CN114205397B - Storage system interconnected through wireless network - Google Patents

Abstract

The invention provides a storage system interconnected through a wireless network, which comprises a controller and a plurality of storage units (storage boxes). The controller and the storage units are provided with wireless communication network devices, and the controller is connected with each storage unit through a wireless communication network to carry out data transmission. After the technical scheme is adopted, the control and management of a plurality of storage units can be realized through the controller, information such as the types, the number, the specification and the model, the validity period and the like of the materials in each storage unit are counted rapidly, the operations such as counting, checking and searching are convenient, the time for checking the materials and searching the specific materials is shortened, and the efficiency is greatly improved.

Description

Storage system interconnected through wireless network

Technical Field

The invention relates to the field of storage of the Internet of things, in particular to a storage system interconnected through a wireless network.

Background

Inventory of a warehouse typically requires a significant amount of time and effort from the manager, and quickly searching for a particular item requires adequate familiarity with the warehouse. Under the conventional condition, the counting efficiency can be improved by adding personnel and using an information management system; by familiarising the manager with warehouse conditions, the speed of locating a particular item is increased by means of an information management system.

However, when dealing with sudden disasters or performing certain special tasks, without conventional warehouse conditions, temporary warehouses may be deployed in various environments, such as in the field, on vehicles, etc. These temporary warehouses are crude, but the guarantee tasks are usually heavy, and the efficiency and accuracy requirements of material positioning, inventory, receiving and dispatching are high. However, under similar unconventional conditions, management personnel are usually less and may suddenly change, so that the situations such as the type, the number and the position of the materials are unfamiliar, the positioning, the checking and the receiving of the materials cannot be considered, the operation efficiency of the warehouse is affected, and the timely and accurate delivery of the replenishment information to the rear is difficult.

Even under the conventional warehouse conditions, if the management personnel are less and frequently replaced and an automatic warehouse management system is not configured due to cost and the like, the inventory and positioning of materials also need to take a great deal of time and effort for the management personnel.

Disclosure of Invention

To overcome the above-mentioned technical drawbacks, an object of the present invention is to provide a storage system interconnected by a wireless network, comprising:

the controller is a first microcomputer system, and the first microcomputer system comprises, but is not limited to, a first wireless network device, and is used for respectively sending instruction information to a plurality of storage units in a broadcasting mode or a point-to-point mode through a wireless communication network, receiving the information sent by the storage units, summarizing the information sent by the storage units into an electronic form inventory, and performing data processing on the information in the electronic form inventory; and

each storage unit comprises a box body, a scanner, a power supply and a second microcomputer system embedded in the box body, wherein the second microcomputer system is used for controlling each storage unit, the box body is used for storing materials, the scanner is used for reading the materials information and sending the materials information to the second microcomputer system, the second microcomputer system comprises a memory and a second wireless network device, the memory of the second microcomputer system is used for storing the materials information, and the second microcomputer system sends information (such as materials information and the like) to the controller through the wireless network device and receives the information sent by the controller. As is well known to those skilled in the art, the wireless connection is performed by a driver of an operating system and wireless network hardware (e.g., a first wireless network device and a second wireless network device in the present application), which are not described in detail herein.

Further, the controller is a master node, and the storage unit is a slave node.

Further, the first microcomputer system is a mobile terminal (for example, a tablet computer, a mobile phone and other handheld devices) provided with an application program, the mobile terminal is respectively connected with each storage unit through a wireless communication network, and the application program is used for receiving and transmitting data, processing data and the like (the processed data includes but is not limited to a spreadsheet, and other data) to the second microcomputer system, and is also used for performing conventional functions such as man-machine interaction operation and the like.

Further, the storage unit further comprises a box door, a lock, an access key, an acousto-optic prompter and a touch display screen; the lock is used for locking the box door, the acousto-optic prompter and the access key are arranged outside the box body, the access key is used for unlocking the box door, and the acousto-optic prompter is used for emitting sound and light under the control of the second microcomputer system when the controller is found to broadcast target materials, the controller is networked or the access materials are abnormal. The touch display screen and the scanner are arranged on the inner side of the box door. The scanner is used for scanning the stored and fetched goods and materials so as to record the goods and materials access information. The touch display screen is used for displaying a scanning identification result so as to be convenient for a user to confirm, displaying information such as the storage condition of the unit material, the system state parameters and the like, and modifying the unit material data and the system state parameters through man-machine interaction by a touch function.

