Construction robot anti-theft management method and system based on GPS

文档序号:9532 发布日期:2021-09-17 浏览:54次 中文

1. A construction robot anti-theft management method based on GPS is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

recording basic information of a construction site into a cloud system, and drawing a closed area on a map of the boundary of the construction site;

inputting basic information of the construction robot into a cloud system, and binding the construction robot with a construction site to determine that the construction robot is constructed on the construction site within the time when the binding relationship is effective;

registering a GPS module installed on the construction robot in a cloud system, and then binding the GPS module with the construction robot to acquire GPS data transmitted by the GPS module;

setting alarm thresholds of the construction robot, including a moving speed threshold of the construction robot and a threshold of moving out of a construction site area;

collecting GPS data of the construction robot, analyzing the moving speed of the construction robot according to the GPS data, and sending alarm information to a manager when the moving speed exceeds a threshold value;

and after the manager receives the alarm information and confirms that the construction robot is lost, clearing the core code file of the lost construction robot through the cloud system.

2. The GPS-based construction robot anti-theft management method according to claim 1, wherein: also comprises the following steps of (1) preparing,

when the construction robot needs to leave a construction area, the cloud system receives an outgoing application of the construction robot sent by a manager, wherein the outgoing application of the construction robot comprises the number of the outgoing construction robot and an outgoing time period;

and after the outgoing application of the construction robot is approved by the cloud system, setting the alarm threshold value of the outgoing construction robot as invalid in the outgoing time period.

3. The GPS-based construction robot anti-theft management method according to claim 1, wherein: also comprises the following steps of (1) preparing,

and judging whether the construction robot exceeds a threshold value of a removal construction site area according to the collected latest GPS data of the construction robot, and if the construction robot exceeds the threshold value of the removal construction site area, sending alarm information that the construction robot exceeds the threshold value of the removal construction site area to a manager.

4. The GPS-based construction robot anti-theft management method according to claim 1, wherein: after receiving the alarm information and confirming that the construction robot is lost, the manager removes the core code file of the lost construction robot through the cloud system,

after receiving the alarm information and confirming that the construction robot is lost, a manager sets the state of the lost construction robot as a stolen state in the cloud system;

and when the state of the construction robot of the cloud system is checked to be a stolen state by default polling of the automatic execution program of the lost construction robot, automatically clearing the core code file by the internal program of the lost construction robot.

5. The GPS-based construction robot anti-theft management method according to claim 1, wherein: also comprises the following steps of (1) preparing,

the cloud system receives GPS data uploaded by a GPS module of the lost construction robot, and records the moving track of the construction robot so as to track the construction robot.

6. The utility model provides a construction robot anti-theft management system based on GPS which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the building site registration module is used for recording basic information of a building site into the cloud system and drawing a closed area on a map of the boundary of the building site;

the construction robot registration module is used for recording basic information of the construction robot into the cloud system and binding the construction robot with a construction site so as to determine that the construction robot is constructed on the construction site within the time when the binding relationship is effective;

the GPS binding module is used for registering the GPS module installed on the construction robot in a cloud system, then binding the GPS module with the construction robot and acquiring GPS data transmitted by the GPS module;

the alarm setting module is used for setting alarm thresholds of the construction robot, wherein the alarm thresholds comprise a moving speed threshold of the construction robot and a threshold of moving out of a construction site area;

the mobile alarm module is used for acquiring GPS data of the construction robot, analyzing the moving speed of the construction robot according to the GPS data, and sending alarm information to a manager when the moving speed exceeds a threshold value;

and the core code clearing module is used for clearing the core code file of the lost construction robot through the cloud system after the manager receives the alarm information and confirms that the construction robot is lost.

7. The GPS-based construction robot anti-theft management system according to claim 6, wherein: still including the construction robot application module of going out for:

when the construction robot needs to leave a construction area, the cloud system receives an outgoing application of the construction robot sent by a manager, wherein the outgoing application of the construction robot comprises the number of the outgoing construction robot and an outgoing time period;

and after the outgoing application of the construction robot is approved by the cloud system, setting the alarm threshold value of the outgoing construction robot as invalid in the outgoing time period.

8. The GPS-based construction robot anti-theft management system according to claim 6, wherein: the mobile alarm module is also used for,

and judging whether the construction robot exceeds a threshold value of the moved-out construction site area or not according to the collected latest CPS data of the construction robot, and if the construction robot exceeds the threshold value of the moved-out construction site area, sending alarm information that the construction robot exceeds the threshold value of the moved-out construction site area to a manager.

