CN113353397A - Tire label identification and warehousing system - Google Patents

Abstract

The invention is suitable for the technical field of label identification, and provides a tire label identification warehousing system which comprises a conveying device, an identification module, a PLC (programmable logic controller), a transmission module and a QR (quick response) system, wherein the identification module is installed on the conveying device and used for identifying a tire transmitted on the conveying device, when the tire passes through the identification module, a bar code on the tire is scanned through the identification module and is transmitted to the PLC for processing, the processed content is uploaded to a QR system of a client, the client is compared with the transmitted bar code after scanning through the conveying device, whether the matching is carried out or not is judged, the uploading is successful if the matching is not matched, the uploading is failed if the mismatching is not matched, the re-detection is needed, the traditional manual code scanning process is compared, the missing scanning and the wrong scanning of a software scanning cannot occur, the manpower is greatly saved, and the quality safety of products is ensured.

Description

Tire label identification and warehousing system

Technical Field

The invention belongs to the technical field of label identification, and particularly relates to a tire label identification warehousing system.

Background

The label identification means that after a label is pasted on a transported article, the transportation direction and the loading condition of the article are known in a code scanning mode.

The current tire warehouse adopts a mode that after a vehicle for transporting tires comes, a manual forklift moves the tires to a fixed position, then workers manually paste the tires, then manually scan and store the tires in the warehouse after the tires are pasted, and finally manually move the tires back to a carriage and transport the tires to various places; at present, the mode needs a large amount of manpower, and is not only low in efficiency, but also time-consuming and labor-consuming.

Disclosure of Invention

The invention provides a tire label identification warehousing system, aiming at solving the problems that the mode adopted by the current tire warehouse is that after a vehicle for transporting tires comes, a manual forklift moves the tires to a fixed position, then employees paste the tires with hands, then manually scan and warehouse in the tires after pasting, and finally manually move the tires back to a carriage and transport the tires to various places; the existing mode firstly needs a large amount of manpower, and has the problems of low efficiency and time and labor waste.

The invention is realized in such a way that the tire label identification warehousing system comprises a conveying device, an identification module, a PLC, a transmission module and a QR system, wherein the identification module is installed on the conveying device, the PLC is connected with the identification module and is used for receiving the information identified by the identification module, and the transmission module is connected with the PLC and is used for transmitting the information received by the PLC to the QR system for customers to use.

Preferably, the identification module comprises an identifier and a code reader, the identifier and the code reader are both mounted on the conveying device, and the identifier is located at the front end of the code reader.

Preferably, the number of the code readers is two, and the two code readers are respectively arranged on the top and the side wall of the conveying device.

Preferably, a labeling device is arranged at the conveying starting end of the conveying device, and the labeling device is fixedly connected to the top of the conveying device and used for labeling the tire conveyed on the conveying device.

Preferably, the code reader is connected with a display, and the display is wirelessly connected with the code reader and is used for receiving the numerical value read by the code reader and displaying the numerical value to a user.

Preferably, the PLC is connected to the QR system through the transmission module, and accesses the QR system through an API interface.

Preferably, the uploaded information communication algorithm and the code reader implementation algorithm are dynamic uploading functions in a program, so that the information of the code is automatically uploaded to the QR system and the jump of the detection value is realized.

Preferably, the labeling device is provided with two labeling ports which are respectively used for labeling the top and the side wall of the tire, and one side of the labeling device, which is close to the conveying end of the conveying device, is provided with a position correction device.

Compared with the prior art, the invention has the beneficial effects that: according to the tire label identification warehousing system, the conveying device, the identification module, the PLC, the transmission module and the QR system are arranged, the identification module is installed on the conveying device and used for identifying tires transmitted on the conveying device, when the tires pass through the identification module, the barcodes on the tires are scanned through the identification module and transmitted to the PLC for processing, the processed contents are uploaded to the QR system of a customer, the customer compares the scanned contents with the transmitted barcodes after scanning through the conveying device, whether the scanned contents are matched or not is judged, the uploaded contents are successful if the scanned contents are matched, the uploaded contents are failed if the scanned contents are not matched, re-detection is needed, and compared with the traditional manual code scanning process, missing scanning and wrong scanning errors do not occur on software scanning, so that manpower is greatly saved, and the quality safety of products is guaranteed.