Further, the controller is configured to initiate a positioning operation for a target material storage item, that is, related information (name, specification, model, etc.) of the material is broadcast to each storage unit through a wireless network, each storage unit searches for the material information of the unit, if a specific storage unit finds the same material, the acousto-optic prompter performs acousto-optic prompter, and the confirmation information is returned to the controller.

Further, the broadcasting instruction sent by the first microcomputer system to the storage units in a broadcasting manner is selected from any one or more than two of collecting a plurality of storage unit state instructions, collecting a plurality of storage unit storage material information instructions, searching a specific material instruction, modifying a plurality of storage unit data instructions, sending an acousto-optic prompt instruction and the like; the point-to-point instructions sent by the first microcomputer system to the storage units in a point-to-point mode are selected from any one or more than two of specific storage unit state instructions, specific storage unit storage material condition instructions, specific storage unit data modification instructions, acousto-optic prompt instructions and the like.

Further, the information sent by the storage unit to the controller is selected from any one or more than two of the storage material condition data of the storage unit, the state parameter of the storage unit, the specific material searching result, the modification of the data result of the storage unit, the sound and light prompt result and the like.

Further, the controller is configured to collect information sent by the plurality of storage units into a spreadsheet, perform processes such as searching, sorting, screening, calculating, and counting on information in the spreadsheet in the controller, and output the processed spreadsheet to a third party computer system.

Further, the scanner identifies the two-dimensional code and the barcode by optical scanning or the RFID tag by electromagnetic induction.

Further, the power supplies of the plurality of storage units can be electrically connected with each other, and an external power supply (such as an alternating current power supply) can charge the plurality of storage units at the same time. The power source of the storage unit is typically a battery, for example.

Further, the second wireless network device of the storage unit intermittently or continuously searches for the network signal of the controller, thereby being networked with the controller.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

according to the storage system interconnected through the wireless network, based on the past storage unit material access information, a wireless communication network is formed by a master node (controller) and a plurality of slave nodes (storage units) on site, and material information statistics, searching and processing are performed. Based on past material access record, can carry out the automatic storing system of material inventory, quick location specific material of quick networking in the warehouse scene, the system operation does not rely on the external network, can greatly improve warehouse inventory efficiency and material searching positioning efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall architecture of a system according to an embodiment of the invention.

Fig. 2 is a schematic structural diagram of a storage unit according to an embodiment of the invention. Wherein 100 is the box, 101 is the chamber door, 102 is the scanner, 103 is the access button, 104 is audible and visual indicator, 105 is touch display screen, 106 is the chamber door lock, 200 is the embedded second microcomputer system of box.

FIG. 3 is a flow chart of a storage unit accessing operation according to an embodiment of the present invention.

FIG. 4 is a flow chart illustrating the inventory and positioning of materials by networking the controller with the storage unit according to an embodiment of the present invention.

Detailed Description

Advantages of the invention are further illustrated in the following description, taken in conjunction with the accompanying drawings and detailed description. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and that this invention is not limited to the details given herein.

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

FIG. 1 is a general frame diagram of a storage system interconnected by a wireless network, including a controller, a number of storage units.

The controller is a first microcomputer system, and the first microcomputer system comprises a first wireless network device, is used for respectively sending instruction information to a plurality of storage units in a broadcasting mode or a point-to-point mode through a wireless communication network, is also used for receiving the information sent by the storage units, is also used for summarizing the information sent by the storage units into an electronic form inventory, and is used for carrying out data processing on the information in the electronic form inventory.

The broadcasting instruction sent by the first microcomputer system to the storage units in a broadcasting mode is selected from any one or more than two of collecting a plurality of storage unit state instructions, collecting a plurality of storage unit storage material information instructions, searching a specific material instruction, modifying a plurality of storage unit data instructions and sending out an acousto-optic prompt instruction; the point-to-point instructions sent by the first microcomputer system to the storage units in a point-to-point mode are selected from any one or more than two of specific storage unit state instructions, specific storage unit storage material condition instructions, specific storage unit data modification instructions and acousto-optic prompt instructions.

The information sent by the storage unit to the controller is selected from any one or more than two of the storage material condition data of the storage unit, the state parameters of the storage unit, the specific material searching result, the modification of the data result of the storage unit and the sending of an acousto-optic prompt result.

