CN212724101U - Steel net cabinet and steel net informatization management system - Google Patents

Abstract

The application relates to a steel mesh cabinet and a steel mesh informatization management system, wherein the steel mesh cabinet comprises a cabinet body, the cabinet body comprises a base and a plurality of unit grids, each unit grid is used for storing a steel mesh, and each unit grid is configured with unique identification information in advance; at least one automation system module fixedly connected to the base; each automation system module includes: the electronic lock comprises a lock tongue, and the lock tongue is arranged at the front end of the corresponding cell; the main control board is used for receiving the control signal and controlling the spring bolt of the corresponding electronic lock to pop up or retract according to the control signal, and the corresponding electronic lock is the electronic lock corresponding to the cell indicated by the identification information included in the control signal. This application can the automated management of steel mesh, can also realize steel mesh cabinet access steel mesh mistake proofing and prevent slow-witted.

Description

Steel net cabinet and steel net informatization management system

Technical Field

The application belongs to the technical field of steel mesh management, and particularly relates to a steel mesh cabinet and a steel mesh informatization management system.

Background

SMT (Surface Mounted Technology) is a fourth-generation high-tech electronic assembly Technology based on the conventional Through Hole Technology (THT) in the late 70 s, and is also one of the most popular technologies in the electronic assembly industry. The steel mesh (stents) is the SMT Stencil (SMT steel), which is a SMT special mould, and its main function is to help the deposition of solder paste, in order to transfer the exact amount of solder paste to the exact position on the empty PCB.

The steel mesh of present SMT processing enterprise is stored in steel net rack or steel mesh cabinet to the relevant information of label mark steel mesh on the steel mesh, when the steel mesh collar was used, need the manual work to open the requisition earlier, inquires one by one in the storehouse position of steel mesh cabinet according to the requisition, until finding the steel mesh of needs, still need fill in the requisition record after taking out the steel mesh. When the employees receive and return, the corresponding storage positions are required to be in one-to-one correspondence with the storage position tables, the corresponding storage positions are found through steel mesh coding, and then the corresponding storage positions are returned, and the management mode has the following problems:

firstly, the shapes and the sizes of the steel nets are completely the same, the steel nets are completely distinguished by the models and the serial numbers of the side surfaces of the steel nets, the distinguishing difficulty is high, no foolproof mechanism exists, the adoption and the return are easy to make mistakes, an SMT workshop is equipment production, and once the steel and copper nets are used wrongly, the steel and copper nets are lost in batches;

the number of the steel and copper nets is large, the steel and copper nets are all placed in a steel net cabinet, the time and the difficulty are large for finding the steel nets in the corresponding order, once the steel nets are returned and put by mistake according to experience, the steel nets need to be found in all the steel nets one by one when being used again, and the production efficiency is seriously influenced;

a large amount of steel meshes are placed in the steel-copper mesh cabinet, anyone can take the steel meshes at any time, non-professional staff cannot be prevented from taking the steel meshes randomly in the midway, and the wrong order cannot be effectively corrected;

and fourthly, the steel mesh cabinet keeps the one-to-one correspondence of the stock position table, the stock position and the material object all the time, the existing stock state cannot be accurately and visually identified, and the consistency of the steel mesh accounts cannot be effectively managed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems existing in the conventional steel mesh management mode at least to a certain extent, the application provides a steel mesh cabinet and a steel mesh informatization management system.

In a first aspect, the present application provides a steel net cabinet, comprising:

the cabinet body comprises a base and a plurality of unit grids, each unit grid is used for storing a steel mesh, and each unit grid is configured with unique identification information in advance;

at least one automation system module fixedly connected to the base;

each automation system module includes: the electronic lock comprises a main control board and a plurality of electronic locks, wherein each electronic lock corresponds to one cell, each electronic lock comprises a lock tongue, and each lock tongue is arranged at the front end of the corresponding cell;

the main control board is used for receiving a control signal and controlling the spring bolt of the corresponding electronic lock to pop up or retract according to the control signal, and the corresponding electronic lock is the electronic lock corresponding to the cell indicated by the identification information included in the control signal.

