CN216128559U - Automatic labeling machine and electronic product production line - Google Patents

Abstract

The application provides an automatic labeling machine and electronic product production line, foretell automatic labeling machine includes stock material feeding unit, pastes mark device and unloader, and stock material feeding unit is used for piling up and waits to paste the mark product, and stock material feeding unit still is used for will waiting to paste the mark product and send to pasting the mark position, pastes the mark device and sets up in stock material feeding unit's top, pastes the mark device and is used for pasting the mark to the product, and unloader and stock material feeding unit adjacent setting, and unloader is used for getting away stock material feeding unit with the product of accomplishing to paste the mark. Because material stock material feeding unit will wait to paste the mark product and send to the labeller and paste the mark, and unloader will paste the mark after the product takes away material stock material feeding unit, adopt mechanical unloading to replace artifical unloading of going up promptly, improved material loading and unloading efficiency, and then improved the mark efficiency that pastes the mark device, guaranteed simultaneously that the position of material loading at every turn is unanimous, and then improved the mark precision that pastes the mark device, and then improved the mark quality that pastes the mark device.

Description

Automatic labeling machine and electronic product production line

Technical Field

The utility model relates to the field of labeling machines, in particular to an automatic labeling machine and an electronic product production line.

Background

The labels of electronic products often record key information such as models, configurations, functions and the like, so that the tracking and management of product sales are facilitated, and the label is the most direct way for customers to obtain product information.

At present, for labeling of electronic products, the electronic products are manually conveyed to a labeling machine, then the labeling machine labels the electronic products, and finally the electronic products are manually taken out from the labeling machine. However, the labeling efficiency of the electronic product is low due to the low efficiency of manual feeding and discharging; in addition, because the precision of manual feeding is unstable, the labeling positions of all electronic products are not completely consistent, and the labeling quality is further reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides an automatic labeling machine and an electronic product production line.

The purpose of the utility model is realized by the following technical scheme:

an automatic labeling machine comprising:

the material storage and feeding device is used for stacking products to be labeled and conveying the products to be labeled to a labeling position;

the labeling device is arranged above the material storage and feeding device and is used for labeling the product to be labeled; and

and the blanking device is arranged adjacent to the material storage and feeding device and is used for taking the product to be labeled, which is subjected to labeling, away from the material storage and feeding device.

In one embodiment, the stock feeding device comprises a lifting driving assembly and a stock assembly, the stock assembly is connected to a power output end of the lifting driving assembly, the stock assembly is used for stacking the products to be labeled, and the lifting driving assembly is used for driving the stock assembly to move to the labeling position.

In one embodiment, the material storage and feeding device further comprises a position sensor, the position sensor is mounted on the lifting driving assembly, the position sensor is further electrically connected with a control end of the lifting driving assembly, and the position sensor is used for sensing the stacking height of the product to be labeled.

In one embodiment, the stock feeding device further comprises a positioning assembly, the positioning assembly is arranged on the stock assembly, and the positioning assembly is used for positioning the product to be labeled.

In one embodiment, the automatic labeling machine further comprises a machine table, the lifting driving assembly is mounted on the machine table, and the positioning assembly is adjustably connected to the machine table; the material storage assembly is provided with an adjusting notch, and the positioning assembly penetrates through the adjusting notch.

In one embodiment, the blanking device includes:

a blanking driving component; and

the adsorption component is connected to the power output end of the blanking driving component and used for adsorbing a product to be labeled after labeling is completed.

In one embodiment, the blanking drive assembly comprises:

a horizontal drive member; and

the vertical driving piece is connected to the power output end of the horizontal driving piece, and the adsorption assembly is connected to the power output end of the vertical driving piece.

In one embodiment, the adsorbent assembly comprises:

the adsorption mounting part is connected to the power output end of the blanking driving assembly; and

a plurality of adsorption pieces connected to the adsorption installation piece at intervals.

In one embodiment, the automatic labeling machine further comprises a collecting device, the collecting device is arranged adjacent to the stock feeding device, a storage space is formed in the collecting device, and the discharging device is used for moving the product to be labeled, which is labeled, from the stock feeding device to the storage space.

