CN220764981U - Automatic detection labeling device for graphene heating plates - Google Patents

Abstract

The utility model is suitable for the technical field of labeling devices, and provides an automatic detection labeling device for a graphene heating plate, which comprises a cabinet, and a printer, a labeling unit and a turnover unit which are arranged in the cabinet; the cabinet comprises a base, a hood arranged at the top of the base and a processing table arranged between the base and the hood, wherein the base is horizontally arranged and is of a rectangular structure, and the hood is of a hollow structure and the bottom of the hood is connected with the top of the base; the printer is arranged at one end of the top of the processing table along the width direction, the label attaching unit is arranged at the end, far away from the printer, of the top of the processing table along the width direction, and the overturning unit is arranged at the end, perpendicular to the printer along the length direction. The device has solved the labeling device and has judged the qualified state of product five big in the course of working, needs the manual work to overturn and just can accomplish the problem of two-sided labeling processing, has reached the judgement product state and has carried out the pasting of label, and automatic upset realizes the effect of two-sided pasting.

Description

Automatic detection labeling device for graphene heating plates

Technical Field

The utility model relates to the technical field of labeling devices, in particular to an automatic detection labeling device for graphene heating plates.

Background

The labeling device is a device for adhering a paper or foil label to a predetermined packaging container with an adhesive. After the graphene heating plate is produced, labels are attached to the front side and the back side of the folding product so as to facilitate the subsequent packaging and delivery work.

The existing labeling device can finish labeling work, but the labeling work of the reverse side is carried out after the product is turned over manually by labeling the front side and the back side. And the labeling device can not judge the qualified state of the product, and a manual or matched detection device is needed for judging.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the automatic detection labeling device for the graphene heating plates, which can judge the qualified state of the graphene heating plates before labeling, wherein the qualified products are subjected to labeling operation, and the unqualified products are not subjected to labeling operation. In the labeling process, the overturning of the graphene heating plate is automatically realized, and the manual operation is not needed.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the automatic detection labeling device for the graphene heating plate comprises a cabinet, and a printer, a labeling unit and a turnover unit which are arranged in the cabinet; the cabinet comprises a base, a hood arranged at the top of the base and a processing table arranged between the base and the hood, wherein the base is horizontally arranged and is of a rectangular structure, and the hood is of a hollow structure and the bottom of the hood is connected with the top of the base; the printer is arranged at one end of the top of the processing table along the width direction, the label attaching unit is arranged at the end, far away from the printer, of the top of the processing table along the width direction, and the overturning unit is arranged at the end, perpendicular to the printer along the length direction.

The utility model is further provided with: the printer comprises two supports, wherein the supports are vertically arranged in the printer and are provided with two groups, a label roller and a transmission roller are rotationally connected between the two groups of supports, and a group of driving rollers are arranged at the bottom of the supports; the label roller is connected with the driving roller through a belt, and label paper is sleeved outside the label roller.

By adopting the technical proposal, the utility model has the advantages that,

the utility model is further provided with: the labeling unit comprises a fixed bracket, wherein the fixed bracket is arranged at the top of the vertical processing table and is arranged into three groups along the length direction of the processing table, and a group of labeling guide rails and a group of adsorbing guide rails are respectively connected between the two groups of fixed brackets; the labeling guide rail is arranged at one end close to the printer, and the adsorbing guide rail is arranged at one end far away from the printer, and the end part of the adsorbing guide rail, far away from the printer, corresponds to the position of the overturning unit.

The utility model is further provided with: the labeling guide rail is sleeved with a group of labeling pieces, the labeling pieces are arranged along the width direction of the processing table and can slide on the labeling guide rail, and the bottom of one end, far away from the labeling guide rail, of each labeling piece is abutted with a labeling station; the labeling station is arranged at the top of the vertical processing table and along the width direction of the processing table, and the labeling station is symmetrically arranged about the central position and can be used for placing heating plates at the top.

The utility model is further provided with: the adsorption guide rail is sleeved with a group of adsorption sliding blocks, the adsorption sliding blocks are arranged along the width direction of the processing table and can slide on the adsorption guide rail, and an adsorption cylinder is abutted to the bottom of one end, far away from the adsorption guide rail, of each adsorption sliding block; the adsorption cylinder can move along the vertical direction, and the bottom is connected with an adsorption piece, the adsorption piece is horizontally arranged and is positioned above the labeling station.

