CN212302562U - Wisdom system of patrolling and examining - Google Patents

Abstract

The utility model discloses a system is patrolled and examined to wisdom, patrol and examine terminal, mobile terminal and server including wisdom. The terminal is patrolled and examined to wisdom includes: a first housing; the control panel is arranged in the first shell, and a positioning module, an environment monitoring module, a first communication module, a first processor and a first power supply module are arranged on the control panel; the mobile terminal includes: a second housing; the image acquisition module, the man-machine interaction module, the second communication module, the second processor and the second power module are arranged in the second shell; the intelligent inspection terminal is in wireless connection with the server and the mobile terminal through the first communication module, and the mobile terminal is in wireless connection with the server and the intelligent inspection terminal through the second communication module. Based on the utility model discloses a wisdom system of patrolling and examining can improve the reliability of patrolling and examining the data to simplify the operation of patrolling and examining personnel, thereby improve and patrol and examine efficiency, reduce the consumption of manpower.

Description

Wisdom system of patrolling and examining

Technical Field

The utility model belongs to the equipment field of patrolling and examining especially relates to a wisdom system of patrolling and examining.

Background

Along with the economic development and construction of the region where the transmission line operation channel is located, the risk of external force damage to the transmission equipment is gradually increased steeply. For example, the hidden dangers of crossing under the power transmission channel, construction against regulations, soil piling and stacking, digging and stealing, mining, house obstacles, tree obstacles, burning and quarrying under the wire, mountain forest fire, floaters and the like are endless, weather erosion, accessory displacement, damage and loss of the power transmission equipment, nest making by bird nesting, manual stealing of tower materials and damage of grounding facilities are suffered by the power transmission equipment, and great hidden dangers are caused to the power transmission operation safety to different degrees. Therefore, each local power grid needs to actually perform routing inspection operation on power transmission line deployment inspection personnel, or arrange the routing inspection personnel for routing inspection by a subordinate operation and maintenance service company.

At present, in the process of inspection, inspection data are uploaded mainly through communication software and a telephone or through a manual report form by an inspector so as to carry out daily inspection tracking management and hidden danger defect summary reporting. However, the above method is limited by the ability of the inspection personnel, the reliability of the inspection data is low, and the inspection efficiency is low due to the complex operation of the inspection personnel, which further results in the consumption of a large amount of manpower.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a wisdom system of patrolling and examining to improve the reliability of patrolling and examining the data, and simplify patrolling and examining personnel's operation, in order to improve and to patrol and examine efficiency, reduce the consumption of manpower.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a wisdom system of patrolling and examining, include: the intelligent inspection system comprises an intelligent inspection terminal, a mobile terminal and a server;

terminal is patrolled and examined to wisdom includes: a first housing; the control panel is arranged in the first shell, and is provided with a positioning module, an environment monitoring module, a first communication module, a first processor and a first power module, wherein the first processor is respectively connected with the positioning module, the environment monitoring module and the first communication module, and the first power module supplies power to the positioning module, the environment monitoring module, the first communication module and the first processor;

the mobile terminal includes: a second housing; the image acquisition module, the human-computer interaction module, the second communication module, the second processor and the second power module are arranged in the second shell, wherein the second processor is respectively connected with the image acquisition module, the human-computer interaction module and the second communication module, and the second power module supplies power to the image acquisition module, the human-computer interaction module, the second communication module and the second processor;

the intelligent inspection terminal is in wireless connection with the server and the mobile terminal through the first communication module, and the mobile terminal is in wireless connection with the server and the intelligent inspection terminal through the second communication module.

Optionally, in the above intelligent inspection system, the environment monitoring module includes a temperature sensor and a humidity sensor.

Optionally, in the above intelligent inspection system, the intelligent inspection terminal further includes: the emergency rescue module is connected with the first processor; the first power supply module is also used for supplying power for the emergency rescue module.

Optionally, in the above intelligent inspection system, the mobile terminal further includes: and the fingerprint collector is connected with the second processor.

Optionally, in the above intelligent inspection system, the intelligent inspection terminal further includes: the first audio acquisition module is connected with the first processor; the first audio output module is connected with the first processor; the first power supply module is also used for supplying power to the first audio acquisition module and the first audio output module.

Optionally, in the above intelligent inspection system, the mobile terminal further includes: the second audio acquisition module is connected with the second processor; a second audio output module connected with the second processor; the second power supply module is also used for supplying power to the second audio acquisition module and the second audio output module.

Optionally, in the above-mentioned wisdom system of patrolling and examining, first communication module includes first communication module and the first communication module that removes closely, second communication module includes the second and removes communication module closely, wherein, first communication module closely with the second is the communication module closely of adaptation closely.