Furthermore, the electronic lock is a push rod type electronic lock, and the lock tongue is a push rod.

Furthermore, the electronic lock is connected with the main control board through a CAN bus.

Furthermore, the plurality of electronic locks are all connected to the main control board in parallel.

Further, each automation system module includes 8 electronic locks.

Further, if the base includes a plurality of automation system modules, the plurality of automation system modules are arranged side by side.

Further, the automation system module still includes the casing, main control board and a plurality of electronic lock set up in the casing, the automation system module still includes: the indicating lamps are arranged on the shell, each indicating lamp corresponds to one cell, and the indicating lamps are electrically connected with the main control board.

Further, each group of indicator lamps comprises 2 indicator lamps.

Further, the automation system module further includes:

the button is arranged on the shell, each button corresponds to one cell, the button is electrically connected with the main control board, and the button is used for generating a control signal and sending the control signal to the main control board.

Further, the automation system module further includes:

each sensor corresponds to one cell and is used for sending a sensing signal to the main control board after sensing the steel mesh;

the main control board is also used for controlling the corresponding lock tongue to pop up after receiving the induction signal.

Further, the cabinet body is multilayer, and different layers are vertically stacked.

Further, each unit cell internally comprises:

the upper limit switch and the lower limit switch are used for limiting the storage position of the steel mesh in the cell, so that the steel mesh keeps a movable distance from the bottom surface and the top surface of the cell when stored in the cell.

Further, each automation system module further comprises:

and the audible and visual alarm is connected with the main control board.

In a second aspect, the present application provides a steel mesh management system comprising:

the steel net cabinet according to any one of the first aspect; and the number of the first and second groups,

and the controller is in communication connection with the steel mesh cabinet and is used for generating a control signal.

Further, the method also comprises the following steps: a scanner communicatively coupled to the controller.

Further, the method also comprises the following steps: and the display is connected with the controller.

Further, the controller is connected with the steel mesh cabinet through a CAN bus.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

the application provides a steel mesh cabinet and steel mesh information-based management system, steel mesh cabinet include the cabinet body, and the cabinet body includes base and a plurality of cell, and with the automatic system module of at least one of base fixed connection, every automatic system module includes: the main control board and a plurality of electronic lock, every electronic lock corresponds a cell, the main control board is used for receiving control signal, the spring bolt that corresponds the electronic lock according to control signal control pops out or withdraws, the electronic lock that the cell that the identification information that corresponds includes in the control signal is the electronic lock that corresponds, can realize the automated management of steel mesh access, and, owing to spring out or withdraw according to the spring bolt that the electronic lock that control signal control corresponds, the electronic lock that the cell that the corresponding electronic lock that identification information that corresponds that includes is for including in the control signal corresponds, can realize access steel mesh mistake proofing.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Fig. 1 is a schematic structural diagram of a steel net cabinet according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an automation system module according to an embodiment of the present application.

Fig. 3 is a front view of an automation system module provided in an embodiment of the present application.

Fig. 4 is a functional structure diagram of a steel mesh information management system according to an embodiment of the present application.

Fig. 5 is a flowchart of a steel mesh information management method according to an embodiment of the present application.

Fig. 6 is a flowchart of a steel mesh information management method according to another embodiment of the present application.

Fig. 7 is a functional structure diagram of a steel mesh information management device according to an embodiment of the present application.

Fig. 8 is a functional structure diagram of a steel mesh information management device according to another embodiment of the present application.

