CN110223411B - Inspection system and method for public water dispenser - Google Patents

Abstract

The invention discloses a system and a method for inspecting public water dispensers.A running state data received by a detection extension of each public water dispenser is transmitted to a cloud server; the mobile terminal of each inspection worker uploads the position information to the cloud server in real time through the positioning device; identifying a fault public water dispenser in a cloud server; performing distance optimal operation according to the position of the fault public water dispenser and the position information of the mobile terminal; meanwhile, extracting an optimal mobile terminal according to the current task quantity parameters of all the mobile terminals; and the inspection personnel equipped with the optimal mobile terminal overhauls the fault public water dispenser. The invention can uniformly manage the public water dispensers and the inspection personnel scattered at various positions, realize the optimal configuration of the inspection personnel, realize the high-efficiency inspection work of the inspection personnel and realize the high-efficiency operation of the public water dispensers; the inspection efficiency is improved, the inspection work is simplified, and the waste of manpower and material resources is effectively avoided.

Description

Inspection system and method for public water dispenser

Technical Field

The invention belongs to the technical field of public facility inspection systems and methods, and particularly relates to a public water dispenser inspection system and a public water dispenser inspection method.

Background

With the development of the shared economy, the shared economy has gradually deepened into each corner of our lives. Public drinking water facilities also become part of the shared economy, and public drinking water dispensers are often provided in public places so that people can drink palatable drinking water at any time. But shared public drinking water equipment is placed in each position of public place, and distribution range is wide and the position is scattered, needs maintainer to regularly patrol and examine.

Most of the existing inspection modes are that an inspector regularly inspects the public water dispenser, and after the inspection, fault machine information is reported, and then a manager sends a maintainer to overhaul according to the condition of the maintainer. A large amount of personnel are required to be invested to participate in the inspection work, the inspection efficiency is extremely low, and the waste of manpower and material resources is caused. The inspection personnel can not be allocated optimally according to the experience of the administrator; often take place to make the personnel of patrolling and examining of being close to patrol and examine work, still can cause the too much and idle scheduling problem of the personnel of partially patrolling and examining of the staff work load, make the waste of the manpower and materials of the personnel of patrolling and examining, greatly reduced efficiency of patrolling and examining. Under the condition of a large amount of scattered public water dispensers, the inspection work is complex and difficult, the management is disordered and the working efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides a system and a method for inspecting the public water dispenser, which can uniformly manage the public water dispenser and inspectors scattered everywhere, realize optimal configuration of the inspectors, realize high-efficiency inspection work of the inspectors and realize high-efficiency operation of the public water dispenser; need not to drop into in a large amount of personnel participate in the work of patrolling and examining, improved and patrolled and examined efficiency, simplified the work of patrolling and examining, effectively avoid the waste of manpower and materials.

In order to achieve the purpose, the invention adopts the technical scheme that: a method for inspecting a public water dispenser comprises the following steps:

s10, arranging the detection extension set on each public water dispenser, and transmitting the operation state data of the public water dispensers received by the detection extension set as collected data to a cloud server through a network after the operation state data are packaged;

s20, each patrol inspector is provided with an independent mobile terminal, and the mobile terminal uploads the position information to a cloud server in real time through a positioning device;

s30, analyzing the collected data in the cloud server to obtain the running state data of the public water dispenser, and identifying the fault public water dispenser;

s40, performing distance optimal operation according to the position of the fault public drinking machine and the position information of the mobile terminal; meanwhile, extracting an optimal mobile terminal according to the current task quantity parameters of all the mobile terminals;

and S50, transferring an inspection task instruction to the optimal mobile terminal, and inspecting the fault public water dispenser by an inspection worker equipped with the optimal mobile terminal.

Further, in the step S30, the method for identifying the malfunctioning public drinking fountain includes the steps of:

s31, establishing a fault recognition model based on a neural network in the cloud server;

s32, inputting the operation state data of the public drinking machine into the fault identification model;

s33, carrying out convolution operation on the collected running state data through the fault identification model, and outputting fault parameters;

and S34, if the fault identification model outputs the fault parameters, the public water dispenser is a fault public water dispenser.

Further, when the fault recognition model based on the neural network is established, the fault recognition model is trained through the neural network by collecting historical fault data sets of the public drinking water machine.