Through adopting above-mentioned technical scheme, adsorb the slider and carry out horizontal migration along adsorbing the guide rail, adsorb the cylinder and remove along vertical direction. The adsorption piece can move along the horizontal direction along with the adsorption sliding block and move along the vertical direction along with the adsorption cylinder, so that the adsorption and the transmission of the graphene heating plate are completed.

The utility model is further provided with: the overturning unit comprises supporting pieces, wherein the supporting pieces are arranged at the top of the vertical processing table and are arranged into two groups along the width direction of the processing table, a group of rotating cylinders are connected to the side wall of one group of supporting pieces close to one end of the labeling unit, and a group of rotating pieces are rotatably connected between the two groups of supporting pieces; the rotary air cylinder penetrates through the side wall of the supporting piece and is connected with the rotating piece.

The utility model is further provided with: the bottom of one side, far away from the printer, of the rotating piece is provided with a group of jacking air cylinders, the jacking air cylinders are arranged perpendicular to the top of the processing table and can move along the vertical direction, and the side walls of the jacking air cylinders are connected with a group of jacking pieces; wherein, the jacking piece sets up to the structure of falling L type, and keeps away from jacking cylinder lateral wall one end level setting.

Through adopting above-mentioned technical scheme, revolving cylinder control rotates the piece and rotates to realize the upset of graphite alkene heating panel. In the overturning process, the jacking cylinder controls the jacking piece to jack the graphene heating plate, so that the graphene heating plate after overturning is prevented from falling off.

The utility model is further provided with: the printer is characterized in that a display and a tester are arranged on the hood and close to one end of the printer, the display is arranged above the tester, and the tester penetrates through the hood and is electrically communicated with the industrial computer.

Through adopting above-mentioned technical scheme, the tester has the communication function, can realize signal interaction with the industrial computer, the ejection of compact of control printer. When the graphene heating plate is detected to be a qualified product, controlling the discharge of a printer to carry out labeling; when detecting that the graphene heating plate is a defective product, controlling the printer not to discharge.

In summary, the present application includes at least one of the following beneficial technical effects:

1. and the detection of the graphene heating plate is finished by utilizing the signal interaction of the tester and the industrial personal computer, and then the discharging state of the printer is controlled according to the detection result. The two procedures of detection and labeling are realized by using the same station, and the detection station of the preamble is not required to be independently arranged.

2. The rotary air cylinder is arranged to drive the rotating piece to rotate so as to realize the overturning of the graphene heating plate, and meanwhile, the jacking piece is used for preventing the overturning graphene heating plate from falling off. And then the adsorption piece conveys the graphene heating plate to complete automatic turnover of the graphene heating plate.

3. The graphene heating plate is adsorbed by the adsorption part, the adsorption part conveys the graphene heating plate to the overturning unit after the front labeling is finished, and the reverse labeling is carried out by re-adsorbing and conveying the graphene heating plate after the overturning is finished. Automatic front and back labeling is realized, the working efficiency is improved, meanwhile, the manual operation steps are reduced, and the labor cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an automatic detection labeling device for graphene heating plates.

Fig. 2 is a front view of fig. 1.

FIG. 3 is a schematic view of the hood-removed structure of the present utility model.

Fig. 4 is a schematic diagram of a printer according to the present utility model.

Fig. 5 is a schematic structural view of the labeling unit of the present utility model.

Fig. 6 is a schematic structural view of the flipping unit of the present utility model.

Reference numerals illustrate: 1. a cabinet; 11. a base; 12. a hood; 13. a display; 14. a tester; 15. a processing table; 2. a printer; 21. a bracket; 22. a label roller; 23. a conveying roller; 24. a driving roller; 25. a belt; 3. a labeling unit; 31. a fixed bracket; 32. labeling stations; 33. labeling; 34. labeling a guide rail; 35. an absorbing member; 36. an adsorption cylinder; 37. adsorbing a sliding block; 38. adsorbing the guide rail; 4. a turnover unit; 41. a support; 42. a rotary cylinder; 43. a rotating member; 44. jacking the air cylinder; 45. and a jacking piece.

Detailed Description

It should be noted that, without conflict, the embodiments and features of the embodiments in the present application may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

It is noted that all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs unless otherwise indicated.

Example 1

Referring to fig. 1-6, the present utility model provides the following technical solutions:

specifically, referring to fig. 1 and 3, the automatic detection labeling device for the graphene heating plate comprises a cabinet 1, a printer 2, a labeling unit 3 and a turnover unit 4. The printer 2, the labeling unit 3, and the flipping unit 4 are installed inside the cabinet 1.

