CN116828038A - Control method and system for secure storage equipment, electronic equipment and storage medium - Google Patents

Abstract

The application relates to the field of storage equipment control systems, in particular to a method and a system for controlling safe storage equipment, electronic equipment and a storage medium, wherein the method comprises the following steps: acquiring request information of a user for taking tools, wherein the request information carries user characteristic information; acquiring historical selection information of a user according to the user characteristic information; acquiring residual tool information in the storage equipment and corresponding tool wear information; generating tool recommendation information according to the request information, the history selection information, the residual tool information and the tool wear information; acquiring tool selection information of a user; acquiring a corresponding tool position according to the tool selection information; and taking out the corresponding tool according to the tool position for the user to work. In the actual use process, the tool with corresponding requirements can be distributed according to the work type of the user, so that the accuracy of the user in taking the tool is improved, the step of turning back the tool again by the user is reduced, and the subsequent work efficiency of the user is improved.

Description

Control method and system for secure storage equipment, electronic equipment and storage medium

Technical Field

The present application relates to the field of storage device control systems, and in particular, to a method and system for controlling a secure storage device, an electronic device, and a storage medium.

Background

Safes and storage in the financial and retail industries, aircraft manufacturing and repair industries in the aerospace field, and special management industries involve a wide variety of stored items and are expensive, and the management requirements for such items are stringent.

In the related art, a control system in the secure storage device uses a secure storage method combining a static password and a mechanical key to improve the security performance of the secure storage device. After the operator opens the storage device, the tools are placed in the corresponding storage boxes according to different types of the tools, so that the classified storage of the tools is completed.

In practice, the inventors have found that at least the following problems exist in this technique:

the unlocking method with the matched static password and the mechanical key has low safety coefficient, after unlocking is finished, a user needs to select needed tools in each storage grid, and meanwhile, the abrasion degree of each tool needs to be observed to adapt to the working requirement of the user, and the whole process is complicated, so that the unlocking method needs to be improved.

Disclosure of Invention

In order to solve the above problems, the present application provides a method, a system, an electronic device and a storage medium for controlling a secure storage device, which can simplify the steps for a user to take a tool.

In a first aspect, the present application provides a method for controlling a safe storage device, which adopts the following technical scheme:

a method of controlling a secure storage device, comprising the steps of:

acquiring request information of a user for taking tools, wherein the request information carries user characteristic information;

acquiring history selection information of the user according to the user characteristic information;

acquiring residual tool information in the safety storage equipment and corresponding tool wear information;

generating tool recommendation information according to the request information, the history selection information, the residual tool information and the tool wear information;

acquiring tool selection information of a user, wherein the tool selection information is acquired by the user according to the tool recommendation information and the residual tool information;

acquiring a corresponding tool position according to the tool selection information;

and taking out the corresponding tool according to the tool position for the user to work.

Through the technical scheme, when a request of taking tools by a user is received, the system identifies the user according to the carried user characteristic information and acquires the history selection information of the corresponding user, the system acquires the residual tool information in the safety storage equipment and the wear information of the corresponding tool, and at the moment, the system can generate tool recommendation information from the request information, the history selection information, the residual tool information and the tool wear information and push the tool recommendation information to the user. The user can select the tool recommendation information, the system can obtain the position of the corresponding tool according to the tool selection information after receiving the tool selection information of the user, and the user can take out the tool according to the position of the tool to work. The method and the device realize the automation of verifying the identity information of the user to the taking tool, improve the accuracy of selecting the tool by the user, reduce the step of turning back the tool again by the user, and further improve the working efficiency of the user.

In some embodiments, the generating tool recommendation information according to the request information, the history selection information, the remaining tool information and the tool wear information specifically includes:

acquiring work type information according to the request information;

acquiring the precision requirement of each procedure according to the work type information;

generating a tool set to be recommended according to the request information and the residual tool information;

judging whether tool wear information of each tool in the tool set to be recommended meets the precision requirement of a corresponding procedure or not;

and if so, generating tool recommendation information according to the tool set to be recommended and the history selection information.

