CN215101017U - Printed label intelligent detection platform based on artificial intelligence - Google Patents

Abstract

The utility model discloses a printed label intelligent detection platform based on artificial intelligence, which relates to the printing technical field and comprises a supporting component, an unreeling component and a sub-reeling component, wherein the unreeling component and the sub-reeling component are respectively arranged on the supporting component; the detection assembly is arranged at the unwinding end of the unwinding assembly; the slitting component is arranged at the winding end of the sub-winding component; and the tension adjusting assembly is arranged between the detecting assembly and the slitting assembly. The technical scheme can wind, cut and self-check the platform, and can ensure that an operator does not need to manually judge whether the product is qualified or not when the machine works and replace the product with the detection box, thereby effectively judging whether the product is qualified or not.

Description

Printed label intelligent detection platform based on artificial intelligence

Technical Field

The utility model discloses a printing technical field especially relates to a printing label intelligent detection platform based on artificial intelligence.

Background

Conventional printing label platform when examining, needs artifical with the naked eye to detect, judges whether the product is qualified, and there is the factor of erroneous judgement too many wherein, can not form unified standard to the qualification of product, cuts fastly, and is inefficient, designs one kind and effectively solves above-mentioned problem, and has improved the product percent of pass, and the printing label intelligent detection platform based on artificial intelligence that improves and cuts fastly is the problem of waiting to solve urgently.

SUMMERY OF THE UTILITY MODEL

For overcoming the problem that exists among the correlation technique, the utility model discloses an embodiment provides a printing label intelligent detection platform based on artificial intelligence. The technical scheme is as follows:

according to the utility model discloses an aspect of embodiment provides a printing label intelligent detection platform based on artificial intelligence, including the supporting component, this printing label intelligent detection platform based on artificial intelligence still includes:

the unwinding assembly and the winding dividing assembly are respectively arranged on the supporting assembly;

the detection assembly is arranged at the unwinding end of the unwinding assembly;

the slitting component is arranged at the winding end of the sub-winding component;

and the tension adjusting assembly is arranged between the detecting assembly and the slitting assembly.

In one embodiment, the partial rolling assembly comprises:

the winding device comprises an upper winding air expansion shaft and a lower winding air expansion shaft, wherein the upper winding air expansion shaft is positioned above the lower winding air expansion shaft.

In one embodiment, the tensioning assembly comprises:

a front traction roller;

a rear traction roller;

the reversing rollers are arranged in a staggered manner, and the front traction roller is arranged between every two adjacent reversing rollers;

the rear traction roller is arranged on one side of the unwinding end of the reversing roller positioned at the reversing extension terminal.

In one embodiment, the device further comprises a front deviation rectifying mechanism and a rear deviation rectifying mechanism, wherein,

the front deviation correcting mechanism is positioned between the unwinding end of the unwinding assembly and the winding end of the detection assembly;

the rear deviation rectifying mechanism is positioned between two adjacent reversing rollers.

In one embodiment, further comprising a meter assembly, the meter assembly comprising:

the desktop is arranged on the supporting component;

the meter rice wheel sets up in the edge of desktop, and with one of them switching-over roller laminating, the meter rice wheel is rotatory under the frictional force of switching-over roller relative desktop.

In one embodiment, further comprising a counting assembly, the counting assembly comprising:

and the sensing end of the counting block is vertical to the conveying direction of the label.

In one embodiment, further comprising a clamping assembly, the clamping assembly comprising:

the roller is arranged between the winding ends of the upper winding air expansion shaft and the lower winding air expansion shaft;

the rolling pneumatic clamp is located on one side of the roller, the telescopic end of the rolling pneumatic clamp is separated from or tightly attached to the side surface of the roller, and the label is compressed or loosened.

In one embodiment, the intelligent control cabinet further comprises a control cabinet, the control cabinet is connected with the supporting assembly through a rib plate, and the control cabinet is provided with a touch screen assembly, a control box and a control lamp.

In one embodiment, the supporting assembly is provided with a waste discharge pipe, and the waste discharge pipe is positioned on one side of the slitting assembly.

