CN111610741A - Tool supervision system and method - Google Patents

Abstract

The application discloses a system and a method for monitoring tools, which are used for counting access information and ex-warehouse information and generating borrowing information. And counting the access information and the warehousing information to generate return information. And counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse. And collecting environmental influence factors in the tool warehouse. And under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to the environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors. Therefore, the scheme provided by the application can monitor the personnel flow of the tool warehouse, can accurately record the condition of borrowing and returning the tools, and can regulate and control the environment of the tool warehouse to provide a good storage environment for the tools. Based on the scheme that this application provided, can assist the multiplexer utensil administrator to improve multiplexer utensil's supervision level to satisfy standardized supervision requirement.

Description

Tool supervision system and method

Technical Field

The application relates to the technical field of warehousing management, in particular to a tool supervision system and a tool supervision method.

Background

The electric power energy industry is the national economic foundation, and in order to guarantee the safe production of electric power operation, the electric power safety management and supervision need to be greatly strengthened. In recent years, the amount and types of electric power live working tools have been increasing rapidly to meet the demand for power development. The performance and quality of the tool are related to safe production, for example, the voltage detection tool has a certain service life, and if the voltage detection tool exceeding the service life is used, a safety accident occurs in the voltage detection operation. In addition, the environment of the tool warehouse also affects the tools, and for example, if the insulated tools need to be stored in a dry environment and the insulated tools are left in an environment with high humidity for a long time, the insulation performance of the insulated tools may be reduced. In addition, the monitoring of the tools and appliances is limited by the influence of human factors, and has the defects of information omission, information time prolonging and the like. In addition, due to the fact that the number of visitors of the tool warehouse is large, the mobility of personnel is high, and the loss phenomenon of tools is serious.

At present, most of supervision means for tools and appliances adopt manual supervision, for example, full-time staff are arranged to register information of staff entering and leaving a tool and appliance warehouse, the full-time staff are responsible for regulating and controlling the temperature and humidity of the warehouse, and unscheduled organization staff check the performance and quality of the tools and appliances. Therefore, the existing tool supervision means are limited by the adverse factors such as subjective error, large workload, insufficient staff and the like in the manual supervision means, and the tool manager is difficult to realize, low in use efficiency and difficult to meet the standardized supervision requirement due to the fact that the existing tool supervision means are difficult to realize.

Disclosure of Invention

The application provides a tool supervision system and a tool supervision method, and aims to assist a tool manager in improving the supervision level of tools and tools so as to meet the standardized supervision requirements.

In order to achieve the above object, the present application provides the following technical solutions:

a tool supervision system comprising:

the system comprises access control equipment, radio frequency identification equipment, environment monitoring equipment and a monitoring host;

the access control equipment is used for carrying out identity verification on a visitor of the tool warehouse, releasing the visitor to enter and leave the tool warehouse under the condition that the identity verification of the visitor is passed, recording access information and sending the access information to the monitoring host;

the radio frequency identification equipment is used for marking the tools in the warehouse when the tools are out of the warehouse to generate warehouse-out information; under the condition that the tools and the instruments are put in storage, carrying out storage marking on the tools and the instruments to generate storage information; sending the ex-warehouse information and the in-warehouse information to the monitoring host;

the environment monitoring equipment is used for collecting the environment influence factors in the tool warehouse and sending the environment influence factors to the monitoring host;

the monitoring host is used for counting the access information and the ex-warehouse information to generate borrowing information; counting the access information and the warehousing information to generate return information; counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse; and under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors.

Optionally, the monitoring host is further configured to:

judging whether the tools are not returned according to the period according to the statistical result and a preset borrowing period;

and sending an unscheduled return prompt to the user under the condition that the tools are not returned according to the period, wherein the unscheduled return prompt comprises the identification of the tools which are not returned according to the period.

Optionally, the monitoring host is further configured to:

judging whether the service life of the tool reaches the deadline or not according to a preset first corresponding relation table, wherein the first corresponding relation table comprises the corresponding relation between the service life of the tool and the production date;

and sending a scrapping prompt to the user when the service life of the tool reaches the period, wherein the scrapping prompt comprises an identifier of the tool with the service life reaching the period.

Optionally, the monitoring host is further configured to:

judging whether the tool needs to be detected or not according to a preset second corresponding relation table, wherein the second corresponding relation table comprises a corresponding relation between the first warehousing time of the tool and the detection period time;

and under the condition that the tool is determined to need to be detected, sending an expiration detection prompt to the user, wherein the expiration detection prompt comprises the identification of the tool needing to be detected.