Optionally, in the intelligent inspection system, the first communication module further includes a satellite communication module.

Optionally, in the above-mentioned wisdom system of patrolling and examining, first mobile communication module includes one or more in 2G communication module, 3G communication module, 4G communication module and the 5G communication module, second mobile communication module includes one or more in 2G communication module, 3G communication module, 4G communication module and the 5G communication module.

Optionally, in the intelligent inspection system, the human-computer interaction module includes a touch display screen.

Therefore, the utility model has the advantages that:

the utility model discloses a wisdom system of patrolling and examining includes that wisdom patrols and examines terminal, mobile terminal and server, wherein, wisdom patrols and examines the terminal and includes first casing and set up the control panel in first casing to arranged orientation module, environmental monitoring module, first communication module, first treater and first power module on the control panel, mobile terminal includes the second casing and sets up image acquisition module, human-computer interaction module, second communication module, second processing module and the second power module in the second casing.

In the process of polling the power transmission line by polling personnel, a positioning module in a smart polling terminal acquires geographical position information of the polling personnel, an environment monitoring module in the smart polling terminal acquires environment information of the position of the polling personnel, a first processor in the smart polling terminal acquires the geographical position information generated by the positioning module and the environment information generated by the environment monitoring module, and uploads acquired data to a server through a first communication module, so that automatic uploading of polling data is realized. Patrol and examine data and obtain by orientation module and environmental monitoring module, compare with patrolling and examining the data by the artifical collection of personnel of patrolling and examining, very big improvement patrol and examine the reliability of data, moreover, the collection of patrolling and examining the data is patrolled and examined the terminal with the upload and is accomplished by wisdom, has simplified the operation of personnel of patrolling and examining to efficiency has been improved and has been patrolled and examined, consequently can reduce the consumption of manpower.

In addition, in the process of patrolling and examining the power transmission line by the patrolling and examining personnel, the image acquisition module in the mobile terminal acquires the image in the patrolling and examining process, the human-computer interaction module in the mobile terminal acquires the data input by the patrolling and examining personnel, the second processor in the mobile terminal acquires the data input by the patrolling and examining personnel and the image acquired by the image acquisition module, and the acquired data are uploaded to the server through the second communication module, so that the commander can acquire richer data in the patrolling and examining process, the patrolling and examining process is known more comprehensively, and the patrolling and examining task is flexibly distributed for the patrolling and examining.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent inspection system disclosed in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another intelligent inspection system disclosed in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of another intelligent inspection system disclosed in the embodiment of the present invention;

fig. 4 is a schematic structural diagram of another intelligent inspection system disclosed in the embodiment of the present invention;

fig. 5 is a schematic structural diagram of another intelligent inspection system according to an embodiment of the present invention.

In the figure:

1 is terminal is patrolled and examined to wisdom, 11 is first casing, 12 is the control panel, 13 is orientation module, 14 is environmental monitoring module, 141 is temperature sensor, 142 is humidity transducer, 15 is first communication module, 151 is first near field communication module, 152 is first mobile communication module, 153 is satellite communication module 16 and is the first treater, 17 is first power module, 18 is first audio acquisition module, 19 is first audio output module, 110 is emergency rescue module, 2 is mobile terminal, 21 is the second casing, 22 is image acquisition module, 23 is man-machine interaction module, 24 is second communication module, 241 is second near field communication module, 242 is second mobile communication module, 25 is the second treater, 26 is second power module, 27 is second audio acquisition module, 28 is second audio output module, 29 is the fingerprint collection ware, 3 is the server.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

The utility model discloses a wisdom system of patrolling and examining to improve the reliability of patrolling and examining the data, and simplify the operation of patrolling and examining personnel, in order to improve and to patrol and examine efficiency, reduce the consumption of manpower.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent inspection system according to an embodiment of the present invention.

The intelligent inspection system comprises an intelligent inspection terminal 1, a mobile terminal 2 and a server 3.

The intelligent inspection terminal 1 comprises a first casing 11, a control panel 12, a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16 and a first power module 17. The mobile terminal 2 includes a second housing 21, an image capturing module 22, a man-machine interaction module 23, a second communication module 24, a second processor 25 and a second power module 26.

It should be noted that the intelligent inspection terminal 1 is wirelessly connected with the mobile terminal 2 and the server 3 through the first communication module 15, and the mobile terminal 2 is wirelessly connected with the intelligent inspection terminal 1 and the server 3 through the second communication module 24. That is, the intelligent inspection terminal 1 can perform data interaction with the mobile terminal 2 and the server 3 through the first communication module 15 inside the intelligent inspection terminal, and the mobile terminal 2 can perform data interaction with the intelligent inspection terminal 1 and the server 3 through the second communication module 24 inside the intelligent inspection terminal.

