CN116797000A - Intelligent tool control method, intelligent system and computer readable medium - Google Patents

Abstract

The invention provides an intelligent tool control method, an intelligent system and a computer readable medium, wherein the intelligent system establishes a corresponding relation between an intelligent tool and a task according to tool information and task information; determining the completion condition of a task according to the working state information by acquiring the working state information of the intelligent tool; therefore, not only can the unified supervision of the tools be realized, but also the completion condition of the task can be obtained, and further the problems of abnormal use, loss and the like of the tools can be effectively avoided through the unified supervision of the tools.

Description

Intelligent tool control method, intelligent system and computer readable medium

[ field of technology ]

The invention relates to an intelligent tool control method, an intelligent system and a computer readable medium.

[ background Art ]

With the development of electric control technology and battery technology, electric tools are in the field of view of people. Compared with the traditional tool, the electric tool has the advantages of clean energy source and environmental protection. Moreover, the power tool may incorporate modern communication technology and internet technology, with other advantages not available with conventional tools. Modern communication technology and internet technology are also continuously developing, and GPS, bluetooth communication, wireless base station communication, network communication, and servers are already common in the life of ordinary people.

The intellectualization and networking of electric tools have become a current research hotspot, but the current research is mainly focused on the control of users and electric tools, and in actual application scenarios, some electric tools are purchased uniformly and then distributed for use management. For the above-mentioned scene, an effective management mechanism is still lacking at present, particularly when the working area is large, personnel are scattered, the state of a tool and the working progress cannot be accurately obtained, and the working efficiency is low; meanwhile, the problems of abnormal use, loss and the like of the tool cannot be avoided.

[ invention ]

The invention aims to realize intelligent operation and management of a chain saw by combining a modern communication technology on the basis of an electric tool.

The invention provides an intelligent tool control method, which is applied to an intelligent system, wherein the intelligent system at least comprises the following components: the control method specifically comprises the following steps of:

acquiring tool information of an intelligent tool;

acquiring task information of at least one task;

establishing a corresponding relation between the intelligent tool and the task according to the tool information and the task information;

and acquiring working state information of the intelligent tool, and determining the completion condition of the task corresponding to the intelligent tool according to the working state information and the corresponding relation.

The further improvement scheme is as follows: the acquiring the tool information of the intelligent tool comprises the following steps: acquiring an identification ID of an intelligent tool;

the acquiring task information of at least one task comprises the following steps: acquiring the region information of the at least one task; the task information comprises an area identifier of the area information;

establishing the corresponding relation between the intelligent tool and the task according to the tool information and the task information comprises the following steps: and establishing a corresponding relation between the identification ID of the intelligent tool and the area identification of the area information.

The further improvement scheme is as follows: the control method further includes: acquiring a preset map, wherein the preset map comprises a plurality of areas; acquiring the position of at least one task; and acquiring map information in a preset map where the at least one task is located, dividing the regions according to the at least one task and the map information, and distributing region identifiers for each region.

The further improvement scheme is as follows: the control method further includes: and acquiring the position information of the intelligent tool, and controlling the working state of the intelligent tool according to the position information and the task information.

The further improvement scheme is as follows: the intelligent system further comprises intelligent equipment, and the control method further comprises the following steps: acquiring an identification code of the intelligent equipment;

establishing a corresponding relation between the intelligent tool and the task as well as between the intelligent device according to the tool information, the identification code and the task information;

the intelligent device is used for acquiring the working state information of the intelligent tool so as to determine the completion condition of the task according to the working state information.

The further improvement scheme is as follows: the control method further includes: and acquiring the position information of the intelligent tool, and establishing an ad hoc network according to the position information of the intelligent tool.

The invention also provides an intelligent system, which at least comprises: intelligent tools and remote devices;

the remote equipment acquires tool information of an intelligent tool;

the remote equipment acquires task information of at least one task;

the remote equipment establishes a corresponding relation between an intelligent tool and a task according to the tool information and the task information;

and the remote equipment acquires the working state information of the intelligent tool, and determines the completion condition of the task according to the working state information.