Optionally, the environmental impact factors include ambient temperature, ambient humidity and ambient smoke content;

the monitoring host computer, under the condition that the environmental impact factor does not satisfy the preset environmental requirement, issue the regulation and control instruction to the environmental control equipment in the tool warehouse, trigger the environmental control equipment regulation and control the environmental impact factor includes:

judging whether the environment temperature is within a preset temperature range or not;

under the condition that the environment temperature is not within the preset temperature range, sending a temperature alarm prompt to the user, sending a regulation and control instruction to temperature control equipment in the tool warehouse, and triggering the temperature control equipment to regulate and control the environment temperature;

judging whether the environment humidity is within a preset humidity range;

sending a humidity alarm prompt to the user when the environment humidity is not within the preset humidity range, issuing a regulation and control instruction to humidity control equipment in the tool warehouse, and triggering the humidity control equipment to regulate and control the environment humidity;

judging whether the environmental smoke content is greater than a preset smoke content threshold value or not;

and under the condition that the environmental smoke content is greater than the preset smoke content threshold value, sending a smoke alarm prompt to the user, issuing a regulation and control instruction to exhaust equipment in the tool warehouse, and triggering the exhaust equipment to regulate and control the environmental smoke content.

Optionally, the method further includes:

tool detection equipment;

the tool detection equipment is used for generating a detection result of a target tool and sending the detection result to the monitoring host, wherein the target tool is the tool detected by the visitor by using the tool detection equipment in each tool; and sending an alarm prompt to the visitor under the condition that the detection result indicates that the target tool is unqualified.

Optionally, the monitoring host is further configured to:

sending a target tool disqualification prompt to the user under the condition that the detection result indicates that the target tool is disqualified; and sending tool undetected prompts to the user and the visitor under the condition that no detection result exists in the tool to which the ex-warehouse information belongs.

Optionally, the method further includes:

a video recording device;

the video recording equipment is used for collecting the environment images in the tool warehouse.

Optionally, the monitoring host is further configured to:

and storing the environment image to the local.

A tool supervision method, comprising:

counting access information and ex-warehouse information to generate borrowing information;

counting the access information and the warehousing information to generate return information;

counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse;

wherein the access information is used for indicating that the visitor enters and leaves the tool warehouse under the condition that the identity of the visitor of the tool warehouse passes; the ex-warehouse information is used for indicating that the tools are marked for ex-warehouse under the condition that the tools are ex-warehouse; the warehousing information is used for indicating that the tools and the instruments are warehoused under the condition that the tools and the instruments are warehoused;

collecting environmental impact factors in the tool warehouse;

and under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors.

According to the technical scheme, the borrowing information is generated by counting the access information and the ex-warehouse information. And counting the access information and the warehousing information to generate return information. And counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse. And collecting environmental influence factors in the tool warehouse. And under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to the environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors. Therefore, the scheme provided by the application can monitor the personnel flow of the tool warehouse, can accurately record the condition of borrowing and returning the tools, and can regulate and control the ambient temperature, the ambient humidity and the ambient smoke content of the tool warehouse, thereby providing a good storage environment for the tools. Based on the scheme that this application provided, can assist the multiplexer utensil administrator to improve multiplexer utensil's supervision level to satisfy standardized supervision requirement.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1a is a schematic architecture diagram of a tool monitoring system according to an embodiment of the present disclosure;

fig. 1b is a schematic diagram of an interaction flow of each functional module in a tool monitoring system according to an embodiment of the present application;

fig. 1c is a schematic diagram illustrating an interaction flow of each functional module in another tool monitoring system according to an embodiment of the present application;

fig. 1d is a schematic diagram illustrating an interaction flow of each functional module in another tool monitoring system according to an embodiment of the present application;

fig. 1e is a schematic diagram of an interaction flow of each functional module in another tool monitoring system according to an embodiment of the present application;

fig. 1f is a schematic diagram illustrating an interaction flow of each functional module in another tool monitoring system according to an embodiment of the present application;

fig. 2 is a schematic diagram of a tool supervision method according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of another tool supervision method according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1a, an architecture diagram of a tool monitoring system provided for an embodiment of the present application includes:

the system comprises a radio frequency identification device 100, a monitoring host 200, a video recording device 300, an access control device 400, an environment monitoring device 500 and a tool detection device 600.

The interaction flow of each functional module in the tool monitoring system is shown in fig. 1b, fig. 1c, fig. 1d, fig. 1e and fig. 1f, and includes the following steps:

s101: and the access control equipment performs identity verification on the visitor of the tool warehouse.

If the identity authentication of the visitor passes, executing S102, otherwise executing S103.

