CN212580354U - Large-label synchronous labeling machine - Google Patents

Abstract

The utility model discloses a large label synchronous labeling machine, which comprises a material coil component; the guide roller group is arranged between the material roll assembly and the stripper plate and is used for guiding the label tape from the material roll assembly to the front edge of the stripper plate; a stripper plate comprising a stripper plate leading edge; the material pulling mechanism is arranged behind the stripping plate and used for pulling the release film obtained by stripping the label to move; the material receiving rotating shaft is used for rolling the release film; the lifting mechanism drives the guide roller set, the stripping plate, the pulling mechanism and the material receiving rotating shaft to lift together; the compression roller is arranged in front of the front edge of the stripper plate; the first moving mechanism drives the material roll assembly, the guide roller set, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move back and forth together; the second moving mechanism drives the material rolling assembly, the guide roller group, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move left and right. The utility model discloses a can carry out the synchronous attached of big label, adjust big label and paste the target margin.

Description

Large-label synchronous labeling machine

Technical Field

The utility model relates to a labeller field, in particular to synchronous labeller of big label.

Background

A labeling machine is an automated device for applying labels to sheet-like products. The existing labeling machines are often used for applying small labels, and the requirements on the application position of the small labels are not high. However, for large labels, the labels are mostly manually attached, the efficiency is low, and the labels are peeled off and then shaped and attached by a conventional machine, so that wrinkles and deviation are easily attached.

SUMMERY OF THE UTILITY MODEL

According to the utility model discloses an aspect provides a synchronous labeller of big label, and this labeller is particularly useful for the synchronous attached of big label, can adjust moreover and paste the mark margin, prevents to paste partially.

Synchronous labeller of big label includes:

a material roll component arranged at the upper part of the labeling machine;

the guide roller group is arranged between the material roll assembly and one stripping plate and is used for guiding the label belt from the material roll assembly to the front edge of the stripping plate;

a stripper plate comprising a stripper plate leading edge;

the material pulling mechanism is arranged behind the stripping plate and used for pulling the release film obtained after the label is stripped;

the material receiving rotating shaft is used for rolling the release film;

the lifting mechanism drives the guide roller set, the stripping plate, the pulling mechanism and the material receiving rotating shaft to lift together;

the compression roller is arranged in front of the front edge of the stripper plate;

the first moving mechanism drives the material roll assembly, the guide roller set, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move together along the front-back direction;

the second moving mechanism drives the material rolling assembly, the guide roller group, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move along the left and right directions.

The beneficial effects of the embodiment are as follows: the machine is adopted for labeling, so that the efficiency is improved; the first moving mechanism drives the material roll assembly, the guide roller group, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to integrally move, so that labels are synchronously labeled and rolled while labels are stripped, and the wrinkle defect caused by first glass and then attached is prevented; the second moving mechanism drives the material rolling assembly, the guide roller group, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move in the left and right directions, so that the edge distance can be adjusted, and the deviation sticking is prevented.

In some embodiments, the roll assembly includes a first shaft having a support block at each end, each support block having a U-shaped slot opening upwardly, the first shaft having ends freely disposed in the U-shaped slots of the support blocks.

In some embodiments, the lifting mechanism includes a top plate, a first cylinder disposed on the top plate, four guide pillars extending downward from the top plate, linear bearings sleeved on the guide pillars, and two mounting plates connected to the linear bearings, wherein one mounting plate is connected to two adjacent linear bearings, the other mounting plate is connected to the other two linear bearings, the material roll assembly is disposed on the lifting mechanism, and the guide roll set, the stripper plate, the material pulling mechanism, and the material receiving rotation shaft are mounted on the mounting plates.

In some embodiments, the compression roller is installed on a liftable support, the support includes a U-shaped frame, a cantilever, a second slip table cylinder and a mount pad, the both ends of compression roller are rotated respectively through the bearing and are connected in two arms of U-shaped frame, the U-shaped frame is fixed on the cantilever, compression roller and cantilever extend along left and right directions, and the one end of cantilever is installed on second slip table cylinder, and second slip table cylinder installs on the mount pad, and second slip table cylinder can drive cantilever up-and-down motion.

In some embodiments, a sensor is positioned in front of the stripper plate.

In some embodiments, the pulling mechanism comprises a rotatable upper roller and a rotatable lower roller, the upper roller is connected with the first sliding table cylinder, and one end of the lower roller is connected with a third motor.

In some embodiments, the stripper plate has a stripper plate leading edge and a stripper plate trailing edge, the stripper plate trailing edge being higher than the stripper plate leading edge, the stripper plate leading edge being wedge-shaped.

