KR102203809B1 - Mobile type management device for monitoring construction site - Google Patents

Abstract

The present invention relates to a mobile management device for comprehensive site monitoring. An object of the present invention is to efficiently monitor a site situation simply by sensor installation and without extra communication equipment. The present invention includes: short-distance communication means for receiving sensing data broadcast from an external sensor within a preset radius by having a preset data transmission/reception radius; long-distance communication means for sending the sensing data to a remote cloud server; and a data processing module processing the sensing data into data that can be processed at the cloud server and data that can be sent by the long-distance communication means. The entire configuration that includes the short-distance communication means, the long-distance communication means, and the data processing module is configured to be installed in one mobile case. The sensing data of the external sensor within the preset radius around the location of disposition is received for each movement. Then, the sensing data is transmitted to the cloud server.

Description

Mobile integrated site monitoring management device {MOBILE TYPE MANAGEMENT DEVICE FOR MONITORING CONSTRUCTION SITE}

The present invention relates to a technology for efficiently monitoring the current status of the site in various construction sites including construction sites without additional communication equipment construction, and specifically, receiving sensing data of a sensor for sensing the site environment, It relates to a mobile device capable of outputting various information to the field while allowing it to be transmitted to a remote cloud server.

In various construction sites including building construction, maintenance, and repair sites, it is essential to monitor the site situation for safety management of workers and construction status management. The site situation is understood as a concept that includes not only monitoring of various disaster situations, including information on worker safety, but also monitoring of various environmental information such as temperature, humidity, smoke, and concentration of hazardous substances in the construction environment. .

Previously, in monitoring of such a site situation, the monitoring manager brought various devices for monitoring, visited the site situation, collected monitoring information from the site situation, and sent it back to the management server or taken and stored it in the terminal. Has been progressed.

However, in this method, a problem has been pointed out in that real-time monitoring of the site situation is impossible, and the waste of manpower dispatched to the site monitoring occurs, and technology development to enable real-time monitoring of the site situation from a remote location. This has been accomplished, and rapid technological development has been made with the commercialization of the smart monitoring system.

The field monitoring technology that enables real-time monitoring of the site situation from a remote location is a technology published, for example, in Korean Patent Registration No. 10-1663653, and referring to the technology as a representative, a technology for remotely monitoring a construction site. As a result, a communication network such as a sensor, a Wi-Fi module that communicates with a facility and a wireless terminal is installed, and the communication module installed in the remote control panel is used to receive environmental information and facility operation information sensed by the environmental sensor group based on the established communication network. A technology that enables remote monitoring of construction sites by performing functions such as transmitting to the control server is posted.

However, in order to practically implement the technology on the site, a communication network that can collect data on the results of monitoring the site situation and transmit it to a remote control server must be established. To do this, it is necessary to establish a communication network at the construction site itself. Very complex construction must be performed.

For this reason, in order to enable remote monitoring of the construction site as described above, the problem of increasing construction complexity has been pointed out, requiring the establishment of a separate communication network at the site where on-site personnel and various facilities are mixed. In the point that a separate communication network must be established in the construction for maintenance, etc. in a place that has not been completed, pointed out the problem of an increase in cost and construction complexity for on-site monitoring continues.

In addition, in a wide range of sites, sensing data is collected by a very large number of sensors.This sensing data is also continuously collected in areas that do not necessarily need to be collected when collecting dangerous information at the site. Along with the increase in communication cost and resource consumption due to the increase in network in the server, the problem of the management of sensing data has been continuously raised.

Accordingly, an object of the present invention is to provide a technology capable of efficiently monitoring a situation in a field only by installing a sensor without additional communication equipment. In addition, another object of the present invention is to provide a technology capable of efficiently managing sensed data and consuming network resources according to unnecessary data collection by enabling only field condition monitoring for a site to be collected.

In order to achieve the above object, the mobile integrated field monitoring management apparatus according to an embodiment of the present invention has a preset data transmission/reception radius, and thus can receive sensing data broadcast from an external sensor inside the preset radius. Short-range communication means; A remote communication means for transmitting the sensing data to a remote cloud server; And a data processing module for processing the sensing data into data that can be processed by the cloud server and data that can be transmitted by the remote communication means, including the short-range communication means, the remote communication means, and the data processing module. All configurations are configured to be installed in one movable case, characterized in that sensing data of an external sensor within the preset radius is received around a position arranged at each movement, and the sensing data is transmitted to the cloud server. .