It should be noted that the specific implementation process of performing identity authentication on a visitor includes: the access control equipment collects the biological characteristic information (such as fingerprint information and face information of a visitor) of the visitor through a preset biological characteristic identification device (such as a fingerprint input device and a camera device), and identifies the identity information of the visitor according to the biological characteristic information of the visitor. According to the identity of the visitor, whether the visitor has the permission of entering the tool warehouse or not is judged by combining the preset access control card reader. The identity information of the visitor is recorded in a preset access authority list, and when the visitor presents an electronic tag (such as a work card integrated with an electronic chip) which can be identified by an access card reader, the identity verification of the visitor is determined to be passed, and the visitor has the authority to enter the tool warehouse.

S102: and under the condition that the identity authentication of the visitor is passed, the access control equipment allows the visitor to enter and leave the tool warehouse and records the access information.

The access information comprises the corresponding relation between the identity information of the visitor and the access time, and the access time comprises the moment when the visitor enters the tool warehouse and the moment when the visitor leaves the tool warehouse.

S103: and the access control equipment sends the access information to the monitoring host.

The visitor information is sent to the monitoring host, so that the time when the visitor enters the tool warehouse and the time when the visitor leaves the tool warehouse can be inquired at any time, if accidents such as the fact that the tool is not returned or lost occur in the tool warehouse, suspicious personnel can be tracked according to the visitor information, and the storage tightness of the tool warehouse is improved.

Optionally, for any visitor, the access control device may record the access information in case that the authentication fails. Correspondingly, the access information comprises the time of identity verification of the target visitor and the identity information of the target visitor. The target visitor is the visitor of which the identity authentication is not passed in each visitor.

It should be noted that, because the access information includes the time when the target visitor performs the identity verification and the identity information of the target visitor, after the target visitor enters the tool warehouse regardless of the identity, suspicious personnel can be tracked subsequently according to the access information, and the keeping tightness of the tool warehouse is improved.

S104: the tool detection device generates a detection result of the target tool.

The target tool is a tool detected by a visitor by using the tool detection equipment in each tool, and the detection result comprises performance data of the target tool and an image of the target tool detection process.

The tool warehouse is provided with tool detection equipment, and is specially provided with a prompt slogan for detecting the tools to be received, so as to remind the visitor of detecting the received tools. The specific implementation process of detecting the target tool is common knowledge familiar to those skilled in the art, for example, before the insulating gloves for live working are taken out of the warehouse, inflation detection is required, if air leakage, sand holes and the like exist, the insulating gloves for live working should be immediately stopped and discarded, and accordingly, the detection result indicates that the insulating gloves for live working are not qualified.

S105: and sending an alarm prompt to the visitor by the tool detection equipment under the condition that the detection result indicates that the target tool is unqualified.

Wherein, based on the suggestion of reporting to the police for the visitor learns the unqualified condition of target multiplexer utensil, and the visitor consequently can in time change other multiplexer utensils of the same kind, eliminates the potential safety hazard that uses unqualified multiplexer utensil to lead to.

S106: and the tool detection equipment sends the detection result to the monitoring host.

Optionally, after receiving the detection result, the monitoring host not only stores the detection result locally, but also uploads the detection result to the internet, so that the user can query the detection result at any time.

The user mentioned in this embodiment specifically refers to a tool manager, i.e., a manager of a tool warehouse.

S107: and under the condition that the detection result indicates that the target tool is unqualified, the monitoring host sends a prompt that the target tool is unqualified to the user.

The user described in this embodiment specifically refers to an operation and maintenance person of the tool monitoring system. Based on the unqualified prompt of the target tool, the user can learn the unqualified condition of the target tool, and therefore the user can replace the unqualified tool as soon as possible, and potential safety hazards caused by the unqualified tool are eliminated from the source.

S108: and under the condition that the tools are delivered from the warehouse, the radio frequency identification equipment carries out warehouse delivery marking on the tools to generate warehouse delivery information.

The delivery information is used for indicating the delivery time of the tools. In this embodiment, a Radio Frequency Identification (RFID) device may be used as the RFID device, and the working principle of the RFID device is as follows: the method comprises the steps that an electronic tag capable of being identified by an RFID reader-writer is installed for each tool in a tool warehouse in advance, the electronic tag of each tool has a unique electronic code, and whether the tool leaves the tool warehouse or not is detected in real time by utilizing the characteristic that the electronic tag can be identified by the RFID reader-writer within a preset range.

S109: and the radio frequency identification equipment sends the ex-warehouse information to the monitoring host.

S110: and the monitoring host judges whether the tool to which the ex-warehouse information belongs has a detection result.

If the tool to which the ex-warehouse information belongs does not have the detection result, S111 is executed, otherwise, the visitor is allowed to take the tool out of the tool warehouse.

