CN215945151U - Intelligent labeling machine - Google Patents

Abstract

The utility model discloses an intelligent labeling machine which comprises a rack, label roll paper, a label roll paper traction device and a labeling device, wherein the label roll paper traction device and the labeling device are arranged on the rack; the label roll paper comprises label backing paper and a label sticker; the label roll paper traction device comprises a label roll, a printer, a scraper component, a label backing paper recovery roll and a driving component; the label roll paper is sequentially wound on the label winding drum, the printer, the scraper assembly and the label backing paper recovery winding drum and is pre-tightened; the labeling device comprises an air blowing assembly arranged below the scraper assembly, a sucking disc arranged above the air blowing assembly, and a lifting assembly connected with the sucking disc; the sucking disc is used for adsorbing the label sticker separated by the scraper assembly and labeling through the lifting assembly. The utility model can improve the labeling efficiency.

Description

Intelligent labeling machine

Technical Field

The utility model relates to the technical field of labeling devices, in particular to an intelligent labeling machine.

Background

With the trend of pursuing individuality development, as the main composition of indoor paving and household materials, the traditional ceramic bricks or plates (such as rock plates and stone plates) also put more demands on upstream equipment manufacturers in compliance with the market diversification demands. The rock plate processing center and the rock plate bridge cutting machine come from the beginning, and important information such as order demand information, plate information before and after processing and the like needs to correspond to the real objects one by one, so that the labeling operation becomes an important link.

In the field of traditional ceramic tile or plate, rock plate and stone plate processing, at present, more bridge cutting machines or water jet cutters are adopted for blanking or before and after cutting, and then plates of different specifications are labeled in a manual labeling mode. The manual labeling efficiency is low, the error rate is increased due to long-time manual work, and the development of the manual labeling device is an obstacle for realizing full-line automation, integration and intellectualization of a customized processing production line of ceramic tiles or plates (such as rock plates and stone plates), and the automatic labeling device is mainly used for classifying and identifying specifications of the ceramic tiles or plates, so that automatic distinguishing and label attachment are performed.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an intelligent labeling machine which can improve labeling efficiency.

In order to solve the technical problem, the utility model provides an intelligent labeling machine which comprises a rack, label roll paper, a label roll paper traction device and a labeling device, wherein the label roll paper traction device and the labeling device are arranged on the rack;

the label roll paper comprises label backing paper and a label sticker;

the label roll paper traction device comprises a label roll drum connected with the rack, a printer for printing labels, a scraper component for separating label base paper from label stickers, a label base paper recovery roll drum and a driving component for driving the label base paper recovery roll drum to rotate; the label roll paper is sequentially wound on the label winding drum, the printer, the scraper assembly and the label backing paper recovery winding drum and is pre-tightened;

the labeling device comprises an air blowing assembly arranged below the scraper assembly, a sucking disc arranged above the air blowing assembly, and a lifting assembly connected with the sucking disc;

the sucking disc is used for adsorbing the label sticker separated by the scraper assembly and labeling through the lifting assembly.

As an improvement of the above technical solution, the printer includes a printer drum and a print head, and the label roll paper passes through between the printer drum and the print head;

and a tensioning roller is arranged between the printer roller and the label winding drum.

As an improvement of the above technical solution, the scraper assembly comprises a fixed blade connected with the frame, and the fixed blade is abutted with the label base paper;

the fixed blade is provided with a cutting edge, and the cutting edge is arranged on one side of the labeling device.

As an improvement of the above technical solution, the fixed blade is obliquely arranged towards the labeling device, and the inclination angle is 15-25 °;

the apex of the blade is lower than the apex of the printer cylinder.

As the improvement of the technical scheme, the air blowing assembly comprises an installation frame, an air blowing cylinder and a plurality of air blowing holes, wherein the installation frame is connected with the rack, the air blowing cylinder is arranged on the installation frame, and the air blowing holes are formed in the air blowing cylinder.

As an improvement of the technical scheme, the air blowing holes are obliquely arranged towards the labeling device, and the inclination angle of the air blowing holes is 10-25 degrees;

the blowing assembly is connected with the air supply device.