In the intelligent inspection terminal 1, a control board 12 is provided in a cabinet 11, and a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16 and a first power module 17 are disposed on the control board 12. The first processor 16 is connected to the positioning module 13, the environment monitoring module 14 and the first communication module 15, and the first power module 17 supplies power to the positioning module 13, the environment monitoring module 14, the first communication module 15 and the first processor 16.

The positioning module 13 is used for acquiring the geographical location information, that is, for acquiring the geographical location information of the patrol personnel. The environment monitoring module 14 is used for acquiring the environment information of the position of the patrol personnel. The first processor 16 obtains the geographic location information generated by the positioning module 13 and the environmental information generated by the environmental monitoring module 14, and sends the obtained geographic location information and environmental information to other devices through the first communication module 15, for example, to the server 3 or to the mobile terminal 2 of the inspection staff.

In the mobile terminal 2, the image acquisition module 22, the man-machine interaction module 23, the second communication module 24, the second processor 25 and the second power module 26 are all disposed in the second housing 21. The second processor 25 is respectively connected with the image acquisition module 22, the human-computer interaction module 23 and the second communication module 24. The second power module 26 supplies power to the image acquisition module 22, the human-computer interaction module 23, the second communication module 24 and the second processor 25.

The image acquisition module 22 is used for acquiring images. For example: collecting an environment image of a routing inspection line; collecting images of transmission equipment (such as a transmission line tower); the identification of the power transmission equipment is collected, and the identification of the power transmission equipment can be a two-dimensional code or a bar code.

In an alternative embodiment, the image acquisition module 22 is a camera. In another alternative embodiment, the image capture module 22 is a camera module consisting of a plurality of cameras.

The man-machine interaction module 23 is used for receiving data input by the inspection personnel and displaying the data. For example, the data input by the inspection personnel comprises text information, such as text descriptions which need to be uploaded by the inspection personnel in the inspection task.

In an alternative embodiment, the human-computer interaction module 23 comprises a physical keyboard and a display screen. Wherein, patrolling and examining personnel are used for showing data through physical keyboard input data, display screen.

In another alternative embodiment, the human-computer interaction module 23 may be a touch display screen, such as a capacitive screen or a resistive screen.

The second processor 25 obtains data input by the inspection staff through the man-machine interaction module 23, obtains an image collected by the image collection module 22, and sends the obtained data to the server 3 through the second communication module 24. In addition, after the intelligent inspection terminal 1 sends data to the mobile terminal 2, for example, after the intelligent inspection terminal 1 sends geographic location information and environmental information to the mobile terminal 2, the second processor 25 may store the received data, or send the received data to the server 3 through the second communication module 24.

It should be noted that the server 3 may be disposed in the control center. The utility model discloses in not improving server 3, that is to say, the utility model provides a server 3 adopts the current server of patrolling and examining in the system, and the difference only lies in, the utility model provides a server 3 patrols and examines terminal 1 and mobile terminal 2 acquisition from the wisdom and patrols and examines the data.

The utility model discloses a wisdom system of patrolling and examining includes that wisdom patrols and examines terminal, mobile terminal and server, wherein, wisdom patrols and examines the terminal and includes first casing and set up the control panel in first casing to arranged orientation module, environmental monitoring module, first communication module, first treater and first power module on the control panel, mobile terminal includes the second casing and sets up image acquisition module, human-computer interaction module, second communication module, second processing module and the second power module in the second casing.

In the process of polling the power transmission line by polling personnel, a positioning module in a smart polling terminal acquires geographical position information of the polling personnel, an environment monitoring module in the smart polling terminal acquires environment information of the position of the polling personnel, a first processor in the smart polling terminal acquires the geographical position information generated by the positioning module and the environment information generated by the environment monitoring module, and uploads acquired data to a server through a first communication module, so that automatic uploading of polling data is realized. Patrol and examine data and obtain by orientation module and environmental monitoring module, compare with patrolling and examining the data by the artifical collection of personnel of patrolling and examining, very big improvement patrol and examine the reliability of data, moreover, the collection of patrolling and examining the data is patrolled and examined the terminal with the upload and is accomplished by wisdom, has simplified the operation of personnel of patrolling and examining to efficiency has been improved and has been patrolled and examined, consequently can reduce the consumption of manpower.

