CN213934902U - Assembly line system for automatically reading electronic tags of products - Google Patents

Abstract

An assembly line system for automatically reading electronic tags of products comprises a first RFID reader-writer, a second RFID reader-writer, a conveying belt for conveying products, an abnormal product conveying belt for conveying products with abnormal NFC tags or UHF tags and a pushing device for pushing the products with the abnormal NFC tags or UHF tags to the abnormal product conveying belt through the conveying belt, wherein the first RFID reader-writer, the second RFID reader-writer and the pushing device are positioned on one side of the conveying belt and are arranged at intervals in sequence along the conveying direction of the products on the conveying belt; the abnormal product conveying belt is connected with one side edge of the conveying belt, the head end of the abnormal product conveying belt is opposite to the pushing device, the reading head of the first RFID reader-writer is over against the NFC label of the product which is transmitted to the first RFID reader-writer on the conveying belt, and the reading head of the second RFID reader-writer is over against the UHF label which is transmitted to the box body at the second RFID reader-writer on the conveying belt.

Description

Assembly line system for automatically reading electronic tags of products

Technical Field

The utility model relates to an assembly line operation field, concretely relates to automatic read product electronic tags's assembly line system.

Background

In the industry, label scanning and reading are usually carried out on a production line by using a handheld POS machine, production line workers are required to scan product packaging boxes one by one during production, and the successfully scanned products are boxed according to one or more box specifications; then, stick bar codes are added on the outer box, the bar codes of the outer box are scanned by the POS machine, and data are submitted.

SUMMERY OF THE UTILITY MODEL

In view of technical defects and technical drawbacks existing in the prior art, an embodiment of the present invention provides an automatic product electronic tag reading assembly line system that overcomes the above problems or at least partially solves the above problems, and the specific solution is as follows:

a production line system for automatically reading electronic tags of products comprises a first RFID reader-writer for reading NFC tags on products, a second RFID reader-writer for reading UHF tags on a box body filled with the products, a conveying belt for conveying the products, an abnormal product conveying belt for conveying the products with the NFC tags or the UHF tags and a pushing device for pushing the products with the NFC tags or the UHF tags to the abnormal product conveying belt through the conveying belt, wherein the first RFID reader-writer, the second RFID reader-writer and the pushing device are all positioned on one side of the conveying belt and are arranged at intervals in sequence along the conveying direction of the products on the conveying belt; the abnormal product conveying belt is connected with one side edge of the conveying belt, the head end of the abnormal product conveying belt is opposite to the pushing device, the reading head of the first RFID reader-writer is over against the NFC label of the product which is transmitted to the first RFID reader-writer on the conveying belt, and the reading head of the second RFID reader-writer is over against the UHF label which is transmitted to the box body at the second RFID reader-writer on the conveying belt.

Furthermore, the system also comprises an industrial computer, and the first RFID reader-writer, the second RFID reader-writer and the pushing device are electrically connected with the industrial computer.

Further, the pushing device comprises a pushing block and a driving mechanism used for driving the pushing block to move along the width direction of the conveyor belt, and the pushing block is over against the head end of the abnormal product conveyor belt.

Further, the driving mechanism is a hydraulic cylinder, and an output shaft of the hydraulic cylinder is connected with the push block.

Furthermore, a first sensor, a second sensor and a third sensor are arranged on the conveyor belt, the first sensor is located on one side of the first RFID reader-writer, the second sensor is located on one side of the second RFID reader-writer, the third sensor is located on one side of the pushing device, and the first sensor, the second sensor and the third sensor are all connected with the industrial computer.

Further, the first sensor, the second sensor and the third sensor are all gravity sensors or light sensors.

Further, the system also comprises a labeling machine for labeling UHF labels on the box body filled with the products, wherein the labeling machine is positioned on one side of the conveyor belt.

Further, a fourth sensor is arranged on the conveyor belt, the fourth sensor is positioned on one side of the labeling machine, and the fourth sensor is electrically connected with the industrial computer.

Furthermore, the number of the first RFID readers is n, n products are contained in the box body, n is greater than or equal to 2, each product is provided with an independent outer packaging box, the NFC tags of the products are attached to the outer packaging boxes of the products, the n first RFID readers are sequentially arranged along the length direction of the conveying belt, the n products are sequentially arranged in the box body along the length direction of the conveying belt, and the NFC tags on the outer packaging boxes of the products face one side of the first RFID readers.