The utility model discloses a technical scheme that embodiment provided can include following beneficial effect:

firstly, detecting whether the label has defects by using a detection box;

secondly, correcting and correcting the label by using a front correction mechanism and a rear correction mechanism;

thirdly, a front traction roller is utilized and is driven by a motor to rotate, defective labels can be stacked on a table top and then cut off, the labels are adhered together by using an adhesive tape, and the platform can continue to work;

fourthly, utilizing a rear traction roller, cutting the label in the middle of the table top when the detection box starts to frequently detect that the label has defects, winding an air expansion shaft on the upper portion, winding the air expansion shaft on the lower portion, and stopping working of the rear traction roller;

fifthly, controlling the tension of the label and the transportation direction of the label by using the touch screen assembly;

sixthly, utilizing a control box to control equipment, inching, running, emergency stop and the like;

and seventhly, cutting the label into required width by using a cutting assembly according to the requirement.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural diagram of an artificial intelligence-based intelligent printed label detection platform;

reference numerals:

1. foot margin 2, gusset 3, inner panel

4. Unreeling air expansion shaft 501, first roller 6 and front deviation correcting mechanism

7. Control cabinet 8, detection box 9 and control box

10. Desktop 11, meter wheel 12, rear deviation correcting mechanism

13. Outer plate 14, rear traction roller 15, and touch panel case

16. Slitting component 17, control lamp 18 and waste discharge pipe

19. Counting block 20, upper winding air expansion shaft 21 and lower winding air expansion shaft

22. Front traction roller 23, rolling pneumatic clamp 24 and reversing roller

502. Second passing roller 25, label

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The utility model discloses a technical scheme that the embodiment provided relates to a printing label intelligent detection platform based on artificial intelligence, especially relates to printing technical field. In the related technology, the conventional printing label platform needs to be manually detected by naked eyes to judge whether the product is qualified or not during detection, the misjudgment factors are too many, the product can not be qualified to form a unified standard, the cutting speed is low, and the efficiency is low. Based on the technical scheme, the printed label intelligent detection platform based on artificial intelligence detects whether the label has defects or not by using the detection box; the label is subjected to deviation rectification and correction by utilizing a front deviation rectification mechanism and a rear deviation rectification mechanism; the front traction roller is driven by a motor to rotate, so that defective labels can be stacked on a table top and then cut off, the labels are adhered together by using an adhesive tape, and the platform can continue to work; when the detection box starts to frequently detect that the label is defective, the label is cut in the middle of the table top by using the rear traction roller, the air expansion shaft is wound up at the upper part, the air expansion shaft is wound up at the lower part, and the rear traction roller stops working; controlling the tension of the label and the transportation direction of the label by using the touch screen assembly; control box, control equipment, inching, running, emergency stop and the like are utilized; and cutting the label into required width by using the cutting assembly according to the requirement.

Fig. 1 exemplarily shows the utility model discloses a technical scheme provides a printing label intelligent detection platform's based on artificial intelligence structural schematic diagram. As shown in fig. 1, the intelligent detection platform for printed labels based on artificial intelligence further comprises: the unwinding assembly and the winding dividing assembly are respectively arranged on the supporting assembly; the detection assembly is arranged at the unwinding end of the unwinding assembly; the slitting component is arranged at the winding end of the sub-winding component; the unwinding assembly comprises an unwinding air expansion shaft 4, the supporting assembly comprises an inner plate 3 and an outer plate 13, the inner plate 3 and the outer plate 13 are fixedly connected in parallel, and an installation area is arranged between the inner plate 3 and the outer plate 13; the unwinding air expansion shaft 4, the upper winding air expansion shaft 20 and the lower winding air expansion shaft 21 are respectively arranged at two ends of the inner plate 3 and respectively controlled to operate through different servos, and the rear traction roller 14 is arranged on the inner plate 3 at one end and on the outer plate 13 at the other end and controlled to operate through a fourth servo so as to control the label to move on the equipment and form certain tension.

In one embodiment, the partial rolling assembly comprises:

the winding device comprises an upper winding air expansion shaft 20 and a lower winding air expansion shaft 21, wherein the upper winding air expansion shaft 20 is positioned above the lower winding air expansion shaft 21, and it needs to be further noted that the upper winding air expansion shaft 20 and the lower winding air expansion shaft 21 can rotate independently or simultaneously as required.

In one embodiment, the tensioning assembly comprises: a front pull roll 22; a rear traction roller 14;

the plurality of reversing rollers 24 are arranged in a staggered mode, and the front traction roller 22 is arranged between every two adjacent reversing rollers 24; one side that is located the play book end of the switching-over roller 22 at switching-over extension terminal is equipped with back traction roller 14, it needs further to point out that preceding traction roller 22, the normal during operation of platform, preceding traction roller 22 irrotational, when detecting box 8 begins to frequently to detect the label defect, decide the label in the middle of desktop 10, go up rolling inflatable shaft 20, rolling inflatable shaft 21 down, back traction roller 14, stop work, preceding traction roller 22 is rotatory under the drive of motor, can stack the defect label on the desktop, decide again, glue together label with the sticky tape, the platform can continue to work.