In some embodiments, a pressure plate is arranged above the stripper plate, and the rear edge of the pressure plate is higher than the front edge of the pressure plate

In some embodiments, the first moving mechanism includes two first support plates, the lifting mechanism is mounted on the first support plates, a guide rail slider mechanism is disposed below each of the first support plates, the guide rail slider mechanism is disposed along the front-back direction, and a screw pair is disposed below one of the first support plates and connected to the first motor.

In some embodiments, the second moving mechanism includes two second support plates, the first support plates are respectively mounted on the second support plates, a guide rail slider mechanism is respectively disposed below each of the second support plates, the guide rail slider mechanism is disposed along the left-right direction, a screw pair is disposed below one of the second support plates, and the screw pair is connected to the second motor.

Drawings

Fig. 1 is a schematic structural view of a large label synchronous labeling machine according to an embodiment of the present invention.

Fig. 2 is a schematic view of the structure of the roll assembly in the embodiment shown in fig. 1.

Fig. 3 is a front view of the lift mechanism of the large label synchronous labeler shown in fig. 1 with parts hidden.

Fig. 4 is a partially enlarged view of the position of a stripper plate of the large label synchronous labeling machine shown in fig. 1.

Fig. 5 is an enlarged view of a receiving rotary shaft of the large label synchronous labeling machine shown in fig. 1.

Fig. 6 is a front view of the first and second moving mechanisms of the large label synchronous labeler shown in fig. 1.

Fig. 7 is a side view of the first and second traverse mechanisms of the large label synchronous labeler of fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-7, a large label synchronous labeling machine includes:

a roll assembly 100 disposed at an upper portion of the labeling machine;

a guide roller set 200 provided between the roll assembly 100 and the stripper plate 300, for guiding the label tape from the roll assembly 100 to a stripper plate leading edge 301 of the stripper plate 300;

a stripper plate 300 comprising a stripper plate leading edge 301;

the material pulling mechanism 400 is arranged behind the stripper plate 300 and used for pulling the release film obtained after the label is stripped;

the material collecting rotating shaft 500 is used for winding the release film;

the lifting mechanism 600 drives the guide roller group 200, the stripper plate 300, the pulling mechanism 400 and the receiving rotating shaft 500 to move up and down together;

a liftable press roller 700 arranged in front of the front edge 301 of the stripper plate;

the first moving mechanism 800, the driving material roll assembly 100, the guide roll set 200, the stripper plate 300, the pulling mechanism 400, the receiving rotating shaft 500 and the press roll 700 move together along the front-back direction; and

the second moving mechanism 900 moves the driving roll assembly 100, the guide roll set 200, the stripper plate 300, the pulling mechanism 400, the receiving rotation shaft 500, and the press roll 700 in the left-right direction.

The working principle of the large label synchronous labeling machine disclosed by the invention is that firstly, a label material roll is placed on a material roll assembly 100, a label tape is guided to the front edge of a stripping plate 300 from the upper part of the stripping plate 300 after passing through a guide roller set 200, the surface with labels is kept upward, then a release film of the label tape is guided to the rear part of the stripping plate 300, and the release film passes through a material pulling mechanism 400 and then is wound on a material receiving rotating shaft 500; when the label is attached, the product is horizontally arranged below the stripper plate 300, the edge distance between the label and the edge of the product is adjusted through the second moving mechanism 900, the lifting mechanism 600 drives the guide roller set 200, the stripper plate 300, the pulling mechanism 400 and the receiving rotating shaft 500 to descend together, so that the label is adhered to the surface of the product, the press roller 700 descends to press the product, the pulling mechanism 400 pulls the release film and the receiving rotating shaft 500 to roll the release film to separate the label from the release film, meanwhile, the first moving mechanism 900 drives the material roll assembly 100, the guide roller set 200, the stripper plate 300, the pulling mechanism 400, the receiving rotating shaft 500 and the press roller 700 to move backwards together, and in the moving process, the label is simultaneously peeled from the release film, pressed and adhered to the surface of the product by the press roller 700 while being peeled from the release film.

In some embodiments, referring to fig. 2, the roll assembly 100 includes a first shaft 101, a support block 102 is disposed at each end of the first shaft 101, a U-shaped groove 103 with an upward opening is disposed on each support block 102, and both ends of the first shaft 101 are freely disposed in the U-shaped grooves 103 of the support blocks 102. When the tape is pulled, the first shaft 101 is disposed in the U-shaped groove 103, the first shaft 101 is easily removed, the roll of label stock is easily replaced, and the first shaft 101 can freely rotate in the U-shaped groove 103 to release the tape when the tape is pulled.