As an improvement of the technical scheme, the lifting assembly comprises a linear guide rail connected with the frame, a rodless cylinder arranged on the linear guide rail, a mounting plate connected with the rodless cylinder and an elastic pressing plate arranged on the mounting plate, and the bottom surface of the elastic pressing plate is connected with the sucker.

As an improvement of the technical scheme, the mounting plate is provided with an adjusting hole, and the elastic pressing plate can slide relative to the adjusting hole;

the elastic pressing plate piece comprises a mounting seat connected with the adjusting hole, a sliding rod connected with the mounting seat, a spring sleeved on the sliding rod and a pressing plate movably connected with the sliding rod;

the spring is arranged between the mounting seat and the pressing plate.

As an improvement of the technical scheme, the device also comprises an identification module for identifying the specification of the brick or the plate, an induction module for inducing the position of the brick or the plate and a main control module;

the identification module, the induction module, the driving assembly, the printer and the rodless cylinder are respectively connected with the main control module so as to automatically label the brick or plate according to the specification of the brick or plate.

As an improvement of the technical scheme, an external frame is further arranged outside the rack, and a push-pull cylinder is arranged between the external frame and the rack and can drive the external frame to slide.

The implementation of the utility model has the following beneficial effects:

the label roll paper is wound on the label roll paper, the printer, the scraper component and the label backing paper recovery roll paper in sequence, the driving component of the label backing paper recovery roll paper rotates to drive the label roll paper to be transported forwards, a corresponding label is printed at the printer, the label sticker and the label backing paper are separated through the scraper component to form a label, the label is blown upwards by the blowing component and adsorbed by the sucking disc, and then the label is attached to a brick or a plate through the lifting component. The device can be used for labeling bricks or plates of different specifications, and is simple to operate and good in universality. The label base paper can be automatically recycled through the label base paper recycling winding drum, and the situation that the environment is damaged by random discarding is avoided. Through the subassembly of blowing blows label sticker and adsorbs through the sucking disc, drives the label through lifting unit and pushes down after to make the label level and smooth, attached effectual.

Furthermore, the fixed blade is obliquely arranged towards the labeling device, so that the label base paper and the label sticker are easier to separate, larger resistance cannot be formed, and the label base paper is prevented from being broken by pulling; by making the apex of the blade lower than the apex of the printer drum so that the portion of the label roll paper between the printer drum and the blade is inclined downward, the angle between the peeled label sticker and the memo base paper is increased, preventing the label from being adhered to the label base paper again.

Drawings

Fig. 1 is a left side view of a labeling machine to which the present invention relates;

FIG. 2 is a schematic view of the operation of the label web pulling apparatus according to the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a perspective view of a labelling machine according to the present invention;

fig. 5 is a schematic structural view of a labeling device according to the present invention;

fig. 6 is a partial view of a labeling machine according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the utility model is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the utility model.

Referring to fig. 1 to 4, the present invention provides an intelligent labeling machine, including a frame 1, a label roll 2, a label roll traction device 3 arranged on the frame 1, and a labeling device 4;

the label roll paper 2 comprises a label backing paper 21 and a label sticker 22;

the label roll paper traction device 3 comprises a label roll 31 connected with the frame 1, a printer 32 for printing labels, a scraper component 33 for separating the label base paper 21 from the label sticker 22, a label base paper recovery roll 34 and a driving component 35 for driving the label base paper recovery roll 34 to rotate; the label roll paper 2 is wound on the label roll 31, the printer 32, the scraper component 33 and the label backing paper recovery roll 34 in sequence and is pre-tightened;

the labeling device 4 comprises an air blowing assembly 41 arranged below the scraper assembly 33, a suction cup 42 arranged above the air blowing assembly 41, and a lifting assembly 43 connected with the suction cup 42;

the suction cup 42 is used to suck the label sticker 22 separated by the scraper assembly 33 and apply a label by the lifting assembly 43.

