CN110852639A - Mechanical monitoring and order management mobile platform based on high in clouds - Google Patents

Abstract

The invention discloses a cloud-based mechanical monitoring and order management mobile platform, which belongs to the technical field of constructional engineering and information and comprises an equipment vehicle system, an order management system, a map management system and a personal central system, wherein the equipment vehicle system comprises a binding equipment module and a personnel vehicle module, the binding equipment comprises binding, unbinding, learning and resetting between equipment and a vehicle, and the personnel vehicle module comprises a vehicle owner and vehicle information adding, deleting, modifying and checking; the order management system comprises an initiating list, an examining and approving list, a checking list, a tracking list and a history list, wherein the mobile platform end displays part or all of the lists according to the authority of a login person; the map management system displays all vehicle information under the organization to which the login person belongs; the personal center system comprises a function of checking personal information, checking an update log on line and downloading an operation manual. The invention realizes the on-line detection of the position and the state of the vehicle equipment, the on-line ordering and approval, the automatic calculation of the working hours and the transparent operation mode.

Description

Mechanical monitoring and order management mobile platform based on high in clouds

Technical Field

The invention relates to the technical field of constructional engineering and information, in particular to a mobile platform for mechanical monitoring and order management based on a cloud.

Background

At present, the man-hour calculation of job site still carries out manual statistics and calculation by traditional manual work, has the action of dark fragrant operation, often calculates inaccurately, has the situation of "lazy mollison" in a large number, and plan single flow is loaded down with trivial details, has the action such as a large amount of receipts of mending, causes the waste of personnel and resource more serious, mainly has following problem:

project constructors are insufficient in hands, the work of field workers cannot be supervised in real time, the construction time can only be known according to implementation personnel, the accuracy cannot be guaranteed, the working time calculation is completed by a manual protocol, and dark and fragrant operation exists;

at present, a working model is complex, timeliness of examination and approval cannot be achieved, in addition, the field situation is complex, a large number of form supplement situations occur, a construction field plan form and a task form are filled in by paper plates, signature confirmation and examination and approval must be carried out on the spot, the process is complex, and the work cannot be carried out in time. The condition of order supplement exists in a large number of on-site planning lists and task lists, namely the planned construction of work is not really achieved, and the effect of the plan cannot be achieved;

the field area range is large, the difficulty in manually tracking and monitoring the vehicle is great, and the position and the state of the vehicle cannot be tracked by the field vehicle.

Disclosure of Invention

The technical task of the invention is to provide a cloud-based mechanical monitoring and order management mobile platform, which can realize the online detection of the position and the state of vehicle equipment, the online ordering and examination and approval, the automatic calculation of working hours and a transparent operation mode.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a mobile platform for machine monitoring and order management based on cloud comprises an equipment vehicle system, an order management system, a map management system and a personal center system,

the equipment vehicle system comprises a binding equipment module and a personnel vehicle module, wherein the binding equipment comprises binding, unbinding, learning and resetting between equipment and a vehicle, and the personnel vehicle module comprises a vehicle owner and addition, deletion, modification and check of vehicle information;

the order management system comprises an initiating list, an examining and approving list, a checking list, a tracking list and a history list, wherein the mobile platform end displays part or all of the lists according to the authority of a login person;

the map management system displays all vehicle information under the organization to which the login person belongs in an aggregation mode;

the personal center system comprises a function of checking personal information, checking an update log on line and downloading an operation manual.

The system has the advantages that different accounts have different management authorities through authority distribution, and flexible distribution and convenient use are achieved.

The system transfers the traditional manual calculation man-hour and offline plan list and task list issuing and approval to a mobile platform to realize electronic management; by utilizing a cloud big data algorithm, the working time of the vehicle is automatically calculated, manual intervention on a construction site is avoided, operation of a camera bellows is reduced, and the phenomenon of lazy and rusty work is effectively reduced.

The longitude and latitude positions of the vehicles are uploaded in real time through the binding equipment module and equipment communication, so that real-time positioning is realized, and managers can know the overall vehicle distribution state of a project; through equipment sensors and communication, the vehicle state is finely judged by using an optimization algorithm at the cloud end, and then the working state of the vehicle is monitored in real time.