Further, with continued reference to fig. 2, the first shaft 101 is sleeved with two limit plates 104 and a tension device 105 disposed between the two limit plates 104, the outer circumferential surface of the tension device 105 is provided with at least one axially extending key 106, and the bottom of the key 106 is provided with a spring, which enables the key 106 to elastically move along the radial direction to tension the label roll sleeved on the tension device 105. One of the limit plates 104 is connected to the tensioning device 105 by a bolt, and a bolt is fastened to the side of the tensioning device 105, and the end of the bolt abuts against the first shaft 101, so that the tensioning device 105 is fixed on the first shaft 101. The other limiting plate 104 is connected to a ring 107 sleeved on the first shaft 101, and a radially extending bolt is disposed on a side surface of the ring 107, and an end of the bolt abuts against the first shaft 101, so as to fix the ring 107 on the first shaft 101, preferably, the bolt has a handle 108, and when the handle 108 is screwed, the bolt is easily loosened, and the limiting plate 104 is easily removed. The roll of label material is sleeved outside the tensioning device 105 and the roll of label material transmits torque between the roll of label material and the first shaft 101 through the key 106, i.e. the first shaft 101 is able to rotate when pulling the label tape.

Further, support blocks 102 are provided on the columns 109. The column 109 extends vertically, and the lower end thereof is connected to the elevating mechanism 600.

In some embodiments, referring to fig. 1, the lifting mechanism 600 includes a top plate 601, a first cylinder 602 disposed on the top plate 601, four guide posts 603 extending downward from the top plate 601, linear bearings 604 sleeved on the guide posts 603, and two mounting plates 605 connected to the linear bearings 604, wherein one mounting plate 605 is connected to two adjacent linear bearings 604, the other mounting plate 605 is connected to the other two linear bearings 604, a piston rod of the first cylinder 602 is connected to the two mounting plates 605, the material roll assembly 100 is disposed on the lifting mechanism 600, and the guide roll set 200, the stripper plate 300, the pulling mechanism 400, and the material collecting spindle 500 are mounted on the mounting plates 605. In some embodiments, the top plate 601 supports two of the columns 109. In some embodiments, a connecting rod or plate 606 is disposed at the top end of the two mounting plates 605, and the piston rod of the first cylinder 602 extends downward and is connected to the connecting rod or plate 606.

In some embodiments, referring to fig. 3, the guide roller set 200 includes a first roller 201, a second roller 202, a third roller 203, a fourth roller 204 and a fifth roller 205, the first roller 201 is located below the roll assembly 100, the second roller 202 is located in front of the first roller 201, the third roller 203 is located in front of the second roller 202 and lower than the second roller 202, the fourth roller 204 is located above the stripper plate trailing edge 302 of the stripper plate 300, and the fifth roller 205 is located below the stripper plate trailing edge 302 of the stripper plate 300. In operation, the label tape passes under the first roller 201 to extend to the second roller 202, passes over the second roller 202, extends obliquely downward to the third roller 203, passes between the third roller 203 and the fourth roller 204, passes around the fourth roller 204, is guided along the stripper plate 300 to the stripper plate front edge 301 of the stripper plate 300, extends under the stripper plate 300, passes between the stripper plate 300 and the fifth roller 205, and extends to the pulling mechanism 400.

In some embodiments, referring to fig. 4, the stripper plate 300 has a stripper plate leading edge 301 and a stripper plate trailing edge 302, the stripper plate trailing edge 302 being higher than the stripper plate leading edge 301 such that the stripper plate 300 is disposed at an incline. The stripper plate leading edge 301 has a tapered thickness and is wedge-shaped. The left edge and the right edge of the upper surface of the stripper plate 300 are respectively provided with a first limiting block 303, the first limiting blocks 303 can limit the label belt on the upper surface of the stripper plate 300 left and right, and the label belt is prevented from shifting left and right when being attached.

In some embodiments, with continued reference to fig. 4, the stripper plate 300 is comprised of a front plate 304 and a back plate 305, the front plate 304 and the back plate 305 being bolted together.

In some embodiments, with continued reference to fig. 4, the angle of inclination of the stripper plate 300 is adjustable. Specifically, a disk 306 is provided at each end of the stripper plate trailing edge 302 of the stripper plate 300, the disk 306 is connected to the mounting plate 605 by bolts and nuts, wherein the disk 306 or the mounting plate 605 is provided with an arc-shaped through hole 307, and the bolt passes through the arc-shaped through hole 307, so that the inclination angle of the stripper plate 300 can be adjusted.