An electronic product production line comprises a forming machine, a mechanical arm and the automatic labeling machine, wherein the forming machine is used for forming the product to be labeled, the mechanical arm is arranged between the forming machine and the automatic labeling machine, and the mechanical arm is used for placing the product to be labeled output by the forming machine in the material storage and feeding device.

Compared with the prior art, the utility model has at least the following advantages:

1. because material stock material feeding unit will wait to paste the mark product and send to the subsides mark device and paste the mark, and unloader will paste the mark after the product take off material stock material feeding unit, adopt mechanical unloading to replace artifical unloading of going up promptly, improved material loading and unloading efficiency, and then improved the mark efficiency that pastes the mark device.

2. Because material stock material feeding unit will wait to paste the mark product and send to the labeller and paste the mark, and unloader will paste the product after the mark and take away material stock material feeding unit, adopt mechanical unloading to replace artifical unloading of going up promptly, guaranteed that the position of material loading is unanimous at every turn, and then improved the mark precision of pasting the mark device, and then improved the mark quality of pasting the mark device.

3. Because the material storage and feeding device and the blanking device replace manual operation, manual intervention is avoided, and the labor intensity of workers is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an automatic labeling machine according to an embodiment;

fig. 2 is a schematic structural view of a material storage and feeding device of the automatic labeling machine shown in fig. 1;

FIG. 3 is a schematic structural view of a labeling device of the automatic labeling machine shown in FIG. 1;

FIG. 4 is a schematic view showing still another structure of the labeling device of the automatic labeling machine shown in FIG. 1;

fig. 5 is a schematic structural view of a blanking device of the automatic labeling machine shown in fig. 1.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, 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 invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, an embodiment of an automatic labeling machine 10 includes a material storage feeding device 100, a labeling device 200, and a discharging device 300, wherein the material storage feeding device 100 is used for stacking products to be labeled, the material storage feeding device 100 is further used for conveying the products to be labeled to a labeling position, the labeling device 200 is disposed above the material storage feeding device 100, the labeling device 200 is used for labeling the products to be labeled, the discharging device 300 is disposed adjacent to the material storage feeding device 100, and the discharging device 300 is used for taking the products to be labeled, which are labeled, away from the material storage feeding device 100.

In this embodiment, the material storage and feeding device 100 is used for stacking the product to be labeled, and the material storage and feeding device 100 is further used for moving the product to be labeled to the labeling position, that is, the material storage and feeding device 100 is used for moving the product to be labeled to the lower side of the labeling device 200, and at this time, the product to be labeled is at a certain distance from the labeling device 200, so that the labeling device 200 is used for labeling the product. The blanking device 300 is adjacent to the material storage and feeding device 100, after the product to be labeled is labeled by the material to be labeled device 200, the blanking device 300 moves one product with the label out of the material storage and feeding device 100, so that the material storage and feeding device 100 can move the next product to be labeled to the labeling position, and the labeling device 200 continues labeling. It can be understood that the labeling position is a position where the labeling device 200 can perform labeling, i.e. the labeling position is within the range of the labeling stroke of the labeling device 200.

Above-mentioned automatic labeling machine 10, because material storage material feeding unit 100 will wait to paste the mark product and send to subsides mark device 200 and paste the mark, and unloader 300 will paste the mark after the product takes away from material storage material feeding unit 100, adopt mechanical unloading to replace artifical unloading of going up promptly, improved material loading and unloading efficiency, and then improved the mark efficiency that pastes mark device 200, guaranteed simultaneously that the position of material loading at every turn is unanimous, and then improved the mark precision that pastes mark device 200, and then improved the mark quality that pastes mark device 200. In addition, because the material storage and feeding device 100 and the blanking device 300 replace manual operation, manual intervention is avoided, and the labor intensity of workers is reduced.