S111: the monitoring host sends tool non-detection prompts to the user and the visitors.

If the tool is not detected, the tool may have a potential safety hazard, and in order to ensure safe use of the tool, a visitor needs to be prompted to detect the tool. Meanwhile, the condition that the tools are not detected is informed to the user, the user can know the ex-warehouse condition of the tools (specifically, the tools are detected before ex-warehouse and are not detected before ex-warehouse), the control degree of the user on the ex-warehouse condition of the tools is improved, and safety accidents caused by the adoption of the tools with performance and quality not up to standard are avoided.

S112: and the monitoring host counts the access information and the ex-warehouse information to generate borrowing information, and stores the borrowing information to the local.

The borrowing information comprises identity information of the visitor and a corresponding relation between the identification of the tool and the delivery time. The statistical process of the access information and the ex-warehouse information comprises the following steps: if the time when the visitor leaves the tool warehouse is the same as the time when the target tool is taken out of the warehouse (there may be a slight deviation between the two times, but the deviation is within the preset range), the statistical result indicates that the visitor takes the tool out of the tool warehouse.

Optionally, the monitoring host may further send the borrowing information to the internet, so that the user may query the borrowing condition of the tool in the tool warehouse at any time.

S113: and under the condition that the tools and the instruments are put in storage, the radio frequency identification equipment marks the tools and the instruments in storage and generates storage information.

The warehousing information is used for indicating warehousing time of the tools.

S114: and the radio frequency identification equipment sends the warehousing information to the monitoring host.

S115: and the monitoring host counts the access information and the warehousing information, generates return information and stores the return information locally.

The return information comprises identity information of the visitor, and a corresponding relation between the identification of the tool and the warehousing time. The statistical process of the access information and the warehousing information comprises the following steps: if the time when the visitor enters the tool warehouse is the same as the warehousing time of the tools (there may be a slight deviation between the two times, but the deviation is within the preset range), the statistical result indicates that the visitor brings the tools into the tool warehouse.

Optionally, the monitoring host may further send the return information to the internet, so that the user may query the return condition of the tool in the tool warehouse at any time.

S116: and the monitoring host counts the borrowing information and the returning information to obtain a statistical result, and displays the statistical result to the user based on a preset interface.

The statistical result is used to indicate the storage condition of the tool in the tool warehouse (specifically, whether the tool is in the tool warehouse or in the borrowing state). The monitoring host displays the statistical result based on the preset interface, so that the user can clearly learn about the storage condition of the tools in the tool warehouse.

Optionally, the monitoring host may further send the statistical result to the internet, so that the user can query the storage condition of the tools in the tool warehouse through the internet at any time.

S117: and the monitoring host judges whether the tools are not returned according to the period according to the statistical result and the preset borrowing period. If the tool is not returned as scheduled, S118 is executed.

The borrowing time limit is used for indicating the borrowing time of the tool, and for example, the borrowing time of the safety helmet is 3 days.

S118: and the monitoring host sends an unscheduled return prompt to the user.

Wherein the non-return-by-date prompt comprises the identification of the non-return-by-date tool. The monitoring host sends the non-return-on-time prompt to the user, so that the user can clearly learn the non-return condition of the external borrowed tools in the tool warehouse, help the user to control the dynamics of the external borrowed tools, and prevent the loss of the tools.

Optionally, the monitoring host may further send the non-return-by-date prompt to the internet, so that the user can query the non-return condition of the lent tools in the tool warehouse through the internet at any time.

S119: and the monitoring host judges whether the service life of the tool reaches the deadline or not according to a preset first corresponding relation table.

The first corresponding relation table comprises corresponding relations between service lives of the tools and the production dates. If the service life of the tool in the tool warehouse reaches the end, S120 is executed.

S120: and the monitoring host sends a scrapping prompt to the user.

Wherein the rejection prompt comprises the identification of the tool with the service life reaching the deadline. Because the monitoring host computer sends the suggestion of scrapping to the user to make the user learn the life condition of multiplexer utensil as early as possible (whether specifically indicate multiplexer utensil is in life deadline), not only improve the user and to the degree of control of multiplexer utensil condition of leaving warehouse, and, can also stop the incident because of adopting the multiplexer utensil that life is out of date and take place.

Optionally, the monitoring host can also send the rejection prompt to the internet, so that a user can query the rejection condition of the tools in the tool warehouse at any time through the internet.

S121: and the monitoring host judges whether the tool needs to be detected or not according to a preset second corresponding relation table.

And the second corresponding relation table comprises the corresponding relation between the first warehousing time of the tools and the detection period time. If the current time is within the detection cycle time, it is determined that the tool needs to be detected, and S122 is executed.