Further, in the step S40, performing distance optimization calculation according to the position of the faulty public water dispenser and the position information of the mobile terminal; meanwhile, according to the current task quantity parameters of all the mobile terminals, the optimal mobile terminal is extracted, and the method comprises the following steps:

s41, comparing the position of the fault public drinking machine with the position of each mobile terminal to obtain the path distance value from each mobile terminal to the fault public drinking machine, sorting the mobile terminals according to the path distance values to form a path vector L [ < L > ]₁,l₂……l_i]Wherein i is the total number of the mobile terminals, and l is a path distance value from the mobile terminal to the fault public drinking machine;

and S42, adding task quantity constraint, improving the path vector and extracting the optimal mobile terminal.

Further, in the step S42, the adding the task amount constraint to improve the path vector and extract the optimal mobile terminal includes the steps;

s421, counting the task quantity values of all the mobile terminals, and establishing a task quantity vector in the current time period, wherein the task quantity vector is M ═ M₁,m₂……m_i]Wherein i is the total number of the mobile terminals, and m is the task quantity value of the mobile terminals;

s422, the task vector and the path vector are merged to form a parameter matrix a ═ a for all the mobile terminals₁,a₂,……a_n]An is (l)_n,m_n) N is the number of elements, n is 3 … … i;

and S423, sequentially checking each element in the parameter matrix, and calling the mobile terminal with shorter distance and less task amount as the optimal mobile terminal.

Further, the calculation process of sequentially checking each element in the parameter matrix is as follows:

s4231, take a₁(l₁,m₁) M is₁And m₂For comparison, when m is₁<m₂And | m₁-m₂|<m_{Threshold value}When it comes to a₁The mobile terminal is an optimal mobile terminal; when m is₁≥m₂Or | m₁-m₂|≥m_{Threshold value}Then, the next calculation is carried out;

s4232, take a₂(l₂,m₂) M is₂And m₃For comparison, when m is₂<m₃And | m₂-m₃|<m_{Threshold value}When, if l₂<l_{Threshold value}Then get a₂The mobile terminal is the optimal mobile terminal, if l₂≥l_{Threshold value}Then get a₁The mobile terminal is an optimal mobile terminal; when m is₂≥m₃Or | m₂-m₃|≥m_{Threshold value}Then, the next calculation is carried out;

s4233, a synchronization step S4232, calculating in sequence;

s4234, take a_i-1(l_i-1,m_i-1) M is_i-1And m_iFor comparison, when m is_i-1<m_iAnd | m_i-1-m_i|<m_{Threshold value}When, if l_i-1<l_{Threshold value}Then get a_i-1The mobile terminal is the optimal mobile terminal, if l_i-11≥l_{Threshold value}Then get a_i-2The mobile terminal is an optimal mobile terminal; when m is_i-1≥m_iOr | m_i-1-m_i|≥m_{Threshold value}When it is, then take a_iThe mobile terminal is the optimal mobile terminal.

Further, in order to cooperate with task amount optimal operation, a corresponding task list is established for each mobile terminal in the cloud server, wherein the task list comprises a current task list and a historical task list;

when the mobile terminal completes a task, after completion information is fed back to the cloud server, the fact that the task information is completed is marked in the current task list, the task information is moved into a historical task list, and meanwhile the task information is removed from the current task list; and determining the current task quantity value according to the task quantity recorded in the current task list.

On the other hand, the invention also provides a public water dispenser inspection system which comprises detection extension sets, a cloud server, a mobile terminal and a management terminal, wherein each public water dispenser is provided with the detection extension sets, each detection extension set is in communication connection with the cloud server through a network, the cloud server is in communication connection with the management terminal through the network, and the cloud server is also in communication connection with the mobile terminal equipped by each inspection worker through a wireless network;

the detection extension is mutually connected with a controller of the public water dispenser, receives running state data of the public water dispenser, packages and processes the acquired data and transmits the data to the cloud server;

the mobile terminal uploads the position information monitored in real time to a cloud server in real time through wireless communication; the mobile terminal receives the inspection task instruction from the cloud end through wireless communication, and after the inspection task instruction is analyzed and processed by the processor, the inspection instruction information is displayed to the inspection personnel through the touch screen;

the cloud server mobile phone detects collected data packets uploaded by the extension sets on the public water dispensers distributed everywhere, analyzes the collected data to obtain the running state of the public water dispensers, and identifies the public water dispensers with faults; the method comprises the steps that a cloud server obtains position information of mobile terminals worn by inspection personnel; performing distance optimal operation on the position of the fault public water dispenser and the position information of each mobile terminal, and extracting an optimal mobile terminal according to the current task quantity parameters of each mobile terminal; and transferring an inspection task instruction to the optimal mobile terminal;

and the management terminal monitors the running states of all the detection extension sets and the mobile terminal in real time through the cloud server.