Further, the first RFID reader-writer and the first RFID reader-writer are identical in structure and respectively comprise an RFID reader-writer body, a stand column installation foundation, a pipe hoop and a support rod, the stand column installation foundation is installed on one side of the conveying belt, the stand column is vertically installed on the stand column installation foundation, the pipe hoop is connected to the stand column and can move up and down along the stand column, the support rod is connected to the pipe hoop, and the RFID reader-writer body is connected to the support rod.

The utility model discloses following beneficial effect has:

the utility model discloses an automatic read product electronic tags's pipeline system, after the product reachs and reads the station, read the NFC label on the product, read neat back, the labeller pastes on the box of UHF label to product, the data of UHF label is read to next station, give industrial computer with the data transmission of UHF label and the corresponding UHF label, supply industrial computer to carry out the correlation and the check-up of product and case, if the label reads unusually, can also carry out unusual product and box propelling movement to unusual product conveyer belt through pusher, get rid of by the workman unusually, normally then normally the next station of normal inflow.

Drawings

Fig. 1 is a schematic plan view of an assembly line system for automatically reading electronic tags of products according to an embodiment of the present invention;

fig. 2 is a schematic plan view illustrating that a plurality of first RFID readers simultaneously read a plurality of product tags according to an embodiment of the present invention;

fig. 3 is a three-dimensional structure diagram of an assembly line system for automatically reading electronic tags of products according to an embodiment of the present invention;

fig. 4 is a specific structure diagram of the first RFID reader and the first RFID reader provided by the embodiment of the present invention.

In the figure: 1. the system comprises a conveying belt, 2, an abnormal product conveying belt, 3, a first RFID reader-writer, 4, a labeling machine, 5, a second RFID reader-writer, 6, a hydraulic cylinder, 7, an output shaft, 8, a pushing block, 9, a first sensor, 10, a fourth sensor, 11, a second sensor, 12, a third sensor, 13, a product, 14 and a box body; 100. the RFID reader-writer comprises an RFID reader-writer body 200, a pipe hoop 300, a stand column 400, a stand column installation foundation 500 and a support rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an assembly line system for automatically reading electronic tags of products, the system includes a first RFID reader/writer 3 for reading NFC tags on products 13, a second RFID reader/writer 5 for reading UHF tags on a box 14 containing the products 13, a conveyor belt 1 for conveying the products 13, an abnormal product conveyor belt 2 for conveying the products 13 with NFC tags or UHF tags abnormal, and a pushing device for pushing the products 13 with NFC tags or UHF tags abnormal to the abnormal product conveyor belt 2 through the conveyor belt, wherein the first RFID reader/writer 3, the second RFID reader/writer 5, and the pushing device are all located on one side of the conveyor belt 1 and are sequentially arranged at intervals along the conveying direction of the products 13 on the conveyor belt; the abnormal product conveyor belt 2 is connected with one side edge of the conveyor belt 1, the head end of the abnormal product conveyor belt 2 is opposite to the pushing device, the conveying direction of the conveying belt 1 is perpendicular to the conveying direction of the abnormal product conveying belt 2, the reading head of the first RFID reader-writer 3 is over against the NFC label of the product 13 which is conveyed to the first RFID reader-writer 3 on the conveying belt 1, the distance can be set according to requirements, when the product 13 is conveyed to the first RFID reader-writer 3 by the conveying belt, the first RFID reader 3 may sense and read the NFC tag on the product 13, the reading head of the second RFID reader/writer 5 is over against the UHF tag on the conveyor belt 1 and transferred to the box 14 of the second RFID reader/writer 5, and similarly, the distance can be set as required, so that when the product 13 is transferred from the conveyor belt to the second RFID reader/writer 5, the second RFID reader/writer 5 may sense and read the UHF tag on the case 14 of the product 13.

Wherein the arrows in fig. 1 and 2 indicate the conveying direction.