Through the technical scheme, after the work type information of the user is obtained, the system can obtain the precision requirement of each working procedure in the work according to the work type information, so that the system can generate different tool recommendation information according to different works. The system compares the precision required by each tool in the tool set to be recommended with the tools in the corresponding working procedure, and finally generates tool recommendation information after the comparison is completed, so that the possibility of errors when a user takes the tools manually is reduced, and meanwhile, the step that the user turns back again due to improper tool selection is reduced, and the working efficiency of the user is improved.

In some embodiments, further comprising:

if the tool wear information of one or more tools in the tool set to be recommended does not meet the precision requirement of the corresponding working procedure, generating replacement tool information of the one or more tools;

the generating the replacement tool information of the one or more tools specifically includes:

determining a replacement tool set according to the work type information, the precision requirements of each procedure, the residual tool information and the tool wear information;

and generating tool recommendation information according to the tool set to be recommended and the replacement tool set.

According to the technical scheme, in the process of generating the tool recommendation information by the system, when the tool wear information of one or more tools in the recommendation tool set does not meet the precision requirement of the corresponding procedure, the system can select the tool which is matched with the working type and meets the precision requirement of the corresponding procedure from the safety storage equipment, generate the replacement tool set, combine the recommendation tool set with the replacement tool set and regenerate the tool recommendation set, so that the tool is taken when the tool stock requirement is not met, and convenience is brought to the follow-up use of the tool by an operator.

In some embodiments, further comprising:

judging whether the precision requirement is smaller than a preset precision standard threshold value or not;

if so, the tool with higher abrasion is preferentially selected when the tool recommendation information is generated.

Through the technical scheme, when the precision requirement in the corresponding procedure is smaller than the preset precision standard threshold, the system preferentially selects the tool with larger abrasion for the user to screen the tool with larger abrasion, so that the possibility of damage to the tool with lower abrasion is reduced.

In some embodiments, the removing the corresponding tool according to the tool position specifically includes:

according to the tool position, controlling a lifting device in the safe storage equipment to move to a corresponding position to take out the tool;

and controlling the lifting device to move so as to convey the tool to a picking platform of the safe storage equipment.

Through the technical scheme, after the tool position is obtained, an instruction is sent to the lifting device, the lifting device moves to the corresponding storage grid of the storage equipment, the clamping device in the lifting device stretches into the storage grid and moves the tool at the corresponding position to the lifting device, and the lifting device moves to the picking platform of the storage equipment, so that the automation of tool picking is realized, and convenience is brought to a user for tool picking.

In some embodiments, further comprising: upon storing the tool;

acquiring weight information, surface wear information and internal wear information of the tool;

and acquiring tool loss information according to the weight information, the surface wear information and the internal wear information.

Through above-mentioned technical scheme, when the instrument is gone into to the deposit of safety equipment, detects the weight when instrument deposit, discerns the surface wear and the inside wearing and tearing of instrument simultaneously, and the system of making things convenient for judges the loss information of department instrument according to weight, surface wear information and the inside wearing and tearing information when instrument deposit, and the system of making things convenient for takes the instrument to the wearing and tearing information of instrument is recorded.

In some embodiments, further comprising:

according to the work type information, acquiring the estimated loss information of the tool;

acquiring the tool loss information of the stored tool;

and evaluating the operation standardization of the user according to the estimated loss information and the tool loss information.

Through the technical scheme, after the user finishes using the tool, weight information and surface abrasion information of the tool after the tool is used are obtained, and internal abrasion information of the tool is collected and recorded through the flaw detection assembly. And comparing the weight information, the surface wear information and the internal wear information with the initial weight information, the surface wear information and the internal wear information of the tool at the moment to judge the specific wear information of the tool. And then comparing the tool loss at the moment with the tool loss predicted by the system according to the working type, and evaluating the standard degree of the tool used by the user by the system. The system may alert the user when the tool loss is greater than the expected loss.

