CN213042304U - Electronic tag with pick-and-place induction function, system thereof and electronic seeding wall - Google Patents

Abstract

The utility model discloses a get electronic tags who puts response function and system and electron seeding wall from area, electronic tags includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the confirmation button with the lamp and the nixie tube through the input port; the output port is used for transmitting control signals of the control system; the infrared receiving tube is used for receiving infrared light emitted from other electronic tags; the infrared transmitting tube is used for transmitting infrared light to other electronic tags. The utility model discloses, electronic tags receives the infrared light of other electronic tags transmission through infrared receiving tube to outwards launch the infrared light through the infrared transmitting tube of self and make other electronic tags receive, have the object to pass the back like this when electronic tags's top or below, the infrared light can be cut off, thereby senses the object business turn over.

Description

Electronic tag with pick-and-place induction function, system thereof and electronic seeding wall

Technical Field

The utility model relates to an electronic tags technical field, more specifically say, the utility model relates to a get electronic tags and system and electron seeding wall of putting response function from the area.

Background

With the development of science and technology, electronic commerce and intelligent technology, the logistics industry is continuously introducing intelligent equipment, and intelligent logistics is in force. The picking operation is the most important operation with the highest occupied cost and the most error-prone operation in a warehouse logistics center, the efficiency and the correctness of the picking operation greatly influence the service quality of a company, therefore, the electronic tag picking system is rapidly introduced and used in large quantity under the consideration of labor cost and operation efficiency, the electronic tag picking system replaces a picking order with a series of electronic display devices (electronic tags) arranged on shelf columns, the electronic tags indicate the articles to be picked/put in and the quantity, the operation of picking personnel is assisted, the purposes of effectively reducing the picking error rate, accelerating the picking speed, improving the working efficiency and reasonably arranging the walking route of the picking personnel are achieved, and the warehouse picking operation model is generally divided into a fruit picking type and a seeding type: the fruit picking method is to take out the required goods (similar to fruit picking) by picking personnel or equipment circulating to each goods storage position for each order (each customer). It features that each person only processes one order (or one client) at a time. The fruit picking type picking is carried out by applying the electronic tags, each kind of goods (goods location) is generally required to correspond to one electronic tag, the control system can send out goods delivery instructions according to the goods position and order data, the electronic tags on the goods location are lightened, and an operator can timely and accurately finish picking according to the quantity displayed on the electronic tags; the sowing type sorting method is to collect a plurality of orders (the requisition demands of a plurality of customers) into a batch (wave times), collect the quantity of each commodity, and sort the orders (customers) one by one (similar to sowing). In the sowing type picking system using the electronic tags, each electronic tag column of the sowing type picking system represents an order (a customer), when an operator scans a bar code on goods, the control system can enable a lamp on the corresponding column to be lightened, and the quantity of the goods to be sorted by the column is displayed.

The existing electronic tags in the market adopt the confirmation button to realize the confirmation of operation completion, operators need to manually press the confirmation button on the electronic tags to confirm after completing the picking and placing operation, and if goods to be picked and placed need to be carried by both hands, the action of pressing the confirmation button is extremely inconvenient; moreover, if the operator mistakenly takes or misplaces the goods (for example, two adjacent layers up and down), no prompt is given, and if the taking and placing induction is to be realized, the external grating needs to be additionally arranged.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a get electronic tags who puts response function from the area to solve current electronic tags in the use, inconvenient operating personnel presses the enter key when both hands transport goods, and when operating personnel got or has misplaced the goods by mistake, also can not have the problem of suggestion.

In order to solve the technical problem, the utility model provides a following technical scheme:

get electronic tags who puts response function from the area, link to each other with control system, include: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the light-provided confirmation button and the nixie tube through the input port; the output port is used for transmitting a control signal of the control system; the infrared receiving tube is used for receiving infrared light emitted by other electronic tags; the infrared transmitting tube is used for transmitting infrared light to other electronic tags.

Preferably, the infrared receiving tubes and the infrared transmitting tubes in the at least one group of infrared pair tubes are located on a straight line.

The electronic tag system with the pick-and-place induction function comprises a plurality of electronic tags with the pick-and-place induction function;

each electronic tag includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the light-provided confirmation button and the nixie tube through the input port; the output port is used for transmitting a control signal of the control system;

between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a straight line.

Optionally, the infrared receiving tube and the infrared transmitting tube in at least one group of infrared pair tubes on each electronic tag are located on a straight line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a straight line.

Optionally, an infrared receiving tube and an infrared transmitting tube in at least one group of infrared pair tubes on each electronic tag are located on a horizontal line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a horizontal line.

Optionally, an infrared receiving tube and an infrared transmitting tube in at least one group of infrared pair tubes on each electronic tag are located on a vertical line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a vertical line.

The utility model provides an include electronic seeding wall of electronic tags system still includes puts the thing goods shelves, the inboard of putting the thing goods shelves is fixed with the multilayer division board, install one or more electronic tags on every layer of division board, infrared receiving tube and the relative both ends that set up at every electronic tag of infrared emission pipe on every electronic tag, form a goods position between two relative electronic tags on every two-layer division board, at least one infrared emission pipe on an electronic tag just is located a straight line relatively with at least one infrared receiving tube of another electronic tag.

