a vertical state, so that the direction of the steel belt in coiling is consistent, and meanwhile, the steel belt can be straightened; secondly, the power assembly rotates the sliding channel to the output end of the guide assembly, then drags the lock sleeve to the output end of the guide assembly along the sliding channel, inserts the steel belt into the lock sleeve to enable the steel belt to return to the original position after the rolling is completed, the power assembly drives the lock sleeve to bring the steel belt to the original position, the power assembly rotates the tray and the lock sleeve to enable the steel belt to be rolled automatically, the meter counter detects the length of the rolled steel coil in real time, the transmission assembly and the power assembly stop operation according to the set required steel belt length, the rodless cylinder stretches the bonding assembly and the cutting assembly to the steel belt at the output end of the guide assembly through the transmission arm, after the steel belt is cut off, the bonding assembly adheres to the fracture of the steel belt, and finally the guiding-out module moves the packaged rolled steel belt out of the supporting frame. The whole steel belt packing process greatly reduces the manual investment, has high automation degree, improves the packing operation efficiency and reduces the operation cost.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings, in which

FIG. 1 is a schematic perspective view of an automatic steel strip-based packing apparatus of the present utility model;

FIG. 2 is a schematic view of a part of the structure of the automatic steel strip-based packing apparatus of the present utility model;

FIG. 3 is an enlarged view of section A of the automatic steel strip-based baling device of the present utility model of FIG. 1;

FIG. 4 is an enlarged view of section B of the automatic steel strip-based baling device of the present utility model of FIG. 2;

FIG. 5 is an enlarged view of section C of the automatic steel strip-based baling device of the present utility model of FIG. 2;

FIG. 6 is an enlarged view of section D of the automatic steel strip-based baling device of the present utility model of FIG. 1;

FIG. 7 is an enlarged view of section E of the automatic steel strip-based baling device of the present utility model of FIG. 2;

FIG. 8 is an enlarged view of section F of the steel strip-based automatic baling device of the present utility model of FIG. 2;

description of the specification reference numerals: 1. a pay-off rack; 11. a transfer assembly; 111. a conveying roller; 2. a support frame; 21. a tray; 22. a lock sleeve; 23. a slip path; 231. drag and drop holes; 232. dragging and moving the road; 3. a guide assembly; 31. jacking the air cylinder; 32. a clamping frame; 33. a conveying member; 34. a guide roller; 4. a meter counter; 5. a power assembly; 51. a second cylinder; 52. a motor; 6. a cutting module; 61. a rodless cylinder; 62. a transfer arm; 63. an adhesive assembly; 631. a frame; 632. a rotating roller; 64. a cutting assembly; 641. a thrust cylinder; 642. a cutting knife; 7. a derivation module; 71. a vertical frame; 72. a slide rail; 73. a slide block; 74. a mounting arm; 75. a first cylinder; 76. a pressing piece; 8. a transplanting frame; 81. and a roller.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the utility model and practice it.

Referring to fig. 1-8, the utility model provides an automatic packing device based on steel belts, which comprises a pay-off rack 1, a support frame 2, a cutting module 6 and a guiding-out module 7, wherein a conveying assembly 11 for placing the steel belts is arranged on the pay-off rack 1; the support frame 2 is arranged at the output end of the pay-off rack 1, the support frame 2 is provided with a tray 21 and a guide assembly 3 for receiving the steel belt on the conveying assembly 11, the tray 21 is arranged at the output end of the guide assembly 3, the center of the tray 21 is provided with a lock sleeve 22, the tray 21 is provided with a sliding channel 23 for sliding the lock sleeve 22, the lower part of the tray 21 is provided with a power assembly 5 for driving the lock sleeve 22 to rotate and dragging the lock sleeve 22, and one side of the guide assembly 3 is provided with a meter counter 4; the cutting module 6 is arranged on the support frame 2, the cutting module 6 is positioned on one side of the guide assembly 3, the cutting module 6 comprises a rodless cylinder 61, the rodless cylinder 61 is connected with an adhesive assembly 63 through a conveying arm 62, and the adhesive assembly 63 is connected with a cutting assembly 64 for cutting a steel belt at the output end of the guide assembly 3; the lead-out module 7 is slidably arranged above the tray 21.

The automatic packing device comprises the following steps that firstly, a steel belt is conveyed to a guide assembly 3 through a conveying assembly 11 of a pay-off rack 1, the guide assembly 3 can adjust the steel belt to a vertical state to move, so that the direction of the steel belt in coiling is consistent, and meanwhile, the steel belt can be straightened; secondly, the power component 5 rotates the sliding channel 23 to the output end of the guide component 3, then drags the lock sleeve 22 to the output end of the guide component 3 along the sliding channel 23, inserts the steel belt into the lock sleeve 22 to finish rolling, the power component 5 drives the lock sleeve 22 to return to the original position with the steel belt, the power component 5 rotates the tray 21 and the lock sleeve 22 to enable the steel belt to be automatically rolled, the meter 4 detects the length of the rolled steel belt in real time, the transmission component and the power component 5 stop working according to the set required steel belt length, the rodless cylinder 61 stretches the bonding component 63 and the cutting component 64 to the steel belt at the output end of the guide component 3 through the transmission arm 62, after the steel belt is cut, the bonding component 63 bonds the fracture of the steel belt, and finally, the guiding-out module 7 moves the packaged rolled steel belt out of the supporting frame 2. The whole steel belt packing process greatly reduces the manual investment, has high automation degree, improves the packing operation efficiency and reduces the operation cost.