In addition, in the process of patrolling and examining the power transmission line by the patrolling and examining personnel, the image acquisition module in the mobile terminal acquires the image in the patrolling and examining process, the human-computer interaction module in the mobile terminal acquires the data input by the patrolling and examining personnel, the second processor in the mobile terminal acquires the data input by the patrolling and examining personnel and the image acquired by the image acquisition module, and the acquired data are uploaded to the server through the second communication module, so that the commander can acquire richer data in the patrolling and examining process, the patrolling and examining process is known more comprehensively, and the patrolling and examining task is flexibly distributed for the patrolling and examining.

Referring to fig. 2, fig. 2 is a schematic structural diagram of another intelligent inspection system according to an embodiment of the present invention.

The intelligent inspection system comprises an intelligent inspection terminal 1, a mobile terminal 2 and a server 3.

The intelligent inspection terminal 1 comprises a first casing 11, a control panel 12, a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18 and a first audio output module 19. The mobile terminal 2 includes a second housing 21, an image capturing module 22, a man-machine interaction module 23, a second communication module 24, a second processor 25, a second power module 26, a second audio capturing module 27, and a second audio output module 28.

In the intelligent inspection terminal 1, a control panel 12 is disposed in a cabinet 11, and a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18 and a first audio output module 19 are disposed on the control panel 12. The first processor 16 is connected to the positioning module 13, the environment monitoring module 14, the first communication module 15, the first audio acquisition module 18, and the first audio output module 19 respectively. The first power module 17 supplies power to the positioning module 13, the environment monitoring module 14, the first communication module 15, the first processor 16, the first audio acquisition module 18, and the first audio output module 19.

The positioning module 13 is used for acquiring the geographical location information, that is, for acquiring the geographical location information of the patrol personnel. The environment monitoring module 14 is used for acquiring the environment information of the position of the patrol personnel. The first processor 16 obtains the geographic location information generated by the positioning module 13 and the environmental information generated by the environmental monitoring module 14, and sends the obtained geographic location information and environmental information to other devices through the first communication module 15, for example, to the server 3 or to the mobile terminal 2 of the inspection staff.

The first audio collecting module 18 is used for collecting audio information, such as voice information of a patrol inspector, the first processor 16 obtains the audio information collected by the first audio collecting module 18, and sends the obtained audio information to other equipment through the first communication module 15, such as the server 3. The first processor 16 obtains the audio information received by the first communication module 15 and outputs the received audio information through the first audio output module 19. That is, through the combined action of the first audio collection module 18, the first audio output module 19, the first processor 16 and the first communication module 15, the inspection personnel can perform voice communication with other personnel through the intelligent inspection terminal 1.

In the mobile terminal 2, the image capturing module 22, the human-computer interaction module 23, the second communication module 24, the second processor 25, the second power module 26, the first audio capturing module 27 and the first audio output module 28 are all disposed in the second housing 21. The second processor 25 is respectively connected with the image acquisition module 22, the human-computer interaction module 23, the second communication module 24, the second audio acquisition module 27 and the second audio output module 28. The second power module 26 supplies power to the image capturing module 22, the human-computer interaction module 23, the second communication module 24, the second processor 25, the second audio capturing module 27, and the second audio output module 28.

The image acquisition module 22 is used for acquiring images. For example: collecting an environment image of a routing inspection line; collecting images of transmission equipment (such as a transmission line tower); the identification of the power transmission equipment is collected, and the identification of the power transmission equipment can be a two-dimensional code or a bar code.

The man-machine interaction module 23 is used for receiving the information input by the inspection personnel and displaying the data. For example, the information input by the inspection personnel comprises text information, such as text descriptions which need to be uploaded by the inspection personnel in the inspection task.

The second audio collecting module 27 is used for collecting audio information, such as voice information of a patrol inspector, and the second processor 25 obtains the audio information collected by the second audio collecting module 27, and sends the obtained audio information to other devices through the second communication module 24, such as the server 3. The second processor 25 obtains the audio information received by the second communication module 24 and outputs the received audio information through the second audio output module 28. That is, through the combined action of the second audio collection module 27, the second audio output module 28, the second processor 25 and the second communication module 24, the inspection personnel can perform voice communication with other personnel through the mobile terminal 2.

In an implementation, the first audio capturing module 18 and the second audio capturing module 27 may employ a microphone, and the first audio output module 19 and the second audio output module 28 may employ a speaker.

The utility model discloses the wisdom system of patrolling and examining disclosed in figure 2 compares with the wisdom system of patrolling and examining that figure 1 is shown, further is provided with first audio acquisition module and first audio output module in the wisdom patrols and examines the terminal, further is provided with second audio acquisition module and second audio output module in the mobile terminal, and the personnel of patrolling and examining can patrol and examine the terminal through wisdom and carry out speech communication with other personnel, also can carry out speech communication with other personnel through mobile terminal.