As shown in fig. 2, in one embodiment, the stock feeding device 100 includes a lifting driving assembly 110 and a stock assembly 120, the stock assembly 120 is connected to a power output end of the lifting driving assembly 110, the stock assembly 120 is used for stacking the products to be labeled, and the lifting driving assembly 110 is used for driving the stock assembly 120 to move to the labeling position. In the embodiment, the stock component 120 is connected to the power output end of the lifting driving component 110, and the stock component 120 is used for stacking a certain amount of products to be labeled. The lifting driving assembly 110 is used for driving the material storage assembly 120 to move up and down. The power output end of the lifting driving assembly 110 drives the material storage assembly 120 and the product to be labeled to move towards the direction close to the labeling device 200 during feeding, so that the product to be labeled on the top layer of the material storage assembly 120 reaches the labeling position. That is, after the blanking device 300 takes out a product that has been labeled, the power output end of the lifting driving assembly 110 drives the material storage assembly 120 and the product to be labeled to rise a certain distance in the direction close to the labeling device 200, so that the product to be labeled on the top layer of the material storage assembly 120 reaches the labeling position. The power output end of the lifting driving assembly 110 drives the stock assembly 120 to reset when the blanking device 300 finishes the labeled product, so that a certain amount of the product to be labeled can be stacked on the stock assembly 120.

Further, because a certain amount of products to be labeled are stacked on the stock component 120, and the power output end of the lifting driving component 110 drives the top layer products on the stock component 120 to reach the labeling position, i.e., the power output end of the lifting driving component 110 drives the stock component 120 to feed, the stock component 120 has two functions of stacking the products and feeding, the structure of the stock feeding device 100 is simplified, and the structure of the stock feeding device 100 is more compact. Meanwhile, as a certain amount of products to be labeled are stacked on the storage component 120, after the labeled products leave the storage component 120, the power output end of the lifting driving component 110 can immediately drive the top layer products to be labeled on the storage component 120 to move to the labeling position, that is, after the labeled products leave the storage component 120, the storage feeding device 100 can immediately feed again, so that the feeding efficiency is improved, the labeling efficiency of the products is improved, and labeling of the products in batches is realized.

It can be understood that the lifting driving assembly 110 can be a screw rod sliding table or a mechanical arm, and in this embodiment, the lifting driving assembly 110 is a screw rod sliding table.

As shown in fig. 2, in one embodiment, the stock feeding device 100 further includes a position sensor 130, the position sensor 130 is mounted on the lifting driving assembly 110, the position sensor 130 is further electrically connected to a control end of the lifting driving assembly 110, and the position sensor 130 is configured to sense a stacking height of the product to be labeled. In this embodiment, the position sensor 130 is fixedly connected to the lifting driving assembly 110, and the position sensor 130 is used for sensing the height of the top layer product to be labeled on the stock assembly 120 to determine the ascending distance of the power output end of the lifting driving assembly 110 driving the stock assembly 120, so that the top layer product to be labeled on the stock assembly 120 can reach the labeling position. Specifically, after the feeding device 300 takes a product that is completely labeled from the storage assembly 120, the position sensor 130 obtains information that the height of the product to be labeled on the storage assembly 120 is lower than the labeling position, and transmits the height information of the product to be labeled to the lifting driving assembly 110, and at this time, the power output end of the lifting driving assembly 110 drives the storage assembly 120 to ascend toward the labeling device 200, so that the top layer product on the storage assembly 120 is located at the labeling position, and the labeling device 200 can perform labeling. Because the position sensor 130 can sense the height of the product to be labeled on the material storage component 120 and transmit the height information of the product to be labeled to the lifting driving component 110, the power output end of the lifting driving component 110 can automatically move the top layer product to be labeled on the material storage component 120 to the labeling position, so that automatic feeding is realized, the feeding efficiency is improved, and the labeling efficiency is improved.

In another embodiment, the position sensor 130 is movably connected to the lifting driving assembly 110, so that the position of the position sensor 130 on the lifting driving assembly 110 is adjustable, and the position sensor 130 can be adapted to products with different specifications, thereby improving the adaptability of the position sensor 130.

It is understood that the position sensor 130 may alternatively be a photoelectric sensor or other sensor known in the art.

As shown in fig. 2, in one embodiment, the stock feeding device 100 further includes a positioning assembly 140, where the positioning assembly 140 is disposed on the stock assembly 120, and the positioning assembly is used for positioning the product to be labeled. In the present embodiment, the positioning assembly 140 is used for positioning the product to ensure that the product is placed at a predetermined position. The positioning component 140 abuts against the edge of the product when the product is stacked on the storage component 120, so that the stacked products are straightened and positioned, the product is prevented from deviating from the preset position, and the labeling device 200 can label the corresponding position of the product.