The online order management realizes ordering, approval, checking, tracking and historical query of the plan list and the task list, and can change, cancel and other operations of the order according to actual conditions, thereby reducing online operations, facilitating the use of personnel and improving the working efficiency; and by time limitation, the bill supplementing behavior is effectively limited, and the planning and implementation of the project on the planning work are standardized.

Vehicle information is displayed through a map, specific vehicles and time nodes are selected, corresponding specific position information is inquired through a cloud end, and effective track playback can be achieved through filtering and integrating data.

Preferably, the device and the vehicle are bound, unbound, learned and reset, and the operations relate to data interaction with the cloud. Acquiring equipment information through a scanning equipment two-dimensional code, wherein the equipment has a unique ID, selecting vehicle information to be bound, filling in project related information, and setting a communication IP, a port and a communication time interval; and after the information is filled, the information can be submitted, the submitted equipment and the cloud platform interact according to a set protocol to complete the initial configuration of the equipment, and at the moment, the equipment and the vehicle complete the unique mutual binding relationship.

Further, the configured equipment collects point vehicle state information for multiple times at fixed time intervals according to set time, and performs data communication with the cloud end according to the set time intervals to finish the judgment and positioning of the vehicle state;

after configuration, the equipment performs learning operation, clicks a learning button, performs data transmission with the cloud platform, and can learn the self information of the bound vehicle through short learning to form an information threshold value which is subsequently used for judging the running state of the vehicle;

the reset operation is used for re-learning after the equipment reset operation, and the equipment can be reset and then re-learn;

the device and the vehicle which are not used are subjected to unbinding operation, the cloud platform is informed of the unbinding operation by clicking the unbinding button, and the device enters a low power consumption state after the unbinding operation, so that the battery power of the device is guaranteed.

Preferably, the initiating list of the order management system is used for creating new orders and submitting and checking, order information which is not submitted or approved by a login person is displayed, multiple tasks can be added to the created orders, planned work content, work duration and vehicles to be used are marked, and corresponding post personnel are selected to submit and check after filling;

the approval list has an approval function and is used for displaying order information which needs to be approved by a login person;

the tracking list is used for tracking flow, changing, canceling and selecting vehicle information, displaying order information under a project to which a login person belongs, enabling a project person to check the stage to which the order belongs and an examination and approval person, and enabling an initiator to apply for order changing or canceling according to actual conditions when the order passing examination and approval needs to select a specific vehicle to be used;

the check list is used for filling in actual working time, working content and automatic calculation working hours and displaying order information which needs to be checked by a login person. The working time calculation principle is that firstly, the state of the equipment at every moment is judged by the cloud according to a big data algorithm, then the working time of the equipment is calculated through a set logic rule, transparent calculation is really achieved, and no manual participation exists;

the history list may look up various order information that has ended.

Preferably, each vehicle in the map management system is provided with a display icon according to the vehicle type of the vehicle, so that the vehicle is convenient to distinguish, and the current state of the vehicle is displayed through the color of the icon.

Further, the vehicle information includes a vehicle model, a machine name, a device ID, an amount of electricity, a charging condition, a speed, and a location.

The login personnel can check the vehicle information and the real-time position at any time, and the positioning function is realized by data transmission between the cloud and the equipment.

Preferably, the map management system further comprises track playback, a specific vehicle is selected, the time required to be played back is filled, the cloud platform obtains longitude and latitude points of the equipment in the selected time period, and the longitude and latitude points are filtered and returned to the mobile terminal, so that track playback of the vehicle is completed, and accordingly historical motion tracks of the vehicle are inquired.

Preferably, the mobile platform end comprises a mobile phone android end and a mobile phone WeChat end.

Furthermore, the mobile phone wechat terminal also comprises a wechat pushing system, and the wechat pushing system comprises pushing of equipment alarm information and order approval information.

Specifically, the equipment alarm information is pushed, and the alarm triggering mechanism comprises long-time signal loss of the equipment, super-long idling, nine-axis warning, GPS (global positioning system) positioning failure and electric quantity alarm.

And pushing the order approval information, and pushing the information when the manager approves the order. The approval person is informed in time, and the approval efficiency is improved.

Through the android mobile phone end and the WeChat mobile phone end, with the help of cloud and big data, through data communication between equipment and the cloud, the automatic calculation man-hour is realized, the functions of real-time positioning of construction vehicles, on-line order management completion and the like are realized, and the improvement of production management efficiency is promoted.