It should be noted that, in the intelligent patrol inspection system shown in fig. 2, the first audio acquisition module 18 and the first audio output module 19 in the intelligent patrol inspection terminal 1 may be omitted, or the second audio acquisition module 27 and the second audio output module 28 in the mobile terminal 2 may be omitted.

Referring to fig. 3, fig. 3 is a schematic structural diagram of another intelligent inspection system according to an embodiment of the present invention.

The intelligent inspection system comprises an intelligent inspection terminal 1, a mobile terminal 2 and a server 3.

The intelligent inspection terminal 1 comprises a first casing 11, a control panel 12, a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18, a first audio output module 19 and a first rescue module 110. The mobile terminal 2 includes a second housing 21, an image capturing module 22, a man-machine interaction module 23, a second communication module 24, a second processor 25, a second power module 26, a second audio capturing module 27, and a second audio output module 28.

In the intelligent inspection terminal 1, a control panel 12 is disposed in a housing 11, and a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18, a first audio output module 19 and a rescue module 110 are disposed on the control panel 12. The first processor 16 is connected to the positioning module 13, the environment monitoring module 14, the first communication module 15, the first audio acquisition module 18, the first audio output module 19, and the emergency rescue module 110, respectively. The first power module 17 supplies power to the positioning module 13, the environment monitoring module 14, the first communication module 15, the first processor 16, the first audio acquisition module 18, the first audio output module 19, and the emergency rescue module 110.

In the mobile terminal 2, the image capturing module 22, the human-computer interaction module 23, the second communication module 24, the second processor 25, the second power module 26, the second audio capturing module 27 and the second audio output module 28 are all disposed in the second housing 21. The second processor 25 is respectively connected with the image acquisition module 22, the human-computer interaction module 23, the second communication module 24, the second audio acquisition module 27 and the second audio output module 28. The second power module 26 supplies power to the image capturing module 22, the human-computer interaction module 23, the second communication module 24, the second audio capturing module 27, the second audio output module 28 and the second processor 25.

The emergency rescue module 110 is described here with particular emphasis, and other components are described above.

The emergency rescue module 110 is configured to generate an emergency trigger signal under the control of the inspection personnel, and the first processor 16 sends an emergency rescue request to the server 3 or another mobile terminal 2 through the first communication module 15 in response to the emergency trigger signal.

In one possible embodiment, emergency rescue module 110 includes a push switch having one end connected to first power module 17 and the other end grounded, and generating a first level signal when the push switch is in a natural state (i.e., not pushed), and generating a second level signal when the push switch is pushed. When the first processor 16 obtains the second level signal from the push switch, it sends an emergency rescue request to the server 3 or other mobile terminals 2 through the first communication module 15.

For example, when the push switch is in a natural state, a low level signal is generated, and when the push switch is pushed, a high level signal is generated. When the first processor 16 obtains a high level signal from the push switch, it sends an emergency rescue request to the server 3 or other mobile terminals 2 through the first communication module 15.

The utility model discloses the wisdom system of patrolling and examining shown in figure 3 compares with the wisdom system of patrolling and examining shown in figure 2, and the wisdom is patrolled and examined and is further provided with emergency rescue module in the terminal, patrols and examines the personnel and patrols and examines the in-process to transmission line, when meetting emergency, can send emergency rescue request fast through emergency rescue module.

It should be noted that, in the intelligent patrol inspection system shown in fig. 3, the first audio capture module 18 and the first audio output module 19 in the intelligent patrol inspection terminal 1 may be omitted, and the second audio capture module 27 and the second audio output module 28 in the mobile terminal 2 may be omitted.

Referring to fig. 4, fig. 4 is a schematic structural diagram of another intelligent inspection system disclosed in the embodiment of the present invention.

The intelligent inspection system comprises an intelligent inspection terminal 1, a mobile terminal 2 and a server 3.

The intelligent inspection terminal 1 comprises a first casing 11, a control panel 12, a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18 and a first audio output module 19. The mobile terminal 2 comprises a second housing 21, an image capturing module 22, a man-machine interaction module 23, a second communication module 24, a second processor 25, a second power module 26, a second audio capturing module 27, a second audio output module 28 and a fingerprint collector 29.