As shown in fig. 1, in one embodiment, the automatic labeling machine 10 further includes a collecting device 400, the collecting device 400 is disposed adjacent to the stock feeding device 100, the collecting device 400 defines a storage space 401, and the discharging device 300 is configured to move the product to be labeled, which is labeled, from the stock feeding device 100 to the storage space 401. In this embodiment, each time the labeling device 200 finishes labeling once, the blanking device 300 moves the labeled product from the material storage and feeding device 100 to the material storage space 401, and after the material storage space 401 is full of labeled products, the labeled products in the material storage space 401 are collectively processed. Because unloader 300 will accomplish the product of subsides mark and all place in storage space 401 for accomplish the product of pasting the mark and concentrate in storage space 401, make can be to accomplishing the product centralized processing of pasting the mark, need not to carry out once processing every time pasting a product promptly, and then improved production efficiency.

As shown in fig. 1 and 2, in one embodiment, the automatic labeling machine 10 further includes a machine table 500, the lifting driving assembly 110 is mounted on the machine table 500, and the positioning assembly 140 is adjustably connected to the machine table 500. The stock component 120 is provided with an adjusting notch 121, and the positioning component 140 is arranged through the adjusting notch 121. In this embodiment, the position of the positioning assembly 140 in the adjusting notch 121 is adjusted by adjusting the position of the positioning assembly 140 on the machine table 500, so that the positioning assembly 140 can move in the adjusting notch 121, the moving range of the positioning assembly 140 is expanded, the positioning assembly 140 can be adapted to products with more specifications, and the adaptability of the positioning assembly 140 is improved.

As shown in fig. 1 and fig. 2, the machine 500 is further provided with a plurality of waist-shaped holes (not shown), the material storage assembly 120 is provided with a plurality of adjusting notches 121 along the circumferential direction thereof, the positioning assembly 140 includes a plurality of positioning rods 141 and a plurality of locking nuts, the plurality of waist-shaped holes (not shown), the plurality of adjusting notches 121, the plurality of positioning rods 141 and the plurality of locking nuts are arranged in a one-to-one correspondence manner, and the plurality of positioning rods 141 and the plurality of locking nuts are connected in a one-to-one correspondence manner, so that the plurality of positioning rods 141 are fixedly connected to the machine 500. Further, each positioning rod 141 includes a positioning portion 1411 and a connecting portion 1412, one end of the positioning portion 1411 of each positioning rod 141 is inserted into a corresponding adjusting hole, the other end of the positioning portion 1411 of each positioning rod 141 is abutted against the machine table 500, and an outer diameter of the positioning portion 1411 of each positioning rod 141 is greater than an outer diameter of the corresponding connecting portion 1412. The outer diameter of the positioning portion 1411 of each positioning rod 141 is greater than the circular arc diameter of a waist-shaped hole (not shown), so that the positioning portion 1411 of each positioning rod 141 is limited on one side of the machine 500. One end of the connecting portion 1412 of each positioning rod 141 penetrates through a corresponding waist-shaped hole (not shown in the figures) and is fixedly connected with the corresponding positioning portion 1411, one end of the connecting portion 1412 of each positioning rod 141, which is far away from the corresponding positioning portion 1411, extends out of the waist-shaped hole (not shown in the figures), and one end of the connecting portion 1412 of each positioning rod 141, which extends out of the corresponding waist-shaped hole (not shown in the figures), is provided with an external thread connected with a corresponding locking nut, so that the positioning portion 1411 of each positioning rod 141 and the corresponding locking nut are respectively abutted against two opposite sides of the machine table 500.

Furthermore, when each positioning rod 141 needs to be adjusted, the corresponding locking nut is firstly loosened, then the corresponding positioning rod 141 is moved, so that the connecting portion 1412 of each positioning rod 141 moves along the length direction of the corresponding waist-shaped hole (not shown), and the positioning portion 1411 of each positioning rod 141 moves in the adjusting notch 121, so that each positioning rod 141 is adapted to the product, then the corresponding locking nut is screwed, so that each positioning rod 141 is fixed to the machine 500, so that the positioning assembly 140 is fixed to the machine 500, and further, the position adjusting function of the positioning assembly 140 on the material storage assembly 120 is realized.