In some embodiments, with continued reference to fig. 4, a platen 308 is disposed above the stripper plate 300, the platen 308 including a leading platen edge and a trailing platen edge, wherein the trailing platen edge is higher than the leading platen edge such that the platen 308 is disposed at an angle. The pressure plate 308 is rotatable, and specifically, the front edge of each mounting plate 605 is provided with a rotatable mounting block 311, and the mounting block 311 may be connected to the mounting plate 605 via a bearing 312. The two mounting blocks 311 are connected by a cross bar 313, and the rear edge of the pressure plate is fixed on the cross bar 313. A second stop block 314 is disposed on each mounting plate 605 below the pressure plate 308. The pressure plate 308 is free to ride on the second stop block 314 under the action of gravity, and at this time, the front edge of the pressure plate 308 can stop the label at the front edge 301 of the stripper plate from above.

In some embodiments, with continued reference to FIG. 1, a sensor 1000 is positioned in front of the stripper plate 300, the sensor 1000 being, for example, a fiber optic sensor, the sensor 1000 being configured to detect the presence of a label on the leading edge 301 of the stripper plate. When it is detected that the leading edge 301 of the stripper plate has a label, a label feeding control system, for example, a PLC control system, receives a detection signal from the sensor 1000, and issues a command for operation to the material pulling mechanism 400, the lifting mechanism 600, the first moving mechanism 800, the second moving mechanism 900, and the like.

In some embodiments, referring to fig. 5, the pulling mechanism 400 includes a rotatable upper roller 401 and a rotatable lower roller 402, two ends of the lower roller 401 are respectively connected to two mounting plates 605 through bearings, the upper roller 401 is connected to a first sliding cylinder 403, the first sliding cylinder 403 drives the upper roller 401 to move up and down, so that the upper roller 401 can approach or be away from the lower roller 402, and one end of the lower roller 402 is connected to a third motor 404 through a coupling. When the third motor 404 rotates, the pulling mechanism 400 pulls the release liner clamped between the upper roller 401 and the lower roller 402 to move.

In some embodiments, one end of the receiving shaft 500 is connected to the third motor 404 through a timing belt, so that the third motor 404 drives the shaft 500 to rotate at the same time to wind the release film.

In some embodiments, referring to fig. 4, the pressing roller 700 is mounted on a liftable frame 701, and the frame 701 includes a U-shaped frame 702, a cantilever 703, a second sliding cylinder 704, and a mounting base 705. The two ends of the press roll 700 are rotatably connected to the two arms of the U-shaped frame 702 through bearings respectively, the U-shaped frame 702 is fixed on the cantilever 703, the press roll 700 and the cantilever 703 extend in the left-right direction, one end of the cantilever 703 is installed on the second sliding table cylinder 704, the second sliding table cylinder 704 is installed on the installation base 705, and the second sliding table cylinder 704 drives the cantilever 703 to move up and down, so that the press roll 700 can be pressed on a product.

In some embodiments, referring to fig. 6 to 7, the first moving mechanism 800 includes two first support plates 801, a guide rail slider mechanism is respectively disposed below each first support plate 801, for example, two first guide rails 802 extending in a front-back direction are respectively disposed below each first support plate 801, two first sliders 803 are disposed on each first guide rail 802, a screw pair is disposed below at least one first support plate 801, that is, the screw pair includes a first screw 804 and a first screw nut 805, the first screw nut 805 is fixed at the bottom of the first support plate 801, the first screw nut 805 is in threaded connection with the first screw 804, and one end of the first screw 804 is connected with the first motor 806 through a synchronous pulley transmission mechanism. The first motor 806 drives the first lead screw 804 to rotate forward and backward, so that the first support plate 801 reciprocates in the front-rear direction. The lifting mechanism 600 is mounted on the first support plate 801, specifically, the lower ends of two guide columns 603 are connected to one first support plate 801, and the lower ends of the other two guide columns 603 are connected to the other first support plate 801. A mounting base 705 is also attached for one of the first support plates 801. When the two first support plates 801 move back and forth, the material roll assembly 100, the guide roll group 200, the stripper plate 300, the pulling mechanism 400, the material receiving rotation shaft 500, and the press roll 700 move together in the back and forth direction.