Specifically, the unprinted label roll paper 2 is wound on the label winding drum 31, the printer 32, the scraper component 33 and the label backing paper recovery winding drum 34 according to a preset track, and the label roll paper 2 is subjected to certain tension through pre-tightening, so that the rotation reliability is improved; a conveying line for conveying the bricks or the plates is erected below the device, and after the bricks or the plates are conveyed to a preset position, the driving assembly 35 is started to drive the label roll paper 2 to rotate; the label sticker 22 is printed with the corresponding detail at the printer 32; the label backing paper 21 is abutted with the scraper component 33, the label backing paper 21 simultaneously bears the pulling force for driving the label backing paper and the scraping force provided by the scraper component 33, and the resultant force is greater than the adhesive force between the label sticker 22 and the label backing paper 21, so that the label sticker 22 and the label backing paper 21 are easily separated; the separated label base paper 21 is blown upwards by the air blowing assembly 41 and then is absorbed by the suction cup 42, and the label base paper 21 is wound on the label base paper recovery reel 34 for recovery; the label sticker 22 sucked by the suction cup 42 is driven by the lifting assembly 43 to move downwards to be stuck to the brick or the plate, so that the quick labeling operation is realized. By adopting the device, the labeling operation can be carried out on bricks or plates with different specifications, the operation is simple, and the universality is good. The label base paper 21 can be automatically recovered through the label base paper recovery reel 34, and the condition that the environment is damaged due to random discarding is avoided. The label sticker 22 is blown up by the blowing component 41 and is adsorbed by the sucker 42, and then the lifting component 43 drives the label to be pressed downwards, so that the label is smooth and has good attaching effect.

Referring to fig. 2 and 3, in order to facilitate winding and taking out of the label roll paper 2, a corresponding label may be printed as required. The printer 32 is a roll printer. The printer 32 includes a printer platen 321 and a print head 322, and the label web 2 passes between the printer platen 321 and the print head 322. The print head 322 is located above the printer roller 321, and the label roll paper 2 is attached to the upper surface of the printer roller 321 to realize reliable printing. A tension roller 36 is further arranged between the printer roller 321 and the label roll 31, the lower surface of the tension roller 36 is attached to the label, and the tension roller 36 is adjustable in the vertical direction to adjust the tension of the label roll paper 2 to a proper value, so that the rotation smoothness of the label roll paper 2 is improved without damaging the label roll paper 2.

To quickly detach the label sticker 22 from the label base paper 21, the scraper assembly 33 includes a fixed blade 331 connected to the frame 1, the fixed blade 331 abutting the label base paper 21; the fixed blade 331 is provided with a blade, and the blade is arranged on one side of the labeling device 4. Specifically, since the fixed blade 331 abuts against the label base paper 21, the label base paper 21 is simultaneously subjected to the pulling force provided by the label base paper recovery roll 34 and the scraping force of the fixed blade 331, and the label base paper 21 is easily deformed with a deformation force greater than the adhesive force between the label sticker 22 and the label base paper 21, thereby separating the label base paper 21 from the label sticker 22. The fixed blade 331 is provided with a blade to reduce the contact area with the label base paper 21 and improve the peeling efficiency between the label sticker 22 and the label base paper 21. In order to facilitate the blowing of the labels by the blowing assembly 41, the knife edge is provided on one side of the labelling device 4.

In order to further improve the smooth blowing of the label by the blowing assembly 41, the fixed blade 331 is inclined toward the labeling device 4, so that the label base paper 21 forms a larger included angle at the fixed blade 331, thereby improving the peeling efficiency between the label base paper 21 and the label sticker 22. Preferably, the inclination angle of the fixed blade 331 and the vertical surface is 15 to 25 °, so that the label roll paper 2 and the fixed blade 331 can be always in an abutting state, and the running resistance of the label base paper 21 is reduced as much as possible while the label base paper 21 and the label sticker 22 are smoothly peeled off, thereby preventing the label base paper 21 from being torn off. Further, the blade is lower than the apex of the printer roll 321 so that the portion of the label web 2 between the printer roll 321 and the blade is inclined downward, increasing the angle between the peeled label sticker 22 and the label base paper 21, preventing the label from sticking to the label base paper 21 again.