S122: the monitoring host sends an expiration detection prompt to the user.

Wherein the due detection prompt includes an identification of the tool requiring detection. The monitoring host sends an expiration detection prompt to the user, so that the user can detect the tools and the instruments regularly, the performance and the quality of the tools and the instruments are ensured, and safety accidents caused by the adoption of the tools and the instruments of which the performance and the quality do not reach the standard are avoided.

Optionally, the monitoring host may further send the due detection prompt to the internet, so that the user can query the tool to be detected in the tool warehouse through the internet at any time (specifically, whether the tool needs to be detected or not).

S123: the environment monitoring equipment collects the environmental temperature, the environmental humidity and the environmental smoke content in the tool warehouse.

The specific implementation process for collecting the environmental temperature, the environmental humidity and the environmental smoke content in the warehouse of the tool is common knowledge familiar to those skilled in the art, and will not be described herein again.

S124: the environment monitoring equipment sends the environment temperature, the environment humidity and the environment smoke content to the monitoring host.

S125: the monitoring host displays the ambient temperature, the ambient humidity and the ambient smoke content to a user based on a preset interface.

Optionally, the monitoring host can also send ambient temperature, ambient humidity and ambient smoke content to the internet for the user can inquire the ambient temperature, ambient humidity and ambient smoke content in the tool and instrument warehouse through the internet at any time.

S126: the monitoring host judges whether the environmental temperature is within a preset temperature range.

If the ambient temperature is not within the preset temperature range, S127 is executed.

S127: the monitoring host sends a temperature alarm prompt to a user, issues a regulation and control instruction to temperature control equipment in the tool warehouse, and triggers the temperature control equipment to regulate and control the ambient temperature in the tool warehouse.

Wherein, because the performance and the quality of multiplexer utensil can receive ambient temperature's influence in the multiplexer utensil warehouse, in order to ensure the performance and the quality of multiplexer utensil, need monitor the ambient temperature in the multiplexer utensil warehouse.

It should be noted that, the monitoring host sends a temperature alarm prompt to the user, so that the control degree of the user on the tool warehouse is improved. Temperature control devices include, but are not limited to, air conditioners, heaters, and the like.

Optionally, the monitoring host may further send the temperature alarm prompt to the internet, so that the user can query the temperature alarm prompt at any time through the internet.

S128: the monitoring host judges whether the environment humidity is within a preset humidity range.

If the ambient humidity is not within the preset humidity range, step S129 is executed.

S129: the monitoring host sends a humidity alarm prompt to a user, sends a regulation and control instruction to the humidity control equipment in the tool warehouse, and triggers the humidity control equipment to regulate and control the environment humidity in the tool warehouse.

Wherein, because the performance and the quality of multiplexer utensil can receive the influence of environmental humidity in the multiplexer utensil warehouse, in order to ensure the performance and the quality of multiplexer utensil, need monitor the environmental humidity in the multiplexer utensil warehouse.

It should be noted that, because the monitoring host sends the humidity alarm prompt to the user, the control degree of the user on the tool warehouse is improved. The humidity control device includes, but is not limited to, a dryer, a dehumidifier, and the like.

Optionally, the monitoring host may further send the humidity alarm prompt to the internet, so that the user can query the humidity alarm prompt at any time through the internet.

S130: and the monitoring host judges whether the environmental smoke content is greater than a preset smoke content threshold value.

If the environmental smoke content is greater than the preset smoke content threshold, S131 is executed.

S131: the monitoring host sends a smoke alarm prompt to a user, issues a regulation and control instruction to the exhaust equipment in the tool warehouse, and triggers the exhaust equipment to regulate and control the environmental smoke content of the tool warehouse.

Because the environmental smoke content in the tool warehouse is greater than the preset smoke content threshold value, the tool warehouse may have a fire, so that a user needs to be prompted in time and emergency treatment is performed (namely, the exhaust equipment works to remove smoke in the tool warehouse).

It should be noted that, because the monitoring host sends the smoke alarm prompt to the user, the control degree of the user on the tool and instrument warehouse is improved, and the possible fire hazard in the tool and instrument warehouse is found and treated early. The air exhausting device includes, but is not limited to, an air exhauster, a ventilator, and the like.

Optionally, the monitoring host may further send the smoke alarm prompt to the internet, so that the user can query the smoke alarm prompt at any time through the internet.

S132: the video equipment collects the environmental images in the tool warehouse.

S133: the video equipment sends the environment image to the monitoring host.

S134: the monitoring host stores the environment image to the local.