In some embodiments, referring to fig. 6 to 7, the second moving mechanism 900 includes two second supporting plates 901, a rail-slider mechanism is respectively disposed below each second supporting plate 901, for example, two second rails 902 extending along the left-right direction are respectively disposed below each second supporting plate 901, two second sliders 903 are disposed on each second rail 902, a screw pair is disposed below at least one second supporting plate 901, that is, the second supporting plate 901 includes a second screw 904 and a second screw nut 905, the second screw nut 905 is fixed at the bottom of the second supporting plate 901, the second screw nut 905 is in threaded connection with the second screw 904, and one end of the second screw 904 is connected with the second motor 906 through a synchronous pulley transmission mechanism. The second motor 906 drives the second lead screw 904 to rotate forward and backward, so that the second support plate 901 can move in the left-right direction. The first moving mechanism 800 is mounted on the second support plate 901, specifically, two first guide rails 802 are mounted on one of the second support plate 901, and the other two first guide rails 802 are mounted on the other second support plate 901. When the second motor 906 drives the second lead screw 904 to rotate forward or backward, the second moving mechanism 900 drives the material roll assembly 100, the guide roll set 200, the stripper plate 300, the material pulling mechanism 400, the material receiving rotating shaft 500 and the press roll 700 to move in the left-right direction, so as to adjust the edge distance between the label and the product edge.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. Synchronous labeller of big label, its characterized in that includes:

a material roll component arranged at the upper part of the labeling machine;

a guide roller group arranged between the material roll assembly and one stripper plate and used for guiding the label belt from the material roll assembly to the front edge of the stripper plate;

the stripper plate comprises a stripper plate leading edge;

the material pulling mechanism is arranged behind the stripping plate and used for pulling the release film obtained after the label is stripped;

the material receiving rotating shaft is used for rolling the release film;

the lifting mechanism drives the guide roller set, the stripping plate, the pulling mechanism and the material receiving rotating shaft to lift together;

the compression roller is arranged in front of the front edge of the stripper plate;

the first moving mechanism drives the material roll assembly, the guide roller set, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move together along the front-back direction;

and the second moving mechanism drives the material roll assembly, the guide roller group, the stripping plate, the material pulling mechanism, the material receiving rotating shaft and the pressing roller to move along the left and right directions.

2. A synchronous labeling machine according to claim 1 wherein said coil assembly comprises a first shaft having a support block at each end, each support block having an upwardly opening U-shaped slot, said first shaft having ends freely disposed in said U-shaped slots of said support blocks.

3. The synchronous labeling machine according to claim 1, wherein said lifting mechanism comprises a top plate, a first cylinder disposed on said top plate, four guide posts extending downward from said top plate, linear bearings sleeved on said guide posts, and two mounting plates connected to said linear bearings, wherein one mounting plate is connected to two adjacent linear bearings, the other mounting plate is connected to the other two linear bearings, said material roll assembly is disposed on said lifting mechanism, and said guide roll set, stripper plate, pulling mechanism, and receiving shaft are mounted on said mounting plates.

4. The large label synchronous labeling machine according to claim 1, wherein the press roller is mounted on a liftable support, the support comprises a U-shaped frame, a cantilever, a second sliding table cylinder and a mounting seat, two ends of the press roller are respectively connected to two arms of the U-shaped frame through bearings in a rotating manner, the U-shaped frame is fixed on the cantilever, the press roller and the cantilever extend in the left-right direction, one end of the cantilever is mounted on the second sliding table cylinder, the second sliding table cylinder is mounted on the mounting seat, and the second sliding table cylinder can drive the cantilever to move up and down.

5. A large label synchronous labelling machine according to claim 1, characterised in that a sensor is provided in front of the stripper plate.

6. A synchronous labeler according to claim 1 wherein the pulling mechanism comprises a rotatable upper roller and a rotatable lower roller, the upper roller is connected to the first slide cylinder, and one end of the lower roller is connected to a third motor.

7. A large label synchronous labelling machine according to claim 1, wherein the stripper plate has a stripper plate leading edge and a stripper plate trailing edge, the stripper plate trailing edge being higher than the stripper plate leading edge, the stripper plate leading edge being wedge-shaped.

8. A large label synchronous labelling machine according to claim 1, wherein a platen is provided above the stripper plate, the platen having a platen leading edge and a platen trailing edge, the platen trailing edge being higher than the platen leading edge.

9. The synchronous labeling machine according to claim 1, wherein the first moving mechanism comprises two first supporting plates, the lifting mechanism is mounted on the first supporting plates, a guide rail slider mechanism is respectively arranged below each first supporting plate along the front-back direction, and a screw pair is further arranged below one first supporting plate and connected with the first motor.

10. The synchronous labeling machine according to claim 9, wherein said second moving mechanism comprises two second supporting plates, said first supporting plates are respectively mounted on said second supporting plates, a guide rail slider mechanism is respectively disposed under each second supporting plate, and a screw pair is disposed under one of said second supporting plates, said screw pair is connected to a second motor.

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