9. The GPS-based construction robot anti-theft management system according to claim 6, wherein: the core code clean-up module is specifically configured to,

after receiving the alarm information and confirming that the construction robot is lost, a manager sets the state of the lost construction robot as a stolen state in the cloud system;

and when the state of the construction robot of the cloud system is checked to be a stolen state by default polling of the automatic execution program of the lost construction robot, automatically clearing the core code file by the internal program of the lost construction robot.

10. The GPS-based construction robot anti-theft management system according to claim 6, wherein: still include construction robot tracking module for:

and the cloud system receives the CPS data uploaded by the GPS module of the lost construction robot and records the movement track of the construction robot so as to track the construction robot.

Background

Along with the application and development of robots in the field of building engineering, more and more companies develop various construction robots including a putty robot, a spraying robot, a polishing robot, and the like. Compared with a consumer-grade robot, the construction robot is larger in size, heavier in weight and higher in monomer value, is stored in a project site daily, is more complex in environment, is easy to steal on the one hand, and is also possible to steal a downloading program by a competitor to dismantle and conduct algorithm research on the other hand.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a construction robot anti-theft management method and system based on GPS is provided.

In order to solve the technical problems, the invention adopts the technical scheme that: a construction robot anti-theft management method based on GPS comprises,

recording basic information of a construction site into a cloud system, and drawing a closed area on a map of the boundary of the construction site;

inputting basic information of the construction robot into a cloud system, and binding the construction robot with a construction site to determine that the construction robot is constructed on the construction site within the time when the binding relationship is effective;

registering a GPS module installed on the construction robot in a cloud system, and then binding the GPS module with the construction robot to acquire GPS data transmitted by the GPS module;

setting alarm thresholds of the construction robot, including a moving speed threshold of the construction robot and a threshold of moving out of a construction site area;

collecting GPS data of the construction robot, analyzing the moving speed of the construction robot according to the GPS data, and sending alarm information to a manager when the moving speed exceeds a threshold value;

and after the manager receives the alarm information and confirms that the construction robot is lost, clearing the core code file of the lost construction robot through the cloud system.

Further, the construction robot anti-theft management method based on GPS also comprises,

when the construction robot needs to leave a construction area, the cloud system receives an outgoing application of the construction robot sent by a manager, wherein the outgoing application of the construction robot comprises the number of the outgoing construction robot and an outgoing time period;

and after the outgoing application of the construction robot is approved by the cloud system, setting the alarm threshold value of the outgoing construction robot as invalid in the outgoing time period.

Further, the construction robot anti-theft management method based on GPS also comprises,

and judging whether the construction robot exceeds a threshold value of a removal construction site area according to the collected latest GPS data of the construction robot, and if the construction robot exceeds the threshold value of the removal construction site area, sending alarm information that the construction robot exceeds the threshold value of the removal construction site area to a manager.

Further, after the manager receives the alarm information and confirms that the construction robot is lost, the core code file of the lost construction robot is cleared through the cloud system,

after receiving the alarm information and confirming that the construction robot is lost, a manager sets the state of the lost construction robot as a stolen state in the cloud system;

and when the state of the construction robot of the cloud system is checked to be a stolen state by default polling of the automatic execution program of the lost construction robot, automatically clearing the core code file by the internal program of the lost construction robot.

Further, the construction robot anti-theft management method based on GPS also comprises,

the cloud system receives GPS data uploaded by a GPS module of the lost construction robot, and records the moving track of the construction robot so as to track the construction robot.

The invention also provides a construction robot anti-theft management system based on GPS, which comprises,

the building site registration module is used for recording basic information of a building site into the cloud system and drawing a closed area on a map of the boundary of the building site;

the construction robot registration module is used for recording basic information of the construction robot into the cloud system and binding the construction robot with a construction site so as to determine that the construction robot is constructed on the construction site within the time when the binding relationship is effective;

the GPS binding module is used for registering the GPS module installed on the construction robot in a cloud system, then binding the GPS module with the construction robot and acquiring GPS data transmitted by the GPS module;

the alarm setting module is used for setting alarm thresholds of the construction robot, wherein the alarm thresholds comprise a moving speed threshold of the construction robot and a threshold of moving out of a construction site area;

the mobile alarm module is used for acquiring GPS data of the construction robot, analyzing the moving speed of the construction robot according to the GPS data, and sending alarm information to a manager when the moving speed exceeds a threshold value;

and the core code clearing module is used for clearing the core code file of the lost construction robot through the cloud system after the manager receives the alarm information and confirms that the construction robot is lost.