The further improvement scheme is as follows: the remote equipment is intelligent equipment and/or a server.

The invention also provides an intelligent system, which comprises a memory and a processor, wherein the memory stores a computer program capable of running on the processor, and the processor realizes the method when executing the computer program.

The invention also provides a computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method.

Compared with the prior art, the invention has the following beneficial effects: the invention provides an intelligent system, which establishes a corresponding relation between an intelligent tool and a task according to the tool information and the task information; determining the completion condition of a task according to the working state information by acquiring the working state information of the intelligent tool; therefore, not only can the unified supervision of the tools be realized, but also the completion condition of the task can be obtained, and further the problems of abnormal use, loss and the like of the tools can be effectively avoided through the unified supervision of the tools.

[ description of the drawings ]

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings:

fig. 1 is a waveform diagram showing current variation when the tool according to the preferred embodiment of the present invention is operated.

FIG. 2 is a tool workflow diagram of a preferred embodiment of the present invention.

Fig. 3 is a regional distribution diagram of a preferred embodiment of the present invention.

Fig. 4 is a schematic diagram showing a correspondence between a user and a tool according to a preferred embodiment of the present invention.

Fig. 5 is an ID burning schematic diagram according to a preferred embodiment of the invention.

Fig. 6 is a flowchart of the chain saw operation of the preferred embodiment of the present invention.

[ detailed description ] of the invention

The invention will be described in further detail with reference to the drawings and embodiments.

The terminology used in the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The intelligent tool described in the invention can be an electric tool/electric equipment, wherein the electric tool/electric equipment can be a garden tool, a handheld tool or other automatic equipment which needs to work in a plurality of areas; it is within the scope of the present invention that the above described apparatus/tools be able to employ the essence of the technical solutions disclosed below. The invention aims to realize intelligent operation and management of tools by combining modern communication technology on the basis of an electric tool.

The invention provides an intelligent tool control method, which is applied to an intelligent system, wherein the intelligent system at least comprises the following components: the control method specifically comprises the following steps of:

acquiring tool information of an intelligent tool; preferably, the acquiring the tool information of the intelligent tool includes: acquiring an identification ID of an intelligent tool;

acquiring task information of at least one task; the acquiring task information of at least one task comprises the following steps: acquiring the region information of the at least one task; preferably, the task information includes a region identifier of the region information; preferably, the task information may further include time information.

Establishing a corresponding relation between the intelligent tool and the task according to the tool information and the task information; establishing the corresponding relation between the intelligent tool and the task according to the tool information and the task information comprises the following steps: and establishing a corresponding relation between the identification ID of the intelligent tool and the area identification of the area information.

Preferably, the control method further includes obtaining map information of the at least one task, dividing regions according to the at least one task and the map information, and distributing region identifiers for each region.

When government or institutional organisers are cutting wood over a large area, the intelligent management system of the chain saw can be implemented by the techniques described above, with the association of tools to areas being such that each tool works in a corresponding area, such as tool 1 cutting in area a, tool 2 cutting in area B, tool 3 cutting in area C, tool 4 cutting in area D.

The further scheme also comprises the following steps: and acquiring the working state information of the intelligent tool, and determining the completion condition of the task according to the working state information. When the chain saw completes the felling of a tree, for example, the state change of the felling of a tree, such as the change of current, voltage, load, etc., can be obtained through the analysis of the state of the chain saw, the quantity of the felled tree can be determined through the occurrence times of the change, and the quantity of the tree in each area is stored in the relevant remote equipment in advance, so that the completion progress of the task can be determined according to the working state information of the intelligent tool.

Preferably, the control method further includes: and acquiring the position information of the intelligent tool, and controlling the working state of the intelligent tool according to the position information and the task information. According to the position information of the tool, when the position information indicates that the intelligent tool is located in the corresponding area, the running tool runs, otherwise, when the position information indicates that the intelligent tool is not located in the corresponding area, the use of the tool is forbidden, so that abnormal use of the tool can be effectively prevented, and the management efficiency of the tool is improved.

