CN109041368B - Wireless lamp-watching seeding system for warehouse - Google Patents

Abstract

The invention discloses a wireless lamp-watching seeding system for a warehouse, which comprises a lamp-lighting label, a wireless transmitter and a PDA; a seeding task control subsystem and a WMS order data interface subsystem are installed in the PDA; the WMS order data interface subsystem is used for butt-jointing various WMSs to generate a pickup order with one wave; the seeding task control subsystem establishes a binding relationship between a customer order and a lighting label with a unique identification code; the PDA scans the order goods bar codes one by one; the wireless transmitter receives an order goods bar code instruction scanned by the PDA and transmits the order goods bar code instruction to the lighting label bound to each order; the lighting label receives the order of the order goods bar code, the lighting label of the goods belonging to the order is lighted, the staff is reminded to put the goods on the corresponding position of the light, the task of the next wave is finished until all the goods are distributed in the belonging position, and then the order of the next wave is sown in a circulating mode. The invention has the advantages of low cost, strong flexibility, strong safety and low maintenance cost.

Description

Wireless lamp-watching seeding system for warehouse

Technical Field

The invention relates to the technical field of warehouse distribution, in particular to a wireless light-watching seeding system for a warehouse.

Background

The order sowing wall system used in the E-commerce warehouse at present is a wired sowing wall system, a power source and a data wire need to be pulled, the manufacturing cost and the maintenance cost are high, once the layout is finished, the field is solidified, and the order quantity cannot be flexibly increased when the E-commerce promotion order quantity is large. In particular, the existing sowing walls have the following disadvantages:

1) and the cost is high. One group of seeding walls for watching lamps needs 2 thousands of units of hardware, and dozens of groups in one warehouse need millions, so that medium and small power suppliers cannot put into use.

2) Poor flexibility. Once the existing sowing wall is installed, the existing sowing wall is difficult to change, and cannot be temporarily increased or decreased to watch lamp equipment due to the restriction of a power supply circuit and the equipment.

3) And the safety is poor. The existing seeding wall has the hidden trouble of electric leakage because wired equipment is connected, and in addition, the contact of operators is dense, so that a power supply interface is abraded and falls off, and people are easy to get an electric shock.

4) And high maintenance cost. Each group of seeding walls are formed by wired equipment, so that the seeding walls are easy to wear, and the maintenance cost is high.

Therefore, a novel wireless seeding wall with more flexible use and low cost is urgently needed.

Disclosure of Invention

In view of the above, in order to solve the above problems in the prior art, the present invention provides a wireless light-watching seeding system for a warehouse.

The invention solves the problems through the following technical means:

a wireless lamp-watching seeding system for a warehouse comprises a lamp-lighting label, a wireless transmitter and a PDA;

the wireless transmitter is respectively in wireless connection with the lighting label and the PDA;

a seeding task control subsystem and a WMS order data interface subsystem are installed in the PDA;

the WMS order data interface subsystem is used for butt-jointing various WMSs to generate a picking order of one wave, placing the goods of the picking order of one wave in a picking truck when picking the goods, and then transmitting the picked goods data of one wave to the seeding task control subsystem;

the seeding task control subsystem is used for receiving the order picking data of one wave of order picking data picked by the WMS order data interface subsystem and establishing the binding relationship between a customer order and a lighting label with a unique identification code;

the PDA is used for the staff to scan the order goods bar codes one by one and transmitting the order goods bar code instruction to the wireless transmitter;

the wireless transmitter is used for receiving an order goods bar code instruction scanned by the PDA and transmitting the order goods bar code instruction to the lighting label bound to each order;

the lighting label is used for receiving an instruction of a goods bar code of the order, the lighting label of the storage position of the order to which the goods belong can be lighted, a worker is reminded to put the goods on the storage position corresponding to the lamp until tasks of one wave are finished after all the goods are distributed in the storage position to which the goods belong, and then the order of the next wave is sown in a circulating mode.

Further, the wireless transmitter is respectively in wireless connection with the lighting label and the PDA through Bluetooth.

Further, the lighting label includes:

a lamp shade;

the magnetic rear cover is used for being stuck on the iron goods shelf;

the cylindrical shell is buckled with the lampshade on one side and the magnetic rear cover on the other side, and the lampshade, the cylindrical shell and the magnetic rear cover enclose a closed inner cavity;

the circuit board is arranged in the inner cavity, a wireless signal receiving circuit, a light control circuit and a color lamp are arranged on the circuit board, and the light control circuit is electrically connected with the wireless signal receiving circuit and the color lamp respectively;

and the battery is arranged in the inner cavity, is electrically connected with the circuit board and is used for providing power supply for the circuit board.

Further, the battery is a rechargeable battery.

Further, the wireless signal receiving circuit is a bluetooth signal receiving circuit.

Further, the color lamp is a three-color LED lamp, and the three colors are red, green and blue.

Furthermore, the green light of the light-up label indicates normal work, the red light or no light indicates abnormal label, and the blue light indicates that the order is out of stock.