The first microcomputer system is a mobile terminal (for example, a tablet computer, a mobile phone and other handheld devices) provided with an application program, the mobile terminal is respectively interconnected with each storage unit through a wireless communication network, the application program is used for applying for receiving and transmitting data, processing data (the data processed in the embodiment is a spreadsheet) and the like to the second microcomputer system, and in addition, the application program also has conventional functions of performing man-machine interaction operation and the like, and the mobile terminal in the embodiment is the tablet computer.

Fig. 2 is a schematic diagram of the structure of the storage unit. Each storage unit comprises a box body, a scanner, a power supply and a second microcomputer system embedded in the box body. The second microcomputer system runs an application program and is used for controlling the components such as a lock, an access key, a display screen, an acousto-optic prompter, a scanner and the like of each storage unit to work cooperatively, recording access data when articles are accessed, networking with the controller when network signals of the controller are detected, receiving and executing instructions and data of the controller, and sending data to the controller. The second microcomputer system comprises a memory and a wireless network device, wherein the memory of the second microcomputer system is used for storing the material information, and the second microcomputer system sends information to the controller and receives information sent by the controller through the wireless network device. The box body is used for storing materials, the scanner reads the material information and sends the material information to the second microcomputer system,

the scanner is positioned on the inner side of the box door, and recognizes the two-dimensional code or the bar code through optical scanning and the RFID tag through electromagnetic induction. In this embodiment, the scanner is a photoelectric scanner that scans two-dimensional codes and bar codes. After the door is opened, the stored or taken out articles are scanned by a scanner so that the microcomputer system records data.

The storage unit further comprises a box door, a lock, an access key, an acousto-optic prompter and a touch display screen. The lock is used for locking the door. The access key is positioned at the outer side of the box body, two keys for storing and taking are arranged, the door lock of the box can be opened by pressing the key, meanwhile, a storing or taking signal is transmitted to the microcomputer system of the storage box, and after the box is opened, the scanner scans and identifies materials and correspondingly records the materials as storing or taking out. The sound-light prompter is arranged outside the box body and is used for emitting sound and light under the control of the second microcomputer system when the controller is found to broadcast target materials, when the controller is connected with the network or when the access of materials is abnormal. The touch display screen is positioned on the inner side of the box door and used for displaying various material data and system running state parameters and performing man-machine interaction.

In this embodiment, the touch display screen is configured to display an identification result of the scanner in real time, so as to be convenient for a user to confirm; displaying the current material storage list, the material access condition in the selected time period, the controller searches the material storage information such as the specific material history record, and the like; and displaying system state information such as the power supply electric quantity, the name number of the networking controller, the number of the storage box and the like. The touch display screen is used for man-machine interaction through a touch function, inquiring material storage information, setting inquiry keywords, selecting and displaying system state information and modifying unit data.

In this embodiment, the audible and visual indicator includes a buzzer and red and green light sources. When the specific object searched by the controller is found in the unit, the sound-light prompter sends out a short prompt sound for 60 seconds, continuously sends out five groups, and simultaneously blinks green light for 60 seconds. When the box door is found to be opened, no scanning result is generated, a short prompt tone is emitted after the box door is locked, and red light is flashed for 5 seconds. When the controller network signal is searched, the traffic lights alternately flash, and when the controller network signal is connected with the controller, the red and green lights flash for 10 seconds at the same time, and then the controller network signal is extinguished.

The storage units are electrically connected with each other, the power supply of the storage units is generally a battery, and an external power supply (such as alternating current) can charge the storage units at the same time.

The wireless network device intermittently or continuously searches for a network signal of the controller to thereby network with the controller.

FIG. 3 is a schematic diagram of the material accessing process of the storage unit. After the access key is pressed to open the door, the system is ready for the touch display screen and the scanner, and then three working paths are provided: firstly, storing materials, secondly, taking out materials, and thirdly, setting and modifying the system state of the storage unit. Locking the box door after the corresponding operation is finished, checking access materials, and alarming to prompt a user if no access scanning result is found after the door is opened, wherein if the system state is set for operation, no scanning result is normal, and the user does not need to ignore the alarm; if the user forgets to scan when accessing the materials, the user opens the door again to scan.

Fig. 4 is a flow of the controller and the storage unit for checking and positioning materials in a networking manner. And after the controller receives the material data of each storage unit, the controller assembles an overall list table according to a fixed format to finish the inventory.

