KR102128696B1 - Driving method for construction site supervision and security sysgem - Google Patents

Abstract

The present invention relates to a construction site supervision and security system operating method using a mobile technology. A technical objective to be achieved is to provide a construction site supervision and security system operating method using the mobile technology, capable of maximally reducing tasks for a supervisor to write work progress documents by construction type without complex programming for each design standard of a construction site, while automatically recording data for determining whether a construction type normally progresses without the need for the supervisor to write documents through his/her smartphone or PC. According to the construction site supervision and security system operating method using the mobile technology, since a 360-degree camera and 360-degree lighting are installed in a construction site, the 360-degree camera is used to automatically record supervision images by construction type in a supervision data server on a remote and manual basis, while the 360-degree camera and the 360-degree lighting can create image information by monitoring the area for trespassers.

Description

DRIVING METHOD FOR CONSTRUCTION SITE SUPERVISION AND SECURITY SYSGEM}

The present invention relates to a method for operating a construction site supervision and security system using mobile technology, and more specifically, it is installed in a construction site to automatically monitor the progress in the construction site during the day or perform supervision manually when necessary. , It is related to a method of operating a construction site supervision and security system using mobile technology that enables video information on supervision to interlock with the system and monitor chip particles in the construction site at night.

Currently, the construction site works on the site in the form of resident or non-resident for supervision, and conducts various supervision work on supervision, personal supervision, and contract execution status, etc., as to whether each of the construction types of the construction proceeds as designed or requires design changes. Is done.

In this case, when the supervisor who visited the site conducts the supervision on the construction, the supervisor on the site is photographed with his or her smartphone or camera, and the photograph is used to insert it into the document of the construction report. And so on.

Looking at the related prior literature, Korean Patent Registration No. 10-1354688 (Registration on Jan. 27, 2014), Document 1, relates to a construction site supervision method using a 3D virtual space modeling system to perform construction. The process of photographing the live-action image of the construction site through a camera, the process of detecting the vector shooting information of the captured construction site, the process of transmitting the photographed live-action image and the detected vector shooting information to the management server side, and the management A process in which a server detects a 3D model that matches the vector photographing information in a database of a 3D virtual space modeling system and detects each individual object in the detected 3D model, and each object and 3 in the live image Matching the individual objects of the dimensional model to generate matching information, transmitting the detected attribute value and matching information of the 3D model to the terminal, and the terminal transmitting the matched information to the live image Combining the process of activating each object on the live image, and outputting the live image of each object activated on the terminal screen, when a user input to touch the object is detected, including the process of displaying the property information of the object .

As described above, Document 1 enables the user to easily inspect and supervise the construction status of the construction site by allowing the user to view the property values of each object on the screen simply by photographing the construction site and touching the captured image. In particular, users who supervise the construction site can easily perform the supervision work with only one mobile terminal without any special preparation for the construction site.

However, as described above, as described above, supervision work is easily performed, but since an object must be generated for each design standard of a construction site, program design costs for each object occur at each construction site, so There is a problem that it takes a lot of money. In addition, in Document 1, designing an object also requires supervision, which incurs additional service costs. In addition, in the case of document 1, when the object creation is missed, a situation may arise in which the supervisor unintentionally omits the supervision work.

On the other hand, in the conventional supervision work, when the supervisor usually visits the site with the contractor, the construction picture with the shooting date is taken by type, and the construction date, location, type of work, and work details for the captured picture are summarized. There is an obligation to keep.

In this case, the supervisor will continue to take pictures for each type of construction, but the current type of construction has shortened as the technology has developed, so the progress of the construction is often changed from day to day, and the supervisor also supervises at a rapid supervision speed. There are many situations in which you have to perform.

Here, the supervisor took the camera by hand to take pictures by type of supervision during supervision, but recently, as the photo taking function of the smart phone has improved significantly, the supervisor usually takes photos with the smart phone carried by the supervisor. .

Accordingly, the supervisor should prepare a document to determine whether the construction is normal or not by comparing the design content and the construction photo after taking the photo by construction type with his smartphone.

At this time, when the supervisor prepares a document that compares a blueprint with a blueprint, he or she must transfer the stored photos stored in his smartphone to the PC. In this case, a supervisor with long experience can judge very skillfully and accurately based on his long work experience in determining whether supervision is normally performed, but he is an unfamiliar generation in handling IT devices such as smartphones or PCs. In addition, smartphones or PCs have a structure in which application programs and detailed functions are so complicated that they can cause frequent mistakes even if they are skilled operators.