Preferably, the intelligent system further comprises an intelligent device, and the control method further comprises: acquiring an identification code of the intelligent equipment;

establishing a corresponding relation between the intelligent tool and the task as well as between the intelligent device according to the tool information, the identification code and the task information; the intelligent device is used for acquiring the working state information of the intelligent tool so as to determine the completion condition of the task according to the working state information.

Taking a chain saw as an example, when the chain saw does not cut wood, does not cut wood completely, the current of cutting the whole wood behaves differently: as shown in fig. 1: 1. when wood is not cut: the current of the chain saw is small. 2. When cutting complete wood: the current of the chain saw is large and the current drops slowly in the final stage. 3. When wood is not cut completely: the current of the chain saw is large, but the current drops quickly in the final stage. Therefore, the service condition of the chain saw can be judged according to the working current of the machine, for example, the number of cut trees/wood is determined through the change of the working current.

Furthermore, the scheme of the invention can also be used for judging the service condition of the user by combining the position information and the working condition information of the chain saw, and as shown in fig. 2, when the user performs cutting for a plurality of times at a certain position, the cutting records of the user are combined, the cutting times are recorded, and when the user has incomplete cutting records, namely similar data is inquired, the cutting records are ignored, so that the accuracy of task identification is ensured, and the management efficiency is improved.

Preferably, a GPS module is built in the chain saw, and position information is acquired through the built-in GPS module; in other embodiments, to obtain location information of the chainsaw, the chainsaw establishes a wireless connection with the handpiece; the mobile phone establishes a connection with a GPS satellite; the chain saw periodically sends an instruction for acquiring the position information to the mobile phone; after receiving an instruction sent by the chain saw, the mobile phone acquires current position information through a GPS module; the handset sends current position information to the chain saw.

After the mobile phone acquires the use record uploaded by the user, the position information and the time information of the chain saw when in operation and the logging record are recorded in the use record, and the mobile phone can draw a corresponding logging track map according to the information. The user can use the mobile phone APP to check the felling record and the felling track of the corresponding time period to know the felling condition of the user in one day. Meanwhile, the mobile phone can upload the user data to the cloud. Even if the user changes the cell phone or the chain saw, the user can acquire the previous felling record as long as the user logs in the account.

Have, the chainsaw is in the use, record the various records that the user used the chainsaw, for example: GPS signal, chain saw time of use, chain saw number of times of use, personal profile of chain saw user. The chain saw sends the user use record to the mobile phone in a wireless connection mode. The mobile phone uploads the user through the network. The user can check the felling condition of the user through the mobile phone. At the server side, a forest cutting big data monitoring system can be established according to a large amount of user data, so that intelligent unified management of the chain saw is realized.

Preferably, the control method further includes: acquiring the position information of an intelligent tool, and establishing an ad hoc network according to the position information of the intelligent tool; the self-organizing network is based on a minimum distance principle; the intelligent system comprises a plurality of intelligent tools and a base station, wherein the base station can be connected with the remote equipment and is used for receiving various data from the intelligent tools and then transmitting the various data to the remote equipment. Wherein, the ad hoc network includes: as shown in fig. 3, the first intelligent tool selects a second intelligent tool closest to the first intelligent tool based on the minimum distance principle, the second intelligent tool receives the first data from the first intelligent tool, the first data is transmitted to a third intelligent tool, and the third intelligent tool continues data transmission until the data is transmitted to the base station.

Wherein the minimum distance principle comprises: and determining the direction information of the base station in the first intelligent tool, selecting a second intelligent tool nearest to the first intelligent tool based on the direction information, and then sequentially selecting subsequent intelligent tools for data transmission. The data includes: identification information of the chain saw, working state, position information and the like, wherein the identification information is used for identifying the chain saw and is convenient for managing the chain saw, and the working state is used for determining the completion condition of tasks; the position information is used to determine the position of the chain saw, thereby facilitating the control of the working state of the chain saw.

Preferably, the tool information of the intelligent tool further comprises user information of the intelligent tool; acquiring the region information of the at least one task; the task information is an area identifier of the area information.