Referring to fig. 1 and 2, the cabinet 1 includes a base 11, a hood 12, a display 13, a tester 14, and a processing table 15. The base 11 is horizontally arranged and is rectangular, and the hood 12 is mounted on top of the base 11. The hood 12 is provided in a hollow structure, and the bottom is connected to the top of the base 11. A processing table 15 is installed between the base 11 and the hood 12, and the processing table 15 is arranged on the top of the base 11 to provide a working platform for the whole device. The printer 2 is arranged at one end of the top of the processing table 15 along the width direction, the labeling unit 3 is arranged along the length direction perpendicular to the printer 2, and the overturning unit 4 is arranged at one end of the top of the processing table 15 away from the printer 2 along the width direction.

Referring to fig. 1 and 2, a display 13 and a tester 14 are disposed on one end of the hood 12 near the printer 2, the display 13 is disposed above the tester 14, and the display 13 is electrically connected with the tester 14 and the printer 2, so as to view stored data, edited data, NG product information prompt and the like. The tester 14 is disposed through the hood 12 and is in electrical communication with the industrial computer. The tester 14 has a communication function, can realize signal interaction with an industrial personal computer, and controls the discharging of the printer 2. When judging that the graphene heating plate is a qualified product, controlling the discharge of the printer 2 to carry out labeling; when judging that the graphene heating plate is a defective product, controlling the printer 2 not to discharge.

Referring to fig. 4, the printer 2 includes a carriage 21, a label roller 22, a conveying roller 23, a driving roller 24, and a belt 25. The printer 2 is electrically connected with the display 13 and the tester 14, and can print different content labels according to different information of production settings. The brackets 21 are vertically installed inside the printer 2 and are provided in two groups, and a label roller 22 and a transport roller 23 are rotatably connected between the two groups of brackets 21. The bottom of the bracket 21 is provided with a group of driving rollers 24, and the driving rollers 24 can be connected with an external driving device such as a motor to realize the rotation of the device. The label roller 22 is connected with the driving roller 24 through a belt 25, and the driving roller 24 rotates to drive the label roller 22 to synchronously rotate. The label paper is sleeved outside the label roller 22, the label roller 22 rotates to drive the label paper to discharge, and after the printer 2 finishes information printing, the label paper is transmitted to the labeling unit 3 for labeling through the transmission of the transmission roller 23.

Referring to fig. 5, the labeling unit 3 includes a fixing bracket 31, a labeling station 32, a labeling member 33, a labeling guide rail 34, an adsorbing member 35, an adsorbing cylinder 36, an adsorbing slider 37, and an adsorbing guide rail 38. The fixing brackets 31 are arranged perpendicular to the top of the processing table 15 and are arranged into three groups along the length direction of the processing table 15, and the fixing brackets 31 provide stable support for the whole labeling unit 3. A set of labeling guide rails 34 and a set of adsorbing guide rails 38 are respectively connected between the two sets of fixing brackets 31. The labeling guide rail 34 is arranged at one end close to the printer 2, so that the labeling piece 33 is matched with the printer 2 to realize labeling processing of the graphene heating plate. The adsorption guide rail 38 is arranged at one end far away from the printer 2, and the end part of the end far away from the printer 2 corresponds to the position of the turnover unit 4, so that the adsorption piece 35 and the graphene heating plate are conveniently adsorbed and transmitted to the turnover unit 4 for turnover.

Referring to fig. 5, a set of labeling pieces 33 are sleeved on the labeling guide rail 34, and the labeling pieces 33 are disposed along the width direction of the processing table 15 and can slide on the labeling guide rail 34. The labeling piece 33 moves along the horizontal direction, so that the label paper transmitted by the printer 2 can be combined with the graphene heating plate on the labeling station 32, and the label paper is extruded to be adhered. The labeling piece 33 is arranged at the bottom of one end far away from the labeling guide rail 34, is abutted with the labeling station 32, is arranged perpendicular to the top of the processing table 15 and is arranged along the width direction of the processing table 15. The labeling stations 32 are symmetrically positioned about a central location and a heating panel may be placed on top. The graphene heating plate is placed at the top of the labeling station 32, so that labeling processing can be performed on one hand, and the adsorbing part 35 is convenient to adsorb the graphene heating plate for subsequent overturning on the other hand.