In a second aspect, the present application provides a control system for a safe storage device, which adopts the following technical scheme:

a secure storage device control apparatus comprising:

the request information acquisition module is used for acquiring request information of a user for taking tools, wherein the request information carries user characteristic information;

the history selection information acquisition module is used for acquiring the history selection information of the user according to the user characteristic information;

the residual tool information acquisition module is used for acquiring residual tool information in the storage equipment and corresponding tool wear information;

the tool recommendation information acquisition module is used for generating tool recommendation information according to the request information, the history selection information, the residual tool information and the tool wear information;

the tool selection information acquisition module is used for acquiring tool selection information of a user, wherein the tool selection information is acquired by the user according to the tool recommendation information and the residual tool information;

the tool position acquisition module is used for acquiring a corresponding tool position according to the tool selection information;

and the tool taking-out module is used for taking out the corresponding tool according to the tool position and is used for the work of a user.

In a third aspect, the present application provides an electronic device, which adopts the following technical scheme:

an electronic device, comprising:

at least one processor;

storage means for storing at least one computer program;

the at least one computer program, when executed by the at least one processor, causes the at least one processor to implement the method as described in the above claims.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method of the above-mentioned technical solution.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by collecting the request information, the history selection information, the remaining tool information and the tool wear information, the system recommends usable tools to the user, the time for the user to select the corresponding tools is reduced, and meanwhile, the accuracy of the user to select the corresponding tools is improved, so that the subsequent working efficiency of the user is improved.

2. According to the work type information, the precision requirements of each procedure, the residual tool information and the tool wear information, it is determined that one or more tools in the recommended tool set are replaced, and the efficiency and accuracy of taking the tools by a user are further improved, so that the subsequent work efficiency of the user is improved.

3. Through collecting the tool loss information, the tool loss information is compared with the estimated expected loss information estimated by the system, and the standard degree of the tool used by the user is conveniently judged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for controlling a secure storage device according to an embodiment of the present application;

FIG. 2 is a schematic flow chart of a process for storing tools after use according to an embodiment of the present application;

fig. 3 is a schematic frame diagram of a control system for a safe storage device according to an embodiment of the present application.

Detailed Description

In order to make the objects, features and advantages of the present application more comprehensible, a technical solution according to one embodiment of the present application is described in detail below with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The application is described in further detail below with reference to fig. 1 to 3.

The method for controlling the safe deposit device as shown in fig. 1 may be implemented as follows:

101. and acquiring request information of a user for taking tools, wherein the request information carries user characteristic information.

In this embodiment, safety storage equipment includes equipment body and a plurality of storage grid that is used for depositing different types of instrument, and each storage grid evenly sets up inside the equipment body, is equipped with on the equipment body and gets platform and deposit the platform, and the equipment body is inside to be provided with the elevating gear that is used for moving the instrument and is used for pressing from both sides the manipulator of getting the instrument, gets platform department and is equipped with the emergency exit, and elevating gear movable to get platform and storage platform department. In the embodiment of the application, the tool can be set as an object with higher precision requirements, such as a high-precision cutter or a high-precision measuring instrument.

The user characteristic information includes identity information of the user and a work type of the user.

The user clicks the object taking option on the intelligent touch screen of the insurance gate, and the system receives the request information of the user. Meanwhile, the camera on the safe door carries out face recognition on the user, the camera carries out living experience on the user so as to ensure the accuracy of face recognition, the fingerprint of the user is identified through the fingerprint identifier on the safe door, the identification result is transmitted to the system, the system compares the identification result with the historical reading result, and the identity information of the user is acquired if the comparison is successful.

The user inputs the number corresponding to the work type on the intelligent touch screen, the system receives the work type information of the user, and at the moment, the system generates a group of random serial numbers. The system then transmits the random serial number to the user's bracelet or mobile phone, the user inputs the random serial number on the intelligent touch screen, in the embodiment of the application, the input time can be limited to 6 seconds, and if the input fails within 6 seconds, the interface for inputting the serial number is exited. If the input is successful, the intelligent touch screen transmits the random serial numbers input by the user to the system, the system compares the two random serial numbers, and if the matching is successful, a tool selection interface can be entered, and the user can perform the next operation.

In the embodiment of the application, the input times of the user can be set to be five times, and if the times of the matching failure reach five times, a buzzer on the safety door is started and an alarm function is realized, and meanwhile, an error red frame appears on the intelligent touch screen.