The establishing the corresponding relation between the intelligent tool and the task according to the tool information and the task information comprises the following steps: and establishing a corresponding relation between the identification ID of the intelligent tool, the user information and the area identification of the area information. And acquiring the working state information of the intelligent tool, and determining the completion condition of the task according to the working state information.

Preferably, when a user purchases a chain saw, the pre-sales service person may create a user account for the user, where the account includes user information: user ID, name, time of purchase, machine ID owned. When a user purchases a machine, a machine ID newly purchased by the user is added in the user account management.

In a preferred embodiment, establishing a corresponding relation between the identification ID and the user information, and determining the tool ID used by each user; taking a chain saw as an example, after the mobile phone and the chain saw establish wireless connection, the machine ID is queried, and then whether the current machine ID belongs to a user ID in the mobile phone APP is judged, as shown in fig. 4. The wireless connection may use wireless communication protocols such as zigbee and wifi, in addition to bluetooth protocols.

After the mobile phone and the chain saw are in wireless connection, connection is established through a Bluetooth wireless module and the like, the machine ID is inquired, and then whether the current machine ID belongs to user information in the mobile phone APP or not, namely the user ID is judged. Each chain saw needs to have a corresponding and unique machine ID, intelligent management of the chain saw is achieved based on the machine ID, the machine ID is determined in the chain saw production process according to actual conditions, and the machine ID can be composed of parts such as production time, machine model, machine serial number and the like.

Each chain saw automatically generates a machine ID when in production, and the generation rule of the ID number is as follows: date of manufacture-time of manufacture-machine model-machine version-machine number, example: the chain saw is numbered 20230324-1304-Chainsaw-G2.0-115222. As shown in fig. 5: after the machine ID is generated by the upper computer, the serial number is sent to the burning tool, the burning tool sends the machine ID to the chain saw through a serial port and the like, and the chain saw stores the received machine ID in an internal Flash storage area. After the chain saw receives the instruction sent by the tool, the chain saw starts to receive the machine ID, and the received machine ID is stored in the appointed Flash data storage area.

Taking the example of cutting wood with a chain saw, when government or organization organisers cut wood in large areas, the intelligent management system of the chain saw can be realized by the above technology, for example:

person 1 is felling in zone a, person 2 is felling in zone B, person 3 is felling in zone C, and person 4 is felling in zone D.

The person 1 may have a preset felling area for the person before felling the wood, in an alternative embodiment the person 1 may also be able to autonomously create the felling area. When the chain saw is started or operated outside the planned area, the chain saw or the mobile phone gives a warning, such as the mobile phone gives an alarm in an acousto-optic and vibration mode, the chain saw gives an alarm through an indicator lamp, or the chain saw is forbidden to operate outside the planned area. Thus, the person 1 can cut the wood according to the planned area.

Preferably, the flow of wireless connection and management of the chainsaw and the mobile phone is as follows, as shown in fig. 6, when the chainsaw is started, the bluetooth module of the chainsaw starts to be powered on, and the bluetooth module of the mobile phone establishes a bluetooth connection with the chainsaw. The cell phone transmits a request for acquiring the machine ID to the chain saw, and after the chain saw receives the request, the cell phone starts to transmit the user ID stored before. The mobile phone inquires a user account number from a server background through the Internet, inquires whether the machine ID is the machine ID owned by the user, if so, sends an instruction for allowing the starting of the chain saw, and if not, prohibits the starting of the chain saw.

Preferably, when the chain saw is scheduled uniformly, the control method further comprises a tool and task scheduling step, and specifically comprises the following steps: acquiring state information of each tool, wherein the state information comprises runnable time length preferentially; classifying the grades according to the state information of the tool, such as grade 1, grade 2 and grade 3, wherein grade 1 represents the longest operation time, grade 2 and grade 3 are shorter; acquiring the working quality information of a user, and classifying the user according to the working quality information, such as level 1, level 2 and level 3; matching of the tool and user is then performed according to the assigned level, e.g., a level 1 user configures a level 1 tool. Task information is obtained, and the grades of the tasks are analyzed according to the region, the workload and the working requirements of the tasks, for example, the grades are sequentially divided into a grade A, a grade B and a grade C, wherein the grade A is highest, the grade B is next highest and the grade C is lowest; then matching the user/tool with the task, such as executing the class A task by the class 1 user/tool, executing the class B task by the class 2 user/tool, and executing the class C task by the class 3 user/tool; by the aid of the method, improvement of working efficiency can be further promoted, good tools can fully play a role, and smooth completion of emergency tasks is guaranteed.