Referring to fig. 5, a set of suction sliders 37 are sleeved on the suction guide 38, and the suction sliders 37 are disposed along the width direction of the processing table 15 and can slide on the suction guide 38. The adsorption slider 37 is kept away from adsorption guide 38 one end bottom butt and has adsorption cylinder 36, and adsorption cylinder 36 can follow vertical direction and remove, and the bottom is connected with adsorption piece 35. The suction member 35 can move in the horizontal direction along with the suction slider 37, and can move in the vertical direction along with the suction cylinder 36. The suction member 35 is disposed horizontally and above the labelling station 32. After the front surface labeling of the graphene heating plate is finished, the adsorption cylinder 36 controls the adsorption piece 35 to move downwards, so that the adsorption of the graphene heating plate is finished. Then, the adsorption slider 37 moves along the adsorption guide rail 38, and the graphene heating plate is transported to the turnover unit 4 for turnover.

Referring to fig. 6, the flipping unit 4 includes a support 41, a rotary cylinder 42, a rotating member 43, a jacking cylinder 44, and a jacking member 45. The supporting members 41 are provided perpendicularly to the top of the processing table 15 and in two groups in the width direction of the processing table 15, and the supporting members 41 provide support for the entire flipping unit 4. A group of rotating pieces 43 are connected between the two groups of supporting pieces 41 in a rotating way, the top of each rotating piece 43 can be provided with a graphene heating plate, and the overturning of the graphene heating plate is realized through the rotation of each rotating piece 43. A set of rotary air cylinders 42 are connected to the side walls of a set of support members 41 near one end of the labeling unit 3, and the rotary air cylinders 42 penetrate through the side walls of the support members 41 and are connected with the rotary members 43. The rotary cylinder 42 can control the rotary member 43 to rotate, thereby realizing the turning of the graphene heating plate.

Referring to fig. 6, a set of jacking cylinders 44 is provided at the bottom of the rotating member 43 on the side far from the printer 2, and the jacking cylinders 44 are provided perpendicular to the top of the processing table 15 and can move in the vertical direction. The side wall of the jacking cylinder 44 is connected with a group of jacking members 45, and the jacking members 45 can move along with the jacking cylinder 44. The jacking piece 45 is arranged to be of an inverted L-shaped structure and is horizontally arranged away from one end of the side wall of the jacking cylinder 44, so that the turned graphene heating plate can be jacked, falling of the turned graphene heating plate is prevented, and the adsorption piece 35 is convenient to adsorb the graphene heating plate.

The working principle of the automatic detection labeling device for the graphene heating plates provided by the utility model is as follows:

referring to fig. 1-6, a worker places the processed graphene heating plate on top of the labeling station 32, and then the tester 14 judges the qualified state of the graphene heating plate through signal interaction with the industrial personal computer. When judging that the graphene heating plate is a qualified product, controlling the discharge of the printer 2 to carry out labeling; when judging that the graphene heating plate is a defective product, controlling the printer 2 not to discharge. The detection of the product can be finished, the subsequent labeling work can be directly finished, the detection of the product by a detection station with a preamble is not required, and the labor cost is saved.

After the printer 2 receives the signal of the tester 14, the driving roller 24 drives the label roller 22 to synchronously rotate through the belt 25, the label roller 22 rotates to drive label paper to discharge, and after the printer 2 finishes information printing, the label paper is transmitted to the labeling station 32 for labeling through the transmission of the transmission roller 23.

After the label paper reaches the labeling station 32, the labeling piece 33 slides on the labeling guide rail 34 along the horizontal direction, the label paper is attached to the graphene heating plate, and the label paper is extruded to be attached. After the front pasting is completed, the adsorption cylinder 36 controls the adsorption piece 35 to move downwards, and the adsorption of the graphene heating plate is completed. The adsorption slider 37 moves along the adsorption guide rail 38, and the graphene heating plate adsorbed by the adsorption member 35 is transported to the rotating member 43 for placement.

After the graphene heating plate is placed on the rotating piece 43, the rotating air cylinder 42 controls the rotating piece 43 to rotate 180 degrees in the clockwise direction, so that the turnover of the graphene heating plate is realized. In the rotating process of the rotating piece 43, the jacking air cylinder 44 controls the jacking piece 45 to move upwards, and the jacking piece 45 is abutted with the turned graphene heating plate, so that the graphene heating plate is prevented from falling.

The suction member 35 then moves downward again to suck the graphene heating plate material and conveys it to the labeling station 32. By utilizing the matching of the absorption part 35 and the overturning unit 4, the automatic overturning of the graphene heating plate is realized, the working efficiency is improved, the manual operation is reduced, and the labor cost is reduced. The label-sticking member 33 repeats the labeling process, and the reverse-side labeling is completed. After the labeling of the front side and the back side is completed, a worker takes down the product, and changes a new product to carry out next round of detection labeling.