In one embodiment, the device further comprises a front deviation correcting mechanism 6 and a rear deviation correcting mechanism 14, wherein the front deviation correcting mechanism 6 is located between the unwinding end of the winding air expansion shaft 4 and the winding end of the detection assembly; the rear deviation correcting mechanism 12 is positioned between two adjacent reversing rollers 24, and it should be further noted that the rollers 5 and the over rollers 5 which are arranged in the mounting area between the inner plate 3 and the outer plate 13 and positioned at the unwinding end of the unwinding air expansion shaft 4 are mounted at different positions to tighten the labels between the over rollers and allow the labels to pass through the front deviation correcting mechanism 6 respectively; after the guiding, the label enters a detection box 8 for subsequent detection, then the deviation rectification 12 is installed between the inner plate 3 and the outer plate 13, before the rear traction roller 14, the label enters a slitting assembly 16 after passing through the rear traction roller 14 after being guided by the rear deviation rectification mechanism 12, and slitting starts.

In one embodiment, further comprising a meter assembly, the meter assembly comprising: a table top 10, wherein the table top 10 is arranged on an outer plate 13 of the supporting component; the length measuring device comprises a meter wheel 11, wherein the meter wheel 11 is arranged at the edge of a table top and is attached to one reversing roller 24, the meter wheel rotates relative to the table top 10 under the friction force of the reversing roller, and it needs to be further noted that the meter wheel 11 is attached to the reversing roller 24, rotates along with the rotation of the roller 5, and is converted into length according to the number of rotating turns.

In the example, the desktop is mainly used for detecting defective products, the labels are stopped at the position to facilitate processing, and in addition, a drawer is arranged below the desktop and can be used for placing a keyboard and a mouse.

In one embodiment, further comprising a counting assembly, the counting assembly comprising: and a counting block 19, wherein the sensing end of the counting block 19 is perpendicular to the conveying direction of the label, and the number of the labels 25 is recorded when the labels pass through the counting block 19.

In one embodiment, further comprising a clamping assembly, the clamping assembly comprising:

a second roller 501, wherein the second roller 501 is located between the winding ends of the upper winding air expansion shaft 20 and the lower winding air expansion shaft 21;

the label winding device comprises a winding pneumatic clamp 23, wherein the winding pneumatic clamp 23 is positioned on one side of a second roller 501, the telescopic end of the winding pneumatic clamp 23 is separated from or tightly attached to the side surface of the second roller 501, and a label 25 is pressed or loosened.

In one embodiment, the control cabinet 7 is further included, the control cabinet 7 is connected with the support assembly through a rib plate 2, a touch screen assembly 15, a control box 9 and a control lamp 17 are arranged on the control cabinet 7, it is further pointed out that the rib plate 2 is arranged on the foundation 1 and is respectively connected with the outer side of the inner plate 3 and the inner side of the outer plate 13 through a boss on the rib plate 2, the control cabinet 7 is arranged on the rib plate 2, the outer side of the control cabinet is connected with the inner side of the inner plate 3, and an electric appliance control element is arranged in the control cabinet 7;

the control cabinet 7 is provided with a touch screen box 15, the touch screen 151 is provided with a touch screen, a program is arranged in the touch screen to control equipment, tension, running direction and the like, and the control cabinet 7 is provided with a control lamp 17 and a control lamp 17 which have three colors and respectively correspond to normal running, standby and alarm.

In one embodiment, the support assembly is provided with a waste pipe 18, and the waste pipe 18 is located on one side of the slitting assembly 16. it should be further noted that, with the waste pipe 18, waste edges are discharged out of the platform through the waste pipe 18 during operation of the slitting assembly 16.

The detection box, the metering wheel, the counting block and the touch screen assembly in the example are mature products which can be purchased in the market, and the scheme is just the application of the components, wherein:

the detection box is a part of a machine vision detection system and has a working principle; for example, the tag is provided with 3 rows of animals, (pandas, golden monkey, northeast tiger), firstly three rows of animals are input into the detection system, the equipment starts to operate, when the three rows of animals pass through the detection system, the passing three rows of animals are shot by a camera in the detection system and compared with the stored three rows of animals, if the three rows of animals are consistent, the next three rows of animals are shot, if the three rows of animals are inconsistent, a stop signal is sent to the equipment, and the equipment stops the machine if receiving the signal. The detection system generally comprises a host, a display screen, a light source, an optical lens, a digital camera and the like;

if the detection system does not detect the flaw, the label is conveyed to the slitting component and is slit into 3 parts, and each roll is a panda, a golden monkey and a northeast tiger respectively;

the metering wheel is an encoder and a metering wheel, for example, a client needs 100 meters, the number of meters is set to be 100 meters in the touch screen, the circumference of the metering wheel is 0.2 meter, when the metering wheel rotates to 500 circles, the encoder sends a signal to the touch screen, the touch screen receives the signal and instructs equipment to stop, the model TRD-2T-1024V and the brand Guangyang

The counting block is a sensor, as mentioned above, a transverse line is separated between each row of animals, a client needs ten thousand pandas per roll, the number 10000 is arranged in the touch screen, when the sensor senses the first ten thousand transverse lines, the sensor sends a signal to the touch screen, and the touch screen receives the signal and instructs the equipment to stop, the model is WF2-40B410, and the brand SICK;

the touch screen is a high-performance embedded integrated touch screen, and has powerful image display and data processing functions, and the model TPC7062TD is in a Kunlun state.