Specifically, the sliding channel 23 includes a central hole, a drag-and-drop hole 231 and a drag-and-drop channel 232, and the drag-and-drop channel 232 communicates with the central hole and the drag-and-drop hole 231, so that the lock sleeve 22 can conveniently enter the drag-and-drop hole 231 through the drag-and-drop channel 232 in the central hole or the lock sleeve 22 can conveniently enter the central hole through the drag-and-drop hole 232 in the drag-and-drop hole 231. When the lock sleeve 22 is positioned in the central hole, the power assembly 5 drives the lock sleeve 22 and the tray 21 to rotate together so that the steel belt is automatically coiled; when the lock sleeve 22 is positioned in the drag-and-drop hole 231, the steel belt at the output end of the guide assembly 3 is conveyed into the lock sleeve 22 to be packed into a coil.

In this embodiment, the guiding assembly 3 includes a jacking cylinder 31 and a plurality of groups of symmetrically arranged guiding rollers 34, steel strips are arranged between the symmetrically arranged guiding rollers 34, each group of guiding rollers 34 is on the same straight line, the coiled steel strips are aligned and guided to the lock sleeve 22 in the drag-and-drop hole 231, the jacking cylinder 31 is installed between the guiding rollers 34 and the tray 21, a clamping frame 32 is installed on one side of the jacking cylinder 31, one end of the clamping frame 32 is connected with the output end of the jacking cylinder 31, the other end of the clamping frame is arranged on the supporting frame 2, a conveying member 33 for conveying the steel strips is arranged between the clamping frame 32 and the jacking cylinder 31, and the conveying member 33 is installed on one side of the drag-and-drop hole 231. The power component 5 drives the tray 21 to rotate to the position where the dragging hole 231 is close to the conveying member 33, the lock sleeve 22 moves to the position where the dragging hole 231 is located, the conveying member 33 pushes the steel belt into the lock sleeve 22, the jacking cylinder 31 drives the conveying member 33 to ascend, the power component 5 drives the lock sleeve 22 to rotate to finish preliminary winding, then the power component 5 moves to the position where the central hole along the dragging channel 232, and the power component 5 continues to drive the lock sleeve 22 and the tray 21 to rotate so that the steel belt is coiled.

Further, the adhesive assembly 63 includes a frame 631, one end of the transfer arm 62 is connected to the rodless cylinder 61, the other end is connected to the frame 631, an adhesive tape is sleeved in the frame 631, and a rotating roller 632 for connecting the adhesive tape is mounted at an end of the frame 631 remote from the transfer arm 62. Cutting assembly 64 includes a thrust cylinder 641, thrust cylinder 641 being mounted on frame 631, thrust cylinder 641 being drivingly connected to cutter 642, cutter 642 being located on one side of rotating roller 632, and cutter 642 being adjacent to guide assembly 3. When the steel strip reaches the set length, the rodless cylinder 61 moves the bonding assembly 63 and the cutting assembly 64 to the output end of the guide assembly 3 through the conveying arm 62, the thrust cylinder 641 pushes the cutting knife 642 to cut off the steel strip and then drives the cutting knife 642 to retract, and the adhesive tape on the rotating roller 632 is used for bonding the fracture of the steel strip with the inner layer steel strip, so that the fracture of the steel strip is fixed, and the loosening is prevented.

In this embodiment, the power assembly 5 includes a second cylinder 51 installed at the bottom of the support frame 2, and the second cylinder 51 is drivingly connected with a motor 52, and an output end of the motor 52 is connected with the lock sleeve 22 through a rotating shaft.

Specifically, the guiding-out module 7 includes a vertical frame 71, the vertical frame 71 is installed on one side of the supporting frame 2, a sliding rail 72 is installed on the vertical frame 71 through a fixing plate, a sliding block 73 is installed on the sliding rail 72 in a sliding mode, the sliding block 73 is connected with a first air cylinder 75 through an installation arm 74, an output shaft of the first air cylinder 75 is connected with a pressing piece 76, the pressing piece 76 is located above the tray 21, and the pressing piece 76 and the lock sleeve 22 are the same in size. After the bonding assembly 63 bonds the broken steel strip, the rotating shaft drives the lock sleeve 22 to sink below the steel strip, the first air cylinder 75 drives the pressing piece 76, so that the pressing piece 76 enters the position before the lock sleeve 22, the sliding block 73 moves on the sliding rail 72, and the sliding block 73 drives the pressing piece 76 and a large package of coiled steel strip to move to the next position through the mounting arm 74.

