CN212331098U - Intelligent inspection robot system - Google Patents

Abstract

The utility model discloses an intelligent inspection robot system, which comprises an induction component, a control component, a mobile terminal, a communication component, a power component and a self-protection component; the sensing assembly, the communication assembly, the power assembly and the self-protection assembly are all connected with the control assembly, and the control assembly carries out data transmission with the mobile terminal through the communication assembly. When the inspection robot is used, the mobile terminal controls the inspection robot to work through the communication assembly, the sensing assembly collects the participation of the surrounding environment in the inspection process of the robot, the collected parameters are transmitted to the control assembly to be stored, and meanwhile, the parameters are fed back to the mobile terminal through the communication assembly, so that the inspection by workers is facilitated; meanwhile, the self-protection component works, and self-protection is carried out on the inspection robot when malicious attack is detected or damage is considered, so that the damage or stealing of key equipment and machine data is avoided; the utility model discloses the demand of patrolling in shopping mall or warehouse has been satisfied, the manpower work has been reduced.

Description

Intelligent inspection robot system

Technical Field

The utility model belongs to the technical field of the robot, concretely relates to intelligence inspection tour robot system.

Background

Modern social economy develops at a high speed, and the large and medium-sized shopping malls in each city are countless, and with the continuous increase of shopping malls, many management problems are brought while providing comfortable shopping experience for people, for example, many shopping malls are too large in area (thousands of flat floors, tens of floors), a large amount of security personnel are required to patrol and examine, and one hour or even several hours is consumed for one time of examination, so that the high-time-consuming patrol of a large number of personnel is realized, the cost is increased, the efficiency is low, and errors are easy to occur.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an intelligence inspection robot system has satisfied the demand of patrolling in shopping mall or warehouse, has reduced a large amount of human works.

The utility model adopts the technical proposal that:

an intelligent inspection robot system comprises an induction component, a control component, a mobile terminal, a communication component, a power component and a self-protection component; the sensing assembly, the communication assembly, the power assembly and the self-protection assembly are all connected with the control assembly, and the control assembly carries out data transmission with the mobile terminal through the communication assembly.

Preferably, the robot system further comprises a capturing component, and the capturing component is connected with the control component and used for recording the surrounding environment of the robot.

Preferably, the induction assembly comprises an obstacle avoidance module, a tracking module, a thermal infrared module and a GPS positioning module;

the obstacle avoidance module is used for testing the distance between the inspection robot and surrounding obstacles by a user;

the tracking module is used for realizing the tracking of the automatic inspection robot;

the thermal infrared module is used for sensing thermal infrared of objects around the inspection robot to realize infrared imaging;

and the GPS positioning module is used for positioning the position of the patrol robot by a user.

Preferably, the self-protection assembly comprises an infrared distance measurement module, an external pressure module, a vibration module and a protection driving motor;

the infrared distance measuring module is used for measuring the distance of an object close to the inspection robot;

the external pressure module is used for testing external pressure received by the robot;

the vibration module is used for testing external vibration;

and the protection driving motor is used for opening a protection box of the inspection robot and protecting data.

Preferably, the power assembly comprises a power module and a motor module, the motor module is used for providing power for the inspection robot, and the power module is used for providing power for the inspection robot and the control assembly.

Preferably, the obstacle avoidance module adopts ultrasonic distance measurement to avoid obstacles, and the distance between the inspection robot and the surrounding object is detected by transmitting ultrasonic waves to the surrounding.

Preferably, the tracking module detects tracking by using infrared.

Preferably, the robot patrol system further comprises a mode selection component connected with the control component, wherein the mode selection component comprises an automatic cruise mode and a manual cruise mode, and a route of the patrol robot during patrol and the working time of the snapshot component are preset in the automatic cruise mode.

Preferably, the control component receives data of the sensing component, the self-protection component and the capturing component, stores the data and transmits the data to the mobile terminal through the communication component.

Preferably, the mobile terminal is a PC terminal or a mobile phone APP.