Compared with the prior art, the mobile platform for mechanical monitoring and order management based on the cloud end has the following beneficial effects:

the platform can reduce cost and time overhead and realize full automation; working hours are automatically calculated through the cloud, so that the phenomenon of 'lazy and rustic worker' is effectively reduced; the new construction, approval and tracking of the plan list and the task list are realized on line, so that the working mode of personnel is greatly facilitated, and the working efficiency is improved; through online limitation, the condition of randomly supplementing the bill is avoided, and the plan bill really plays a role in planning work; the vehicle equipment can be monitored on line in real time, and the position and detailed information of the vehicle can be checked at any time; the historical working area of the vehicle can be checked through track playback; accurately distinguishing the current working states of the vehicle equipment through a big data algorithm; the battery service time of the equipment is prolonged by using low power consumption technology.

Comprehensively, the big data is utilized, the software and hardware technology and the communication technology are combined, real-time communication is carried out on the equipment and the cloud end in a mode of combining the equipment and the vehicle, working hours are automatically calculated, and hidden dangers possibly existing in manual calculation are avoided. The method and the system realize the issuing and approval of the online plan list and the task list and reduce the behavior of form supplement. The method has important significance for realizing the aspects of electronization, lightness, rationalization, accuracy and the like of work. In addition, the operation is simple, the use is convenient, the performance is more stable, vehicles on a construction site can be checked on line in a unified mode, and the defect that the vehicles on the site cannot be managed visually in the prior art is reduced.

Drawings

Fig. 1 is a schematic system structure diagram of a mobile cloud-based machine monitoring and order management platform according to the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

A mechanical monitoring and order management mobile platform based on a cloud comprises a mobile phone android terminal and a mobile phone WeChat terminal.

Mobile phone android implementation scheme

The method comprises the steps of binding and unbinding of an equipment vehicle system, personnel management and vehicle management; ordering, approving, checking, tracking, history inquiring and working hour calculating related to the order management system; the map management system has the functions of vehicle positioning, work state query, track playback and the like, and also has the functions of downloading an operation manual, checking an update log and the like. The system has the advantages that different accounts have different management authorities through authority distribution, and flexible distribution and convenient use are achieved.

An equipment vehicle system: the function module has two lists of 'bound equipment' and 'personnel and vehicles'. Wherein the 'personnel vehicle' relates to the addition, deletion, modification and check of vehicle owner and vehicle information. "binding a device" refers to binding, unbinding, learning, and resetting operations between vehicles and devices, such operations involving data interaction with the cloud. The method comprises the steps of obtaining equipment information through a two-dimensional code on scanning equipment, enabling the equipment to have a unique ID, selecting vehicle information needing to be bound, filling relevant information of a project, and setting a communication IP, a port and a communication time interval. After the information is filled, the information can be submitted, the submitted equipment and the cloud platform interact according to a set protocol to complete the initial configuration of the equipment, and at the moment, the equipment and the vehicle complete the unique mutual binding relationship. The configured equipment can collect point vehicle state information for multiple times every 5s, and performs data communication with the cloud according to a set time interval, so that the functions of judging and positioning the vehicle state and the like are completed.

The equipment can carry out the learning operation after the configuration, clicks "study" button, and equipment and cloud platform carry out data transmission, and through the study of short duration, the equipment can know the self information of the vehicle of tying up, forms the information threshold value, and follow-up running state that is used for judging the vehicle. In addition, the device can perform learning again after reset operation.

To equipment and vehicle that do not use, need to unbind the operation, click "unbind" button and can inform the cloud platform and unbundle the operation, equipment this moment can get into low-power consumption and guarantee its battery power.

An order management system: the functional module has five lists of 'initiating', 'examining and approving', 'checking', 'tracking' and 'history', and the system displays partial or all lists according to the authority of a login person.

The 'initiating' list has the functions of creating new orders and submitting and checking, and shows order information which is not submitted or approved by a lander. The new order can be added with a plurality of tasks, the planned work content, the work duration and the vehicles to be used are marked, and corresponding post personnel are selected to submit and examine after the completion of the filling.

The examination and approval list has an examination and approval function and shows the order information which needs to be examined and approved by the login person.

The tracking list has the functions of tracking the flow, changing, canceling, selecting the vehicle information and the like, and displays the order information of the items to which the login person belongs. The project personnel can check the stage and the examining and approving personnel of the order. For the approved order, a specific vehicle is selected to be used, and the initiator can apply for order change or cancel according to actual conditions.