Fig. 9-1-9-10 are internal circuit diagrams of an automation system module according to an embodiment of the present disclosure.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic structural view of a steel net cabinet according to an embodiment of the present invention, and as shown in fig. 1, the steel net cabinet includes:

the cabinet comprises a cabinet body 1, wherein the cabinet body 1 comprises a base 11 and a plurality of unit cells 12, each unit cell 12 is used for storing a steel mesh, and each unit cell 12 is configured with unique identification information in advance;

at least one automation system module 2 which is fixedly connected to the base 11;

each automation system module includes: the electronic lock comprises a main control board (not shown in the figure) and a plurality of electronic locks 21, wherein each electronic lock 21 corresponds to one cell 12, each electronic lock 21 comprises a bolt, and the bolts are arranged at the front ends of the corresponding cells 12;

the main control board is used for receiving the control signal, and controlling the bolt of the corresponding electronic lock 22 to pop up or retract according to the control signal, and the corresponding electronic lock 21 is the electronic lock 21 corresponding to the cell 12 indicated by the identification information included in the control signal.

In some embodiments, the cabinet 1 has multiple layers, and different layers are vertically stacked, and the cabinet shown in fig. 1 is a 3-layer cabinet.

The cabinet body is vertically stacked through multiple layers, so that the storage space of the steel mesh can be enlarged.

In some embodiments, if the base 11 portion includes a plurality of automation system modules 2, the plurality of automation system modules 2 are arranged side by side.

In some embodiments, each cell includes, internally:

the upper limit switch and the lower limit switch are used for limiting the storage position of the steel mesh in the cell, so that the steel mesh keeps a movable distance from the bottom surface and the top surface of the cell 12 when being stored in the cell 12.

It should be noted that the movable distance can be set according to actual conditions, for example, the movable distance is 0.5 mm, and the bolt length is 1 mm, so when the bolt is ejected, because the distance between the steel mesh and the ground is only 0.5 mm, the bolt cannot be taken out because the steel mesh is blocked by the bolt.

Through setting up limit switch and limit switch down, can make steel mesh and cell direct maintenance have a free distance, avoid the too narrow inconvenient steel mesh of cell to remove and influence access time.

The steel mesh of present SMT processing enterprise stores in the steel mesh cabinet to the relevant information of label mark steel mesh on the steel mesh, when the steel mesh neck was used, need the manual work to open the single of claiming earlier, inquires one by one in the storehouse position of steel mesh cabinet according to the single of claiming, until finding the steel mesh of needs, still need fill in the record of claiming after taking out the steel mesh. When the staff receives and returns the steel mesh, the staff needs to be in one-to-one correspondence with the storage position tables, corresponding storage positions are found through steel mesh coding, and then the staff returns the steel mesh to the corresponding storage positions, so that the problems of time waste of the staff, low efficiency of steel mesh storage and taking and the like are caused. And because the shape and the size of the steel mesh are completely the same, the steel mesh is completely distinguished by the model and the serial number of the side surface of the steel mesh, the distinguishing difficulty is high, a foolproof mechanism is not provided, the adoption and return are easy to make mistakes, an SMT workshop is equipment production, and once the steel and copper meshes are mistakenly used, the steel and copper meshes are lost in batches.

In this embodiment, the steel net cabinet includes the cabinet body, and the cabinet body includes base and a plurality of unit check, with the at least one automation system module of base fixed connection, every automation system module includes: the main control board and a plurality of electronic lock, every electronic lock corresponds a cell, the main control board is used for receiving control signal, the spring bolt of the electronic lock that corresponds according to control signal control pops out or withdraws, the electronic lock that the cell that the electronic lock that corresponds is the identification information instruction that includes in the control signal corresponds, can realize the automated management of steel mesh access, and, because the spring bolt that corresponds according to control signal control corresponds pops out or withdraws, the electronic lock that the cell that the electronic lock that corresponds is the identification information instruction that includes in the control signal corresponds, can realize that the access steel mesh is prevented staying mistake proofing, not only improve staff work efficiency, can also ensure that the access steel mesh is not makeed wrong and avoid causing the loss for the enterprise.

Fig. 2 is a schematic structural diagram of an automation system module according to an embodiment of the present application, and as shown in fig. 2, the automation system module includes:

a housing 22, a main control board (not shown in the figure) and a plurality of electronic locks 21 are arranged in the housing 22;

the multiple groups of indicator lamps 23 are arranged on the shell, each group of indicator lamps 23 corresponds to one cell, and the indicator lamps 23 are electrically connected with the main control board.