Drawings

FIG. 1 is a system diagram of the present invention;

in the figure: 11. a conveying device; 12. labeling equipment; 13. an identification module; 14. an identifier; 15. a code reader; 16. a PLC; 17. a transmission module; 18. a QR system; 19. a display.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a tire label discernment system of warehousing, includes conveyer 11, identification module 13, PLC16, transmission module 17 and QR system 18, and identification module 13 installs on conveyer 11, and PLC16 is connected with identification module 13 for receive identification module 13 and establish other information, and transmission module 17 is connected with PLC16, is used for transmitting the information that PLC16 received to QR system 18, supplies the customer to use.

In this embodiment, the identification module 13 includes an identifier 14 and a code reader 15, the identifier 14 and the code reader 15 are both mounted on the conveying device 11, the identifier 14 is located at the front end of the code reader 15, when in use, the tire is manually conveyed to the starting end of the conveying device 11, the labeling device 12 is mounted on the starting end of the conveying device 11, the position correcting device is mounted at the front end of the labeling device 12 and is used for correcting the position of the tire, the tire after being corrected is conveyed to the bottom of the labeling device 12 through the conveying device 11, two labeling openings are formed in the bottom and the side wall of the labeling device 12 and are used for labeling the top and the side wall of the tire, after the labeling is completed, the tire is continuously conveyed through the conveying device 11 until the identifier 14 in the identification module 13 detects the tire and is immediately conveyed to the code reader 15, the number of the two code readers 15 are respectively located on the top and the side wall of the conveying device 11, the automatic code reading device is used for reading codes of labels attached to the top and the side wall of a tire, the code reading content is uploaded to a system, after the codes are successfully read, the code reader 15 transmits the code reading content to the display 19 to be displayed, the code reading content is uploaded to be processed, the code reading content is transmitted to an OR system of a client side after being processed through the PLC16 and the transmission module 17, when the code reading content of the client side is consistent with the code reading content transmitted by the transmission module 17, the fact that bar codes uploaded by the OR system are matched is shown, a client can put in a warehouse, and if the bar codes are not matched, the fact that errors exist, uploading failure exists and re-detection is needed is shown.

In this embodiment, the identification module 13 is installed on the conveying device 11, the PLC16 is connected with the identification module 13 and is used for receiving the information identified by the identification module 13, the transmission module 17 is connected with the PLC16 and is used for transmitting the information received by the PLC16 to the QR system 18 for customers to use, the identification module 13 comprises an identifier 14 and a code reader 15, the identifier 14 and the code reader 15 are installed on the conveying device 11, the identifier 14 is located at the front end of the code reader 15, when in use, the tire is manually conveyed to the starting end of the conveying device 11, the labeling device 12 is installed at the starting end of the conveying device 11, the position correcting device is installed at the front end of the labeling device 12 and is used for correcting the position of the tire, the tire after position is transmitted to the bottom of the labeling device 12 through the conveying device 11, two labeling ports are formed in the bottom and the side wall of the labeling device 12 and are used for correcting the top and the side wall of the tire, after labeling is finished, the tire is continuously transmitted through the transmission device 11 until the identifier 14 in the identification module 13 detects the tire, the tire is immediately transmitted to the code reader 15, the number of the code readers 15 is two, the two code readers 15 are respectively positioned on the top and the side wall of the transmission device 11 and are used for reading the code of the label attached to the top and the side wall of the tire and uploading the content of the code to the system, after the code reading is successful, the code reader 15 transmits the content of the code to the display 19 for displaying, uploads the content of the code, the content of the code is processed and transmitted to an OR system of a client through the PLC16 and the transmission module 17, when the content of the code read by the client is consistent with the content of the code read transmitted by the transmission module 17, the barcode uploaded by the OR system is matched, a client can be put in storage, if the barcode is not matched, an error exists, the uploading is failed, the re-detection is needed, the code scanning is carried out through the system, manpower cost is greatly saved, errors caused by manpower such as missing scanning and wrong scanning can not occur in software scanning, and therefore, through the system, manpower is saved, and quality safety of products is guaranteed.

Further, the identification module 13 includes an identifier 14 and a code reader 15, the identifier 14 and the code reader 15 are both mounted on the conveying device 11, and the identifier 14 is located at the front end of the code reader 15.

In the present embodiment, the identifier 14 is attached to the front end of the code reader 15, so that the identifier 14 can identify the transportation information of the tire on the conveyor device 11, thereby facilitating the code scanning by the code reader 15.

Further, the number of the code readers 15 is two, and the two code readers 15 are respectively installed on the top and the side wall of the conveying device 11.