Preferably, the sensing data includes at least identification information capable of identifying the location of the external sensor and environmental information sensed by the external sensor.

An internal sensor detecting at least one of a slope of the mobile integrated site monitoring management device, pressure applied to the mobile integrated site monitoring management device, gas exposure around the mobile integrated site monitoring management device, and a fire surrounding the mobile integrated site monitoring management device; Further comprising, the remote communication means, it is preferable to transmit the processed sensing data to the cloud server so that the information sensed by the internal sensor from the data processing module is included in the sensing data.

Further comprising: a warning information output module configured to determine whether a danger occurs around the mobile integrated field monitoring management device based on the information generated by sensing of the internal sensor, and output a warning notification according to the determination result of the danger occurrence; It is desirable to do.

The sensing data managed by the cloud server is transmitted to a remote management terminal or a site manager terminal, so that the remote management terminal or the site manager terminal is an environment within the preset radius of a place where the mobile integrated site monitoring management device is placed. It is desirable to function so that it can be monitored.

An image capturing device capable of capturing an area around the mobile integrated field monitoring management device; further comprising, the remote communication means is processed so that the image captured by the image capturing device from the data processing module is included in the sensing data. It is preferable to transmit the sensed data to the cloud server.

The remote communication means performs a function of receiving a control command corresponding to the identification information of the mobile integrated field monitoring management device from the cloud server, and when the remote communication means receives the control command, from the remote communication means A control command processing unit receiving the control command and processing the received control command into video or audio data; And an output module for outputting the image or audio data processed by the control command processing unit.

The control command processing unit is interlocked with each other by the field manager terminal and the long-distance communication means or the short-range communication means, receives work instruction information input by the field manager terminal, and transmits the received work instruction information to the video or audio It is processed into data, and it is preferable that the output module outputs video or audio data processed with task instruction information by the control command processing unit.

A power module including an input port receiving power from an external power source and an output port capable of supplying the supplied power to an external device, wherein the external sensor provides a power supply line connected to the output port. It is preferable to be configured to operate only when the mobile integrated site monitoring management device is disposed nearby and is supplied with power by a power module of the mobile integrated site monitoring management device by being installed to be driven by receiving power through it.

According to the present invention, sensing data transmitted from a sensor installed in the field is transmitted when a mobile integrated field monitoring management device is installed at a specific location, and the sensor is located within a data transmission/reception radius of a short-range communication means from the location. It functions to remotely manage field information by automatically receiving data and transmitting it to a remote cloud server.

According to the execution of this function, it is possible to remotely monitor the field situation by transmitting sensing data from a sensor to a remote cloud server by simply placing a movable device at a specific location without establishing a separate communication network.

Through this, there is an effect of minimizing the cost and complexity of construction required to establish a separate communication network, and in particular, there is an effect that the establishment of a communication network dedicated to field monitoring is not required at all.

On the other hand, since only sensing data within the data transmission/reception radius in the area where the mobile integrated field monitoring management device is placed is collected, unnecessary sensing data can be avoided by placing the device only in the field where monitoring is required. Through this, it is possible to expect the effect of minimizing the consumption of network resources and increasing the efficiency of data management due to excessive data transmission and reception.

In particular, by performing functions of internal sensors including external sensors, it is not necessary to map each sensor to the location of the site, and if only the location of the mobile integrated field monitoring management device is identified, it is intuitive to know whether the sensing data is at any location. As can be seen, the intuitiveness of field monitoring is greatly improved, and at the same time, complex data processing is not required.

1 is a schematic configuration diagram of a mobile integrated field monitoring management apparatus according to an embodiment of the present invention.
2 is a diagram for explaining a flow in which sensing data is processed in the present invention.
3 to 6 are views for explaining various embodiments in which guide information based on sensing data is output by performing a function of the present invention.
7 is a view for explaining a flow in which field monitoring is performed according to an embodiment of the present invention.