In some embodiments, each set of indicator lights includes 2 indicator lights.

Can show the storage steel mesh condition of every cell through control pilot lamp state visual display, show green as the pilot lamp and show that the steel mesh storage is in the cell, the pilot lamp shows red representation steel mesh and is taken out, and the incessantly scintillation of pilot lamp shows that the steel mesh that guides the staff to seek corresponds the cell in the pilot lamp of scintillation to the specific position of suggestion staff's cell avoids the staff to spend a large amount of time to seek.

A plurality of buttons 24 are provided on the housing 22, each button 24 corresponding to one of the cells, the buttons 24 being electrically connected to the main control board, the buttons 24 being used to generate and transmit control signals to the main control board.

For example, when returning the steel mesh, when the steel mesh is pushed into the cell completely, the button is pressed manually, the button 24 generates a control signal and sends the control signal to the main control board, and the main control board controls the lock tongue of the corresponding electronic lock to pop up after receiving the control signal, so that the steel mesh returning operation is completed.

In some embodiments, each automation system module further includes a plurality of sensors, each sensor corresponding to one of the cells for sending a sensing signal to the main control board after sensing the steel mesh; the main control board is also used for controlling the corresponding lock tongue to pop up after receiving the induction signal.

For example, when returning the steel mesh, when the steel mesh was pushed into the cell completely, the sensor acquireed the induction signal that the steel mesh returns to with induction signal transmission to main control board, main control board received induction signal after the control correspond the spring bolt of electronic lock and pop out, accomplish the operation of returning the steel mesh.

In some embodiments, as shown in fig. 3, the electronic lock 21 is a push-rod type electronic lock, the lock tongue is a push rod, and the push rod protrudes from the housing 22. The electronic lock 21 is connected with the main control board through a CAN bus, and the electronic lock 21 is connected with the main control board through a 4P flat cable, wherein two wires are power supply wires and two wires are CAN buses. Each automation system module comprises 8 electronic locks, and a plurality of electronic locks 21(8 electronic locks) are connected to the main control board in parallel.

In some embodiments, each automation system module further comprises:

and the audible and visual alarm is connected with the main control board.

Through audible and visual annunciator can guide the staff to find the cell that will look for through sound and multiple mode of light, provide staff's work efficiency.

In some embodiments, the electronic lock further comprises a motor for driving the lock tongue to pop up or retract, the main control board further comprises a USB port for downloading and updating the control program from the controller, and the main control board is further connected with the voltage conversion chip and the voltage reduction chip for providing appropriate voltage for each element.

The main control board is, for example, an STM32F103 chip, a pin connection relationship is shown in fig. 9-1, an upper limit switch circuit diagram and a lower limit switch circuit diagram are shown in fig. 9-2, a button circuit diagram is shown in fig. 9-3, a power supply conversion (12V-5V) circuit diagram is shown in fig. 9-4, a voltage step-down circuit (5V-3.3V) circuit diagram is shown in fig. 9-5, a CAN bus circuit diagram is shown in fig. 9-6, a motor driving circuit diagram is shown in fig. 9-7, a motor driving chip connection circuit diagram is shown in fig. 9-8, an indicator light connection circuit diagram is shown in fig. 9-9, and a USB download circuit diagram is shown in fig. 9-10.

In this embodiment, combine through mechanical parts such as main control board and electronic lock, button, realize that circuit control electronic lock is automatic to unblank or close, can effectively realize the mistake proofing of access steel mesh and prevent slow-witted to, can guide the cell that the staff found looking for through pilot lamp and audible-visual annunciator with multiple mode, provide staff's work efficiency.

Fig. 4 is a functional structure diagram of a steel mesh management system according to an embodiment of the present application, and as shown in fig. 4, the steel mesh management system includes:

a steel net cabinet 41; and the number of the first and second groups,

and a controller 42 in communication with the steel net cabinet 41, wherein the controller 42 is used for generating a control signal.