Further, construction robot anti-theft management system based on GPS still includes the construction robot and goes out application module for:

when the construction robot needs to leave a construction area, the cloud system receives an outgoing application of the construction robot sent by a manager, wherein the outgoing application of the construction robot comprises the number of the outgoing construction robot and an outgoing time period;

and after the outgoing application of the construction robot is approved by the cloud system, setting the alarm threshold value of the outgoing construction robot as invalid in the outgoing time period.

Further, the mobile alarm module is also used for,

and judging whether the construction robot exceeds a threshold value of a removal construction site area according to the collected latest GPS data of the construction robot, and if the construction robot exceeds the threshold value of the removal construction site area, sending alarm information that the construction robot exceeds the threshold value of the removal construction site area to a manager.

Further, the core code clean-up module is specifically configured to,

after receiving the alarm information and confirming that the construction robot is lost, a manager sets the state of the lost construction robot as a stolen state in the cloud system;

and when the state of the construction robot of the cloud system is checked to be a stolen state by default polling of the automatic execution program of the lost construction robot, automatically clearing the core code file by the internal program of the lost construction robot.

Further, construction robot anti-theft management system based on GPS still includes construction robot tracking module for:

the cloud system receives GPS data uploaded by a GPS module of the lost construction robot, and records the moving track of the construction robot so as to track the construction robot.

The invention has the beneficial effects that: by editing the construction site range, reasonably setting a distance threshold value when the construction robot exceeds the construction site range, and timely reminding when the displacement speed exceeds the threshold value, the condition that the construction robot is stolen can be found at the first time, and managers are informed; and after the construction robot is stolen, the core code of the stolen construction robot is destroyed, so that the core assets of a company are effectively protected.

Drawings

The following detailed description of the invention refers to the accompanying drawings.

FIG. 1 is a flowchart of a GPS-based anti-theft management method for a construction robot according to an embodiment of the present invention;

fig. 2 is a block diagram of an anti-theft management system for a construction robot based on a GPS according to an embodiment of the present invention.

Detailed Description

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

It should be noted that the description of the invention relating to "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, the first embodiment of the present invention is: a construction robot anti-theft management method based on GPS comprises,

s10, recording the basic information of the construction site into a cloud system, and drawing a closed area on the map of the boundary of the construction site; the basic information of the construction site includes longitude and latitude information of the range of the construction site, number information of the construction site and the like.

S20, inputting the basic information of the construction robot into a cloud system, and binding the construction robot and the construction site to determine that the construction robot is constructed on the construction site within the time when the binding relationship is effective; the basic information of the construction robot includes the number of the construction robot, the structure, the use, the technical parameters, and the like of the construction robot.

S30, registering a GPS module installed on the construction robot in a cloud system, and then binding the GPS module with the construction robot to acquire GPS data transmitted by the GPS module;

s40, setting alarm thresholds of the construction robot, including a moving speed threshold of the construction robot and a threshold of moving out of a construction site area;

s50, collecting GPS data of the construction robot, analyzing the moving speed of the construction robot according to the GPS data, and sending alarm information to a manager when the moving speed exceeds a threshold value;

and S60, after the manager receives the alarm information and confirms that the construction robot is lost, the lost core code file of the construction robot is removed through the cloud system.

Wherein, the construction robot anti-theft management method based on GPS also comprises,

when the construction robot needs to leave a construction area, such as returning to a factory for maintenance or repair, the cloud system receives an outgoing application of the construction robot sent by a manager, wherein the outgoing application of the construction robot comprises the number of the outgoing construction robot and an outgoing time period;

and after the outgoing application of the construction robot is approved by the cloud system, setting the alarm threshold value of the outgoing construction robot as invalid in the outgoing time period.

Wherein, the construction robot anti-theft management method based on GPS also comprises,

and judging whether the construction robot exceeds a threshold value of a removal construction site area according to the collected latest GPS data of the construction robot, and if the construction robot exceeds the threshold value of the removal construction site area, sending alarm information that the construction robot exceeds the threshold value of the removal construction site area to a manager.