In the following, various embodiments and/or aspects are now disclosed with reference to the drawings. In the following description, for purposes of explanation, a number of specific details are disclosed to aid in an overall understanding of one or more aspects. However, it will also be appreciated by those of ordinary skill in the art that this aspect(s) may be practiced without these specific details. The following description and the annexed drawings set forth in detail certain illustrative aspects of one or more aspects. However, these aspects are exemplary and some of the various methods in the principles of the various aspects may be used, and the descriptions described are intended to include all such aspects and their equivalents.

As used herein, "an embodiment", "example", "aspect", "example", etc. may not be construed as having any aspect or design described as being better or advantageous than other aspects or designs. .

In addition, the terms "comprising" and/or "comprising" mean that the corresponding feature and/or element is present, but excludes the presence or addition of one or more other features, elements, and/or groups thereof. It should be understood as not.

In addition, terms including ordinal numbers such as first and second may be used to describe various elements, but the elements are not limited by the terms. These terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element. The term and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are those commonly understood by those of ordinary skill in the art to which the present invention belongs. It has the same meaning. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless explicitly defined in the embodiments of the present invention, an ideal or excessively formal meaning Is not interpreted as.

In addition, in order to highlight and describe the technical features of the present invention, the illustrated matters of the accompanying drawings in the present invention illustrate some configurations such as general devices/configurations/devices applied in the same technical field as the present invention and a description thereof. Can be omitted. In addition, for the same purpose, the illustrations of some configurations may be enlarged or excessively highlighted, or the illustrations may be reduced or omitted, but it will be natural that such matters do not limit the scope of the present invention.

1 is a schematic configuration diagram of a mobile integrated field monitoring management apparatus according to an embodiment of the present invention, FIG. 2 is a view for explaining a flow in which sensing data is processed in the present invention, and FIGS. 3 to 6 are functions of the present invention. A diagram for explaining various embodiments in which guide information based on sensing data is outputted by execution, and FIG. 7 is a diagram for explaining a flow in which field monitoring is performed according to an embodiment of the present invention.

Referring to all of the above-described drawings together, the mobile integrated field monitoring management device 10 according to an embodiment of the present invention (hereinafter referred to as'device') typically includes a short-range communication means 11, a long-distance communication means ( 12) and a processor 13 including a data processing module.

A typical feature in each embodiment of the present invention is that the device 10 is configured as a single device by installing each component inside and outside a single outer case, as shown in FIG. 1, and configured to move the device. , It may be fixedly installed or movable by a detachable moving means (not shown), or configured to be lightweight, and may be provided to perform each function described later by placing it in a location where the administrator wants to carry it and install it when necessary.

Specifically, each configuration is described, the short-range communication means 11, by having a preset data transmission and reception radius (D1), receives the sensing data broadcast from the external sensor 20 inside the preset radius (D1) It means a composition that can be done.

The data transmission/reception radius D1 is a three-dimensional distance, and refers to a threshold distance at which the short-range communication means 11 can receive data from a specific device or transmit data to the device. That is, for a device located at a distance outside the data transmission/reception radius D1, the short-range communication means 11 cannot transmit/receive data.

As described above, the external sensor 20 is understood as a concept including all sensors capable of sensing environmental information of a specific radius at the installed location and a communication means capable of broadcasting the sensed result value to the outside. Can be. In other words, it refers to a single device or module capable of performing a function of collecting specific environmental information values using a physical or chemical principle and transmitting the collected values to the outside.

In the present invention, the external sensor 20 senses all information to be collected according to the type of the site mentioned in the present invention, such as an illuminance sensor, a pressure sensor, a hazardous substance detection sensor, a proximity sensor, an infrared sensor, a temperature sensor, and a humidity sensor. It will be understood as a concept including sensors for doing so.

The site where the external sensor 20 is installed is, for example, a new building construction site, a civil engineering work site, a maintenance/repair construction site for an already built building, an interior construction site, etc. It means all sites that are constructed or managed. As a representative example, for example, a construction site as a site, the external sensor 20 may include a temperature, humidity, and motion detection sensor in each sensor installation area related to the safety of a worker at the corresponding construction site.