Compared with the prior art, the invention has the beneficial effects that at least:

1) and the cost is low. The cost is lower than the existing cost, and only one third of the cost of the prior art is expected to be needed.

2) And the flexibility is strong. Can replace current seeding wall, increase at any time and see the lamp label, the overall arrangement is implemented simply moreover, can use goods shelves to sow the operation anytime and anywhere.

3) And the safety is strong. The operation of the device is all weak current, and the device can not cause harm to human bodies.

4) And the maintenance cost is low. There is no other maintenance cost other than replacing the battery.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a wireless light-watching seeding system for a warehouse according to the present invention;

FIG. 2 is a schematic view of the structure of the lighted label of the present invention;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a circuit block diagram of a circuit board;

description of reference numerals:

1. a lamp shade; 2. a magnetic rear cover; 3. a cylindrical housing.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It should be noted that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work based on the embodiments of the present invention belong to the protection scope of the present invention.

As shown in fig. 1, the invention provides a wireless lamp-watching seeding system for a warehouse, which comprises a lamp-lighting label, a wireless transmitter and a PDA;

the wireless transmitter is respectively in wireless connection with the lighting label and the PDA;

a seeding task control subsystem and a WMS order data interface subsystem are installed in the PDA;

the WMS order data interface subsystem is used for butt-jointing various WMSs to generate a picking order of one wave, placing the goods of the picking order of one wave in a picking truck when picking the goods, and then transmitting the picked goods data of one wave to the seeding task control subsystem;

the seeding task control subsystem is used for receiving the order picking data of one wave of order picking data picked by the WMS order data interface subsystem and establishing the binding relationship between a customer order and a lighting label with a unique identification code;

the PDA is used for the staff to scan the order goods bar codes one by one and transmitting the order goods bar code instruction to the wireless transmitter;

the wireless transmitter is used for receiving an order goods bar code instruction scanned by the PDA and transmitting the order goods bar code instruction to the lighting label bound to each order;

the lighting label is used for receiving an instruction of a goods bar code of the order, the lighting label of the storage position of the order to which the goods belong can be lighted, a worker is reminded to put the goods on the storage position corresponding to the lamp until tasks of one wave are finished after all the goods are distributed in the storage position to which the goods belong, and then the order of the next wave is sown in a circulating mode.

The hardware components of the invention are as follows: the lamp-on tag (with a battery), the wireless transmitter (with a Bluetooth module) and the PDA (with a Bluetooth module).

The software components of the invention: a seeding task control subsystem, a WMS order data interface subsystem (multi-item order).

The working principle of the invention is as follows:

1) and each lighting label corresponds to a temporary storage position and is pasted on the corresponding seeding goods shelf position, the lighting label is lighted green to indicate normal work, the lighting red lamp or the non-lighting lamp indicates abnormal label, and the lighting blue lamp indicates that the order is out of stock.

2) The PDA is provided with a seeding task control subsystem and a WMS order data interface subsystem, various WMSs are butted through the WMS order data interface subsystem, the binding relationship between a customer order and a lighting label is established, and after the WMS finishes sorting of combined orders needing seeding every wave, the WMS enters a seeding link to split the combined orders into customer orders.

3) The wireless transmitter is connected with the PDA through the Bluetooth module, receives an order goods bar code instruction scanned by the PDA, and transmits an RF light label bound to each order, so that the lamp is turned on, and a worker is reminded to place goods on a storage position corresponding to the lamp.

For example, the following steps are carried out: in order to improve the order picking efficiency of the warehouse, a picking order with multiple times (30 combined orders) is generated in the WMS order data interface subsystem, the 30 items of the order are placed in a picking truck when being picked, the 30 items of the order are separated by using a seeding wall after being picked, at the moment, the WMS order data interface subsystem transmits the 30 items of the order data after being picked to the seeding task control subsystem, a worker scans the items one by using a PDA (personal digital assistant) provided with the seeding task control subsystem, the lighting label of the storage position of the order belonging to the item is lighted, the worker places the item in the lighting label, then scans the bar code of the next item, the task of the next time is not finished until all the items are distributed in the storage position of the item, and then the order of the next time is sown circularly.

The wireless lamp-watching and seeding wall system for the warehouse has the main functions that a plurality of active RFID lamp-lighting labels are controlled wirelessly and connected to a seeding task control subsystem, and the lamp-lighting labels can flexibly change the colors of lamps through wireless communication and data transmission. After the commodity sorting personnel sort out the order of closing one wave, the seeding personnel scan the goods bar code one by one, the seeding task control subsystem controls to see the lamp label and the bright lamp to display the corresponding storage position of the goods, and finally the goods of the order of closing are split into the goods of the customer order, so that the labor intensity is reduced, the time for judging by human eyes is saved, and the accuracy of distributing and sowing the whole goods is improved.