It will be apparent that the embodiments described above are merely some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

Claims (8)

1. Automatic detection and labeling device for graphene heating plates is characterized in that: comprises a cabinet (1), a printer (2), a labeling unit (3) and a turnover unit (4) which are arranged in the cabinet (1);

the cabinet (1) comprises a base (11), a hood (12) arranged at the top of the base (11) and a processing table (15) arranged between the base (11) and the hood (12), wherein the base (11) is horizontally arranged and is of a rectangular structure, and the hood (12) is of a hollow structure and the bottom of the hood is connected with the top of the base (11);

the printer comprises a processing table (15), wherein a printer (2) is arranged at one end of the top of the processing table (15) along the width direction, a labeling unit (3) is arranged along the length direction perpendicular to the printer (2), and a turnover unit (4) is arranged at one end of the top of the processing table (15) away from the printer (2) along the width direction.

2. The automatic detection and labeling device for graphene heating plates according to claim 1, wherein: the printer (2) comprises a printer device,

the printing machine comprises a bracket (21), wherein the bracket (21) is vertically arranged in a printer (2) and is provided with two groups, a label roller (22) and a transmission roller (23) are rotatably connected between the two groups of brackets (21), and a group of driving rollers (24) are arranged at the bottom of the bracket (21);

the label roller (22) is connected with the driving roller (24) through a belt (25), and label paper is sleeved outside the label roller.

3. The automatic detection and labeling device for graphene heating plates according to claim 1, wherein: the labeling unit (3) comprises,

the fixing supports (31), wherein the fixing supports (31) are arranged at the top of the vertical processing table (15) and are arranged into three groups along the length direction of the processing table (15), and a group of labeling guide rails (34) and a group of adsorbing guide rails (38) are respectively connected between the two groups of fixing supports (31);

the labeling guide rail (34) is arranged at one end close to the printer (2), the adsorption guide rail (38) is arranged at one end far away from the printer (2), and the end part of one end far away from the printer (2) corresponds to the position of the overturning unit (4).

4. The automatic detection and labeling device for graphene heating plates according to claim 3, wherein: the labeling guide rail (34) is sleeved with a group of labeling pieces (33), the labeling pieces (33) are arranged along the width direction of the processing table (15) and can slide on the labeling guide rail (34), and a labeling station (32) is abutted to the bottom of one end, far away from the labeling guide rail (34), of the labeling pieces (33);

the labeling station (32) is arranged at the top of the vertical processing table (15) and along the width direction of the processing table (15), and the labeling station (32) is symmetrically arranged about the central position and can be used for placing heating plates at the top.

5. The automatic detection and labeling device for graphene heating plates according to claim 4, wherein: a group of adsorption sliding blocks (37) are sleeved on the adsorption guide rail (38), the adsorption sliding blocks (37) are arranged along the width direction of the processing table (15) and can slide on the adsorption guide rail (38), and an adsorption cylinder (36) is abutted to the bottom of one end, away from the adsorption guide rail (38), of each adsorption sliding block (37);

the adsorption cylinder (36) can move along the vertical direction, the bottom is connected with an adsorption piece (35), and the adsorption piece (35) is horizontally arranged and positioned above the labeling station (32).

6. The automatic detection and labeling device for graphene heating plates according to claim 1, wherein: the turning unit (4) comprises a turning unit,

the support pieces (41) are arranged at the top of the vertical processing table (15) and are arranged into two groups along the width direction of the processing table (15), a group of rotary air cylinders (42) are connected to the side wall of one group of support pieces (41) close to one end of the labeling unit (3), and a group of rotary pieces (43) are rotatably connected between the two groups of support pieces (41);

wherein the rotary air cylinder (42) penetrates through the side wall of the supporting piece (41) and is connected with the rotating piece (43).

7. The automatic detection and labeling device for graphene heating plates according to claim 6, wherein: a group of jacking air cylinders (44) are arranged at the bottom of one side, far away from the printer (2), of the rotating piece (43), the jacking air cylinders (44) are arranged at the top of the vertical processing table (15) and can move along the vertical direction, and a group of jacking pieces (45) are connected to the side walls of the jacking air cylinders (44);

wherein, jacking spare (45) set up to fall L type structure, and keep away from jacking cylinder (44) lateral wall one end level setting.

8. The automatic detection and labeling device for graphene heating plates according to claim 1, wherein: one end of the hood (12) close to the printer (2) is provided with a display (13) and a tester (14), the display (13) is arranged above the tester (14), and the tester (14) penetrates through the hood (12) and is electrically communicated with the industrial computer.