As shown in fig. 1, in one embodiment, the number of the labeling devices 200 is two, two labeling devices 200 are disposed adjacent to each other, and both labeling devices 200 are located above the material storage and feeding device 100, and the two labeling devices 200 label different areas of the product at the same time, so that the labeling efficiency is improved, and further, the production efficiency of the product is improved.

As shown in fig. 3, in one embodiment, the labeling device 200 includes a mounting rack 210, a label receiving and releasing assembly 220, a label peeling driving assembly 230, a labeling assembly 240 and a label tape 250, wherein the label receiving and releasing assembly 220, the label peeling driving assembly 230 and the labeling assembly 240 are all mounted on the mounting rack 210, the label tape 250 is received and released in the label receiving and releasing assembly 220, the label tape 250 is further wound on a power output end of the label peeling driving assembly 230, the labeling assembly 240 is mounted on the label receiving and releasing assembly 220, and the labeling assembly 240 is disposed opposite to the stock feeding device 100. In this embodiment, the labeling assembly 240 is disposed above the material storage and feeding device 100. When the label is peeled, the power output end of the label peeling driving assembly 230 pushes the label belt 250, so that the partial area of the label is positioned below the label sticking assembly 240, then the label sticking assembly 240 adsorbs one of the labels on the label belt 250, then the power output end of the label peeling driving assembly 230 resets, so that the label belt 250 resets under the action of the label collecting and releasing assembly 220, and the label adsorbed on the label sticking assembly 240 is separated from the lining paper of the label belt 250, so that the label peeling function of the label sticking device 200 is realized through the matching of the label sticking assembly 240 and the label peeling driving assembly 230. It is understood that the label stripping drive assembly 230 may alternatively be an air cylinder, linear motor, or other linear drive known in the art.

As shown in fig. 3 and 4, in one embodiment, the labeling assembly 240 includes a label suction cylinder 241, a labeling cylinder 242 and a label suction member 243, the label suction cylinder 241 is installed on the mounting frame 210, the labeling cylinder 242 is installed on the power output end of the label suction cylinder 241, and the stroke of the label suction cylinder 241 is smaller than that of the label suction cylinder 241. Referring to fig. 1, the label absorbing member 243 is connected to the power output end of the labeling cylinder 242, and the label absorbing member 243 is disposed opposite to the material storage and feeding device 100. In the embodiment, the label suction cylinder 241 is used for driving the labeling cylinder 242 to approach the label tape 250 so that the label suction member 243 approaches the label tape 250 and can suck the labels, and the labeling cylinder 242 is used for driving the label suction member 243 to move to the products on the stock feeding device 100 so that the label suction member 243 can apply the labels to the products.

Further, when the power output end of the label tape stripping drive assembly 230 pushes a partial area of the label tape 250 under the label attracting member 243, the label suction cylinder 241 drives the labeling cylinder 242 and the label suction member 243 to move in the direction close to the label, so that the adsorption end of the label adsorption member 243 contacts with the label and adsorbs the label, and then the adsorption cylinder drives the labeling cylinder 242 and the label adsorption member 243 to reset, namely, the label suction cylinder 241 drives the labeling cylinder 242 and the label suction member 243 to move away from the label tape 250, then the label stripping driving assembly 230 is reset, so that the label strip 250 is reset, then the labeling cylinder 242 drives the label absorbing member 243 to move to the product on the material storage and feeding device 100, so that the label absorbing member 243 can apply the label to the product, the label stripping drive assembly 230 is then reset so that the labels attracted to the label attracting member 243 are separated from the liner of the label tape 250, and finally the labeling cylinder 242 is reset so that the label attracting member 243 is removed from the product. Therefore, the power output end of the label suction cylinder 241 drives the label suction member 243 to move to the position of the label tape 250, and the power output end of the labeling cylinder 242 drives the label suction member 243 to move to the position of the product, so that the label suction member 243 can automatically suck and label, and the automation degree of the labeling device 200 is improved.