1. And acquiring historical selection information of the user according to the user characteristic information.

After the identity verification of the user by the system is completed, a tool selection interface appears on the intelligent touch screen of the security gate, and the system can obtain the history selection information of the user according to the characteristics of the user. Under the action of the history selection information, the efficiency of taking tools by the user is improved, and therefore the subsequent working efficiency of the user is improved.

2. And acquiring the residual tool information in the safety storage equipment and corresponding tool wear information.

The user places the instrument on depositing the platform, and pressure sensor on depositing the platform detects the heavy object, and the pressure balance starts and weighs the instrument this moment, and the camera that is located the deposit platform department shoots the instrument on the pressure balance, and the back is passed to the system and is discerned after shooing.

After the system identification is complete, the system records the type and weight of the tool. The system analyzes the storage conditions of the tools according to the types of the tools, and classifies the tools according to the storage conditions of the tools. Meanwhile, the X-ray detector on the storage platform detects the flaws of the tools and conveys the flaw detection results to the system, the system analyzes the loss degree of the tools according to the flaw detection results, and sorts the same tools according to the loss degree, thereby providing convenience for subsequent taking.

After the tool analysis is completed, the lifting device moves to the storage platform, the mechanical arm in the lifting device stretches out and grabs the tool into the lifting device, the lifting device moves into the corresponding storage grid according to the storage conditions of various tools, the possibility of damage to the tools is reduced, and the tools are ordered according to the abrasion degree of the tools so as to select the tools required by different work types subsequently.

The system monitors the remaining tools in the safety storage equipment in real time, obtains the remaining tool information and the corresponding tool wear information, and can screen the tools according to the requirements of users in real time, so that the steps of self selection of the users are reduced, and meanwhile, the accuracy of tool selection of the users is improved.

3. Tool recommendation information is generated based on the request information, the history selection information, the remaining tool information, and the tool wear information.

After the system analyzes the identity of the user, the system obtains the information of the work type corresponding to the user when taking the tool, and then the system can obtain each procedure corresponding to the work, the type of the tool required by each procedure and the precision requirement of the tool corresponding to each procedure according to the data stored in the cloud.

The historical selection information here includes the type of each tool that matches such work and the accuracy requirements of the tool in each process of such work.

The system searches for the remaining tools in the secure storage device, and then combines the tools with the history selection information and the work types of the users to directly generate a tool set to be recommended. At this time, the tool set to be recommended is composed of a plurality of tool combinations, each tool combination meets the precision requirement of the corresponding working type, each tool combination is composed of one or more tools, and each tool meets the precision requirement of the corresponding working procedure. And comparing each tool in the tool set to be recommended with the precision requirement of the tool required by the user in the work, and directly generating tool recommendation information by the system after the comparison is successful. The tool recommendation information at this time is composed of a plurality of sets of tool combinations matched with the corresponding work types.

The user can randomly choose each tool combination. The steps of manually searching the tool by the user and selecting the tool are reduced, and the efficiency of taking the tool by the user is improved, so that the subsequent working efficiency of the user is improved.

In the process of generating the tool recommendation information, the system analyzes the precision requirements of different working procedures in different working types, and the preset precision standard threshold value of each working procedure in the working type can be obtained. When the precision requirement of the working procedure in the working process is smaller than a preset precision standard threshold value, the system preferentially recommends tools with higher abrasion degrees, so that on one hand, the loss of the tools with lower abrasion degrees is reduced, the storage rate of the tools with higher precision in the safe storage equipment is improved, and on the other hand, the tools with higher abrasion degrees are convenient to discard.

For example, according to the request information of the user, determining that the working type of the user is A, the working procedures corresponding to the working of A are a1, a2 and a3, the tool type corresponding to the working procedure a1 is a b1 type, the tool type corresponding to the working procedure a2 is a b2 type, and the tool type corresponding to the working procedure a3 is a b3 type; selecting part or all of the tools of the types b1, b2 and b3 according to the residual tool information in the safe storage equipment to generate a tool set to be recommended, screening the wear degree of each tool in the tool set to be recommended by the system to respectively meet the precision requirements in the working procedures a1, a2 and a3, and combining the tool set to be recommended with the historical selection information of the user, wherein the system can generate tool recommendation information for the user to select, so that the accuracy of recommending tools by the system is improved.