Compared with the prior art, the utility model discloses when using, mobile terminal controls the work of inspection robot through communication subassembly, and in the process of robot inspection, the response subassembly is gathered the participation of surrounding environment, and the parameter of gathering is transmitted to the control subassembly and is preserved, and the parameter still feeds back in mobile terminal through communication subassembly simultaneously, makes things convenient for the staff to look over; meanwhile, the self-protection component works, and self-protection is carried out on the inspection robot when malicious attack is detected or damage is considered, so that the damage or stealing of key equipment and machine data is avoided.

The security robot of the utility model meets the patrol requirement of superstores or warehouses, can realize remote wireless control, and reduces a large amount of manpower work; and simultaneously the utility model discloses there is one set of oneself protective assembly, when the inspection robot trails the criminal suspect, if receive the manual destruction of suspect, the robot will get into oneself's protection mode automatically, and protection camera and video recording data are not destroyed, provide the video evidence for follow-up security personnel.

Drawings

Fig. 1 is a system block diagram of an intelligent patrol robot system according to an embodiment of the present invention.

Wherein:

1. the mobile terminal comprises a sensing assembly, a control assembly, a mobile terminal, a communication assembly, a power assembly, a self-protection assembly, a snapshot assembly, a mode selection assembly, a barrier avoidance module, a tracking module, a thermal infrared module, a GPS positioning module, an infrared distance measurement module 61, an external pressure module 62, a vibration module 63, a protection driving motor 64, a power supply module 51 and a motor module 52.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be clear that the terms "vertical", "horizontal", "longitudinal", "front", "rear", "left", "right", "up", "down", "horizontal", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description of the present invention, and do not mean that the device or element referred to must have a specific orientation or position, and thus, cannot be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The embodiment of the utility model provides an intelligent inspection robot system, as shown in fig. 1, which comprises an induction component 1, a control component 2, a mobile terminal 3, a communication component 4, a power component 5 and a self-protection component 6; the induction component 1, the communication component 4, the power component 5 and the self-protection component 6 are all connected with the control component 2, and the control component 2 performs data transmission with the mobile terminal 3 through the communication component 4;

thus, in the above structure:

the induction component 1 is used for sensing the surrounding environment and capturing and positioning a specific target by the patrol robot;

the control assembly 2 is used for realizing the motion control of the inspection robot during inspection, simultaneously ensuring the coordination work of each part of the robot body and finishing the ordered communication between the induction assembly 1 and the mobile terminal 3;

the mobile terminal 3 is used for remotely controlling or monitoring data acquired by the inspection robot;

the communication component 4 is used for keeping real-time communication between the patrol robot and a master control center (the mobile terminal 3) during patrol work;

the power assembly 5 is used for providing power for the inspection robot and providing power for each assembly and the inspection robot;

the self-protection component 6 is used for self-protection when the patrol robot receives malicious attack or is considered to be damaged, and key equipment and machine data are prevented from being damaged or stolen;

the mobile terminal 3 controls the inspection robot to work through the communication component 4, the sensing component 1 collects the participation of the surrounding environment in the inspection process of the robot, the collected parameters are transmitted to the control component 2 to be stored, and meanwhile, the parameters are fed back to the mobile terminal 3 through the communication component 4, so that the inspection by workers is facilitated; meanwhile, the self-protection component 6 works, and when the self-protection component detects malicious attack or considers damage, the inspection robot is self-protected, and key equipment and machine data are prevented from being damaged or stolen.

The robot system further comprises a capturing component 7, wherein the capturing component 7 is connected with the control component 2 and is used for recording the surrounding environment of the robot;

specifically, the capturing component 7 comprises a camera;

therefore, the condition of the patrolled place can be recorded at any time through the camera;

and, when response subassembly 1 or self-protection subassembly 6 gathered unusual data, the camera can rotate and carry out the snapshot and the video recording of all directions.

The induction assembly 1 comprises an obstacle avoidance module 11, a tracking module 12, a thermal infrared module 13 and a GPS positioning module 14;

the obstacle avoidance module 11 is used for testing the distance between the inspection robot and surrounding obstacles by a user;

the tracking module 12 is used for realizing the tracking of the automatic inspection robot;

the thermal infrared module 13 is used for sensing thermal infrared of objects around the inspection robot to realize infrared imaging;

the GPS positioning module 14 is used for positioning the position of the patrol robot by a user.