In the intelligent inspection terminal 1, a control panel 12 is disposed in a cabinet 11, and a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18 and a first audio output module 19 are disposed on the control panel 12. The first processor 16 is connected to the positioning module 13, the environment monitoring module 14, the first communication module 15, the first audio acquisition module 18, and the first audio output module 19 respectively. The first power module 17 supplies power to the positioning module 13, the environment monitoring module 14, the first communication module 15, the first audio acquisition module 18, the first audio output module 19, and the first processor 16.

In the mobile terminal 2, the image capturing module 22, the human-computer interaction module 23, the second communication module 24, the second processor 25, the second power module 26, the second audio capturing module 27, the second audio output module 28 and the fingerprint acquirer 29 are all disposed in the second housing 21. The second processor 25 is respectively connected with the image acquisition module 22, the human-computer interaction module 23, the second communication module 24, the second audio acquisition module 27, the second audio output module 28 and the fingerprint collector 29. The second power module 26 supplies power to the image capturing module 22, the human-computer interaction module 23, the second communication module 24, the second processor 25, the second audio capturing module 27, the second audio output module 28 and the fingerprint collector 29.

The description will focus on the fingerprint acquisition device 29, and other components are referred to the description in the foregoing.

It should be noted that the fingerprint acquisition surface of the fingerprint acquirer 29 should be exposed on the surface of the second housing 21 so as to acquire fingerprint information. The fingerprint acquirer 29 acquires fingerprint information and transmits the acquired fingerprint information to the second processor 25. The second processor 25 performs user authentication based on the acquired fingerprint information. Specifically, the second processor 25 compares the acquired fingerprint information with the pre-stored fingerprint information to determine the identity of the user, and the scheme is an existing mature scheme and is not improved in the present application.

The utility model discloses the wisdom system of patrolling and examining shown in figure 4 compares with the wisdom system of patrolling and examining shown in figure 1, further is provided with fingerprint sampler in the mobile terminal, can be based on fingerprint information that fingerprint sampler gathered to being used for carrying out authentication.

It should be noted that, in the intelligent patrol inspection system shown in fig. 4, the first audio capture module 18 and the first audio output module 19 in the intelligent patrol inspection terminal 1 may be omitted, and the second audio capture module 27 and the second audio output module 28 in the mobile terminal 2 may be omitted. Of course, in the intelligent inspection system shown in fig. 4, an emergency rescue module may be further provided in the intelligent inspection terminal 1.

The following describes the structure of each part of the intelligent inspection system shown in fig. 1 to 4 in detail.

In one embodiment, the positioning module 13 of the present invention may adopt a GPS positioning module. Of course, the positioning module 13 is not limited to this, and in an implementation, the positioning module 13 may also be a beidou positioning module. Of course, the positioning module 13 may also comprise a variety of existing positioning modules.

In one embodiment, the environmental monitoring module 14 of the present invention includes a temperature sensor 141 and a humidity sensor 142, as shown in fig. 5. The temperature sensor 141 is used for acquiring temperature information of the position of the patrol inspector, and the humidity sensor 142 is used for acquiring humidity information of the position of the patrol inspector. Of course, the environmental monitoring module 14 may include more sensors.

In one embodiment, the first communication module 15 of the present invention includes a first near field communication module 151 and a first mobile communication module 152, and the second communication module 24 of the present invention includes a second near field communication module 241 and a second mobile communication module 242, as shown in fig. 5.

It should be noted that the first short-range communication module 151 in the smart inspection terminal 1 and the second short-range communication module 241 in the mobile terminal 2 are adaptive short-range communication modules. That is, the first near field communication module 151 of the smart inspection terminal 1 and the second near field communication module 241 of the mobile terminal 2 are capable of data interaction.

The utility model discloses a system is patrolled and examined to wisdom, wisdom are patrolled and examined terminal 1 and can be carried out near field communication with mobile terminal 2, promptly, and wisdom are patrolled and examined terminal 1 and mobile terminal 2 and are carried out near field communication through first near field communication module 151 and second near field communication module 241. In addition, the smart patrol terminal 1 may communicate with the server 3 through the first mobile communication module 152, and the mobile terminal 2 may communicate with the server 3 through the second mobile communication module 242.

It should be noted that the smart patrol terminal 1 and the mobile terminal 2 may also communicate with each other through the first mobile communication module 152 and the second mobile communication module 242. For example, when the first short-range communication module 151 of the smart patrol terminal 1 malfunctions, or the second short-range communication module 241 of the mobile terminal 2 malfunctions, or when the smart patrol terminal 1 and the mobile terminal 2 are out of the communication range of the first short-range communication module 151 and the second short-range communication module 241, the smart patrol terminal 1 and the mobile terminal 2 communicate through the first mobile communication module 152 and the second mobile communication module 242.