When the precision requirement of one or more tools in one or more tool combinations of a plurality of tool combinations recommended by the system does not meet the minimum precision requirement in the corresponding working procedure, namely the tool has large abrasion, and the precision requirement of the existing tools in the safe storage equipment does not meet the precision requirement, the tool combinations need to be recombined.

The system directly determines a replacement tool set according to the work type information, the precision requirements of each procedure, the residual tool information and the tool wear information. The replacing tool set has the same function as tools to be replaced and meets the precision requirement of the corresponding procedure, and at the moment, the system can randomly select one or more tools to be replaced corresponding to the replacement from the replacing tool set, so that the tool recommendation information is regenerated, and convenience is further brought to users for taking the tools.

4. Tool selection information of a user is acquired, and the tool selection information is acquired by the user according to the tool recommendation information and the residual tool information.

After the system generates the tool recommendation information, the system can convey a plurality of recommended tool combinations to the intelligent touch screen, at the moment, a user can select from the plurality of recommended tool combinations, and after the selection is completed, the system acquires the selection information of the user so as to take out tools required by the user.

The user obtains tool selection information according to the tool recommendation information and the remaining tool information, and the following steps can be implemented: marking the residual tools which meet the work type information and the precision requirements of each process according to the work type information, the precision requirements of each process and the residual tools which are not recommended in the safety storage equipment; and when the recommended tool combination does not meet the requirements of the user, acquiring the marked remaining tools for the user to select by himself. Under the action of the marks, the selection range of the user is increased, so that the efficiency of the user for taking tools is further improved.

5. And acquiring the corresponding tool position according to the tool selection information.

After the system acquires the tool selection information of the user, the system analyzes the tool selection information, and the position of the corresponding tool can be obtained after the analysis is completed, so that the subsequent lifting device can accurately take out the tool required by the user.

6. And taking out the corresponding tool according to the tool position for the user to work.

After the tool position is obtained, the system sends a take-out instruction to the lifting device, the lifting device moves to the corresponding storage grid, the manipulator on the lifting device grabs the corresponding tool to the lifting device, the lifting device moves to the picking platform, after the manipulator in the lifting device grabs the tool to the picking platform, the safety door is opened, a user can pick the required tool at the moment, the time for searching, selecting and taking out the corresponding tool by the user is saved, meanwhile, the possibility of errors when the user selects the tool is reduced, and accordingly the subsequent working efficiency of the user is improved.

As shown in fig. 2, the following steps may be performed when the tool is stored:

201. weight information, surface wear information, and internal wear information of the tool are obtained.

After the user finishes using the tool, the user places the tool on the storage platform, the pressure sensor on the storage platform senses the weight, the pressure scale on the storage platform is started at the moment and weighs the tool returned by the user, and after the weighing is finished, the brand-new weight of the tool is transmitted to the system and recorded.

And the camera at the storage platform shoots the surface of the tool and transmits the shooting result to the system, the system identifies the shot image, the type of the tool is obtained after the identification is completed, and the shot image is analyzed to obtain and record the surface abrasion information of the tool.

And the X-ray detector on the storage platform detects the flaw inside the tool and transmits the flaw detection result to the system, the system analyzes the flaw detection result and obtains the internal wear information of the tool, and the system records the internal wear information of the tool.

202. Tool wear information is obtained from the weight information, the surface wear information, and the internal wear information.

The system compares the stored weight information, surface wear information and internal wear information of the tool with the weight information, surface wear information and internal wear information when the tool is taken out, so that the system analyzes and records the wear information of the tool, and convenience is provided for the subsequent tool re-use.

1. And acquiring the estimated loss information of the tool according to the tool type information.

After the system acquires the work type information, the system predicts the loss generated during the work of each working procedure in the work, so that the predicted loss information of the tool is obtained, and the estimated loss information is used for evaluating the standard degree of the tool used by the subsequent evaluation user.