The monitoring host stores the environment image to the local, so that the user can inquire the personnel flow condition and the environment change condition in the tool warehouse at any time, the control degree of the user on the tool warehouse is improved, and effective evidence is provided for the user to find lost tools.

Optionally, the monitoring host may further send the environment image to the internet, so that the user can query the environment image through the internet at any time.

In summary, the identity of the visitor in the tool and instrument warehouse is verified, and after the identity of the visitor is verified, the visitor is released to enter and leave the tool and instrument warehouse, and the access information is recorded. When the tool is delivered, the tool is marked to be delivered to the warehouse, and delivery information is generated. And under the condition that the tools are put in storage, carrying out storage marking on the target tools to generate storage information. And counting the access information and the ex-warehouse information to generate borrowing information, counting the access information and the in-warehouse information to generate returning information. And counting the borrowing information and the returning information to obtain the storage condition of the tools in the tool warehouse. Sending a prompt to the user and the visitor if the tool is out of the warehouse and not detected. Meanwhile, whether the tools are returned according to time or not, whether the service life of the tools reaches the time limit or not and whether the tools need to be detected or not are monitored according to the statistical result, the preset borrowing time limit, the first corresponding relation table and the second corresponding relation table, so that the control degree of the user on the performance, the quality and the external borrowing condition of the tools is improved. In addition, the environmental temperature, the environmental humidity and the environmental smoke content in the tool warehouse are regulated and controlled, and the control degree of a user on the tool warehouse is improved.

Therefore, the scheme provided by the embodiment can control the personnel flow of the tool warehouse, can accurately and timely record the condition of borrowing and returning the tools, regularly detects the tools and detects the tools before leaving the warehouse, avoids safety accidents caused by the tools with performance and quality not up to the standard, regulates and controls the environmental temperature, the environmental humidity and the environmental smoke content of the tool warehouse, and provides a good storage environment for the tools and tools. Based on the scheme that this embodiment provided, can assist the multiplexer utensil administrator to improve the supervision level of multiplexer utensil to satisfy standardized supervision requirement.

Corresponding to the tool supervision system provided by the application, the application also correspondingly provides a tool supervision method.

As shown in fig. 2, a schematic diagram of a tool supervision method provided in an embodiment of the present application includes the following steps:

s201: and counting the access information and the ex-warehouse information to generate borrowing information.

Wherein the access information is used to indicate that the visitor is permitted to enter and leave the tool repository if the identity of the visitor to the tool repository is verified. The ex-warehouse information is used for indicating that the tool is subjected to out-warehouse marking when the tool is out of warehouse.

It should be noted that the specific implementation process and implementation principle of S201 are consistent with the specific implementation process and implementation principle of S112, and are not described herein again.

S202: and counting the access information and the warehousing information to generate return information.

The warehousing information is used for indicating that the tools are warehoused under the condition that the tools are warehoused, and warehousing marking is carried out on the tools.

It should be noted that the specific implementation process and implementation principle of S202 are consistent with the specific implementation process and implementation principle of S115, and are not described herein again.

S203: and counting the borrowing information and the returning information to obtain a statistical result.

The statistical result is used for indicating the storage condition of the tools in the tool warehouse.

It should be noted that the specific implementation process and implementation principle of S203 are consistent with the specific implementation process and implementation principle of S116, and are not described herein again.

S204: and collecting environmental influence factors in the tool warehouse.

Wherein the environmental impact factors include ambient temperature, ambient humidity and ambient smoke content.

It should be noted that the execution sequence of S204 is not limited to be after S201, S202, and S203.

S205: and under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to the environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors.

Specifically, whether the ambient temperature is within a preset temperature range is judged. And under the condition that the ambient temperature is not within the preset temperature range, sending a temperature alarm prompt to a user, issuing a regulation and control instruction to temperature control equipment in the tool warehouse, and triggering the temperature control equipment to regulate and control the ambient temperature.

And judging whether the environmental humidity is within a preset humidity range. And under the condition that the environment humidity is not within the preset humidity range, sending a humidity alarm prompt to a user, sending a regulation and control instruction to humidity control equipment in the tool warehouse, and triggering the humidity control equipment to regulate and control the environment humidity.

And judging whether the environmental smoke content is greater than a preset smoke content threshold value or not. And under the condition that the environmental smoke content is greater than a preset smoke content threshold value, sending a smoke alarm prompt to a user, issuing a regulation and control instruction to exhaust equipment in the tool warehouse, and triggering the exhaust equipment to regulate and control the environmental smoke content.