The self-protection assembly 6 comprises an infrared distance measurement module 61, an external pressure module 62, a vibration module 63 and a protection driving motor 64;

the infrared distance measuring module 61 is used for measuring the distance of an object close to the inspection robot;

the external pressure module 62 is used for testing the external pressure received by the robot;

the vibration module 63 is used for testing external vibration;

the protection driving motor 64 is used for opening a protection box of the inspection robot and protecting data.

Specifically, the external pressure module 62 includes force-sensitive sensors and pressure-sensitive sensors;

in addition, this inspection robot includes the protection box, and the storage has all data that response subassembly 1, self-protection subassembly 6 and snapshot subassembly 7 gathered in the protection box.

The power assembly 5 comprises a power module 51 and a motor module 52, the motor module 52 is used for providing power for the inspection robot, and the power module 51 is used for providing power for the inspection robot and the control assembly 2.

Specifically, the obstacle avoidance module 11 employs ultrasonic distance measurement to avoid obstacles, and transmits ultrasonic waves to the surroundings to detect the distance between the inspection robot and the surrounding objects.

The tracking module 12 adopts infrared detection tracking, transmits light to the road surface through an infrared transmitting tube, reflects the infrared light when the infrared light meets a white background, receives the reflected light through a receiving tube, and outputs a low level after being shaped by a Schmidt trigger; when the infrared light meets the black line, the infrared light is absorbed, the receiving tube does not receive the reflected light, and the high level is output after the shaping of the Schmitt trigger.

The automatic cruise control system further comprises a mode selection component 8 connected with the control component 2, wherein the mode selection component 8 comprises an automatic cruise mode and a manual cruise mode, and a route of the patrol robot during patrol and the working time of the snapshot component 7 are preset in the automatic cruise mode;

specifically, the auto cruise mode: the mode is special for automatic cruising of the robot, a user only needs to set related alarm parameters without real-time manual operation, and the robot automatically finishes the patrol work (for example, a thermal infrared alarm, a moving object alarm and the like can be set);

manual cruise mode: in the mode, a user controls the inspection robot to complete work in a remote control mode (the mobile terminal 3), and in the mode, the user observes the situation around the robot in real time through the snapshot component 7, and after judgment, an instruction is made to control the robot to complete the work (for example, when seeing a visible object, the control robot further tracks and snapshots).

The control component 2 receives data of the sensing component 1, the self-protection component 6 and the snapshot component 7, stores the data and transmits the data to the mobile terminal 3 through the communication component 4.

And the mobile terminal 3 is a PC terminal or a mobile phone APP.

The working process is as follows:

the first step is as follows: the mobile terminal 3 is remotely connected with the inspection robot through the communication component 4;

the second step is that: the working mode of the inspection robot is selected through the mode selection component 8;

when the automatic cruise mode is selected, a user needs to set relevant parameters such as a tour route, a snapshot area, an abnormal alarm parameter and the like;

when the manual cruise mode is selected, a user only needs to control the cruise robot through the mobile terminal 3 to perform patrol work;

the third step:

after the working mode is selected, the induction component 1, the self-protection component 6 and the snapshot component 7 start to work;

specifically, the obstacle avoidance module 11 is used for testing the distance between the inspection robot and the surrounding obstacles by a user; the tracking module 12 is used for realizing the tracking of the automatic inspection robot; the thermal infrared module 13 is used for sensing thermal infrared of objects around the inspection robot to realize infrared imaging; the GPS positioning module 14 is used for positioning the position of the inspection robot by a user;

the infrared distance measuring module 61 is used for measuring the distance of an object close to the inspection robot; the external pressure module 62 is used for testing the external pressure received by the robot; the vibration module 63 is used for testing external vibration; the protection driving motor 64 is used for opening a protection box of the inspection robot to protect data;

in the process, the data collected by the sensing assembly 1, the self-protection assembly 6 and the snapshot assembly 7 are transmitted to the control assembly 2, the control assembly 2 receives the data of the sensing assembly 1, the self-protection assembly 6 and the snapshot assembly 7, the data are stored and transmitted to the mobile terminal 3 through the communication assembly 4, and the condition of a place to be patrolled can be directly checked through the mobile terminal 3.