Preferably, the system further comprises an industrial computer, the first RFID reader-writer 3, the second RFID reader-writer 5 and the pushing device are electrically connected with the industrial computer, the industrial computer is used for receiving the NFC tags and the UHF tags read by the first RFID reader-writer 3 and the second RFID reader-writer 5, binding the NFC tags and the corresponding UHF tags, checking the received NFC tags and the received UHF tags, and if the NFC tags or the UHF tags read by the first RFID reader-writer 3 or the second RFID reader-writer 5 are abnormal, sending a control instruction to the pushing device to control the pushing device to push the corresponding product 13 with the box 14 to the abnormal product conveyor belt 2.

Preferably, the pushing device comprises a pushing block 8 and a driving mechanism for driving the pushing block 8 to move along the width direction of the conveyor belt 1, the pushing block and the abnormal product conveyor belt are respectively located at two sides of the width direction of the conveyor belt, and the pushing block is opposite to the head end of the abnormal product conveyor belt 2 and is used for pushing the box 14 and the product 13 to the abnormal product conveyor belt 2 when the NFC tag or the UHF tag is abnormal, wherein the driving mechanism is electrically connected with the industrial computer and receives a control instruction of the industrial computer; the driving mechanism is preferably a hydraulic cylinder 6, and an output shaft 7 of the hydraulic cylinder 6 is connected with the push block 8.

Preferably, the system also comprises an applicator 4 for applying UHF tags to the tank 14 containing the products 13, said applicator 4 being located on the side of the conveyor belt 1 for applying UHF tags to the tank 14 of the products 13 as the products 13 are transported to the station where the applicator 4 is located.

Preferably, the conveyor belt 1 is provided with a first sensor 9, a second sensor 11, a third sensor 12 and a fourth sensor 10, the first sensor 9 is located on the side of the first RFID reader-writer 3, the second sensor 11 is located on the side of the second RFID reader-writer 5, the third sensor 12 is located on the side of the pushing device, the fourth sensor 10 is located on the side of the labeling machine 4, the first sensor 9, the second sensor 11, the third sensor 12 and the fourth sensor 10 are all connected with the industrial computer, the first sensor 9, the second sensor 11, the third sensor 12 and the fourth sensor 10 are respectively used for detecting whether the product 13 reaches the corresponding position and sending the detection signal to the industrial computer, the industrial computer controls the corresponding device to act through the signal detected by each sensor, for example, when the third sensor 12 senses that the product 13 reaches the station corresponding to the pushing device, the industrial computer controls the pushing device to push the products 13 onto the abnormal product conveyor belt 2. The first sensor 9, the second sensor 11, the third sensor 12 and the fourth sensor 10 may be gravity sensors or optical sensors, and detect whether the product 13 reaches a corresponding position by sensing gravity or light.

As shown in fig. 4, each of the first RFID reader and the first RFID reader includes an RFID reader body 100, a pillar 300, a pillar mounting base 400, a pipe hoop 200, and a support rod 500, wherein the pillar mounting base 400 is mounted on one side of a conveyor belt, the pillar 300 is vertically mounted on the pillar mounting base 400, the pipe hoop 200 is connected to the pillar 300 and can move up and down along the pillar 300, the support rod 500 is connected to the pipe hoop 200, the RFID reader body 100 is connected to the support rod 500, and the height of the RFID reader body 100 can be adjusted by moving up and down the pipe hoop 200.

The number of the first RFID readers 3 is 4, 4 products 13 are contained in the box body 14, each product 13 has an independent outer packaging box, the NFC tags of the products 13 are attached to the outer packaging box of the product 13, the 4 first RFID readers 3 are sequentially arranged along the length direction of the conveyor belt 1, the 4 products 13 are sequentially arranged in the box body 14 along the length direction of the conveyor belt 1, the NFC tags on the outer packaging boxes of the products 13 face one side of each first RFID reader 3, and the plurality of products 13 in one box body 14 can be read simultaneously by arranging the plurality of first RFID readers 3.

The utility model discloses, the wine that will adorn the case passes through automatic assembly line (being the conveyer belt), reachs and reads the station (being 3 departments of first RFID read write line) back, reads the NFC label of 4 product 13 packing carton, reads the back neat, and labeller 4 pastes the UHF label on box 14, and the data of UHF label are read to next station (being 5 departments of second RFID read write line), and the data transmission of UHF label and UHF label carries out box case relevance and check-up for industrial computer. The checking logic comprises whether the outer box label is normal, whether the 4 packing box labels are normal, whether the data binding is normal and the like. If the verification is passed, the assembly line is normally transferred to a packing and boxing station; if the checking is abnormal, the abnormal products are transferred to the abnormal product conveyor belt 2, and abnormal removal is carried out by workers.