The short-range communication means 11 refers to a configuration that functions to receive sensing data broadcast from the external sensor 20 as described above. In this case, the external sensor 20 transmits the sensing data to the outside, and the short-range communication means 11 captures and receives the sensing data to receive the sensing data.

Therefore, the short-range communication means 11 is preferably the same as the communication method of the external sensor 20, or a means having a communication method capable of receiving a signal processed and broadcast according to the communication method of the external sensor 20. In addition, the short-distance communication means 11 can collect sensing data from the external sensor 20 at a certain distance so that it can collect field information at the location where the device 10 is installed, not a too short distance. It is desirable to have a communication method. For example, Bluetooth communication method including Bluetooth class 2 (radius 10m, maximum output 2.5mW), WPAN communication means including high-speed or low-speed UWB (Ultra Wide-Band), or short-range communication means If (11) includes a Wi-Fi sharing terminal, etc., a Wi-Fi method using this may also be possible.

Meanwhile, as described above, the sensing data is broadcast from the external sensor 20 and received by the short-range communication means 11. In this case, when a plurality of external sensors 20 exist within the above-described radius D1, the sensing data is It is necessary to identify the generated external sensor 20 so that it is possible to determine whether or not which sensing data has been collected in a certain area.

To this end, the sensing data is at least the location of the external sensor 20 that has generated the sensing data, that is, the environment information corresponding to the sensing data, or the identification information capable of identifying the terminal, and the external sensor 20 sensed. It is desirable to include environmental information.

The identification information of the external sensor 20 may mean, for example, a serial number of a sensor, and at this time, the serial number and location information of each external sensor 20 may be matched and managed in the cloud server 30. On the other hand, in another embodiment of the present invention, when the location information is not matched and the location where the device 10 is installed is input by the field manager terminal 50 or the like, the corresponding location is automatically assigned to the serial number of the external sensor 20. It may be detected as an installation position of the external sensor 20 corresponding to. In the present invention, the sensing data of the external sensor 20 is collected by the short-range communication means 11 as described above, and the location is roughly matched to the location of the short-range communication means 11 by the data collection radius D1. Because it can be estimated to be.

The environmental information will mean information on the environment collected within a certain radius according to the specifications of the sensor based on the location where the sensor is installed according to the type of the external sensor 20. For example, in the case of a humidity sensor, the humidity value of the area where the sensor is installed, and in the case of a motion detection sensor, information on whether the object moves within a certain radius set according to the specifications of the sensor in the area where the sensor is installed is environmental information. Can be included in

As described above, since the device 10 is characterized in that it is movable, as described above, only when the external sensor 20 is located within a preset data transmission/reception radius D1 of the short-range communication means 11 of the device 10. Likewise, the sensing data of the external sensor 20 can be received by the short-range communication means 11.

Due to this characteristic, the sensing data in the present invention means only the sensing data during the time when data transmission/reception between the short-range communication means 11 and the external sensor 20 is possible, or the external sensor 20 has a data storage space. If present, it may be understood as a concept including sensing data accumulated until data transmission/reception is possible.

The remote communication means 12 is a configuration for transmitting sensing data to a remote cloud server 30. That is, the long-distance communication means 12 is a means capable of accessing a specific remote network through a wireless or wired communication method, and is connected to the cloud server 30 when connected to the network, and the short-range communication means 11 receives the processor 13 ) Performs a function of transmitting the sensing data temporarily stored in the cloud server 30 to the cloud server 30.

The short-range communication means 11 and the long-distance communication means 12 of the device 10 will have different communication methods. To this end, the processor 13 may include a data processing module as described above. The data processing module performs a function of processing the sensing data into data that can be processed by the cloud server 30 and data that can be transmitted by the remote communication means 12. That is, it can be understood as performing a role of a gateway on a kind of communication network.

In addition, as described above, depending on the movement of the device 10, whether or not the remote communication means 12 is operated may vary. In this case, when the sensing data is received, the sensing data may not be immediately transmitted to the outside by the remote communication means 12. To this end, a temporary data storage space or a permanent data storage space is installed in the processor 13 to perform a function of storing sensing data until the sensing data can be transmitted to the cloud server 30 or the like. Of course, at this time, the sensing data may be managed by including information on a file creation time, that is, a sensing time of environment information sensed from the sensing data, as data at the time of general file creation.