The 'checking' list has the functions of filling in actual working time, working content and automatically calculating working hours, and shows order information which needs to be checked by a login person. And when the time is filled, the limitation is carried out according to the binding, ordering and other order time of the equipment, and the actual working time of the equipment can be automatically calculated. The working hour calculation principle is that the state of the equipment at every moment is judged by the cloud according to a big data algorithm, and the working time of the equipment is calculated by setting a logic rule, so that transparent calculation is really realized, and no manual work is involved.

The "history" list may look up various order information that has ended.

A map management system: the map displays all equipment vehicle information under the organization to which the login person belongs in an aggregation mode. Each vehicle is provided with the display icon according to the vehicle type, so that the display icons are convenient to distinguish, and the current state of the vehicle can be visually displayed through the color of the icon. And selecting a specific vehicle, and displaying the information of the model, the mechanical name, the equipment ID, the electric quantity, the charging state, the speed, the position and the like of the selected vehicle. The landing personnel can check the vehicle information and the real-time position at any time, and the positioning function is realized by data transmission between the cloud and the equipment.

The map also has a track playback function, a specific vehicle is selected, the time required to be played back is filled, the cloud can acquire the longitude and latitude points of the equipment in the selected time period, and the longitude and latitude points are filtered and returned to the mobile terminal, so that the track playback of the vehicle can be completed, and the historical motion track of each vehicle can be conveniently inquired.

The personal central system: the function module comprises functions of checking personal information, checking update logs on line, downloading operation manuals and the like.

Implementation scheme of mobile phone WeChat end

Binding and unbinding of an equipment vehicle system, personnel management and vehicle management are included; ordering, approving, checking, tracking, history inquiring and working hour calculating related to the order management system; the map management system has the functions of vehicle positioning, work state query, track playback and the like, and has the functions of WeChat message pushing, operation manual downloading, update log viewing and the like. The system has the advantages that different accounts have different management authorities through authority distribution, and flexible distribution and convenient use are achieved.

An equipment vehicle system: the function module has two lists of 'bound equipment' and 'personnel and vehicles'. Wherein the 'personnel vehicle' relates to the addition, deletion, modification and check of vehicle owner and vehicle information. "binding a device" refers to binding, unbinding, learning, and resetting operations between vehicles and devices, such operations involving data interaction with the cloud. The method comprises the steps of obtaining equipment information through a two-dimensional code on scanning equipment, enabling the equipment to have a unique ID, selecting vehicle information needing to be bound, filling relevant information of a project, and setting a communication IP, a port and a communication time interval. After the information is filled, the information can be submitted, the submitted equipment and the cloud platform interact according to a set protocol to complete the initial configuration of the equipment, and at the moment, the equipment and the vehicle complete the unique mutual binding relationship. The configured equipment can collect point vehicle state information for multiple times every 5s, and performs data communication with the cloud according to a set time interval, so that the functions of judging and positioning the vehicle state and the like are completed.

The equipment can carry out the learning operation after the configuration, clicks "study" button, and equipment and cloud platform carry out data transmission, and through the study of short duration, the equipment can know the self information of the vehicle of tying up, forms the information threshold value, and follow-up running state that is used for judging the vehicle. In addition, the device can perform learning again after reset operation.

To equipment and vehicle that do not use, need to unbind the operation, click "unbind" button and can inform the cloud platform and unbundle the operation, equipment this moment can get into low-power consumption and guarantee its battery power.

An order management system: the functional module has five lists of 'initiating', 'examining and approving', 'checking', 'tracking' and 'history', and the system displays partial or all lists according to the authority of a login person.

The 'initiating' list has the functions of creating new orders and submitting and checking, and shows order information which is not submitted or approved by a lander. The new order can be added with a plurality of tasks, the planned work content, the work duration and the vehicles to be used are marked, and corresponding post personnel are selected to submit and examine after the completion of the filling.

The examination and approval list has an examination and approval function and shows the order information which needs to be examined and approved by the login person.

The tracking list has the functions of tracking the flow, changing, canceling, selecting the vehicle information and the like, and displays the order information of the items to which the login person belongs. The project personnel can check the stage and the examining and approving personnel of the order. For the approved order, a specific vehicle is selected to be used, and the initiator can apply for order change or cancel according to actual conditions.