In some embodiments, the steel mesh management system further comprises: a scanner 43 communicatively coupled to the controller.

The scanner 43 is used for scanning the label on the steel mesh, such as a two-dimensional code, to obtain the steel mesh number, the controller obtains the corresponding steel mesh information according to the steel mesh number, and generates a control signal according to the steel mesh information, wherein the control signal includes the unit grid identification information stored in the steel mesh.

The controller 42 is, for example, an STM32F407 chip.

In some embodiments, the steel mesh management system further comprises: a display 44 connected to the controller 42.

The display is used for displaying steel mesh information, the using condition of the steel mesh cabinet, the corresponding relation between the steel mesh and the unit grids, the return record of the application and the return record and the like.

In some embodiments, the controller is connected with the steel mesh cabinet through a CAN bus.

In some embodiments, the steel mesh management system further comprises: after the start button is pressed, the controller 42 is connected with a main control board in the steel mesh cabinet, the main control board obtains a control signal from the controller 42, identifies the cells stored in the steel mesh according to the control signal, and controls the lock tongues of the electronic locks corresponding to the cells to retract so that the steel mesh in the cells can be taken out.

In this embodiment, steel mesh management system includes the steel mesh cabinet and the controller of being connected with the steel mesh cabinet letter, the controller is used for producing control signal, so that the steel mesh cabinet can open the access mistake proofing of in order to realize the steel mesh according to the electronic lock that control signal control corresponds and prevent slow-witted, reduce the steel mesh required time of looking for in corresponding the order, prevent that the staff from taking at will, the current stock state of audio-visual accurate demonstration, effectively manage steel copper net account thing uniformity, reduce the loss because of the improper loss that brings of incident treatment, the running cost is reduced, and the production efficiency is improved.

Fig. 5 is a flowchart of a steel mesh management method according to an embodiment of the present application, and as shown in fig. 5, the steel mesh management method is applied to a main board side, and includes:

s51: receiving a control signal, wherein the control signal comprises identification information, the identification information is used for uniquely identifying a cell, and the cell is used for storing a steel mesh;

s52: and controlling the spring bolt of the corresponding electronic lock to pop up or retract according to the control signal, wherein the corresponding electronic lock is the electronic lock corresponding to the cell indicated by the identification information included in the control signal.

In some embodiments, the steel mesh management method further comprises:

controlling the corresponding indicator light to flash according to the control signal, and/or,

and controlling the audible and visual alarm to generate an alarm signal according to the control signal.

The steel mesh storage position can be more visually displayed by controlling the corresponding indicator light to flicker and the audible and visual alarm to generate an alarm signal, so that the steel mesh storage and taking efficiency of a user is improved.

In this embodiment, through receiving control signal, including identification information in the control signal, identification information is used for only sign cell, the cell is used for storing the steel mesh, the spring bolt of the electronic lock that corresponds according to control signal control pops out or withdraws, the electronic lock that the cell that the corresponding electronic lock includes for the identification information instruction in the control signal corresponds can realize the automated management of steel mesh to and the mistake proofing of access steel mesh is prevented staying, reduce the steel mesh required time of looking for in the corresponding order, improve production efficiency.

Fig. 6 is a flowchart of a steel mesh management method according to another embodiment of the present application, and as shown in fig. 6, the steel mesh management method applied to a controller side includes:

s61: acquiring steel mesh information to be managed;

s62: determining a cell to be controlled according to the steel mesh information;

s63: and generating a control signal according to the cell to be controlled, wherein the control signal comprises identification information of the cell, and sending the control signal to the main control board so that the main control board controls the spring bolt of the corresponding electronic lock to pop up or retract according to the control signal, and the corresponding electronic lock is the electronic lock corresponding to the cell indicated by the identification information included in the control signal.

In some embodiments, the manner of obtaining the steel mesh information to be managed includes, but is not limited to,

in the first mode, the information of the corresponding steel mesh is obtained by scanning the two-dimensional code arranged on the steel mesh;

and in the second mode, the corresponding steel mesh information is obtained by manually inputting the steel mesh number.