In another embodiment, the first communication module 15 of the present invention includes a first short-distance communication module 151, a first mobile communication module 152, and a satellite communication module 153.

The transmission line is in a complex environment, some areas may not be covered by the mobile communication network, and when the inspection personnel are in a service blind area of the mobile communication network, the intelligent inspection terminal 1 can communicate with a remote device through the satellite communication module 153, for example, communicate with the server 3, so as to upload data, receive a control instruction or send an emergency rescue request in time.

In an implementation, the first near field communication module 151 and the second near field communication module 241 may be bluetooth modules.

Of course, the first short-range communication module 151 and the second short-range communication module 241 are not limited thereto, and in an implementation, Zigbee (Zigbee) modules may be used as the first short-range communication module 151 and the second short-range communication module 241. Of course, the first and second short- range communication modules 151 and 241 may include a bluetooth module and a Zigbee module.

In implementation, the first and second mobile communication modules 152 and 242 may include one or more of a 2G module, a 3G module, a 4G module, and a 5G module.

Referring to fig. 5, fig. 5 is a schematic structural diagram of another intelligent inspection system according to an embodiment of the present invention.

The intelligent inspection system comprises an intelligent inspection terminal 1, a mobile terminal 2 and a server 3.

The intelligent inspection terminal 1 comprises a first casing 11, a control panel 12, a positioning module 13, an environment monitoring module 14, a first communication module 15, a first processor 16, a first power module 17, a first audio acquisition module 18, a first audio output module 19 and a first rescue module 110. The environment monitoring module 14 includes a temperature sensor 141 and a humidity sensor 142, and the first communication module 15 includes a first short-range communication module 151, a first mobile communication module 152, and a satellite communication module 153.

In the intelligent inspection terminal 1, the control board 12 is disposed in the housing 11, and the positioning module 13, the temperature sensor 141, the humidity sensor 142, the first short-distance communication module 151, the first mobile communication module 152, the satellite communication module 153, the first processor 16, the first power module 17, the first audio acquisition module 18, the first audio output module 19, and the emergency rescue module 110 are disposed on the control board 12. The first processor 16 is respectively connected to the positioning module 13, the temperature sensor 141, the humidity sensor 142, the first short-range communication module 151, the first mobile communication module 152, the satellite communication module 153, the first audio acquisition module 18, the first audio output module 19, and the emergency rescue module 110.

Specifically, the data output end of the positioning module 13 is connected to the first data port of the first processor 16, the data output end of the temperature sensor 141 is connected to the second data port of the first processor 16, the data output end of the humidity sensor 142 is connected to the third data port of the first processor 16, the data port of the first near field communication module 151 is connected to the fourth data port of the first processor 16, the data port of the first mobile communication module 152 is connected to the fifth data port of the first processor 16, the data port of the satellite communication module 153 is connected to the sixth data port of the first processor 16, the data output end of the first audio acquisition module 18 is connected to the seventh data port of the first processor 16, the data input end of the first audio output module 19 is connected to the eighth data port of the first processor 16, and the signal output end of the emergency rescue module 110 is connected to the ninth data port of the first processor 16.

The first power module 17 supplies power to the positioning module 13, the temperature sensor 141, the humidity sensor 142, the first short-distance communication module 151, the first mobile communication module 152, the satellite communication module 153, the first audio acquisition module 18, the first audio output module 19, the emergency rescue module 110, and the first processor 16.

The mobile terminal 2 comprises a second housing 21, and an image capturing module 22, a man-machine interaction module 23, a second communication module 24, a second processor 25, a second power module 26, a second audio capturing module 27, a second audio output module 28 and a fingerprint collector 29 which are arranged in the second housing 21. The second communication module 24 includes a second short-range communication module 241 and a second mobile communication module 242.

In the mobile terminal 2, the second processor 25 is respectively connected with the image capturing module 22, the human-computer interaction module 23, the second near-field communication module 241, the second mobile communication module 242, the second audio capturing module 27, the second audio output module 28 and the fingerprint acquirer 29.

Specifically, the data output end of the image capturing module 22 is connected to a first data port of the second processor 25, the data port of the human-computer interaction module 23 is connected to a second data port of the second processor 25, the data port of the second near-field communication module 241 is connected to a third data port of the second processor 25, the data port of the second mobile communication module 242 is connected to a fourth data port of the second processor 25, the data output end of the second audio capturing module 27 is connected to a fifth data port of the second processor 25, the data input end of the second audio output module 28 is connected to a sixth data port of the second processor 25, and the data output end of the fingerprint capturing module 29 is connected to a seventh data port of the second processor 25.