In the present invention, as the above-described main configuration, the processor 13 including the short-range communication means 11, the long-distance communication means 12, and the data processing module is configured to be installed in one movable case, thereby being configured to be movable. It features. Due to this feature, whenever the device 10 moves, the external sensor 20 is included in the radius D1 to enable data collection according to the data transmission/reception radius D1 of the short-range communication means 11 described above. It will be different, that is, it functions to receive the sensing data of the external sensor 20 inside the radius D1 and transmit the sensing data to the cloud server 30.

According to this function, when the device 10 is installed at a specific location, there is no need for a separate communication means to be connected to the sensor, and an external sensor within the data transmission/reception radius D1 of the short-range communication means 11 of the device 10 The sensing data of 20 is automatically received and transmitted to the cloud server 30, so that the field information can be managed remotely.

This embodiment can be seen in the diagram shown in FIG. 7. That is, when the administrator places the device D in the first location P1, the device D collects environmental information in the specific area R1 so that the site information is managed remotely. At this time, when the construction at the first location (P1) is completed and there is no longer a need to collect environmental information of the site, the device (D) is moved to the second location and the device (D) without complicated construction such as removal and reinstallation of the existing communication network. By moving in the order of the third location (P2, P3), etc., environmental information is collected in the area (R2, R3) that needs to be monitored for information on the site under construction.

Therefore, it is possible to remotely monitor the site situation by placing the movable device 10 at a specific location without having to establish a separate communication network in the construction target (1) only for the work performed at the site, and a separate communication network It is possible to minimize the cost of construction and the complexity of construction.

On the other hand, if only the area in which the device 10 is placed is specified, only the sensing data within the data transmission/reception radius D1 in the area is collected, so it is very convenient for the on-site manager or remote manager to know which environment information is collected at which location. It can be intuitively recognized, and the collection of unnecessary sensing data is minimized, thus minimizing the consumption of network resources due to excessive data transmission and reception, and an effect of increasing the efficiency by reducing the complexity of data management.

On the other hand, the external sensor 20 may be installed only a specific sensor depending on the site. That is, in the case of environmental information that should be commonly collected in the field, if the implementation of an embodiment that directly senses the device 10 without installing it with the external sensor 20 is implemented, the installation cost of the external sensor 20 is more effectively reduced. Can be reduced.

To this end, an internal sensor 14 may be further included in the device 10 in an embodiment of the present invention. The internal sensor 14 includes field information that can be acquired through sensing the environment applied to the device 10 itself, such as the inclination of the device 10 and the pressure applied to the device 10, and the device 10 A sensor capable of detecting a general danger around the device 10 may be included by selectively detecting whether the surrounding gas is exposed or whether there is a fire.

The slope of the device 10 itself means the slope of the ground of the site. For example, if the slope is too large in the construction site, it may mean that the construction site collapses or is inclined abnormally. Losing pressure may mean that the ambient air pressure is abnormally increased or damage is applied to the device itself. Gas exposure and fire may mean dangerous information around the general device 10.

When the internal sensor 14 is installed, the long-distance communication means 12 does not transmit only the sensing data processed by the data processing module for the sensing data of the short-range communication means 11, but by the internal sensor 14. As described above, it would be desirable to transmit the processed sensing data from the data processing module to the cloud server so that the sensed information is included in the sensing data. An example of this is shown in FIG. 2.

Referring to FIG. 2, sensing data 100 generated by an external sensor 20 is collected by a short-range communication means 11 and transmitted to the processor 13, and sensing data generated by the internal sensor 14 110 is transmitted directly to the processor 13. At this time, the data processing module inside the processor 13 processes this to generate sensing data of the above-described concept, and then transmits the sensing data to the cloud server 30 by the remote communication means 12 as described above.

When the cloud server 30 manages the sensing data and receives a request for providing environmental information based on the sensing data from the control terminal 40 or the manager terminal 50 in the field, the control terminal ( It functions to effectively monitor the site by using sensing data from the remote management terminal such as 40) and the manager terminal 50 of the site. Preferably, it functions to be able to monitor the environment within a preset radius D1 of the place where the device 10 is placed. An example of monitoring of this environment is shown in FIG. 4.