The 'checking' list has the functions of filling in actual working time, working content and automatically calculating working hours, and shows order information which needs to be checked by a login person. And when the time is filled, the limitation is carried out according to the binding, ordering and other order time of the equipment, and the actual working time of the equipment can be automatically calculated. The working hour calculation principle is that the state of the equipment at every moment is judged by the cloud according to a big data algorithm, and the working time of the equipment is calculated by setting a logic rule, so that transparent calculation is really realized, and no manual work is involved.

The "history" list may look up various order information that has ended.

A map management system: the map displays all equipment vehicle information under the organization to which the login person belongs in an aggregation mode. Each vehicle is provided with the display icon according to the vehicle type, so that the display icons are convenient to distinguish, and the current state of the vehicle can be visually displayed through the color of the icon. And selecting a specific vehicle, and displaying the information of the model, the mechanical name, the equipment ID, the electric quantity, the charging state, the speed, the position and the like of the selected vehicle. The landing personnel can check the vehicle information and the real-time position at any time, and the positioning function is realized by data transmission between the cloud and the equipment.

The map also has a track playback function, a specific vehicle is selected, the time required to be played back is filled, the cloud can acquire the longitude and latitude points of the equipment in the selected time period, and the longitude and latitude points are filtered and returned to the mobile terminal, so that the track playback of the vehicle can be completed, and the historical motion track of each vehicle can be conveniently inquired.

WeChat push system: the function module comprises a pushing function of equipment warning information and order approval information. When the equipment loses signals for a long time, overlength idling occurs, nine-axis alarming, GPS (global positioning system) positioning failure, electric quantity alarming and the like can be carried out, and message pushing is carried out. If the manager needs to carry out order approval, the message can be pushed, so that the approver can be informed in time, and the approval efficiency is improved.

The personal central system: the function module comprises functions of checking personal information, checking update logs on line, downloading operation manuals and the like.

The platform is designed and developed by combining software and hardware technologies and communication technologies, is deployed in a system server (an application server, an interface server and a database server), sets a communication protocol between equipment and the server, writes the protocol into the equipment, and comprises a sensor and a communication module. The two-dimensional code is scanned to bind the equipment and the vehicle, an equipment communication server IP and a port are set, the equipment transmits data into a cloud end in real time, the cloud end detects the state of the equipment and other information, and the data are stored in a database. The mobile platform submits the instruction to the application server through the interface server, the application server submits and stores the data to the database server through the application program after receiving the instruction data, and then the data communication between the equipment and the cloud end is stimulated, and the function of controlling the equipment is achieved.

The specific implementation rules are as follows:

firstly, the normality of equipment communication is checked, and the equipment can normally communicate.

And secondly, maintaining information of personnel and vehicles in advance.

Scanning the two-dimension code of the equipment, selecting the vehicle, binding the unique equipment and the vehicle mutually, setting the program that the equipment is not allowed to be bound repeatedly, and setting the equipment with abnormal communication not to be bound.

And fourthly, the bound equipment needs to be subjected to learning operation, and the learning purpose is to enable the equipment to know the basic information of the bound vehicle and to be used as an important basis for judging the subsequent vehicle state.

And fifthly, unbinding, namely unbinding operation is needed for the unused equipment and the vehicle.

And sixthly, selecting the vehicle according to the order, and performing filtering selection according to the states of the project vehicle and the like to avoid the states of unreasonable selection and the like.

Data communication is carried out between the equipment and the cloud, the server side application program calculates the state and the duration of the equipment according to a big data algorithm, and the data are stored in a database and fed back to the equipment of the related authority management personnel.

The platform can acquire the position of a vehicle in real time, automatically calculate the working hours and manage orders on line, so that enterprises can reliably know the working hours of a construction site conveniently, construction enterprises can control the progress, cost and safety of engineering, and important basis is provided for enterprise management decision making. Through the binding of the equipment and the vehicle and the implementation of the online order, the controllability and the accuracy of a construction enterprise to a project are greatly improved, reasonable and effective supervision data are provided for the enterprise, the project management effect is monitored, and the development dynamics of the project is mastered.