The detection extension set comprises a local data interface, a data acquisition circuit, a controller and a network interface, wherein the local data interface is mutually connected with the controller of the public water dispenser and receives the running state data of the public water dispenser, the received data are transmitted to the controller after being adjusted by the local data interface through the data acquisition circuit, and the acquired data are transmitted to the cloud server through the network interface after being packaged and processed by the controller.

Further, the mobile terminal comprises a positioning device, a wireless communication device, a processor and a touch screen, wherein the positioning device, the wireless communication device and the touch screen are all electrically connected with the processor; the positioning device monitors the position of the mobile terminal in real time and uploads the position information to the cloud server in real time through the wireless communication device; the mobile terminal receives the inspection task instruction from the cloud end through the wireless communication device, analyzes and processes the inspection task instruction by the processor, and displays the inspection instruction information to the inspection personnel through the touch screen.

The beneficial effects of the technical scheme are as follows:

according to the invention, the detection extension set is arranged on each public water dispenser, so that the running state of each detection extension set is detected and uploaded to the cloud server; each patrol person is provided with an independent mobile terminal, and the mobile terminals are communicated with the cloud server; identifying a fault public water dispenser in the cloud server, performing distance optimal operation according to the position of the fault public water dispenser and the position information of the mobile terminal, and extracting an optimal mobile terminal according to the current task quantity parameters of all the mobile terminals; and the inspection personnel equipped with the optimal mobile terminal overhauls the fault public water dispenser. The system can be suitable for the common management of a large number of public water dispensers in a wide range, realizes the efficient routing inspection of the public water dispensers in a large number, and has high corresponding speed and accurate and reliable distribution of routing inspection personnel. The requirement on the experience of the manager is reduced, the optimal routing inspection fuel for the fault water dispenser can be rapidly and accurately obtained, and meanwhile, accurate fault guidance data are provided for the maintainers.

The invention can judge the current system running state, locate the fault machine position and obtain the fault state according to the running state signal data of the water dispenser. Through combining the distance optimal operation and the current task quantity parameters of each mobile terminal, the optimal mobile terminal is extracted, the maintainers with optimal distance and optimal workload can be dispatched to quickly and timely handle fault states, the efficient patrol and inspection work of the patrol and inspection personnel is realized, the efficient operation of a public water dispenser is realized, the normal operation of the water dispenser is ensured, and the water dispenser is prevented from being in a stagnation state for a long time. Greatly improving the overall work efficiency and the operation and maintenance level of the maintenance and repair of a large amount of public drinking water equipment. The system can be suitable for the common management of a large number of public water dispensers in a wide range, and realizes the efficient operation of the public water dispensers; need not to drop into in a large amount of personnel participate in the work of patrolling and examining, improved and patrolled and examined efficiency, simplified the work of patrolling and examining, effectively avoid the waste of manpower and materials.

Drawings

FIG. 1 is a schematic flow chart of a method for inspecting a public drinking fountain according to the present invention;

fig. 2 is a schematic structural diagram of a public water dispenser inspection system in the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described with reference to the accompanying drawings.

In this embodiment, referring to fig. 1, the invention provides a method for inspecting a public water dispenser, which includes the steps of:

s10, arranging the detection extension set on each public water dispenser, and transmitting the operation state data of the public water dispensers received by the detection extension set as collected data to a cloud server through a network after the operation state data are packaged;

s20, each patrol inspector is provided with an independent mobile terminal, and the mobile terminal uploads the position information to a cloud server in real time through a positioning device;

s30, analyzing the collected data in the cloud server to obtain the running state data of the public water dispenser, and identifying the fault public water dispenser;

s40, performing distance optimal operation according to the position of the fault public drinking machine and the position information of the mobile terminal; meanwhile, extracting an optimal mobile terminal according to the current task quantity parameters of all the mobile terminals;

and S50, transferring an inspection task instruction to the optimal mobile terminal, and inspecting the fault public water dispenser by an inspection worker equipped with the optimal mobile terminal.

As an optimization scheme of the above embodiment, in step S30, the method for identifying a malfunctioning public water dispenser includes the steps of:

s31, establishing a fault recognition model based on a neural network in the cloud server;

s32, inputting the operation state data of the public drinking machine into the fault identification model;

s33, carrying out convolution operation on the collected running state data through the fault identification model, and outputting fault parameters;

and S34, if the fault identification model outputs the fault parameters, the public water dispenser is a fault public water dispenser.