Referring to FIG. 4, sensing data stored in the cloud server 30 may be processed and output on a specific interface screen 120 to an output means of the control terminal 40 or the field manager terminal 50.

In this case, the sensing data itself or the sensing data may be processed and output as visual information that can be perceived by a human on the screen 120. At this time, the location information (xx building site, 14F, etc.) may be output according to the installation location of the device 10, and the information is a site manager or device 10 who has placed the device 10 at the corresponding location as described above. ) May be input through an input means (not shown) installed in the device 10 or a management interface of a terminal interlocked with the device 10 by a short-range or long-distance communication means. Alternatively, a schematic or specific place may be automatically specified and managed by a location information sensor such as a GPS embedded in the device 10.

In this case, the screen 120 may include an area 124 in which an image I1 photographed about a site where the device 10 to be described later is installed is output. A screen 121 outputting environmental information measured by the above-described sensing data for each sensor or facility 123 centering on the icon 122 of the device 10 or monitoring information on the site estimated according to the environmental information. ) Can also be printed.

Returning to the description of FIG. 1 again, that is, by handling and managing the sensing data sensed by the external sensor 20 and the internal sensor 14 at the same level, the device 10 operates as one sensor and is installed. Together with the external sensor 20 at the location, it will function to efficiently detect environmental information of the site.

As described above, the internal sensor 14 or the external sensor 20 may perform a function of sensing danger information at an installation location of the device 10. At this time, if a risk that requires immediate notification occurs or is predicted, if the device 10 itself is equipped to send a warning notification to the surroundings, a separate warning notification may be delivered to the site personnel such as the worker one by one. , Even without going through a complicated process such as installing a terminal or a program in the terminal for receiving a warning notification to the terminal of the field personnel, it is possible to notify the occurrence of an effective danger.

To this end, in each embodiment of the present invention, the device 10 may further include an output means 15 including a warning information output module. The output means 15 is provided to perform a function of outputting a video or audio message for a remote control command, as described later, in addition to a function of outputting video or audio according to the function of the warning information output module. do.

That is, the warning information output module is a component included in or interlocked with the output means 15 and performs a function of processing video or audio information output by the output means 15. The video or audio information may be processed by the processor 13 or the warning information output module itself according to the information sensed by the internal sensor 14 or the external sensor 20 described above. In this case, the warning information output module may be understood as a configuration included in the output means 15 or included in the processor 13.

As described above, the warning information output module performs a function of outputting a warning notification, that is, a function of transmitting a signal for outputting a warning notification to the output means 15. That is, based on the information generated by sensing of the internal sensor 14 or the external sensor 20, it is determined whether a danger around the device 10 has occurred, and a warning notification is output according to the determination result of the danger.

At this time, as shown in FIG. 1, the output means 15 may be configured to include an audio output means 15 such as a speaker and an image output means 152 such as a touch screen and a general screen. In this case, an example of an output route notification is shown in FIG. 3.

Referring to FIG. 3, for example, when the occurrence of a fire is detected while the fire detection sensor is included in the internal sensor 14, the voice output means 151 indicates voice information indicating that a fire has occurred or sound such as a siren. The effect is output, and a screen notifying that a fire has occurred in the vicinity is output to the image output unit 152, so that a person in the field adjacent to the device 10 can immediately recognize it.

Meanwhile, as mentioned in the description of FIG. 4, an image of the field may be photographed and provided together as sensing data. To this end, the device 10 may further include an image capturing device 16 capable of capturing a peripheral area of the device 10 as shown in FIG. 1.

At this time, similar to the description of the internal sensor 14, the long-distance communication means 12 transmits the processed sensing data so that the image captured by the image capturing device 16 from the data processing module is included in the sensing data. It is preferable to transmit it to the cloud server 30. Through this, as in the embodiment of FIG. 4 described above, a remote management terminal such as the control terminal 40 or a manager terminal 50 in the field takes a picture of the surrounding environment of the device 10 in an unrecognized state in some cases. It has the effect of enabling more detailed and accurate field monitoring by allowing one image to be checked.