The utility model has the advantages that:

the utility model discloses a get electronic tags who puts response function and system and electron seeding wall from area, electronic tags includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the confirmation button with the lamp and the nixie tube through the input port; the output port is used for transmitting control signals of the control system; the infrared receiving tube is used for receiving infrared light emitted from other electronic tags; the infrared transmitting tube is used for transmitting infrared light to other electronic tags. The electronic tag receives infrared light emitted by other electronic tags through the infrared receiving tube, and emits infrared light outwards through the infrared emitting tube of the electronic tag to be used for receiving other electronic tags, so that the infrared light can be cut off after objects pass through the electronic tag above or below the electronic tag, and the objects are sensed to enter and exit.

The electronic seeding wall comprises an electronic tag system, wherein the electronic tag realizes the automatic induction function of a storage shelf through an infrared receiving tube and an infrared transmitting tube, the electronic tag on the storage shelf is matched with the infrared receiving tube to upwards receive infrared light, when an object passes through the space of a goods position inlet and outlet, the infrared light can be cut off, the electronic tag senses that goods are taken out or put in from the corresponding goods position or column position, and a control system controls a light-provided confirmation button of the corresponding goods position to light up or extinguish, so that the problems in the prior art are solved, and the practicability of the device is improved; the buzzer and the light-carrying confirmation button are correspondingly arranged on the electronic tag, when the picking or sowing operation is carried out, the control system can control the indicator light of the electronic tag corresponding to the goods position where the goods are to be picked or put in and the light-carrying confirmation button to be turned on, so that the goods to be picked and put can be conveniently identified by workers, when the goods are picked and put by the workers, if the goods position is correct, the completion of the picking and the putting can be automatically confirmed by the control system, and the corresponding light-carrying confirmation button is turned off; on the contrary, if the goods space is incorrect, the buzzer can be controlled by the control system to sound and the indicating lamp is flickered to prompt the operator, so that the practicability of the device is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the electronic seeding wall of the present invention;

fig. 2 is a schematic structural view of the electronic tag of the present invention;

the reference signs are: 1. a storage rack; 2. a partition plate; 3. a shelf top plate; 4. an electronic tag; 5. a buzzer; 6. an infrared receiving tube; 7. a confirmation button with a light; 8. a nixie tube; 9. an infrared emission tube; 41. an output port; 42. and (6) inputting the port.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

Examples

This embodiment provides a get electronic tags who puts response function from area, links to each other with control system, includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the confirmation button with the lamp and the nixie tube through the input port; the output port is used for transmitting control signals of the control system; the infrared receiving tube is used for receiving infrared light emitted from other electronic tags; the infrared transmitting tube is used for transmitting infrared light to other electronic tags.

Preferably, the infrared receiving tubes and the infrared transmitting tubes in the at least one group of infrared pair tubes are located on a straight line.

The embodiment also provides an electronic tag system with the pick-and-place sensing function, which comprises a plurality of (two or more) electronic tags with the pick-and-place sensing function;

each electronic tag includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the confirmation button with the lamp and the nixie tube through the input port; the output port is used for transmitting control signals of the control system;

between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a straight line.

Optionally, the infrared receiving tube and the infrared transmitting tube in at least one group of infrared pair tubes on each electronic tag are located on a straight line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a straight line.

Optionally, an infrared receiving tube and an infrared transmitting tube in at least one group of infrared pair tubes on each electronic tag are located on a horizontal line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a horizontal line.

Optionally, an infrared receiving tube and an infrared transmitting tube in at least one group of infrared pair tubes on each electronic tag are located on a vertical line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a vertical line.

The embodiment also provides an electronic sowing wall comprising an electronic tag system, and further comprises a storage shelf, wherein multiple layers of partition plates are fixed on the inner side of the storage shelf, one or more (two or more) electronic tags are installed on each layer of partition plate, an infrared receiving tube and an infrared transmitting tube on each electronic tag are oppositely arranged at two ends of each electronic tag, a goods space is formed between two opposite electronic tags on each two layers of partition plates, and at least one infrared transmitting tube on one electronic tag is opposite to at least one infrared receiving tube of another electronic tag and is positioned on a straight line.

As shown in the attached drawings 1-2, the embodiment of the utility model provides an electronic tag with pick-and-place induction function and an electronic seeding wall, the electronic seeding wall comprises a storage shelf 1, a shelf top plate 3 and a plurality of layers of partition plates 2 are fixed on the inner side of the storage shelf 1, a plurality of electronic tags 4 are embedded in each layer of partition plate 2, an infrared receiving tube 6 is arranged on the top of each electronic tag 4, an infrared transmitting tube 9 is arranged on the bottom of each electronic tag, the infrared receiving tube 6 and the infrared transmitting tube 9 are positioned on the same vertical line, a buzzer 5, a lamp-equipped confirmation button 7 and a nixie tube 8 are arranged on the surface of each electronic tag 4, an output port 41 and an input port 42 are respectively welded on the two ends of each electronic tag 4, a control system passes through, the nixie tube 8, the buzzer 5, the infrared receiving tube 6 and the input end of the lamp confirmation button 7 are electrically connected, and the electronic tags 4 are electrically connected to the control system through the output port 41 and the input port 42.