In this embodiment, two code readers 15 are respectively installed on the top of the conveyor 11 and on the side wall for scanning and identifying the labels on the top and the side wall of the tire, and the wide detection angle of the two code readers 15 is set to be large, so that the problem that the tire cannot be detected due to unfixed position can be avoided.

Further, a labeling device 12 is arranged at the starting end of the conveying device 11, and the labeling device 12 is fixedly connected to the top of the conveying device 11 and is used for labeling the tire conveyed on the conveying device 11.

In the embodiment, a labeling device 12 is arranged at the starting end of the conveying device 11 and is used for labeling the tire, so that the tire can be conveniently scanned and identified in the follow-up process, and the position and the movement of the tire can be known at any time in the loading and transporting processes.

Further, the code reader 15 is connected with a display 19, and the display 19 is wirelessly connected with the code reader 15 and is used for receiving the numerical value read by the code reader 15 and displaying the numerical value to a user.

In the present embodiment, the display 19 is connected to the code reader 15, and the display 19 is wirelessly connected to the code reader 15, so as to receive the value read by the code reader 15 and display the value to the user, thereby enabling the user to know the code scanning state of the tire in real time.

Further, PLC16 interfaces with QR system 18 via transport module 17 and accesses QR system 18 via an API interface.

In this embodiment, the PLC16 is connected to the QR system 18 through the transmission module 17, and accesses the QR system 18 through the API interface, thereby implementing mutual access between different systems and facilitating sharing of files of different systems.

Further, the communication algorithm of uploading information and the algorithm implemented by the code reader 15 are dynamic uploading functions in the program, so that the information of the code is automatically uploaded to the QR system 18 and the jump of the detection value is realized.

In this embodiment, the upload information communication algorithm and the code reader 15 implement the algorithm as a program internal dynamic upload function, which automatically uploads the code information to the QR system 18 and jumps of the detection value, and the related methods inside the method are executed only when the variable in the function sends a jump.

Further, the labeling device 12 is provided with two labeling ports for labeling the top and the sidewall of the tire, respectively, and a position correcting device is disposed on one side of the labeling device 12 close to the conveying end of the conveying device 11.

In this embodiment, two labeling openings are provided on the labeling device 12 for labeling the top and the sidewall of the tire, respectively, and a position correction device is provided on one side of the labeling device 12 near the conveying end of the conveying device 11 for correcting the position of the tire, so as to facilitate labeling of tires of different sizes and positions.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a tire label discernment system of warehousing, includes conveyer (11), identification module (13), PLC (16), transmission module (17) and QR system (18), its characterized in that: the identification module (13) is installed on the conveying device (11), the PLC (16) is connected with the identification module (13) and used for receiving the information which is identified by the identification module (13), and the transmission module (17) is connected with the PLC (16) and used for transmitting the information received by the PLC (16) to the QR system (18) for customers to use.

2. The tire label recognition warehousing system of claim 1, wherein: the identification module (13) comprises an identifier (14) and a code reader (15), the identifier (14) and the code reader (15) are both mounted on the conveying device (11), and the identifier (14) is located at the front end of the code reader (15).

3. The tire label recognition warehousing system of claim 2, wherein: the number of the code readers (15) is two, and the two code readers (15) are respectively arranged on the top and the side wall of the conveying device (11).

4. The tire label recognition warehousing system of claim 1, wherein: labeling equipment (12) is arranged at the transmission starting end of the transmission device (11), and the labeling equipment (12) is fixedly connected to the top of the transmission device (11) and used for labeling the tire transmitted on the transmission device (11).

5. The tire label recognition warehousing system of claim 2, wherein: the code reader (15) is connected with a display (19), the display (19) is in wireless connection with the code reader (15) and is used for receiving the numerical value read by the code reader (15) and displaying the numerical value to a user.

6. The tire label recognition warehousing system of claim 1, wherein: the PLC (16) is connected with the QR system (18) through the transmission module (17), and accesses the QR system (18) through an API interface.

7. The tire label recognition warehousing system of claim 1, wherein: the uploading information communication algorithm and the code reader implementation algorithm are dynamic uploading functions in a program, so that the information of the code is automatically uploaded to a QR system and the jump of a detection value is realized.

8. The tire label recognition warehousing system of claim 4, wherein: labeling equipment (12) are equipped with two and paste the mark mouth, are used for pasting the mark respectively to the top and the lateral wall of tire, labeling equipment (12) are close to one side of conveyer (11) conveying end is equipped with position orthotic devices.

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