Through the scheme, not only can unified supervision of tools be realized, but also the completion condition of tasks can be obtained; meanwhile, the working condition of each user can be effectively known, so that the continuous pushing of the working task is ensured; meanwhile, the scheme provided by the invention supports the ad hoc network technology, so that even if a user does not carry mobile terminals such as mobile phones, effective transmission of information can be ensured, the supervision of tools is further improved, and the problems of abnormal use, loss and the like of the tools are effectively avoided.

The invention also provides an intelligent system, through which the method is realized, the intelligent system at least comprises: intelligent tools and remote devices;

the remote equipment acquires tool information of an intelligent tool; preferably, the acquiring the tool information of the intelligent tool includes: acquiring an identification ID of an intelligent tool;

the remote equipment acquires task information of at least one task; the acquiring task information of at least one task comprises the following steps: acquiring the region information of the at least one task; preferably, the task information is an area identifier of the area information; preferably, the task information may further include time information.

The remote equipment establishes a corresponding relation between an intelligent tool and a task according to the tool information and the task information; establishing the corresponding relation between the intelligent tool and the task according to the tool information and the task information comprises the following steps: and establishing a corresponding relation between the identification ID of the intelligent tool and the area identification of the area information.

And the remote equipment acquires the working state information of the intelligent tool, and determines the completion condition of the task according to the working state information. The further improvement scheme is as follows: the remote equipment is intelligent equipment and/or a server.

Preferably, the control method further includes obtaining map information of the at least one task, dividing regions according to the at least one task and the map information, and distributing region identifiers for each region.

When government or institutional organisers are cutting wood over a large area, the intelligent management system of the chain saw can be implemented by the techniques described above, with the association of tools to areas being such that each tool works in a corresponding area, such as tool 1 cutting in area a, tool 2 cutting in area B, tool 3 cutting in area C, tool 4 cutting in area D.

Preferably, the remote device acquires working state information of the intelligent tool, and determines the completion condition of the task according to the working state information. When the chain saw completes the felling of a tree, for example, the state change of the felling of a tree, such as the change of current, voltage, load, etc., can be obtained through the analysis of the state of the chain saw, the quantity of the felled tree can be determined through the occurrence times of the change, and the quantity of the tree in each area is stored in the relevant remote equipment in advance, so that the completion progress of the task can be determined according to the working state information of the intelligent tool.

Preferably, the control method further includes: and acquiring the position information of the intelligent tool, and controlling the working state of the intelligent tool according to the position information and the task information. According to the position information of the tool, when the position information indicates that the intelligent tool is located in the corresponding area, the running tool runs, otherwise, when the position information indicates that the intelligent tool is not located in the corresponding area, the use of the tool is forbidden, so that abnormal use of the tool can be effectively prevented, and the management efficiency of the tool is improved.

Preferably, the intelligent system further comprises an intelligent device, and the control method further comprises: acquiring an identification code of the intelligent equipment;

establishing a corresponding relation between the intelligent tool and the task as well as between the intelligent device according to the tool information, the identification code and the task information; the intelligent device is used for acquiring the working state information of the intelligent tool so as to determine the completion condition of the task according to the working state information.

Taking a chain saw as an example, when the chain saw does not cut wood, does not cut wood completely, the current of cutting the whole wood behaves differently: as shown in fig. 1: 1. when wood is not cut: the current of the chain saw is small. 2. When cutting complete wood: the current of the chain saw is large and the current drops slowly in the final stage. 3. When wood is not cut completely: the current of the chain saw is large, but the current drops quickly in the final stage. Therefore, the service condition of the chain saw can be judged according to the working current of the machine, for example, the number of cut trees/wood is determined through the change of the working current.