Wherein, after the manager receives the alarm information and confirms that the construction robot is lost, the lost core code file of the construction robot is cleared through the cloud system,

after receiving the alarm information and confirming that the construction robot is lost, a manager sets the state of the lost construction robot as a stolen state in the cloud system;

and when the state of the construction robot of the cloud system is checked to be a stolen state by default polling of the automatic execution program of the lost construction robot, automatically clearing the core code file by the internal program of the lost construction robot.

Wherein, the construction robot anti-theft management method based on GPS also comprises,

the cloud system receives GPS data uploaded by a GPS module of the lost construction robot, and records the moving track of the construction robot so as to track the construction robot.

In the embodiment, the beneficial effects of the invention are as follows: by editing the construction site range, reasonably setting a distance threshold value when the construction robot exceeds the construction site range, and timely reminding when the displacement speed exceeds the threshold value or the activity range exceeds the construction site threshold value, the condition that the construction robot is stolen can be found at the first time, a manager is informed, the moving track of the construction robot is recorded, and the tracking is convenient; the construction robot which has applied for going out does not alarm when exceeding a threshold value, so that the construction robot is effectively prevented from alarming randomly when going out under normal conditions; and after the construction robot is stolen, the core code of the stolen construction robot is destroyed, so that the core assets of a company are effectively protected.

As shown in fig. 2, another embodiment of the present invention is: a construction robot anti-theft management system based on GPS comprises,

the construction site registration module 10 is used for recording basic information of a construction site into a cloud system and drawing a closed area on a map of the boundary of the construction site;

the construction robot registration module 20 is configured to record basic information of the construction robot into the cloud system, and bind the construction robot with a construction site to determine that the construction robot is constructed on the construction site within a time period in which a binding relationship is valid;

the GPS binding module 30 is used for registering the GPS module installed on the construction robot in a cloud system, binding the GPS module with the construction robot and acquiring GPS data transmitted by the GPS module;

the alarm setting module 40 is used for setting alarm thresholds of the construction robot, including a moving speed threshold of the construction robot and a threshold of moving out of a construction site area;

the mobile alarm module 50 is used for acquiring GPS data of the construction robot, analyzing the movement speed of the construction robot according to the GPS data, and sending alarm information to a manager when the movement speed exceeds a threshold value;

and the core code clearing module 60 is used for clearing the core code file of the lost construction robot through the cloud system after the manager receives the alarm information and confirms that the construction robot is lost.

Wherein, construction robot anti-theft management system based on GPS still includes the construction robot application module of going out for:

when the construction robot needs to leave a construction area, the cloud system receives an outgoing application of the construction robot sent by a manager, wherein the outgoing application of the construction robot comprises the number of the outgoing construction robot and an outgoing time period;

and after the outgoing application of the construction robot is approved by the cloud system, setting the alarm threshold value of the outgoing construction robot as invalid in the outgoing time period.

Wherein the mobile alarm module 50 is further configured to,

and judging whether the construction robot exceeds a threshold value of a removal construction site area according to the collected latest GPS data of the construction robot, and if the construction robot exceeds the threshold value of the removal construction site area, sending alarm information that the construction robot exceeds the threshold value of the removal construction site area to a manager.

Wherein the core code clean-up module 60 is specifically configured to,

after receiving the alarm information and confirming that the construction robot is lost, a manager sets the state of the lost construction robot as a stolen state in the cloud system;

and when the state of the construction robot of the cloud system is checked to be a stolen state by default polling of the automatic execution program of the lost construction robot, automatically clearing the core code file by the internal program of the lost construction robot.

Wherein, construction robot anti-theft management system based on GPS still includes construction robot tracking module for:

the cloud system receives GPS data uploaded by a GPS module of the lost construction robot, and records the moving track of the construction robot so as to track the construction robot.

The first … … and the second … … are only used for name differentiation and do not represent how different the importance and position of the two are.

Here, the upper, lower, left, right, front, and rear represent only relative positions thereof and do not represent absolute positions thereof.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

完整详细技术资料下载
上一篇:石墨接头机器人自动装卡簧、装栓机
下一篇:一种安保远程监控设备

网友询问留言

已有0条留言

还没有人留言评论。精彩留言会获得点赞!

精彩留言,会给你点赞!