On the other hand, when environmental information near the device 10 is recognized according to an interface such as the screen 120 of FIG. 4, managers may wish to improve environmental information or transmit a specific control command related thereto. .

To this end, the remote communication means 12 connected to the cloud server 30 may perform a function of receiving a control command corresponding to the identification information of the mobile integrated field monitoring management device 10 from the cloud server 30. . In response to this, the device 10 may be configured by including a control command processing unit in the processor 13, and the control command processing unit when the remote communication unit 12 receives the control command, the control command from the remote communication unit 12 Is delivered, and performs a function of processing the received control command into video or audio data.

The video or audio data processed by the above-described control command processing unit is output by an output module that is the same as or included in the above-described output means 15, and examples thereof are shown in FIGS. 5 and 6.

The cloud server 30 receives and stores a control command from the control terminal 40 or the manager terminal 50 in the field, and transmits the control command to the remote communication means 12 as described above. Such a control command may be generated by an input to an input means of the control terminal 40 or the manager terminal 50 in the field to which an interface such as the screen 130 shown in FIG. 5 is output. That is, the administrator may determine the control command type 131 and the content 132, select the transmission button 133, and input the control command.

The input control command is output by the audio output means 151 or the image output means 152 as shown in FIG. 6 as a result of performing the function of the above-described control command processing unit. You can have them take actions that respond to.

Meanwhile, among the control commands, specifically, task instruction information may be included as a control command directly inputted by the manager terminal 50 in the field. That is, similar to the above-described example, the control command processing unit is interlocked with each other by the field manager terminal 50 and the remote communication means 12 or the short distance communication means 20, and the task instruction input by the field manager terminal 50 It receives information and can process the received task instruction information into video or audio data. In this case, similar to the control command, the output module may output video or audio data processed by the control command processing unit.

At this time, a representative example of the work instruction information is voice data input by the voice input means of the site manager terminal 50. That is, in general, a site manager at a construction site, etc., uses a loudspeaker to transmit information on a work instruction. In the present invention, instead of this, when the device 10 directly receives voice information from the site manager terminal 50 This is to be output through the voice output means 151 such as a speaker as it is, so that information can be effectively transmitted to nearby field personnel without a loudspeaker.

As described above, the present invention has the effect of allowing the sensing data sensed by the sensor to be used when the corresponding data is required. In this case, according to the embodiment of the present invention, when the sensor itself is driven only when the sensing data of the corresponding sensor is required, energy consumption required for driving the sensor itself can be saved.

To this end, the device 10 may include a power module 17, and the power module 17 may include an input port 171 through which the device 10 receives power from an external power source 60. The input port 171 may be understood as a concept that is generally included except for embodiments in which the device 10 is driven by its own power such as a battery.

In this case, the power module 17 may include an output port 172. In order to control the driving of the external sensor 20, the output port 172 may be understood as a configuration that performs a function such as an outlet that performs a function capable of supplying the supplied power to an external device.

At this time, the external sensor 20 or a branch line provided to supply power to the plurality of external sensors 20 is connected to the power supply through a power supply line (not shown) connected to the output port 172. It can be installed to be driven by being supplied. That is, supplying power to the external sensor 20 or the like is implemented to become the device 10.

According to this configuration, the external sensor 20 is operated only when the device 10 is disposed nearby and is supplied with power by the power module 17, so that the function of the sensor is performed only when the device 10 is installed. By allowing the site information to be monitored, there is an effect of maximizing the power saving effect by preventing unnecessary sensor operation when only environmental information of a specific area is needed in a large construction site.

Meanwhile, the above-described power module 17 functions as a mobile power supply means, as a terminal possessed by an operator or manager in the field, and is configured to include a charging function for terminals that require periodic charging such as mobile phones and smartphones. Can be. To this end, the output port 172 may be configured to include a power supply means capable of charging at least a portable terminal in addition to a power supply function for the external sensor 20. In this case, the power supply means may be configured to include a terminal corresponding to the charging port of the portable terminal, or may be configured to include a means capable of wireless charging.