The use condition of the user can be judged by combining the position information and the working condition information of the chain saw, as shown in fig. 2, when the user performs cutting for a plurality of times at a certain position, the cutting records of the user are combined, the cutting times are recorded, and when the user has incomplete cutting records, the cutting records of the time are ignored, so that the accuracy of task identification is ensured, and the management efficiency is improved.

Preferably, a GPS module is built in the chain saw, and position information is acquired through the built-in GPS module; in other embodiments, to obtain location information of the chainsaw, the chainsaw establishes a wireless connection with the handpiece; the mobile phone establishes a connection with a GPS satellite; the chain saw periodically sends an instruction for acquiring the position information to the mobile phone; after receiving an instruction sent by the chain saw, the mobile phone acquires current position information through a GPS module; the handset sends current position information to the chain saw.

After the mobile phone acquires the use record uploaded by the user, the position information and the time information of the chain saw when in operation and the felling record are recorded in the mobile phone, and the mobile phone can draw a corresponding felling track map according to the information. The user can use the mobile phone APP to check the felling record and the felling track of the corresponding time period to know the felling condition of the user in one day. Meanwhile, the mobile phone can upload the user data to the cloud. Even if the user changes the cell phone or the chain saw, the user can acquire the previous felling record as long as the user logs in the account.

Have, the chainsaw is in the use, record the various records that the user used the chainsaw, for example: GPS signal, chain saw time of use, chain saw number of times of use, personal profile of chain saw user. The chain saw sends the user use record to the mobile phone in a wireless connection mode. The mobile phone uploads the user through the network. The user can check the felling condition of the user through the mobile phone. At the server side, a forest cutting big data monitoring system can be established according to a large amount of user data, so that intelligent unified management of the chain saw is realized.

Preferably, the control method further includes: acquiring the position information of an intelligent tool, and establishing an ad hoc network according to the position information of the intelligent tool; the self-organizing network is based on a minimum distance principle; the intelligent system comprises a plurality of intelligent tools and a base station, wherein the base station can be connected with the remote equipment and is used for receiving various data from the intelligent tools and then transmitting the various data to the remote equipment. Wherein, the ad hoc network includes: as shown in fig. 3, the first intelligent tool selects a second intelligent tool closest to the first intelligent tool based on the minimum distance principle, the second intelligent tool receives the first data from the first intelligent tool, the first data is transmitted to a third intelligent tool, and the third intelligent tool continues data transmission until the data is transmitted to the base station.

Wherein the minimum distance principle comprises: and determining the direction information of the base station in the first intelligent tool, selecting a second intelligent tool nearest to the first intelligent tool based on the direction information, and then sequentially selecting subsequent intelligent tools for data transmission. The data includes: identification information of the chain saw, working state, position information and the like, wherein the identification information is used for identifying the chain saw and is convenient for managing the chain saw, and the working state is used for determining the completion condition of tasks; the position information is used to determine the position of the chain saw, thereby facilitating the control of the working state of the chain saw.

Preferably, the tool information of the intelligent tool further comprises user information of the intelligent tool; acquiring the region information of the at least one task; the task information is an area identifier of the area information;

the establishing the corresponding relation between the intelligent tool and the task according to the tool information and the task information comprises the following steps: and establishing a corresponding relation between the identification ID of the intelligent tool, the user information and the area identification of the area information. And acquiring the working state information of the intelligent tool, and determining the completion condition of the task according to the working state information.

Preferably, when a user purchases a chain saw, the pre-sales service person may create a user account for the user, where the account includes user information: user ID, name, time of purchase, machine ID owned. When a user purchases a machine, a machine ID newly purchased by the user is added in the user account management.