When the fault recognition model based on the neural network is established, the fault recognition model is trained through the neural network by collecting a historical fault data set of the public drinking machine.

As an optimization scheme of the above embodiment, in step S40, performing distance optimization operation according to the position of the faulty public water dispenser and the position information of the mobile terminal; meanwhile, according to the current task quantity parameters of all the mobile terminals, the optimal mobile terminal is extracted, and the method comprises the following steps:

s41, comparing the position of the fault public drinking machine with the position of each mobile terminal to obtain the path distance value from each mobile terminal to the fault public drinking machine, sorting the mobile terminals according to the path distance values to form a path vector L [ < L > ]₁,l₂……l_i]Wherein i is the total number of the mobile terminals, and l is a path distance value from the mobile terminal to the fault public drinking machine;

and S42, adding task quantity constraint, improving the path vector and extracting the optimal mobile terminal.

Further, in the step S42, the adding the task amount constraint to improve the path vector and extract the optimal mobile terminal includes the steps;

s421, counting the task quantity values of all the mobile terminals, and establishing a task quantity vector in the current time period, wherein the task quantity vector is M ═ M₁,m₂……m_i]Wherein i is the total number of the mobile terminals, and m is the task quantity value of the mobile terminals;

s422, the task vector and the path vector are merged to form a parameter matrix a ═ a for all the mobile terminals₁,a₂,……a_n]An is (l)_n,m_n) N is the number of elements, n is 3 … … i;

and S423, sequentially checking each element in the parameter matrix, and calling the mobile terminal with shorter distance and less task amount as the optimal mobile terminal.

The calculation process for sequentially checking each element in the parameter matrix is as follows:

s4231, take a₁(l₁,m₁) M is₁And m₂For comparison, when m is₁<m₂And | m₁-m₂|<m_{Threshold value}When it comes to a₁The mobile terminal is an optimal mobile terminal; when m is₁≥m₂Or | m₁-m₂|≥m_{Threshold value}Then, the next calculation is carried out;

s4232, take a₂(l₂,m₂) M is₂And m₃For comparison, when m is₂<m₃And | m₂-m₃|<m_{Threshold value}When, if l₂<l_{Threshold value}Then get a₂The mobile terminal is the optimal mobile terminal, if l₂≥l_{Threshold value}Then get a₁The mobile terminal is an optimal mobile terminal; when m is₂≥m₃Or | m₂-m₃|≥m_{Threshold value}Then, the next calculation is carried out;

s4233, a synchronization step S4232, calculating in sequence;

s4234, take a_i-1(l_i-1,m_i-1) M is_i-1And m_iFor comparison, when m is_i-1<m_iAnd | m_i-1-m_i|<m_{Threshold value}When, if l_i-1<l_{Threshold value}Then get a_i-1The mobile terminal is the optimal mobile terminal, if l_i-11≥l_{Threshold value}Then get a_i-2The mobile terminal is an optimal mobile terminal; when m is_i-1≥m_iOr | m_i-1-m_i|≥m_{Threshold value}When it is, then take a_iThe mobile terminal is the optimal mobile terminal.

As an optimization scheme of the embodiment, in order to cooperate with task amount optimal operation, a corresponding task list is established for each mobile terminal in a cloud server, wherein the task list comprises a current task list and a historical task list;

when the mobile terminal completes a task, after completion information is fed back to the cloud server, the fact that the task information is completed is marked in the current task list, the task information is moved into a historical task list, and meanwhile the task information is removed from the current task list; and determining the current task quantity value according to the task quantity recorded in the current task list.

In order to match with the realization of the method, based on the same invention concept, as shown in fig. 2, the inspection system for the public water dispensers comprises detection extensions, a cloud server, mobile terminals and a management terminal, wherein each public water dispenser is provided with the detection extension, each detection extension is in communication connection with the cloud server through a network, the cloud server is in communication connection with the management terminal through a network, and the cloud server is also in communication connection with the mobile terminals equipped by each inspection worker through a wireless network;

the detection extension is mutually connected with a controller of the public water dispenser, receives running state data of the public water dispenser, packages and processes the acquired data and transmits the data to the cloud server;