It should be noted that, the utility model provides a RFID read write line, labeller 4, industrial computer, conveyer belt, pneumatic cylinder 6 and sensor etc. are current conventional hardware equipment, the utility model discloses do not specifically change the machine to current each conventional hardware equipment, the utility model discloses the scheme of the request protection that involves lies in the selection and the relation of connection of each hardware equipment, and technical personnel in the field can obtain corresponding host program without objection when knowing this application hardware scheme, so in this application request protection scheme, do not relate to the improvement of procedure.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The production line system for automatically reading electronic tags of products is characterized by comprising a first RFID reader-writer, a second RFID reader-writer, a conveying belt and a pushing device, wherein the first RFID reader-writer is used for reading NFC tags on products, the second RFID reader-writer is used for reading UHF tags on boxes filled with the products, the conveying belt is used for conveying the products, the abnormal product conveying belt is used for conveying the products with the abnormal NFC tags or the abnormal UHF tags, and the pushing device is used for pushing the products with the abnormal NFC tags or the abnormal UHF tags to the abnormal product conveying belt through the conveying belt; the abnormal product conveying belt is connected with one side edge of the conveying belt, the head end of the abnormal product conveying belt is opposite to the pushing device, the reading head of the first RFID reader-writer is over against the NFC label of the product which is transmitted to the first RFID reader-writer on the conveying belt, and the reading head of the second RFID reader-writer is over against the UHF label which is transmitted to the box body at the second RFID reader-writer on the conveying belt.

2. The assembly line system for automatically reading electronic tags of products of claim 1, further comprising an industrial computer, wherein said first RFID reader, said second RFID reader, and said pushing device are electrically connected to said industrial computer.

3. The in-line system for automatically reading electronic tags of products of claim 1, wherein said pusher comprises a pushing block and a driving mechanism for driving said pushing block to move along the width direction of the conveyor belt, and said pushing block is opposite to the head end of the conveyor belt for abnormal products.

4. The assembly line system for automatically reading electronic tags of products of claim 3, wherein said driving mechanism is a hydraulic cylinder, and an output shaft of said hydraulic cylinder is connected with said push block.

5. The assembly line system for automatically reading electronic tags of products of claim 2, wherein a first sensor, a second sensor and a third sensor are arranged on said conveyor belt, and said first sensor is located at one side of a first RFID reader-writer, said second sensor is located at one side of a second RFID reader-writer, and said third sensor is located at one side of a pushing device, and said first sensor, said second sensor and said third sensor are all connected with said industrial computer.

6. The in-line system for automatically reading electronic labels of products of claim 5, wherein said first sensor, second sensor and third sensor are each a gravity sensor or a light sensor.

7. The in-line system for automatically reading electronic labels of products of claim 2, further comprising a labeling machine for applying UHF labels to the product-containing case, said labeling machine being located on the conveyor belt side.

8. The in-line system for automatically reading electronic labels of products of claim 7, wherein said conveyor belt is provided with a fourth sensor, said fourth sensor being located on a side of said labeling machine, said fourth sensor being electrically connected to said industrial computer.

9. The assembly line system for automatically reading electronic tags of products of claim 1, wherein the number of the first RFID readers is n, the box body is filled with n products, n is greater than or equal to 2, each product is provided with an independent outer packaging box, the NFC tags of the products are attached to the outer packaging box of the product, the n first RFID readers are sequentially arranged along the length direction of the conveyor belt, the n products are sequentially arranged in the box body along the length direction of the conveyor belt, and the NFC tags on the outer packaging boxes of the products face one side of the first RFID readers.

10. The assembly line system for automatically reading electronic tags of products of claim 1, wherein the first RFID reader and the first RFID reader are identical in structure and each comprise an RFID reader body, a column mounting base, a pipe hoop and a support rod, the column mounting base is mounted on one side of the conveyor belt, the column is vertically mounted on the column mounting base, the pipe hoop is connected to the column and can move up and down along the column, the support rod is connected to the pipe hoop, and the RFID reader body is connected to the support rod.

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