In summary, the access information and the delivery information are counted to generate borrowing information. And counting the access information and the warehousing information to generate return information. And counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse. And collecting environmental influence factors in the tool warehouse. And under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to the environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors. Therefore, the scheme provided by the embodiment can monitor the personnel flow of the tool warehouse, can accurately record the condition of borrowing and returning the tools, and can regulate and control the ambient temperature, the ambient humidity and the ambient smoke content of the tool warehouse, thereby providing a good storage environment for the tools. Based on the scheme that this embodiment provided, can assist the multiplexer utensil administrator to improve the supervision level of multiplexer utensil to satisfy standardized supervision requirement.

As shown in fig. 3, a schematic diagram of another tool supervision method provided in the embodiment of the present application includes the following steps:

s301: and counting the access information and the ex-warehouse information to generate borrowing information.

The specific implementation process and implementation principle of S301 are consistent with those of S201, and are not described herein again.

S302: and counting the access information and the warehousing information to generate return information.

The specific implementation process and implementation principle of S302 are consistent with the specific implementation process and implementation principle of S202, and are not described herein again.

S303: and counting the borrowing information and the returning information to obtain a statistical result.

The specific implementation process and implementation principle of S303 are consistent with the specific implementation process and implementation principle of S203, and are not described herein again.

S304: and collecting environmental influence factors in the tool warehouse.

The specific implementation process and implementation principle of S304 are consistent with the specific implementation process and implementation principle of S204, and are not described herein again.

S305: and under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to the environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors.

The specific implementation process and implementation principle of S305 are consistent with the specific implementation process and implementation principle of S205, and are not described herein again.

S306: and judging whether the tools are not returned according to the period according to the statistical result and the preset borrowing period. If the tool is not returned according to the schedule, executing S307, otherwise executing S308.

S307: and sending an unscheduled return prompt to the user.

Wherein the non-return-by-date prompt comprises the identification of the non-return-by-date tool.

After S307 is executed, S308 is continuously executed.

S308: and judging whether the service life of the tool reaches the deadline or not according to a preset first corresponding relation table. If the service life of the tool reaches the deadline, executing S309, otherwise executing S310.

The first corresponding relation table comprises the corresponding relation between the service life of the tool and the production date.

S309: and sending a rejection prompt to the user.

Wherein the rejection prompt comprises the identification of the tool with the service life reaching the deadline.

After S309 is executed, S310 is continuously executed.

S310: and judging whether the tool needs to be detected or not according to a preset second corresponding relation table. If the tool needs to be detected, S311 is executed, otherwise S312 is executed.

And the second corresponding relation table comprises the corresponding relation between the first warehousing time of the tools and the detection period time.

S311: and sending an expiration detection prompt to the user.

Wherein the due detection prompt includes an identification of the tool requiring detection.

After S311 is executed, S312 is continuously executed.

S312: and acquiring a detection result of the target tool.

The target tool is a tool detected by a visitor by using the tool detection device in each tool.

It should be noted that the execution sequence of S312 is not limited to the sequence described in this embodiment.

S313: and sending a failure prompt of the target tool to the user under the condition that the detection result indicates that the target tool is not qualified.

S314: and sending a tool undetected prompt to the user and the visitor under the condition that the tool to which the ex-warehouse information belongs does not have a detection result.

S315: and collecting the environment image in the tool warehouse and storing the environment image to the local.

It should be noted that the execution sequence of S315 is not limited to the sequence described in this embodiment.

In conclusion, the scheme provided by the embodiment can monitor the personnel flow of the tool warehouse, can accurately and timely record the external borrowing and returning conditions of the tools, periodically detect the tools and detect the tools before leaving the warehouse, avoid safety accidents caused by the tools with performance and quality not up to the standard, and regulate and control the environmental temperature, the environmental humidity and the environmental smoke content of the tool warehouse to provide a good storage environment for the tools and tools. Based on the scheme that this embodiment provided, can assist the multiplexer utensil administrator to improve the supervision level of multiplexer utensil to satisfy standardized supervision requirement.

The functions described in the method of the embodiment of the present application, if implemented in the form of software functional units and sold or used as independent products, may be stored in a storage medium readable by a computing device. Based on such understanding, part of the contribution to the prior art of the embodiments of the present application or part of the technical solution may be embodied in the form of a software product stored in a storage medium and including several instructions for causing a computing device (which may be a personal computer, a server, a mobile computing device or a network device) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A tool supervision system, comprising:

the system comprises access control equipment, radio frequency identification equipment, environment monitoring equipment and a monitoring host;

the access control equipment is used for carrying out identity verification on a visitor of the tool warehouse, releasing the visitor to enter and leave the tool warehouse under the condition that the identity verification of the visitor is passed, recording access information and sending the access information to the monitoring host;

the radio frequency identification equipment is used for marking the tools in the warehouse when the tools are out of the warehouse to generate warehouse-out information; under the condition that the tools and the instruments are put in storage, carrying out storage marking on the tools and the instruments to generate storage information; sending the ex-warehouse information and the in-warehouse information to the monitoring host;

the environment monitoring equipment is used for collecting the environment influence factors in the tool warehouse and sending the environment influence factors to the monitoring host;

the monitoring host is used for counting the access information and the ex-warehouse information to generate borrowing information; counting the access information and the warehousing information to generate return information; counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse; and under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors.