As shown in fig. 2 to 4, the lighting label includes a lamp cover 1, a magnetic rear cover 2, a cylindrical housing 3, a circuit board, and a battery, wherein:

the magnetic rear cover 2 is used for being stuck on an iron goods shelf;

one side of the cylindrical shell 3 is buckled with the lampshade 1, the other side of the cylindrical shell is buckled with the magnetic rear cover 2, and the lampshade 1, the cylindrical shell 3 and the magnetic rear cover 2 enclose a closed inner cavity;

the circuit board is arranged in the inner cavity, a wireless signal receiving circuit, a light control circuit and a color lamp are arranged on the circuit board, and the light control circuit is respectively and electrically connected with the wireless signal receiving circuit and the color lamp;

the battery is arranged in the inner cavity, is electrically connected with the circuit board and is used for providing power for the circuit board.

Specifically, the battery is a rechargeable battery.

Specifically, the wireless signal receiving circuit is a bluetooth signal receiving circuit.

Specifically, the color lamp is a three-color LED lamp, and the three colors are red, green and blue.

The lighting label provided by the invention has the main functions that a lighting and color changing instruction is sent to a Bluetooth signal receiving circuit of the lighting label through a Bluetooth wireless signal frequency band, the color of a lamp is changed by a lamp light control circuit of the lighting label according to the signal instruction, and the lamp has three colors of red, green and blue. The access control system is connected with the lamp through Bluetooth communication and data instructions, so that the lamp lighting label can flexibly change the color of the lamp and can control a plurality of active Bluetooth lamp lighting labels. Effectively provide like this and remind the instruction and give the staff, its present function is the same with wired bright lamp label function, nevertheless uses more in a flexible way, and the distance is farther, and the concurrency number is bigger simultaneously, is used in the warehouse and sees the lamp to pick up goods system or sow on the wall, and the time that people's eye judgement is greatly saved promotes goods letter sorting and divides the accuracy of broadcasting.

The beneficial effects of the invention at least comprise:

1) and the cost is low. The cost is lower than the existing cost, and only one third of the cost of the prior art is expected to be needed.

2) And the flexibility is strong. Can replace current seeding wall, increase at any time and see the lamp label, the overall arrangement is implemented simply moreover, can use goods shelves to sow the operation anytime and anywhere.

3) And the safety is strong. The operation of the device is all weak current, and the device can not cause harm to human bodies.

4) And the maintenance cost is low. There is no other maintenance cost other than replacing the battery.

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

Claims (4)

1. A wireless lamp-watching seeding system for a warehouse is characterized by comprising a lamp-lighting label, a wireless transmitter and a PDA;

the wireless transmitter is respectively in wireless connection with the lighting label and the PDA;

a seeding task control subsystem and a WMS order data interface subsystem are installed in the PDA;

the WMS order data interface subsystem is used for butt-jointing various WMSs to generate a picking order of one wave, placing the goods of the picking order of one wave in a picking truck when picking the goods, and then transmitting the picked goods data of one wave to the seeding task control subsystem;

the seeding task control subsystem is used for receiving the order picking data of one wave of order picking data picked by the WMS order data interface subsystem and establishing the binding relationship between a customer order and a lighting label with a unique identification code;

the PDA is used for the staff to scan the order goods bar codes one by one and transmitting the order goods bar code instruction to the wireless transmitter;

the wireless transmitter is used for receiving an order goods bar code instruction scanned by the PDA and transmitting the order goods bar code instruction to the lighting label bound to each order;

the lighting label is used for receiving an instruction of a goods bar code of the order, the lighting label of the storage position of the order to which the goods belong can be lighted, a worker is reminded to put the goods on the storage position corresponding to the lamp until tasks of one wave are finished after all the goods are distributed in the storage position to which the goods belong, and then the order of the next wave is sown in a circulating mode;

the lighted label includes:

a lamp shade;

the magnetic rear cover is used for being stuck on the iron goods shelf;

the cylindrical shell is buckled with the lampshade on one side and the magnetic rear cover on the other side, and the lampshade, the cylindrical shell and the magnetic rear cover enclose a closed inner cavity;

the circuit board is arranged in the inner cavity, a wireless signal receiving circuit, a light control circuit and a color lamp are arranged on the circuit board, and the light control circuit is electrically connected with the wireless signal receiving circuit and the color lamp respectively;

the battery is arranged in the inner cavity, is electrically connected with the circuit board and is used for providing power supply for the circuit board;

the color lamps are three-color LED lamps, and the three colors are red, green and blue;

the green light of the light-on label indicates that the work is normal, the red light or the non-light indicates that the label is abnormal, and the blue light indicates that the order is out of stock.

2. The wireless lamp-watching seeding system for the warehouse as claimed in claim 1, wherein the wireless transmitter is wirelessly connected with the lighting tag and the PDA through Bluetooth respectively.

3. The warehouse wireless light-watching seeding system according to claim 1, wherein the battery is a rechargeable battery.

4. The wireless light-watching seeding system for warehouses according to claim 1, wherein the wireless signal receiving circuit is a Bluetooth signal receiving circuit.

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