Certainly, in the embodiment, the device further comprises an alarm component, and when the parameters collected by the sensing component 1, the self-protection component 6 and the snapshot component 7 exceed the standard values of the corresponding parameters, the alarm component works;

for example, when the data collected by the external pressure module 62 is relatively high, it is proved that the patrol robot is being damaged deliberately, and the alarm component is activated.

The intelligent patrol robot system provided by the embodiment meets patrol requirements of superstores or warehouses, can realize remote wireless control, reduces a large amount of labor work, can realize thermal infrared patrol at night, can check out suspicious personnel, hide personnel, does not need a large amount of illumination, realizes accurate tracking and accurate positioning, does not need continuous patrol for 24 hours, does not need rest, saves personnel and improves working efficiency; and simultaneously the utility model discloses there is one set of oneself protective assembly, when the inspection robot trails the criminal suspect, if receive the manual destruction of suspect, the robot will get into oneself's protection mode automatically, and protection camera and video recording data are not destroyed, provide the video evidence for follow-up security personnel.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An intelligent patrol robot system is characterized by comprising a sensing component (1), a control component (2), a mobile terminal (3), a communication component (4), a power component (5) and a self-protection component (6); the induction component (1), the communication component (4), the power component (5) and the self-protection component (6) are all connected with the control component (2), and the control component (2) carries out data transmission with the mobile terminal (3) through the communication component (4).

2. An intelligent patrol robot system according to claim 1, characterized in that the robot system further comprises a snapshot component (7), and the snapshot component (7) is connected with the control component (2) for recording the surrounding environment of the robot.

3. The intelligent patrol robot system according to claim 2, wherein the sensing assembly (1) comprises an obstacle avoidance module (11), a tracking module (12), a thermal infrared module (13) and a GPS positioning module (14);

the obstacle avoidance module (11) is used for testing the distance between the inspection robot and surrounding obstacles by a user;

the tracking module (12) is used for realizing the tracking of the automatic inspection robot;

the thermal infrared module (13) is used for sensing thermal infrared of objects around the inspection robot to realize infrared imaging;

and the GPS positioning module (14) is used for positioning the position of the patrol robot by a user.

4. An intelligent patrol robot system according to claim 3, wherein the self-protection assembly (6) comprises an infrared distance measurement module (61), an external pressure module (62), a vibration module (63) and a protection driving motor (64);

the infrared distance measuring module (61) is used for measuring the distance of an object close to the inspection robot;

the external pressure module (62) is used for testing the external pressure received by the robot;

the vibration module (63) is used for testing external vibration;

and the protection driving motor (64) is used for opening a protection box of the inspection robot and protecting data.

5. An intelligent patrol robot system according to claim 4, wherein the power assembly (5) comprises a power module (51) and a motor module (52), the motor module (52) being adapted to power the patrol robot, the power module (51) being adapted to power the patrol robot and the control assembly (2).

6. An intelligent patrol robot system according to any one of claims 3-5, wherein the obstacle avoidance module (11) adopts ultrasonic distance measurement to avoid obstacles, and transmits ultrasonic waves to the surroundings to detect the distance between the patrol robot and the surrounding objects.

7. The intelligent patrol robot system according to claim 6, wherein the tracking module (12) adopts infrared detection tracking.

8. An intelligent patrol robot system according to claim 2, further comprising a mode selection component (8) connected with the control component (2), wherein the mode selection component (8) comprises an automatic cruise mode and a manual cruise mode, and the route of the patrol robot during patrol and the working time of the snapshot component (7) are preset in the automatic cruise mode.

9. An intelligent patrol robot system according to claim 8, wherein the control component (2) receives data of the sensing component (1), the self-protection component (6) and the snapshot component (7), stores the data and transmits the data to the mobile terminal (3) through the communication component (4).

10. The intelligent patrol robot system according to claim 9, wherein said mobile terminal (3) is a PC terminal or a mobile phone APP.

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