The working principle of the intelligent printed label detection platform based on artificial intelligence in the embodiment is as follows:

as shown in figure 1, a label 25 to be cut is installed on an unreeling air expansion shaft 4, the label 25 passes through a front deviation correcting mechanism 6, a detection box 8, a table top 10, a rear deviation correcting mechanism 12, a rear traction roller 14, a cutting assembly 16 and a reeling pneumatic clamp 23 through a first passing roller 501, is finally adhered with a paper core installed on an upper reeling air expansion shaft 20 and a lower reeling air expansion shaft 21 by using an adhesive tape, a servo motor group in a control cabinet 7 is started, four servo motors respectively control the unreeling air expansion shaft 20, the rear traction roller 12, the upper reeling air expansion shaft 20 and the lower reeling air expansion shaft 21 to rotate, the label 25 forms tension and moves from left to right, the label is corrected by the front deviation correcting mechanism 6, is detected by the detection box 8, is corrected by the rear deviation correcting mechanism 12, passes through the rear traction roller 14, the label starts to be cut by the cutting assembly 16, waste edges are discharged by using a waste discharge pipe 18, the cut label 25 is wound on the upper reeling air expansion shaft 20, the waste edges are discharged by using a waste discharge pipe 501, On the paper core of the lower winding air expansion shaft 21, the roll diameter is increased immediately, the roll diameter on the unwinding air expansion shaft 4 is reduced accordingly, and the working cycle of the equipment is repeated.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure should be limited only by the attached claims.

Claims (9)

1. The utility model provides a printing label intelligent detection platform based on artificial intelligence, includes supporting component, its characterized in that, this printing label intelligent detection platform based on artificial intelligence still includes:

the unwinding assembly and the winding dividing assembly are respectively arranged on the supporting assembly;

the detection assembly is arranged at the unwinding end of the unwinding assembly;

the slitting component is arranged at the winding end of the sub-winding component;

and the tension adjusting assembly is arranged between the detecting assembly and the slitting assembly.

2. The intelligent printed label detection platform based on artificial intelligence of claim 1, wherein the branch winding component comprises:

the winding device comprises an upper winding air expansion shaft and a lower winding air expansion shaft, wherein the upper winding air expansion shaft is positioned above the lower winding air expansion shaft.

3. The artificial intelligence based intelligent printed label detection platform as claimed in claim 1, wherein the tensioning assembly comprises:

a front traction roller;

a rear traction roller;

the reversing rollers are arranged in a staggered manner, and the front traction roller is arranged between every two adjacent reversing rollers;

the rear traction roller is arranged on one side of the unwinding end of the reversing roller positioned at the reversing extension terminal.

4. The intelligent printed label detecting platform as claimed in claim 3, further comprising a front deviation rectifying mechanism and a rear deviation rectifying mechanism, wherein,

the front deviation correcting mechanism is positioned between the unwinding end of the unwinding assembly and the winding end of the detection assembly;

the rear deviation rectifying mechanism is positioned between two adjacent reversing rollers.

5. The artificial intelligence based printed label intelligent detection platform of claim 3, further comprising a meter-meter assembly, the meter-meter assembly comprising:

the desktop is arranged on the supporting component;

the meter rice wheel sets up in the edge of desktop, and with one of them switching-over roller laminating, the meter rice wheel is rotatory under the frictional force of switching-over roller relative desktop.

6. The artificial intelligence based printed label intelligent detection platform of claim 1, further comprising a counting component, the counting component comprising:

and the sensing end of the counting block is vertical to the conveying direction of the label.

7. The artificial intelligence based intelligent printed label detection platform of claim 2, further comprising a clamping assembly, the clamping assembly comprising:

the roller is arranged between the winding ends of the upper winding air expansion shaft and the lower winding air expansion shaft;

the rolling pneumatic clamp is located on one side of the roller, the telescopic end of the rolling pneumatic clamp is separated from or tightly attached to the side surface of the roller, and the label is compressed or loosened.

8. The intelligent printed label detection platform based on artificial intelligence according to any one of claims 1 to 7, further comprising a control cabinet, wherein the control cabinet is connected with the support assembly through a rib plate, and a touch screen assembly, a control box and a control lamp are arranged on the control cabinet.

9. The intelligent printed label detection platform based on artificial intelligence of claim 1, wherein the support assembly is provided with a waste discharge pipe, and the waste discharge pipe is located on one side of the slitting assembly.

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