2. And evaluating the operation standardization of the user according to the expected loss information and the tool loss information.

After the system obtains the loss information, the system compares the estimated loss degree of the tool in the work with the loss information, and when the loss of the returned tool is larger than the estimated loss of the tool in the work, the system can evaluate the standard degree of the tool used by the user and archive the use record of the user.

The system then transmits the compared information to the intelligent touch screen at the storage platform, the user uses the intelligent touch screen to explain the situation, and the intelligent touch screen transmits the description of the user to the system for storage. After the system receives the description of the user, the system marks and records the user, when the system marks the user three times, the system generates judging information for judging the professional degree of the user, the judging information is transmitted to a bracelet or a mobile phone of an administrator, so that the administrator can judge the authority of the user again, and after the administrator judges the user, the administrator obtains new authority information of the user, thereby screening the professional degree of the user and effectively reducing the scrapping speed of tools.

When the system compares the existing wear degree of the tool with the highest wear degree of the tool in the applicable working types, and the wear degree of the tool is higher than the highest wear degree, the tool reaches the scrapping requirement, an administrator can discard the tool, and the screening step of the tool is completed, so that the tool with higher wear is not easy to appear in the storage equipment

After the system analyzes the loss information of the tools, the system generates tool storage information according to the types and storage conditions of the tools, the system sends a signal to the lifting device, the lifting device moves to the storage platform, a manipulator on the lifting device clamps the tools to the lifting device, the lifting device moves to the storage positions corresponding to the tools according to the tool storage information, the manipulator in the lifting device sorts the tools in the corresponding storage grids, and after the sorting is completed, the manipulator moves the tools to the corresponding storage grids, so that automation of taking and storing the tools is realized, the efficiency of returning the tools by a user is improved, and convenience is provided for the follow-up rapid taking of the tools corresponding to the requirements.

As shown in fig. 3, a frame schematic diagram of a control system of a safety storage device according to an embodiment of the present application includes:

a request information obtaining module 301, configured to obtain request information of a user, where the request information carries user feature information;

a history selection information obtaining module 302, configured to obtain history selection information of the user according to the user feature information;

a remaining tool information obtaining module 303, configured to obtain remaining tool information in the storage device and corresponding tool wear information;

a tool recommendation information obtaining module 304, configured to generate tool recommendation information according to the request information, the history selection information, the remaining tool information, and the tool wear information;

a tool selection information obtaining module 305, configured to obtain tool selection information of a user, where the tool selection information is obtained by the user according to the tool recommendation information and the remaining tool information;

a tool position obtaining module 306, configured to obtain a corresponding tool position according to the tool selection information;

and the tool extraction module 307 is used for extracting the corresponding tool according to the tool position for user work.

In some possible embodiments, an electronic device according to embodiments of the present application may include at least one processor, and at least one storage device. Wherein the storage means stores at least one computer program which, when executed by the processor, causes the processor to perform the steps of the method according to various embodiments of the application as described in the technical solutions above in the specification.

In some possible embodiments, the aspects of the present application may also be implemented as a computer-readable storage medium, on which a computer program is stored, which when being executed by a processor of an electronic device is configured to implement the steps in the method according to the various embodiments of the present application described in the above technical solutions of the present specification.

The computer readable storage medium may be, for example, but not limited to: an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or a combination of any of the foregoing. More specific examples (a non-exhaustive list) of the readable storage medium would include the following: an electrical connection having one or more wires, a portable disk, a hard disk, random Access Memory (RAM), read-only memory (ROM), erasable programmable read-only memory (EPROM or flash memory), optical fiber, portable compact disk read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

Program code embodied on a readable storage medium may be transmitted using any appropriate medium, including but not limited to: wireless, wired, fiber optic cable, RF, etc., or any suitable combination of the foregoing.

Program code for carrying out operations of the present application may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, C++ or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the consumer electronic device, partly on the remote electronic device, or entirely on the remote electronic device or server. In the case of remote electronic devices, the remote electronic device may be connected to the consumer electronic device through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external electronic device (e.g., connected through the internet using an internet service provider).