The steel mesh information includes at least one of a number, a model, a type, and a photograph.

It should be noted that, order numbers or other information capable of uniquely identifying the steel mesh may also be manually input, and the manually input content is not limited in the present application.

In some embodiments, after obtaining the steel mesh information to be managed, the method further includes:

and displaying the steel mesh photo corresponding to the steel mesh information.

The steel mesh photo is displayed in the display firstly, and the secondary confirmation of the user is received, so that the drawing error caused by the steel mesh code input error can be avoided, and the accuracy of steel mesh access is improved.

In some embodiments, the steel mesh management method further comprises:

establishing a steel mesh storage view;

determining the position of a corresponding steel mesh in the steel mesh storage view according to the steel mesh information;

and displaying the position of the corresponding steel mesh in the steel mesh storage view.

For example, the steel mesh picking process includes:

step 1: logging in a steel mesh management system;

step 2: scanning or inputting an order number;

and step 3: selecting the type of a steel mesh;

and 4, step 4: searching whether the steel mesh is in the storage cell, if so, executing the step 5, otherwise, executing the step 3;

and 5: receiving a secondary confirmation starting button signal;

step 6: the steel mesh cabinet alarms through an acousto-optic alarm;

and 7: displaying the position of the steel mesh;

and 8: and receiving the steel mesh taking-out signal, and locking the electronic lock again.

In this embodiment, through obtaining the steel mesh information of treating the management, confirm the cell of treating the control according to the steel mesh information, generate control signal according to the cell of treating the control, the identification information of cell is included in the control signal, and send control signal for the main control board, so that the spring bolt that makes the main control board control the corresponding electronic lock according to control signal pops out or withdraws, the electronic lock that the cell that corresponding electronic lock includes identification information instruction in the control signal corresponds, can realize the automated management of steel mesh, and the mistake proofing of access steel mesh is prevented staying, reduce the required time of the steel mesh in the search corresponding order, and the production efficiency is improved.

Fig. 7 is a functional diagram of a steel mesh management device according to an embodiment of the present application, as shown in fig. 7, the steel mesh management device includes:

a receiving module 71, configured to receive a control signal, where the control signal includes identification information, and the identification information is used to uniquely identify a cell, and the cell is used to store a steel mesh;

and the control module 72 is configured to control the lock tongue of the corresponding electronic lock to pop up or retract according to the control signal, where the corresponding electronic lock is an electronic lock corresponding to the cell indicated by the identification information included in the control signal.

In this embodiment, receive control signal through receiving module, including identification information in the control signal, identification information is used for only sign unit check, the unit check is used for storing the steel mesh, control module pops out or withdraws according to the spring bolt of the electronic lock that control signal control corresponds, the electronic lock that the unit check that identification information that corresponding electronic lock includes is for including in the control signal corresponds, can realize the automated management of steel mesh, and the mistake proofing of access steel mesh is prevented slow-witted, reduce the steel mesh required time of looking for in the corresponding order, and the production efficiency is improved.

Fig. 8 is a functional diagram of a steel mesh management device according to another embodiment of the present application, as shown in fig. 8, the steel mesh management device includes:

an obtaining module 81, configured to obtain steel mesh information to be managed;

a determining module 82, configured to determine a cell to be controlled according to the steel mesh information;

and the generating module 83 is configured to generate a control signal according to the cell to be controlled, where the control signal includes the identification information of the cell, and send the control signal to the main control board, so that the main control board controls the lock tongue of the corresponding electronic lock to pop up or retract according to the control signal, and the corresponding electronic lock is the electronic lock corresponding to the cell indicated by the identification information included in the control signal.

In some embodiments, the steel mesh management device further comprises:

the basic information management module is used for managing the state of the cells, the information of operators and the operation authority;

the warehousing and ex-warehousing module is used for managing steel mesh acceptance and warehousing;

and the real-time query module is used for querying the current steel mesh condition in real time.