The second power module 26 supplies power to the image capturing module 22, the human-computer interaction module 23, the second near field communication module 241, the second mobile communication module 242, the second audio capturing module 27, the second audio output module 28, the fingerprint collector 29 and the second processor 25.

It should be noted that, in each of the intelligent inspection systems disclosed in the present invention, the first processor 16 and the second processor 25 are circuits or chips having a data input/output function.

It can be understood that, in the utility model discloses an intelligence system of patrolling and examining, the connection that arranges between each part on control panel 12 in terminal 1 is patrolled and examined to intelligence indicates the electricity to be connected, and the connection between each part in mobile terminal 2 indicates the electricity to be connected. In addition, the first power module 17 and the components powered by the first power module 17 have a direct or indirect connection relationship, and the second power module 26 and the components powered by the second power module 26 have a direct or indirect connection relationship, which is not shown in the figure.

Additionally, the utility model discloses in each wisdom system of patrolling and examining of above-mentioned disclosure, the first casing in the terminal 1 is patrolled and examined to wisdom is preferred waterproof casing, and the second casing in the mobile terminal 2 is preferred waterproof casing to improve the wisdom and examine terminal 1 and mobile terminal 2's waterproof performance.

The utility model discloses a system is patrolled and examined to wisdom, patrol and examine terminal 1, mobile terminal 2 and server 3 by wisdom and constitute, be intelligent, the long-range thing networking wisdom system of patrolling and examining of transmission line of standardization. The method is characterized in that perception interconnection is established among objects (towers and facilities) to be inspected, inspection personnel and management personnel, and multi-dimensional cooperation and control are implemented in the aspects of daily inspection tasks, problems to be processed, equipment hidden trouble defect ledgers, hidden trouble troubleshooting, inspection force configuration, emergency response and the like, so that the objects to be inspected and the inspection personnel are identified, tracked and monitored.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity from another. The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a wisdom system of patrolling and examining which characterized in that includes: the intelligent inspection system comprises an intelligent inspection terminal, a mobile terminal and a server;

terminal is patrolled and examined to wisdom includes: a first housing; the control panel is arranged in the first shell, and is provided with a positioning module, an environment monitoring module, a first communication module, a first processor and a first power module, wherein the first processor is respectively connected with the positioning module, the environment monitoring module and the first communication module, and the first power module supplies power to the positioning module, the environment monitoring module, the first communication module and the first processor;

the mobile terminal includes: a second housing; the image acquisition module, the human-computer interaction module, the second communication module, the second processor and the second power module are arranged in the second shell, wherein the second processor is respectively connected with the image acquisition module, the human-computer interaction module and the second communication module, and the second power module supplies power to the image acquisition module, the human-computer interaction module, the second communication module and the second processor;

the intelligent inspection terminal is in wireless connection with the server and the mobile terminal through the first communication module, and the mobile terminal is in wireless connection with the server and the intelligent inspection terminal through the second communication module.

2. The smart inspection system according to claim 1, wherein the environmental monitoring module includes a temperature sensor and a humidity sensor.

3. The smart inspection system according to claim 2, wherein the smart inspection terminal further includes: the emergency rescue module is connected with the first processor; the first power supply module is also used for supplying power for the emergency rescue module.

4. The intelligent inspection system according to claim 3, wherein the mobile terminal further includes: and the fingerprint collector is connected with the second processor.

5. The smart inspection system according to claim 4, wherein the smart inspection terminal further includes: the first audio acquisition module is connected with the first processor; the first audio output module is connected with the first processor; the first power supply module is also used for supplying power to the first audio acquisition module and the first audio output module.

6. The intelligent inspection system according to claim 5, wherein the mobile terminal further includes: the second audio acquisition module is connected with the second processor; a second audio output module connected with the second processor; the second power supply module is also used for supplying power to the second audio acquisition module and the second audio output module.

7. The intelligent inspection system according to any one of claims 1 to 6, wherein the first communication module includes a first near field communication module and a first mobile communication module, and the second communication module includes a second near field communication module and a second mobile communication module, wherein the first near field communication module and the second near field communication module are adapted near field communication modules.

8. The intelligent inspection system according to claim 7, wherein the first communication module further includes a satellite communication module.

9. The intelligent inspection system according to claim 7, wherein the first mobile communication module includes one or more of a 2G communication module, a 3G communication module, a 4G communication module, and a 5G communication module, and the second mobile communication module includes one or more of a 2G communication module, a 3G communication module, a 4G communication module, and a 5G communication module.

10. The intelligent inspection system according to claim 1, wherein the human-computer interaction module includes a touch screen display.

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