Those skilled in the art will appreciate that the various aspects of the application may be implemented as a system, method, or program product. Accordingly, aspects of the application may be embodied in the following forms, namely: an entirely hardware embodiment, an entirely software embodiment (including firmware, micro-code, etc.) or an embodiment combining hardware and software aspects may be referred to herein as a "circuit," module "or" system.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. A secure storage device control method for storing tools, the method comprising:

acquiring request information of a user for taking tools, wherein the request information carries user characteristic information;

acquiring history selection information of the user according to the user characteristic information;

acquiring residual tool information in the safety storage equipment and corresponding tool wear information;

generating tool recommendation information according to the request information, the history selection information, the residual tool information and the tool wear information;

acquiring tool selection information of a user, wherein the tool selection information is acquired by the user according to the tool recommendation information and the residual tool information;

acquiring a corresponding tool position according to the tool selection information;

and taking out the corresponding tool according to the tool position for the user to work.

2. The method of claim 1, wherein generating tool recommendation information based on the request information, history selection information, remaining tool information, and tool wear information, specifically comprises:

acquiring work type information according to the request information;

acquiring the precision requirement of each procedure according to the work type information;

generating a tool set to be recommended according to the request information and the residual tool information;

judging whether tool wear information of each tool in the tool set to be recommended meets the precision requirement of a corresponding procedure or not;

and if so, generating tool recommendation information according to the tool set to be recommended and the history selection information.

3. The secure storage apparatus control method of claim 2, further comprising:

if the tool wear information of one or more tools in the tool set to be recommended does not meet the precision requirement of the corresponding working procedure, generating replacement tool information of the one or more tools;

the generating the replacement information of the one or more tools specifically includes:

determining a replacement tool set according to the work type information, the precision requirements of each procedure, the residual tool information and the tool wear information;

and generating tool recommendation information according to the tool set to be recommended and the replacement tool set.

4. A safe deposit equipment controlling method according to claim 2 or 3, characterized by further comprising:

judging whether the precision requirement is smaller than a preset precision standard threshold value or not;

if so, the tool with higher abrasion is preferentially selected when the tool recommendation information is generated.

5. The method for controlling a safe storage apparatus according to claim 1, wherein the extracting the corresponding tool according to the tool position specifically comprises:

according to the tool position, controlling a lifting device in the safe storage equipment to move to a corresponding position to take out the tool;

and controlling the lifting device to move so as to convey the tool to a picking platform of the safe storage equipment.

6. The secure storage apparatus control method of claim 1, further comprising: upon storing the tool;

acquiring weight information, surface wear information and internal wear information of the tool;

and acquiring tool loss information according to the weight information, the surface wear information and the internal wear information.

7. The method of controlling a secure storage device according to claim 6, further comprising:

according to the work type information, acquiring the estimated loss information of the tool;

acquiring the tool loss information of the stored tool;

and evaluating the operation standardization of the user according to the estimated loss information and the tool loss information.

8. A secure storage device control system, comprising:

the request information acquisition module is used for acquiring request information of a user for taking tools, wherein the request information carries user characteristic information;

the history selection information acquisition module is used for acquiring the history selection information of the user according to the user characteristic information;

the residual tool information acquisition module is used for acquiring residual tool information in the storage equipment and corresponding tool wear information;

the tool recommendation information acquisition module is used for generating tool recommendation information according to the request information, the history selection information, the residual tool information and the tool wear information;

the tool selection information acquisition module is used for acquiring tool selection information of a user, wherein the tool selection information is acquired by the user according to the tool recommendation information and the residual tool information;

the tool position acquisition module is used for acquiring a corresponding tool position according to the tool selection information;

and the tool taking-out module is used for taking out the corresponding tool according to the tool position and is used for the work of a user.

9. An electronic device, comprising:

at least one processor;

storage means for storing at least one computer program;

when executed by the at least one processor, causes the at least one processor to implement the method of any one of claims 1 to 7.

10. A computer-readable storage medium having stored thereon a computer program, characterized by: the computer program implementing the method of any of claims 1 to 7 when executed by a processor.