The controller collects information sent by the storage units into a stock inventory, wherein the stock inventory has a standard format and comprises a material batch number, a storage box number, a list table serial number, a material name, a specification model, the number, an effective period, a package description and remarks. And the controller and the storage unit both store field information included in a standard format, and data transmission is carried out according to fixed fields. The inventory total list is a spreadsheet, and can perform operations such as data searching, screening, sorting, calculating, counting and the like, and the processed spreadsheet (which can be output as an Excel spreadsheet format file) is used for being output to a third party computer system.

After the controller gathers inventory list forms, positioning operation is initiated for a certain target material storage item, namely, information such as the name, specification and model of the material is broadcasted to each storage unit through a wireless network, each storage unit searches the material information of the storage unit, if a specific storage unit finds the same material, an acousto-optic prompter sends out a prompt tone and flashes a green light to carry out acousto-optic prompt, and confirmation information is returned to the controller.

It should be noted that the embodiments of the present invention are preferred and not limited in any way, and any person skilled in the art may make use of the above-disclosed technical content to change or modify the same into equivalent effective embodiments without departing from the technical scope of the present invention, and any modification or equivalent change and modification of the above-described embodiments according to the technical substance of the present invention still falls within the scope of the technical scope of the present invention.

Claims (1)

1. A storage system interconnected by a wireless network, comprising:

the controller is a first microcomputer system, and the first microcomputer system comprises a first wireless network device, is used for respectively sending instruction information to a plurality of storage units in a broadcasting mode or a point-to-point mode through a wireless communication network, is also used for receiving information sent by the plurality of storage units, is also used for summarizing the information sent by the plurality of storage units into an electronic form inventory, and is also used for carrying out data processing on the information in the electronic form inventory; and

each storage unit comprises a box body, a scanner, a power supply and a second microcomputer system embedded in the box body, wherein the second microcomputer system is used for controlling each storage unit, the box body is used for storing material information, the scanner is used for reading the material information and sending the material information to the second microcomputer system, the second microcomputer system comprises a memory and a second wireless network device, the memory of the second microcomputer system is used for storing the material information, and the second microcomputer system sends information to the controller through the second wireless network device and receives the information sent by the controller;

the first microcomputer system is a mobile terminal provided with an application program, the mobile terminal is respectively connected with each storage unit through a wireless communication network, and the application program is used for receiving and transmitting data to the second microcomputer system, processing data and performing man-machine interaction operation;

the storage unit further comprises a box door, a lock, an access key, an acousto-optic prompter and a touch display screen; the lock is used for locking the box door, the acousto-optic prompter and the access key are arranged outside the box body, the acousto-optic prompter is used for emitting sound and light under the control of the second microcomputer system when a controller is found to broadcast target materials, the controller is connected with the network or the access materials are abnormal, and the touch display screen and the scanner are arranged on the inner side of the box door;

the controller is used for initiating positioning operation aiming at a certain target material storage item, namely broadcasting related information of the material to each storage unit through a wireless network, searching the material information of the storage unit, carrying out acousto-optic prompt by an acousto-optic prompt device if a specific storage unit finds the same material, and transmitting the confirmation information back to the controller;

the broadcasting instruction sent by the first microcomputer system to the storage units in a broadcasting mode is selected from any one or more than two of collecting a plurality of storage unit state instructions, collecting a plurality of storage unit storage material information instructions, searching a specific material instruction, modifying a plurality of storage unit data instructions and sending out an acousto-optic prompt instruction; the point-to-point instructions respectively sent to the storage units by the first microcomputer system in a point-to-point mode are selected from any one or more than two of a specific storage unit state instruction, a specific storage unit storage material condition instruction, a specific storage unit data modifying instruction and an acousto-optic prompting instruction;

the information sent by the storage unit to the controller is selected from any one or more than two of the storage material condition data of the storage unit, the state parameters of the storage unit, the specific material searching result, the modification of the data result of the storage unit and the sending of an acousto-optic prompt result;

the controller is used for summarizing the information sent by the storage units into an electronic form, searching, sorting, screening, calculating and counting the information in the electronic form in the controller, and outputting the processed electronic form to a third party computer system;

the scanner identifies the two-dimensional code and the bar code through optical scanning or identifies the RFID tag through electromagnetic induction; the power supplies of the storage units can be electrically connected with each other, and the external power supply can charge the power supplies of the storage units at the same time;

the second wireless network device of the storage unit intermittently or continuously searches for the network signal of the controller, thereby being networked with the controller.