the mobile terminal uploads the position information monitored in real time to a cloud server in real time through wireless communication; the mobile terminal receives the inspection task instruction from the cloud end through wireless communication, and after the inspection task instruction is analyzed and processed by the processor, the inspection instruction information is displayed to the inspection personnel through the touch screen;

the cloud server mobile phone detects collected data packets uploaded by the extension sets on the public water dispensers distributed everywhere, analyzes the collected data to obtain the running state of the public water dispensers, and identifies the public water dispensers with faults; the method comprises the steps that a cloud server obtains position information of mobile terminals worn by inspection personnel; performing distance optimal operation on the position of the fault public water dispenser and the position information of each mobile terminal, and extracting an optimal mobile terminal according to the current task quantity parameters of each mobile terminal; and transferring an inspection task instruction to the optimal mobile terminal;

and the management terminal monitors the running states of all the detection extension sets and the mobile terminal in real time through the cloud server.

As an optimization scheme of the embodiment, the detection extension set comprises a local data interface, a data acquisition circuit, a controller and a network interface, the local data interface is connected with the controller of the public water dispenser and receives operation state data of the public water dispenser, the local data interface adjusts the received data through the data acquisition circuit and transmits the adjusted data to the controller, and the controller packages the acquired data and transmits the packaged data to the cloud server through the network interface.

As an optimized scheme of the above embodiment, the mobile terminal includes a positioning device, a wireless communication device, a processor and a touch screen, and the positioning device, the wireless communication device and the touch screen are all electrically connected to the processor; the positioning device monitors the position of the mobile terminal in real time and uploads the position information to the cloud server in real time through the wireless communication device; the mobile terminal receives the inspection task instruction from the cloud end through the wireless communication device, analyzes and processes the inspection task instruction by the processor, and displays the inspection instruction information to the inspection personnel through the touch screen.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A method for inspecting a public water dispenser is characterized by comprising the following steps:

s10, arranging detection extension sets on each public water dispenser, and transmitting the operation state data of the public water dispensers received by the detection extension sets as collected data to a cloud server through a network after the operation state data are packaged;

s20, each patrol inspector is provided with an independent mobile terminal, and the mobile terminal uploads the position information to a cloud server in real time through a positioning device;

s30, analyzing the collected data in the cloud server to obtain the running state data of the public water dispenser, and identifying the fault public water dispenser;

s40, performing distance optimal operation according to the position of the fault public drinking machine and the position information of the mobile terminal; meanwhile, according to the current task quantity parameters of all the mobile terminals, the optimal mobile terminal is extracted, and the method comprises the following steps:

s41, comparing the position of the fault public drinking machine with the position of each mobile terminal to obtain the path distance value from each mobile terminal to the fault public drinking machine, and sequencing the mobile terminals according to the path distance valuesThen, a path vector L ═ L is formed₁,l₂……l_i]Wherein i is the total number of the mobile terminals, and l is a path distance value from the mobile terminal to the fault public drinking machine;

s42, adding task quantity constraint, improving path vector, and extracting optimal mobile terminal, including steps;

s421, counting the task quantity values of all the mobile terminals, and establishing a task quantity vector in the current time period, wherein the task quantity vector is M ═ M₁,m₂……m_i]Wherein i is the total number of the mobile terminals, and m is the task quantity value of the mobile terminals;

s422, the task vector and the path vector are merged to form a parameter matrix a ═ a for all the mobile terminals₁,a₂,……a_n]An is (l)_n,m_n) N is the number of elements, n is 3 … … i;

s423, sequentially checking each element in the parameter matrix, and calling the mobile terminal with shorter distance and less task amount as the optimal mobile terminal;

the calculation process for sequentially checking each element in the parameter matrix is as follows:

s4231, take a₁(l₁,m₁) M is₁And m₂For comparison, when m is₁<m₂And | m₁-m₂|<m_{Threshold value}When it comes to a₁The mobile terminal is an optimal mobile terminal; when m is₁≥m₂Or | m₁-m₂|≥m_{Threshold value}Then, the next calculation is carried out;

s4232, take a₂(l₂,m₂) M is₂And m₃For comparison, when m is₂<m₃And | m₂-m₃|<m_{Threshold value}When, if l₂<l_{Threshold value}Then get a₂The mobile terminal is the optimal mobile terminal, if l₂≥l_{Threshold value}Then get a₁The mobile terminal is an optimal mobile terminal; when m is₂≥m₃Or | m₂-m₃|≥m_{Threshold value}Then, the next calculation is carried out；