2. The system of claim 1, wherein the monitoring host is further configured to:

judging whether the tools are not returned according to the period according to the statistical result and a preset borrowing period;

and sending an unscheduled return prompt to the user under the condition that the tools are not returned according to the period, wherein the unscheduled return prompt comprises the identification of the tools which are not returned according to the period.

3. The system of claim 1, wherein the monitoring host is further configured to:

judging whether the service life of the tool reaches the deadline or not according to a preset first corresponding relation table, wherein the first corresponding relation table comprises the corresponding relation between the service life of the tool and the production date;

and sending a scrapping prompt to the user when the service life of the tool reaches the period, wherein the scrapping prompt comprises an identifier of the tool with the service life reaching the period.

4. The system of claim 1, wherein the monitoring host is further configured to:

judging whether the tool needs to be detected or not according to a preset second corresponding relation table, wherein the second corresponding relation table comprises a corresponding relation between the first warehousing time of the tool and the detection period time;

and under the condition that the tool is determined to need to be detected, sending an expiration detection prompt to the user, wherein the expiration detection prompt comprises the identification of the tool needing to be detected.

5. The system of claim 1, wherein the environmental impact factors include ambient temperature, ambient humidity, and ambient smoke content;

the monitoring host computer, under the condition that the environmental impact factor does not satisfy the preset environmental requirement, issue the regulation and control instruction to the environmental control equipment in the tool warehouse, trigger the environmental control equipment regulation and control the environmental impact factor includes:

judging whether the environment temperature is within a preset temperature range or not;

under the condition that the environment temperature is not within the preset temperature range, sending a temperature alarm prompt to the user, sending a regulation and control instruction to temperature control equipment in the tool warehouse, and triggering the temperature control equipment to regulate and control the environment temperature;

judging whether the environment humidity is within a preset humidity range;

sending a humidity alarm prompt to the user when the environment humidity is not within the preset humidity range, issuing a regulation and control instruction to humidity control equipment in the tool warehouse, and triggering the humidity control equipment to regulate and control the environment humidity;

judging whether the environmental smoke content is greater than a preset smoke content threshold value or not;

and under the condition that the environmental smoke content is greater than the preset smoke content threshold value, sending a smoke alarm prompt to the user, issuing a regulation and control instruction to exhaust equipment in the tool warehouse, and triggering the exhaust equipment to regulate and control the environmental smoke content.

6. The system of claim 1, further comprising:

tool detection equipment;

the tool detection equipment is used for generating a detection result of a target tool and sending the detection result to the monitoring host, wherein the target tool is the tool detected by the visitor by using the tool detection equipment in each tool; and sending an alarm prompt to the visitor under the condition that the detection result indicates that the target tool is unqualified.

7. The system of claim 6, wherein the monitoring host is further configured to:

sending a target tool disqualification prompt to the user under the condition that the detection result indicates that the target tool is disqualified; and sending tool undetected prompts to the user and the visitor under the condition that no detection result exists in the tool to which the ex-warehouse information belongs.

8. The system of claim 1, further comprising:

a video recording device;

the video recording equipment is used for collecting the environment images in the tool warehouse.

9. The system of claim 8, wherein the monitoring host is further configured to:

and storing the environment image to the local.

10. A method for tool supervision, comprising:

counting access information and ex-warehouse information to generate borrowing information;

counting the access information and the warehousing information to generate return information;

counting the borrowing information and the returning information to obtain a statistical result, wherein the statistical result is used for indicating the storage condition of the tools in the tool warehouse;

wherein the access information is used for indicating that the visitor enters and leaves the tool warehouse under the condition that the identity of the visitor of the tool warehouse passes; the ex-warehouse information is used for indicating that the tools are marked for ex-warehouse under the condition that the tools are ex-warehouse; the warehousing information is used for indicating that the tools and the instruments are warehoused under the condition that the tools and the instruments are warehoused;

collecting environmental impact factors in the tool warehouse;

and under the condition that the environmental impact factors do not meet the preset environmental requirements, issuing a regulation and control instruction to environmental control equipment in the tool warehouse, and triggering the environmental control equipment to regulate and control the environmental impact factors.

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