As shown in fig. 5, in one embodiment, the blanking device 300 includes a blanking driving component 310 and an adsorption component 320, the adsorption component 320 is connected to a power output end of the blanking driving component 310, and the adsorption component 320 is used for adsorbing the product to be labeled after labeling is completed. In this embodiment, the adsorption component 320 is connected to the power output end of the blanking driving component 310, the blanking driving component 310 is used for driving the adsorption component 320 to move, each time the labeling device 200 finishes one-time labeling, the blanking driving component 310 drives the adsorption component 320 to move to the material storage and feeding device 100, so that the adsorption component 320 adsorbs a product, and then the blanking driving component 310 drives the adsorption component 320 to move the product out of the material storage and feeding device 100. In this way, the adsorption component 320 is driven by the blanking driving component 310 to move, so that automatic blanking of the blanking device 300 is realized, the blanking speed is increased, and the labeling efficiency is further improved.

As shown in fig. 5, in one embodiment, the feeding driving assembly 310 includes a horizontal driving member 311 and a vertical driving member 312, the vertical driving member 312 is connected to a power output end of the horizontal driving member 311, and the suction assembly 320 is connected to a power output end of the vertical driving member 312. In this embodiment, the power output end of the horizontal driving element 311 is used for driving the vertical driving element 312 to move horizontally, so as to move the adsorption assembly 320 in a direction relative to the material storage and feeding device 100, specifically, so as to move the adsorption assembly 320 horizontally. The power output end of the vertical driving element 312 is used for driving the adsorption assembly 320 to move in the other direction relative to the material storage and feeding device 100, and specifically, the adsorption assembly 320 moves vertically. Because the power output end of the horizontal driving element 311 and the power output end of the vertical driving element 312 can both drive the adsorption component 320 to move, the adsorption component 320 can move towards two different directions, so that the flexibility of the adsorption component 320 is improved, and the adsorption component 320 can adsorb products on the material storage and feeding device 100 conveniently.

It is understood that the horizontal driving element 311 may be a screw sliding table, a hydraulic cylinder, or an air cylinder, and the vertical driving element 312 may also be a screw sliding table, a hydraulic cylinder, or an air cylinder.

With reference to fig. 5, in one embodiment, the suction assembly 320 includes a suction mounting member 321 and a plurality of suction members 322, and the suction mounting member 321 is connected to the power output end of the blanking driving assembly 310. The suction members 322 are connected to the suction mounting member 321 at intervals. In this implementation, a plurality of piece 322 interval connections that adsorb are in adsorbing installed part 321, and a plurality of pieces 322 that adsorb connect in the power take off end of unloading drive assembly 310 through adsorbing installed part 321 for a plurality of pieces 322 that adsorb all are used for adsorbing the product, have improved absorbent firmness, have avoided adsorbing the problem that the product dropped when adsorbing the product removal of piece 322, thereby have guaranteed the normal clear of unloading work.

The application still provides an electronic product production line, including make-up machine, manipulator and any above-mentioned embodiment automatic labeling machine 10, the make-up machine is used for the shaping wait to paste the mark product, the manipulator set up in the make-up machine with between the automatic labeling machine 10, the manipulator be used for with the make-up machine output wait to paste the mark product place in stock material feeding unit 100. Further, the automatic labeling machine 10 includes a stock material feeding device 100, a labeling device 200 and a blanking device 300, the stock material feeding device 100 is used for stacking products to be labeled, the stock material feeding device 100 is also used for conveying the products to be labeled to a labeling position, the labeling device 200 is arranged above the stock material feeding device 100, the labeling device 200 is used for labeling the products to be labeled, the blanking device 300 is arranged adjacent to the stock material feeding device 100, and the blanking device 300 is used for taking the products to be labeled, which are labeled, away from the stock material feeding device 100.