Referring to fig. 4 and 5, the blowing assembly 41 includes a mounting bracket 411 connected to the frame 1, a blowing cylinder 412 disposed on the mounting bracket 411, and a plurality of blowing holes 413 disposed on the blowing cylinder 412; the air blowing hole 413 is obliquely arranged towards the labeling device 4, and the inclination angle is 10-25 degrees; the air blowing assembly 41 is connected with an air supply device. Specifically, the air blowing cylinder 412 is disposed along the length direction of the fixed blade 331, and the air supply device supplies air to the air blowing cylinder 412 and blows the air out through the air blowing hole 413. The included angle between the plane where the central lines of the plurality of air blowing holes 413 and the air blowing cylinder 412 are located and the vertical plane is 10-25 degrees, so that the air blowing holes 413 blow air along the inclined angle, the label is conveniently blown up, and the label is smoothly adsorbed by the sucker 42.

After the suction cup 42 reliably sucks the label, the bonding surface of the label is arranged downwards, and the label needs to be attached to the corresponding brick or plate through the lifting assembly 43. The lifting assembly 43 may be a linear motor, an air cylinder, a hydraulic cylinder, a rack and pinion mechanism, etc., but is not limited thereto. It should be noted that, while the lifting assembly 43 plays a lifting role, a certain downward pressure is required to be provided to attach the label to the brick or the plate without damaging the brick or the plate. To this end, the present invention employs the following lift assembly 43.

Referring specifically to fig. 5, the lifting assembly 43 includes a linear guide 431 connected to the frame 1, a rodless cylinder 432 disposed on the linear guide 431, a mounting plate 433 connected to the rodless cylinder 432, and an elastic pressing plate 44 disposed on the mounting plate 433, wherein a bottom surface of the elastic pressing plate 44 is connected to the suction cup 42. The rodless cylinder 432 can move along the linear guide 431, so that the mounting plate 433 and the elastic pressing plate 44 are driven to move downwards. The elastic pressing plate 44 is connected with the suction cup 42 to drive the label on the suction cup 42 to be attached to the brick or the plate. The resilient pressure plate member 44 provides a cushioning effect to prevent hard contact with the brick or plate, thereby protecting the suction cup 42 from the brick or plate.

Further, the mounting plate 433 is provided with an adjusting hole, and the elastic pressing plate 44 can slide relative to the adjusting hole. According to the labeling position, the elastic pressing plate piece 44 can be finely adjusted relative to the mounting plate 433, and is locked after sliding to a proper position in the adjusting hole. The elastic pressing plate part 44 comprises a mounting seat 441 connected with the adjusting hole, a sliding rod 442 connected with the mounting seat 441, a spring 443 sleeved on the sliding rod 442, and a pressing plate 444 movably connected with the sliding rod 442; the spring 443 is disposed between the mounting seat 441 and the pressing plate 444. When the suction cups 42 abut the brick or slab, the pressing plate 444 moves a small distance up the sliding rods 442 while compressing the springs 443 for cushioning, so that the elastic pressing plate 444 44 is in soft contact with the brick or slab.

The driving unit 35 and the printer 32 can be set to perform continuous printing and labeling operations. But in order to further improve the intelligent level, the utility model also comprises an identification module for identifying the specification of the brick or the plate, a sensing module for sensing the position of the brick or the plate and a main control module; the identification module, the induction module, the driving assembly 35, the printer 32, the blowing assembly 41 and the rodless cylinder 432 are respectively connected with the main control module to automatically label according to the specification of the brick or the plate. Specifically, the identification module can identify the length or width of the brick or the plate, determine the specification of the size and send the information to the main control module; the main control module controls the printer 32 to prepare for printing labels of corresponding specifications; when the brick or the plate enters the lower part of the labeling machine, the sensing module senses the position of the brick or the plate and sends the position information of the brick or the plate to the main control module; the main control module controls the driving assembly 35 to start, the driving assembly 35 drives the label roll paper 2 to rotate by a preset angle, label printing and label separation operations are completed, the air blowing assembly 41 is started, and the suction disc 42 adsorbs labels; the rodless cylinder 432 is actuated to move downward to apply the label to the tile or panel.