As shown in fig. 1, the number of the partition boards 2 is a plurality and is distributed at the inner side of the storage shelf 1, the infrared receiving tubes 6 and the infrared transmitting tubes 9 are respectively located at the upper end and the lower end of the electronic tags 4, a cargo space is formed between two electronic tags 4 which are opposite to each other on each two layers of partition boards 2, at least one infrared transmitting tube 9 on one electronic tag 4 is opposite to at least one infrared receiving tube 6 of another electronic tag 4 and is located on a vertical line between two electronic tags 4 which are opposite to each other on each two layers of partition boards 2.

Specifically, when an object passes through the space of the goods space entrance, the infrared light is cut off, so that the control system senses that goods are taken out or put in the corresponding goods space or column through the electronic tag 4.

More specifically, infrared light is launched downwards to infrared transmitting tube 9 of electronic tags 4 on goods position upper portion, the infrared light that comes from electronic tags 4 on goods position upper portion's infrared transmitting tube 9 transmission is received to electronic tags 4's of goods position lower part infrared receiving tube 6, when the object passes the space that goods position was imported and exported, the infrared light can be cut off, control system has the goods to be taken out or put into through electronic tags 4 on goods position upper portion and electronic tags 4 of lower part sense corresponding goods position, and the lamp of taking of corresponding goods position through control system control confirm button 7 lights or extinguishes, thereby prior art existence problem has been solved, the practicality of device has been improved.

In this embodiment, the buzzer 5 and the light-carrying confirmation button 7 are correspondingly arranged on the electronic tag 4, when the picking or sowing operation is performed, the control system can control the light-carrying confirmation button 7 of the electronic tag 4 corresponding to the goods position where the goods are to be picked or placed to light up, so that the workers can conveniently identify the goods to be picked or placed, when the workers pick or place the goods, if the goods position is correct, the completion of the picking or placing can be automatically confirmed, and the corresponding light-carrying confirmation button 7 is turned off; on the contrary, if the cargo space is incorrect, the buzzer 5 can sound and flash the indicator light to prompt the operator, thereby improving the practicability of the device.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. Get electronic tags who puts response function from the area, link to each other with control system, its characterized in that includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the light-provided confirmation button and the nixie tube through the input port; the output port is used for transmitting a control signal of the control system; the infrared receiving tube is used for receiving infrared light emitted by other electronic tags; the infrared transmitting tube is used for transmitting infrared light to other electronic tags.

2. The electronic tag according to claim 1, wherein the infrared receiving tube and the infrared transmitting tube of the at least one set of infrared pair tubes are located on a straight line.

3. The electronic tag system with the pick-and-place induction function is connected with the control system and is characterized by comprising a plurality of electronic tags with the pick-and-place induction function;

each electronic tag includes: the infrared photoelectric detector comprises an input port, an output port, a buzzer, a confirmation button with a lamp, a nixie tube and one or more groups of infrared geminate transistors, wherein each group of infrared geminate transistors comprises an infrared receiving tube and an infrared transmitting tube; the control system is respectively connected with the infrared receiving tube, the infrared transmitting tube, the buzzer, the light-provided confirmation button and the nixie tube through the input port; the output port is used for transmitting a control signal of the control system;

between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a straight line.

4. The electronic label system according to claim 3, characterized in that the infrared receiving tube and the infrared transmitting tube of the at least one group of infrared pair tubes on each electronic label are located on a straight line.

5. The electronic label system according to claim 4, characterized in that the infrared receiving tube and the infrared transmitting tube of at least one group of infrared pair tubes on each electronic label are located on a horizontal line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a horizontal line.

6. The electronic label system according to claim 4, characterized in that the infrared receiving tube and the infrared transmitting tube of at least one group of infrared pair tubes on each electronic label are located on a vertical line; between every two adjacent electronic tags, at least one infrared transmitting tube on one electronic tag is adjacent to at least one infrared receiving tube on the other electronic tag and is positioned on a vertical line.

7. An electronic sowing wall, characterized in that, the electronic sowing wall comprises the electronic label system with pick-and-place sensing function of any one of claims 3 to 6, and further comprises a storage shelf, wherein a plurality of layers of partition plates are fixed on the inner side of the storage shelf, one or more electronic labels are installed on each layer of partition plate, the infrared receiving tube and the infrared transmitting tube on each electronic label are oppositely arranged at two ends of each electronic label, a goods space is formed between two opposite electronic labels on each two layers of partition plates, and at least one infrared transmitting tube on one electronic label is opposite to at least one infrared receiving tube of the other electronic label and is positioned on a straight line.

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