Through this mechanical monitoring and order management mobile platform based on high in clouds, the construction action of reasonable standard project, effectual reasonable planning to the construction work content is carried out to a line of data of collecting the job site that can be fine, for enterprise's management decision-making provides important foundation, and then promotes the better operation management of enterprise. The method is simple to operate, complex manual operation, resource waste and manual intervention conditions do not need to exist, and the authenticity of site construction can be fairly and truly embodied.

The present invention can be easily implemented by those skilled in the art from the above detailed description. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the basis of the disclosed embodiments, a person skilled in the art can combine different technical features at will, thereby implementing different technical solutions.

In addition to the technical features described in the specification, the technology is known to those skilled in the art.

Claims (10)

1. A mobile platform for machine monitoring and order management based on cloud is characterized by comprising an equipment vehicle system, an order management system, a map management system and a personal center system,

the equipment vehicle system comprises a binding equipment module and a personnel vehicle module, wherein the binding equipment comprises binding, unbinding, learning and resetting between equipment and a vehicle, and the personnel vehicle module comprises a vehicle owner and addition, deletion, modification and check of vehicle information;

the order management system comprises an initiating list, an examining and approving list, a checking list, a tracking list and a history list, wherein the mobile platform end displays part or all of the lists according to the authority of a login person;

the map management system displays all vehicle information under the organization to which the login person belongs;

the personal center system comprises a function of checking personal information, checking an update log on line and downloading an operation manual.

2. The cloud-based machine monitoring and order management mobile platform of claim 1, wherein device information is obtained by scanning a device two-dimensional code, the device has a unique ID, vehicle information to be bound is selected, project-related information is filled, and a communication IP, a port and a communication time interval are set; and after the information is filled, the information can be submitted, the submitted equipment and the cloud platform interact according to a set protocol to complete the initial configuration of the equipment, and at the moment, the equipment and the vehicle complete the unique mutual binding relationship.

3. The cloud-based mechanical monitoring and order management mobile platform of claim 1 or 2, wherein the configured device collects point vehicle state information for a plurality of times at fixed time intervals according to set time, and performs data communication with the cloud according to the set time intervals to complete judgment and positioning of the vehicle state;

after configuration, the equipment performs learning operation, clicks a learning button, performs data transmission with the cloud platform, and can learn the self information of the bound vehicle through short learning to form an information threshold value which is subsequently used for judging the running state of the vehicle;

the reset operation is used for re-learning after the equipment reset operation;

the device and the vehicle which are not used are subjected to unbinding operation, the cloud platform is informed of the unbinding operation by clicking the unbinding button, and the device enters a low power consumption state after the unbinding operation, so that the battery power of the device is guaranteed.

4. The cloud-based machine monitoring and order management mobile platform of claim 1, wherein an initiation list of an order management system is used for creating orders and submitting audit, and displaying order information that a logger fails to submit or approve;

the examination and approval list is used for displaying order information which needs to be examined and approved by a login person;

the tracking list is used for tracking the flow, changing, canceling and selecting the vehicle information and displaying the order information under the item to which the login person belongs;

the check list is used for filling in actual working time, working content and automatic calculation working hours and displaying order information which needs to be checked by a login person.

5. The cloud-based machine monitoring and order management mobile platform of claim 1, wherein each vehicle in the map management system sets its display icon according to its vehicle type.

6. The cloud-based machine monitoring and order management mobile platform of claim 1 or 5, wherein the vehicle information comprises vehicle model, machine name, device ID, battery level, charging status, speed, and location.

7. The cloud-based machine monitoring and order management mobile platform of claim 1 or 5, wherein the map management system further comprises track playback, a specific vehicle is selected, the time required for playback is filled, the cloud platform obtains longitude and latitude points of the equipment in the selected time period, and the longitude and latitude points are filtered and returned to the mobile terminal, so that track playback of the vehicle is completed, and historical motion tracks of the vehicle are queried.

8. The cloud-based machine monitoring and order management mobile platform of claim 1, 2, 4, or 5, wherein the mobile platform end comprises a mobile android end and a mobile WeChat end.

9. The cloud-based machine monitoring and order management mobile platform of claim 8, wherein the mobile phone wechat terminal further comprises a wechat push system, and the wechat push system comprises push of device alarm information and order approval information.

10. The cloud-based machine monitoring and order management mobile platform of claim 9, wherein the device alarm information is pushed, and the alarm triggering mechanism comprises a long-time loss signal of the device, an over-long idle speed, a nine-axis alarm, a GPS failure in positioning, and a power alarm.

Images