Referring to fig. 4 and 6, in order to prevent impurities such as dust from entering the labeler, an external frame 5 is further arranged outside the frame 1, a push-pull air cylinder 6 is arranged between the external frame 5 and the frame 1, and the push-pull air cylinder 6 can drive the external frame 5 to slide and cover the labeler when the labeler is not used. In addition, the outer frame 5 is further provided with a window 51, and the window 51 can be opened to carry out overhaul and maintenance on the labeler.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model.

Claims (10)

1. An intelligent labeling machine is characterized by comprising a rack, label roll paper, a label roll paper traction device and a labeling device, wherein the label roll paper traction device and the labeling device are arranged on the rack;

the label roll paper comprises label backing paper and a label sticker;

the label roll paper traction device comprises a label roll drum connected with the rack, a printer for printing labels, a scraper component for separating label base paper from label stickers, a label base paper recovery roll drum and a driving component for driving the label base paper recovery roll drum to rotate; the label roll paper is sequentially wound on the label winding drum, the printer, the scraper assembly and the label backing paper recovery winding drum and is pre-tightened;

the labeling device comprises an air blowing assembly arranged below the scraper assembly, a sucking disc arranged above the air blowing assembly, and a lifting assembly connected with the sucking disc;

the sucking disc is used for adsorbing the label sticker separated by the scraper assembly and labeling through the lifting assembly.

2. The intelligent labeling machine according to claim 1, wherein said printer comprises a printer drum and a print head, said roll of label web passing between said printer drum and said print head;

and a tensioning roller is arranged between the printer roller and the label winding drum.

3. The intelligent labeling machine according to claim 2, wherein said doctor assembly includes a stationary blade connected to the frame, said stationary blade abutting the label stock;

the fixed blade is provided with a cutting edge, and the cutting edge is arranged on one side of the labeling device.

4. The intelligent labeling machine according to claim 3, wherein said fixed blade is inclined toward the labeling device by an angle of inclination of 15 ° to 25 °;

the apex of the blade is lower than the apex of the printer cylinder.

5. The intelligent labeling machine according to claim 4, wherein said blowing assembly comprises a mounting bracket connected to said frame, a blowing cylinder mounted to said mounting bracket, and a plurality of blowing holes mounted to said blowing cylinder.

6. The intelligent labeling machine according to claim 5, wherein the air blowing holes are obliquely arranged toward the labeling device, and the inclination angle is 10-25 degrees;

the blowing assembly is connected with the air supply device.

7. The intelligent labeling machine according to claim 6, wherein said lifting assembly comprises a linear guide connected to a frame, a rodless cylinder disposed on said linear guide, a mounting plate connected to said rodless cylinder, and a resilient pressure plate member disposed on said mounting plate, a bottom surface of said resilient pressure plate member being connected to said suction cup.

8. The intelligent labeling machine according to claim 7, wherein said mounting plate is provided with an adjustment aperture, said resilient pressure plate member being slidable relative to said adjustment aperture;

the elastic pressing plate piece comprises a mounting seat connected with the adjusting hole, a sliding rod connected with the mounting seat, a spring sleeved on the sliding rod and a pressing plate movably connected with the sliding rod;

the spring is arranged between the mounting seat and the pressing plate.

9. The intelligent labeling machine according to claim 1, further comprising an identification module for identifying the size of a brick or sheet material, a sensing module for sensing the position of said brick or sheet material, and a main control module;

the identification module, the induction module, the driving assembly, the printer and the rodless cylinder are respectively connected with the main control module so as to automatically label the brick or plate according to the specification of the brick or plate.

10. The intelligent labeling machine according to claim 1, wherein an outer frame is further arranged outside the machine frame, and a push-pull air cylinder is arranged between the outer frame and the machine frame and can drive the outer frame to slide.

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