In this embodiment, the steel mesh information to be managed is obtained through the acquisition module, the determination module determines the cell to be controlled according to the steel mesh information, the generation module generates a control signal according to the cell to be controlled, the control signal includes the identification information of the cell, and send the control signal to the main control board, so that the main control board pops out or withdraws the spring bolt of the electronic lock corresponding to the control signal control, the electronic lock corresponding to the cell that the corresponding electronic lock indicates for the identification information included in the control signal, the automated management of the steel mesh can be realized, and the mistake proofing and fool proofing of the access steel mesh is realized, the time required for searching the steel mesh in the corresponding order is reduced, and the production efficiency is improved.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

It should be noted that the present invention is not limited to the above-mentioned preferred embodiments, and those skilled in the art can obtain other products in various forms without departing from the spirit of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present invention, fall within the protection scope of the present invention.

Claims (17)

1. A steel mesh cabinet, comprising:

the cabinet body comprises a base and a plurality of unit grids, each unit grid is used for storing a steel mesh, and each unit grid is configured with unique identification information in advance;

at least one automation system module fixedly connected to the base;

each automation system module includes: the electronic lock comprises a main control board and a plurality of electronic locks, wherein each electronic lock corresponds to one cell, each electronic lock comprises a lock tongue, and each lock tongue is arranged at the front end of the corresponding cell;

the main control board is used for receiving a control signal and controlling the spring bolt of the corresponding electronic lock to pop up or retract according to the control signal, and the corresponding electronic lock is the electronic lock corresponding to the cell indicated by the identification information included in the control signal.

2. The steel mesh cabinet according to claim 1, wherein the electronic lock is a push-rod type electronic lock, and the latch is a push rod.

3. The steel net cabinet according to claim 1, wherein the electronic lock is connected to the main control board through a CAN bus.

4. The steel net cabinet according to claim 1, wherein the plurality of electronic locks are all connected to the main control board in parallel.

5. The steel net cabinet according to claim 1, wherein each automation system module comprises 8 electronic locks.

6. The steel net cabinet according to claim 1, wherein if the base includes a plurality of automation system modules, the plurality of automation system modules are arranged side by side.

7. The steel net cabinet of claim 1, wherein the automation system module further comprises a housing, the main control board and the plurality of electronic locks are disposed within the housing, the automation system module further comprises: the indicating lamps are arranged on the shell, each indicating lamp corresponds to one cell, and the indicating lamps are electrically connected with the main control board.

8. The steel net cabinet according to claim 7, wherein each set of indicator lights comprises 2 indicator lights.

9. The steel net cabinet according to claim 7, wherein the automation system module further comprises:

the button is arranged on the shell, each button corresponds to one cell, the button is electrically connected with the main control board, and the button is used for generating a control signal and sending the control signal to the main control board.

10. The steel net cabinet according to claim 1, wherein the automation system module further comprises:

each sensor corresponds to one cell and is used for sending a sensing signal to the main control board after sensing the steel mesh;

the main control board is also used for controlling the corresponding lock tongue to pop up after receiving the induction signal.

11. The steel net cabinet according to claim 1, wherein the cabinet body has multiple layers, and different layers are vertically stacked.

12. The steel net cabinet according to claim 1, wherein each unit cell includes therein:

the upper limit switch and the lower limit switch are used for limiting the storage position of the steel mesh in the cell, so that the steel mesh keeps a movable distance from the bottom surface and the top surface of the cell when stored in the cell.

13. The steel net cabinet according to claim 1, wherein each automation system module further comprises:

and the audible and visual alarm is connected with the main control board.

14. A steel mesh management system, comprising:

a steel net cabinet as defined in any one of claims 1 to 13; and the number of the first and second groups,

and the controller is in communication connection with the steel mesh cabinet and is used for generating a control signal.

15. The steel mesh management system according to claim 14, further comprising: a scanner communicatively coupled to the controller.

16. The steel mesh management system according to claim 14, further comprising: and the display is connected with the controller.

17. The steel mesh management system according to claim 14, wherein said controller is connected to said steel mesh cabinet via a CAN bus.

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