S4233, a synchronization step S4232, which is to calculate each element in the parameter matrix in turn;

s4234, take a_i-1(l_i-1,m_i-1) M is_i-1And m_iFor comparison, when m is_i-1<m_iAnd | m_i-1-m_i|<m_{Threshold value}When, if l_i-1<l_{Threshold value}Then get a_i-1The mobile terminal is the optimal mobile terminal, if l_i-1≥l_{Threshold value}Then get a_i-2The mobile terminal is an optimal mobile terminal; when m is_i-1≥m_iOr | m_i-1-m_i|≥m_{Threshold value}When it is, then take a_iThe mobile terminal is an optimal mobile terminal;

and S50, transferring an inspection task instruction to the optimal mobile terminal, and inspecting the fault public water dispenser by an inspection worker equipped with the optimal mobile terminal.

2. The inspection method for the public water dispenser according to claim 1, wherein in the step S30, the identification method for the fault public water dispenser comprises the steps of:

s31, establishing a fault recognition model based on a neural network in the cloud server;

s32, inputting the operation state data of the public drinking machine into the fault identification model;

s33, carrying out convolution operation on the collected running state data through the fault identification model, and outputting fault parameters;

and S34, if the fault identification model outputs the fault parameters, the public water dispenser is a fault public water dispenser.

3. The method for patrolling the public water dispenser according to claim 2, wherein when the fault recognition model based on the neural network is established, the fault recognition model is trained through the neural network by collecting a historical fault data set of the public water dispenser.

4. The inspection method for the public water dispenser according to claim 1, characterized in that in order to cooperate with task amount optimal operation, a corresponding task list is established for each mobile terminal in a cloud server, wherein the task list comprises a current task list and a historical task list;

when the mobile terminal completes a task, after completion information is fed back to the cloud server, the fact that the task information is completed is marked in the current task list, the task information is moved into a historical task list, and meanwhile the task information is removed from the current task list; and determining the current task quantity value according to the task quantity recorded in the current task list.

5. A public water dispenser inspection system is characterized in that a public water dispenser inspection method based on any one of claims 1 to 4 comprises detection extension sets, cloud servers, mobile terminals and management terminals, wherein each public water dispenser is provided with the detection extension sets, each detection extension set is in communication connection with the cloud server through a network, the cloud servers are in communication connection with the management terminals through the network, and the cloud servers are also in communication connection with the mobile terminals equipped by each inspection staff through a wireless network;

the detection extension is mutually connected with a controller of the public water dispenser, receives running state data of the public water dispenser, packages and processes the acquired data and transmits the data to the cloud server;

the mobile terminal uploads the position information monitored in real time to a cloud server in real time through wireless communication; the mobile terminal receives the inspection task instruction from the cloud end through wireless communication, and after the inspection task instruction is analyzed and processed by the processor, the inspection instruction information is displayed to the inspection personnel through the touch screen;

the cloud server mobile phone detects collected data packets uploaded by the extension sets on the public water dispensers distributed everywhere, analyzes the collected data to obtain the running state of the public water dispensers, and identifies the public water dispensers with faults; the method comprises the steps that a cloud server obtains position information of mobile terminals worn by inspection personnel; performing distance optimal operation on the position of the fault public water dispenser and the position information of each mobile terminal, and extracting an optimal mobile terminal according to the current task quantity parameters of each mobile terminal; and transferring an inspection task instruction to the optimal mobile terminal;

and the management terminal monitors the running states of all the detection extension sets and the mobile terminal in real time through the cloud server.

6. The public water dispenser inspection system according to claim 5, wherein the detection extension comprises a local data interface, a data acquisition circuit, a controller and a network interface, the local data interface is connected with the controller of the public water dispenser and receives operation state data of the public water dispenser, the local data interface adjusts the received data through the data acquisition circuit and transmits the adjusted data to the controller, and the controller packages the acquired data and transmits the packaged data to the cloud server through the network interface.

7. The public water dispenser inspection system according to claim 6, wherein the mobile terminal comprises a positioning device, a wireless communication device, a processor and a touch screen, and the positioning device, the wireless communication device and the touch screen are electrically connected with the processor; the positioning device monitors the position of the mobile terminal in real time and uploads the position information to the cloud server in real time through the wireless communication device; the mobile terminal receives the inspection task instruction from the cloud end through the wireless communication device, analyzes and processes the inspection task instruction by the processor, and displays the inspection instruction information to the inspection personnel through the touch screen.

Images