In a preferred embodiment, establishing a corresponding relation between the identification ID and the user information, and determining the tool ID used by each user; taking a chain saw as an example, after the mobile phone and the chain saw establish wireless connection, the machine ID is queried, and then whether the current machine ID belongs to a user ID in the mobile phone APP is judged, as shown in fig. 4. Wherein, the wireless connection can use wireless communication protocols such as zigbee, wifi and the like besides Bluetooth protocol,

after the mobile phone and the chain saw are in wireless connection, connection is established through a Bluetooth wireless module and the like, the machine ID is inquired, and then whether the current machine ID belongs to user information in the mobile phone APP or not, namely the user ID is judged. Each chain saw needs to have a corresponding and unique machine ID, intelligent management of the chain saw is achieved based on the machine ID, the machine ID is determined in the chain saw production process according to actual conditions, and the machine ID can be composed of parts such as production time, machine model, machine serial number and the like.

Each chain saw automatically generates a machine ID when in production, and the generation rule of the ID number is as follows: date of manufacture-time of manufacture-machine model-machine version-machine number, example: the chain saw is numbered 20230324-1304-Chainsaw-G2.0-115222. As shown in fig. 5: after the machine ID is generated by the upper computer, the serial number is sent to the burning tool, the burning tool sends the machine ID to the chain saw through a serial port and the like, and the chain saw stores the received machine ID in an internal Flash storage area. After the chain saw receives the instruction sent by the tool, the chain saw starts to receive the machine ID, and the received machine ID is stored in the appointed Flash data storage area.

Taking the example of cutting wood with a chain saw, when government or organization organisers cut wood in large areas, the intelligent management system of the chain saw can be realized by the above technology, for example:

person 1 is felling in zone a, person 2 is felling in zone B, person 3 is felling in zone C, and person 4 is felling in zone D.

The person 1 may have a preset felling area for the person before felling the wood, in an alternative embodiment the person 1 may also be able to autonomously create the felling area. When the chain saw is started or operated outside the planned area, the chain saw or the mobile phone gives a warning, such as the mobile phone gives an alarm in an acousto-optic and vibration mode, the chain saw gives an alarm through an indicator lamp, or the chain saw is forbidden to operate outside the planned area. Thus, the person 1 can cut the wood according to the planned area.

Preferably, the flow of wireless connection and management of the chainsaw and the mobile phone is as follows, as shown in fig. 6, when the chainsaw is started, the bluetooth module of the chainsaw starts to be powered on, and the bluetooth module of the mobile phone establishes a bluetooth connection with the chainsaw. The cell phone transmits a request for acquiring the machine ID to the chain saw, and after the chain saw receives the request, the cell phone starts to transmit the user ID stored before. The mobile phone inquires a user account number from a server background through the Internet, inquires whether the machine ID is the machine ID owned by the user, if so, sends an instruction for allowing the starting of the chain saw, and if not, prohibits the starting of the chain saw.

Preferably, when the chain saw is scheduled uniformly, the control method further comprises a tool and task scheduling step, and specifically comprises the following steps: acquiring state information of each tool, wherein the state information comprises runnable time length preferentially; classifying the grades according to the state information of the tool, such as grade 1, grade 2 and grade 3, wherein grade 1 represents the longest operation time, grade 2 and grade 3 are shorter; acquiring the working quality information of a user, and classifying the user according to the working quality information, such as level 1, level 2 and level 3; matching of the tool and user is then performed according to the assigned level, e.g., a level 1 user configures a level 1 tool. Task information is obtained, and the grades of the tasks are analyzed according to the region, the workload and the working requirements of the tasks, for example, the grades are sequentially divided into a grade A, a grade B and a grade C, wherein the grade A is highest, the grade B is next highest and the grade C is lowest; then matching the user/tool with the task, such as executing the class A task by the class 1 user/tool, executing the class B task by the class 2 user/tool, and executing the class C task by the class 3 user/tool; by the aid of the method, improvement of working efficiency can be further promoted, good tools can fully play a role, and smooth completion of emergency tasks is guaranteed.

Through the scheme, not only can unified supervision of tools be realized, but also the completion condition of tasks can be obtained; meanwhile, the working condition of each user can be effectively known, so that the continuous pushing of the working task is ensured; meanwhile, the scheme provided by the invention supports the ad hoc network technology, so that even if a user does not carry mobile terminals such as mobile phones, effective transmission of information can be ensured, the supervision of tools is further improved, and the problems of abnormal use, loss and the like of the tools are effectively avoided.