Although the embodiments have been described by the limited embodiments and drawings as described above, those of ordinary skill in the art will appreciate that various modifications and variations are possible from the above description. The terms “include”, “consist” or “have” described above mean that components without a description to the contrary may be included, so other components are not excluded. It should be construed as more inclusive. In addition, the scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

Claims (10)

In a mobile integrated site monitoring management device that monitors the perimeter of the site by placing it at a specific location on the site,
A short-range communication means capable of receiving sensing data broadcast from an external sensor within a preset radius by having a preset data transmission/reception radius;
A remote communication means for transmitting the sensing data to a remote cloud server; And
Including; a data processing module for processing the sensing data into data that can be processed by the cloud server and data that can be transmitted by the remote communication means,
All components including the short-distance communication means, the long-distance communication means, and the data processing module are configured to be installed in one movable case, and are set around a position arranged at each movement, and the data transmission/reception radius of the short-range communication means Characterized in that the sensing data broadcasted by an external sensor of is automatically received and the sensing data is transmitted to the cloud server,
An internal sensor that detects the slope of the mobile integrated site monitoring management device, pressure applied to the mobile integrated site monitoring management device, gas exposure around the mobile integrated site monitoring management device, and fire around the mobile integrated site monitoring management device; Thus, the processed sensing data is transmitted to the cloud server so that the information sensed by the internal sensor from the data processing module through the long-distance communication means is included in the sensing data,
An image capturing device capable of capturing an area around the mobile integrated field monitoring management device; further including, processing so that the image captured by the image capturing device from the data processing module through the remote communication means is included in the sensing data Transmitted the sensed data to the cloud server,
The sensing data stored in the cloud server is processed and output as an interface screen to an output means of a control terminal or a field manager terminal,
The interface screen includes an area in which the captured image is output, and environmental information measured by the external sensor and the internal sensor or monitoring information on a site estimated according to the environmental information is output,
The sensing data managed by the cloud server is transmitted to a remote management terminal or a site manager terminal, so that the remote management terminal or the site manager terminal is an environment within the preset radius of a place where the mobile integrated site monitoring management device is placed. Function to be able to monitor,
The sensing data,
At least identification information capable of identifying the location of the external sensor and environment information sensed by the external sensor are included, and the serial number and location information of each external sensor are matched and managed in the cloud server,
The sensing data,
Sensing data during a point in time when data transmission/reception between the short-range communication means and the external sensor is possible, and when a data storage space exists in the external sensor, the accumulated sensing data is included before data transmission/reception is possible,
The mobile integrated site monitoring management device includes a power module; As, an input port for the mobile integrated site monitoring management device to receive power from an external power source, and power supplied through the input port for driving control of the external sensor. An output port with a power supply line is included as a branch line for supplying the prepared external device,
By allowing the external sensor to operate only when the mobile integrated field monitoring management device is disposed nearby and receiving power from the power module, the external sensor performs a function only when the mobile integrated site monitoring management device is installed. , It is possible to save power and efficiently manage network resource consumption by only monitoring the site situation for the site to be collected while preventing unnecessary external sensor operation.
The telecommunication means,
Performs a function of receiving a control command corresponding to the identification information of the mobile integrated field monitoring management device from the cloud server, and when the remote communication means receives the control command, receives the control command from the remote communication means , A control command processing unit for processing the received control command into video or audio data; And, an output module for outputting the image or audio data processed by the control command processing unit; further comprising,
The control command processing unit,
Interworking with each other by the on-site manager terminal and the long-distance communication means or the short-range communication means, receives work instruction information input by the on-site manager terminal, and processes the received work instruction information into the video or audio data,
The output module,
Mobile integrated site monitoring management, characterized in that by outputting video or audio data processed by the control command processing unit, the work instruction information to field workers around the mobile integrated site monitoring management device Device.
delete delete The method of claim 1,
Further comprising: a warning information output module configured to determine whether a danger occurs around the mobile integrated field monitoring management device based on the information generated by sensing of the internal sensor, and output a warning notification according to the determination result of the danger occurrence; Mobile integrated field monitoring management device, characterized in that.
delete delete delete delete delete The method of claim 1,
The power module,
Mobile integrated field monitoring management device, characterized in that the output port is configured to include at least a power supply means capable of charging the portable terminal.

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