The device also comprises a control module which is respectively electrically connected with the power assembly 5, the export module 7 and the meter counter 4, the length of the steel belt needing to be coiled can be set in the control module, and the like, and the automation degree is high.

It is conceivable that the conveying assembly 11 includes a conveying roller 111, the conveying roller 111 is mounted on the pay-off rack 1 and is close to one side of the supporting frame 2, the steel strip is arranged on the conveying roller 111, the conveying roller 111 can automatically provide unreeled steel strip, and the conveying roller 111 can also retract the coiled steel strip on the lock sleeve 22 to realize linkage.

In this embodiment, the pay-off rack 1 is installed at one end of the supporting frame 2, the transplanting frame 8 is installed at the other end, and a plurality of rows of rollers 81 are arranged on the transplanting frame 8, so that the steel belt which is packed into a roll can be conveniently moved to the next position for operation.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. Automatic packing apparatus based on steel band, its characterized in that: comprising

The pay-off rack is provided with a conveying assembly for placing the steel belt;

the support frame is arranged at the output end of the pay-off rack, a tray and a guide assembly for receiving the steel belt on the conveying assembly are arranged on the support frame, the tray is arranged at the output end of the guide assembly, a lock sleeve is arranged at the center of the tray, a sliding channel for sliding the lock sleeve is arranged on the tray, a power assembly for driving the lock sleeve to rotate and dragging the lock sleeve is arranged below the tray, and a meter counter is arranged at one side of the guide assembly;

the cutting module is arranged on the supporting frame and is positioned on one side of the guide assembly, the cutting module comprises a rodless cylinder, the rodless cylinder is connected with an adhesive assembly through a conveying arm, and the adhesive assembly is connected with a cutting assembly for cutting a steel belt at the output end of the guide assembly;

and the export module is arranged above the tray in a sliding way.

2. The automatic steel strip-based packing apparatus of claim 1, wherein: the sliding channel comprises a central hole, a drag-and-drop hole and a drag-and-drop channel, and the drag-and-drop channel is communicated with the central hole and the drag-and-drop hole.

3. The automatic steel strip-based packing apparatus of claim 2, wherein: the guide assembly comprises jacking air cylinders and a plurality of groups of guide rollers which are symmetrically arranged, the steel belt is arranged between the symmetrically arranged guide rollers, the jacking air cylinders are installed between the guide rollers and the tray, clamping frames are installed on one sides of the jacking air cylinders, one ends of the clamping frames are connected with output ends of the jacking air cylinders, the other ends of the clamping frames are arranged on the supporting frames, conveying pieces used for conveying the steel belt are arranged between the clamping frames and the jacking air cylinders, and the conveying pieces are installed on one sides of the dragging and dropping holes.

4. The automatic steel strip-based packing apparatus of claim 1, wherein: the bonding assembly comprises a frame, one end of the conveying arm is connected with the rodless cylinder, the other end of the conveying arm is connected with the frame, an adhesive tape is sleeved in the frame, and a rotating roller used for connecting the adhesive tape is installed at one end, far away from the conveying arm, of the frame.

5. The automatic steel strip-based packing apparatus of claim 4, wherein: the cutting assembly comprises a thrust cylinder, the thrust cylinder is mounted on the frame, the thrust cylinder is in driving connection with a cutting knife, the cutting knife is located on one side of the rotating roller, and the cutting knife is close to the guide assembly.

6. The automatic steel strip-based packing apparatus of claim 1, wherein: the power assembly comprises a second air cylinder arranged at the bottom of the supporting frame, a motor is connected with the second air cylinder in a driving mode, and the output end of the motor is connected with the lock sleeve through a rotating shaft.

7. The automatic steel strip-based packing apparatus of claim 1, wherein: the guide-out module comprises a vertical frame, the vertical frame is installed on one side of the support frame, a sliding rail is installed on the vertical frame through a fixing plate, a sliding block is installed on the sliding rail in a sliding mode, the sliding block is connected with a first air cylinder through an installation arm, an output shaft of the first air cylinder is connected with a pressing piece, the pressing piece is located above the tray, and the pressing piece is identical to the lock sleeve in size.

8. The automatic steel strip-based packing apparatus of claim 1, wherein: the meter counter also comprises a control module which is respectively and electrically connected with the power assembly, the export module and the meter counter.

9. The automatic steel strip-based packing apparatus of claim 1, wherein: the conveying assembly comprises a conveying roller, the conveying roller is arranged on the pay-off rack and is close to one side of the supporting frame, and the steel belt is arranged on the conveying roller.

10. The automatic steel strip-based packing apparatus of claim 1, wherein: one end of the supporting frame is provided with the pay-off rack, the other end of the supporting frame is provided with the transplanting rack, and a plurality of rows of rollers are arranged on the transplanting rack.

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