In this embodiment, the material storage and feeding device 100 is used for stacking the product to be labeled, and the material storage and feeding device 100 is further used for moving the product to be labeled to the labeling position, that is, the material storage and feeding device 100 is used for moving the product to be labeled to the lower side of the labeling device 200, and at this time, the product to be labeled is at a certain distance from the labeling device 200, so that the labeling device 200 is used for labeling the product. The blanking device 300 is adjacent to the material storage and feeding device 100, after the product to be labeled is labeled by the material to be labeled device 200, the blanking device 300 moves one product with the label out of the material storage and feeding device 100, so that the material storage and feeding device 100 can move the next product to be labeled to the labeling position, and the labeling device 200 continues labeling. It can be understood that the labeling position is a position where the labeling device 200 can perform labeling, i.e. the labeling position is within the range of the labeling stroke of the labeling device 200.

Compared with the prior art, the utility model has at least the following advantages:

1. because the material storage and feeding device 100 sends the product to be labeled to the labeling device 200 for labeling, and the blanking device 300 takes the labeled product out of the material storage and feeding device 100, namely, mechanical feeding and blanking are adopted to replace manual feeding and blanking, the feeding and blanking efficiency is improved, and the labeling efficiency of the labeling device 200 is further improved.

2. Because the material storage and feeding device 100 sends the product to be labeled to the labeling machine for labeling, and the blanking device 300 takes the labeled product out of the material storage and feeding device 100, namely, mechanical feeding and discharging are adopted to replace manual feeding and discharging, the position consistency of feeding at each time is ensured, the labeling precision of the labeling device 200 is improved, and the labeling quality of the labeling device 200 is improved.

3. Because the material storage and feeding device 100 and the blanking device 300 replace manual operation, manual intervention is avoided, and the labor intensity of workers is reduced.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An automatic labeling machine, comprising:

the material storage and feeding device is used for stacking products to be labeled and conveying the products to be labeled to a labeling position;

the labeling device is arranged above the material storage and feeding device and is used for labeling the product to be labeled; and

and the blanking device is arranged adjacent to the material storage and feeding device and is used for taking the product to be labeled, which is subjected to labeling, away from the material storage and feeding device.

2. The automatic labeling machine according to claim 1, characterized in that said stock feeding device comprises a lifting drive assembly and a stock assembly, said stock assembly being connected to a power output end of said lifting drive assembly, said stock assembly being intended to stack said products to be labeled, said lifting drive assembly being intended to drive said stock assembly to move to said labeling position.

3. The automatic labeling machine according to claim 2, characterized in that said stock feeding device further comprises a position sensor mounted to said lifting drive assembly, said position sensor being further electrically connected to a control terminal of said lifting drive assembly, said position sensor being adapted to sense a stacking height of said products to be labeled.

4. The automatic labeling machine according to claim 2, characterized in that said stock feeding device further comprises a positioning assembly, said positioning assembly being arranged on said stock assembly, said positioning assembly being adapted to position said product to be labeled.

5. The automatic labeling machine according to claim 4, further comprising a machine table on which said lifting drive assembly is mounted, said positioning assembly being adjustably connected to said machine table; the material storage assembly is provided with an adjusting notch, and the positioning assembly penetrates through the adjusting notch.

6. The automatic labeling machine according to claim 1, characterized in that said blanking device comprises:

a blanking driving component; and

the adsorption component is connected to the power output end of the blanking driving component and used for adsorbing a product to be labeled after labeling is completed.

7. The automatic labeling machine according to claim 6, characterized in that said feed drive assembly comprises:

a horizontal drive member; and

the vertical driving piece is connected to the power output end of the horizontal driving piece, and the adsorption assembly is connected to the power output end of the vertical driving piece.

8. The automatic labeling machine according to claim 6, characterized in that said suction assembly comprises:

the adsorption mounting part is connected to the power output end of the blanking driving assembly; and

a plurality of adsorption pieces connected to the adsorption installation piece at intervals.

9. The automatic labeling machine according to any one of claims 1 to 8, further comprising a collecting device disposed adjacent to the stock feeding device, the collecting device defining a storage space, and a discharging device for moving the product to be labeled, on which labeling is completed, from the stock feeding device to the storage space.

10. An electronic product production line, characterized by comprising a forming machine, a manipulator and the automatic labeling machine of any one of claims 1 to 9, wherein the forming machine is used for forming the product to be labeled, the manipulator is arranged between the forming machine and the automatic labeling machine, and the manipulator is used for placing the product to be labeled output by the forming machine in the stock feeding device.

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