The invention also provides an intelligent system, which comprises a memory and a processor, wherein the memory stores a computer program capable of running on the processor, and the processor realizes the method when executing the computer program.

The invention also provides a computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method.

Compared with the prior art, the invention has the following beneficial effects: the invention provides an intelligent system, which establishes a corresponding relation between an intelligent tool and a task according to the tool information and the task information; determining the completion condition of a task according to the working state information by acquiring the working state information of the intelligent tool; therefore, not only can the unified supervision of the tools be realized, but also the completion condition of the task can be obtained, and further the problems of abnormal use, loss and the like of the tools can be effectively avoided through the unified supervision of the tools.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described system and apparatus may refer to corresponding procedures in the foregoing method embodiments, which are not described herein again.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Finally, it should be noted that: the above embodiments are merely illustrative embodiments of the present invention, and not restrictive, and the scope of the invention is not limited thereto, although the invention has been described in detail with reference to the above embodiments, it will be understood by those skilled in the art that any modification or variation of the technical solutions described in the above embodiments or equivalent substitution of some technical features thereof may be easily contemplated by those skilled in the art within the scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A smart tool control method, wherein the control method is applied to a smart system, the smart system at least comprising: the control method specifically comprises the following steps of:

acquiring tool information of an intelligent tool;

acquiring task information of at least one task;

establishing a corresponding relation between the intelligent tool and the task according to the tool information and the task information;

and acquiring working state information of the intelligent tool, and determining the completion condition of the task corresponding to the intelligent tool according to the working state information and the corresponding relation.

2. The control method according to claim 1, wherein the acquiring tool information of the intelligent tool includes: acquiring an identification ID of an intelligent tool;

the acquiring task information of at least one task comprises the following steps: acquiring the region information of the at least one task; the task information comprises an area identifier of the area information;

establishing the corresponding relation between the intelligent tool and the task according to the tool information and the task information comprises the following steps: and establishing a corresponding relation between the identification ID of the intelligent tool and the area identification of the area information.

3. The control method according to claim 1 or 2, characterized in that the control method further comprises: acquiring a preset map, wherein the preset map comprises a plurality of areas; acquiring the position of at least one task; and acquiring map information in a preset map where the at least one task is located, dividing the regions according to the at least one task and the map information, and distributing region identifiers for each region.

4. The control method according to claim 1, characterized in that the control method further comprises: and acquiring the position information of the intelligent tool, and controlling the working state of the intelligent tool according to the position information and the task information.

5. The control method of claim 1, wherein the intelligent system further comprises an intelligent device, the control method further comprising: acquiring an identification code of the intelligent equipment;

establishing a corresponding relation between the intelligent tool and the task as well as between the intelligent device according to the tool information, the identification code and the task information;

the intelligent device is used for acquiring the working state information of the intelligent tool so as to determine the completion condition of the task according to the working state information.

6. The control method according to claim 1, characterized in that the control method further comprises: and acquiring the position information of the intelligent tool, and establishing an ad hoc network according to the position information of the intelligent tool.

7. An intelligent system, the intelligent system comprising at least: intelligent tools and remote devices;

the remote equipment acquires tool information of an intelligent tool;

the remote equipment acquires task information of at least one task;

the remote equipment establishes a corresponding relation between an intelligent tool and a task according to the tool information and the task information;

and acquiring working state information of the intelligent tool, and determining the completion condition of the task corresponding to the intelligent tool according to the working state information and the corresponding relation.

8. The intelligent system according to claim 7, wherein the remote device is a smart device and/or a server.

9. An intelligent system comprising a memory, a processor, said memory having stored thereon a computer program executable on said processor, characterized in that said processor implements the method of any of the preceding claims 1-6 when said computer program is executed.

10. A computer readable medium having non-volatile program code executable by a processor, wherein the program code causes the processor to perform the method of any of claims 1-6.