For this reason, the task of creating a work progress document for each type of industry is a supervisor who handles smart phones or PCs well, but it has a structure in which errors in documents are inevitable, which acts as a factor to overload the supervisor's work. In the future, as time goes by, it is expected that the construction work will be further shortened due to the specialized work using machines, and the supervisor's work for writing the work progress document by type is continuously weighted.

Accordingly, as described in the above-mentioned document 1, the supervisor can shorten the task of preparing the work progress document for each type of construction without complicated programming for each design standard of the construction site, and at the same time, the supervisor does not use his smartphone or PC. There is a need for a technical solution to automatically record video data that determines whether or not the construction is in progress.

In addition, depending on the situation of the supervisor, there are situations in which it is difficult to enter the site. For example, the supervisor supervises various piping lines and facilities, such as ventilation equipment or piping or water pipes installed inside the building. There is a situation in which the self-operation is stopped or the construction order is not a problem, but the work areas overlap each other and one of them cannot perform the work.

For these various reasons, supervisors are inevitably forced to stop construction work by contractors who are already entering the inside of buildings. Due to this, the contractors often delay the air, resulting in losses, which often leads to frequent disputes among contractors.

Therefore, the supervisor needs a technical solution to ensure that the progress of each type of work can be grasped even if not directly in the field in order to photograph the progress of each type of work.

To this end, Korean Patent Registration No. 10-1844726 (published on April 2, 2018), which is document 2, includes an RSS signal transmitting and receiving unit for transmitting and receiving an RSS signal; A camera that photographs surrounding images; A light-emitting marking unit for irradiating an optical mark having a constant diffusion rate per distance and having at least a constant vertical length and horizontal length component in the direction of the object to be supervised; And a control unit for controlling the operation of the RSS signal transmission/reception unit, the camera, and the light emission marking unit, wherein the control unit includes the strength of the RSS signal received from another drone and the RSS signal transmission device provided separately. Comparing to calculate the relative position and distance between the other drone and the RSS signal transmitting device, the first optical mark irradiated by the light-emitting marking unit as the subject object, and the second irradiated by the other drone as the subject object Disclosed is a construction supervision drone for controlling the light-emitting marking unit and the camera so as to obtain a first image including an optical mark and the object to be supervised.

The construction supervision drone of Document 2 can be easily retrieved by the user by matching the stored information of the subject to be supervised by the construction site, and through this, simply touch the captured image to view the information of each object on the screen. By providing it, it provides the advantage of making it easier to manage and supervise the construction status of the construction site, and also provides the advantage of securing video information on supervision even if the supervisor is to some extent away from the site.

However, since the drone for supervision of buildings in Document 2 cannot capture the inside of the building, it is difficult to obtain a picture for each type of the inside of the building, and there is also a problem of limiting the transmission and reception distance of wireless communication. Since there are many zones and require skilled manipulation functions for maneuvering, there is a problem that it is difficult to be adopted as a practical supervision means.

Therefore, supervisors need technical solutions to ensure that the progress of each type can be grasped even if they are not directly in the field to photograph the progress of each type of industry, but need a technical solution to secure the image without using a drone. Do.

On the other hand, in most cases, night work is prohibited on the construction site except in some cases. This is because in most construction works, materials and tools for construction work are left on site, so the risk of accidents increases for workers at night when it is difficult to secure visibility, and it is difficult for supervisors to conduct supervision work. .

Therefore, at most construction sites, at night, closing the site prevents outsiders from entering the site, and some contractors who are familiar with this policy will perform unauthorized night work to shorten the air or In many cases, a young man or a homeless man who is flying into the construction site secretly enters a construction site and smokes, damages the construction site.

In order to monitor this, the construction company sometimes installs a surveillance camera on the driveway. In most construction sites, a surveillance camera is often not installed, and in particular, it is impossible to monitor the interior of a building.

In accordance with this, in document 3, registered patent No. 10-1971007 (registered on April 22, 2019), cameras, speakers, microphones, antennas, etc. are provided in one device to enable overall monitoring of the construction site, as well as installation at the construction site. Disclosed is a mobile construction site monitoring device and system capable of being clamped and fixed to a structure suitable for the following, so that the overall work situation can be monitored in a space where many people and equipment are mixed, such as a construction site.

As described above, in Document 3, since the overall construction site is monitored using a camera, an operator in the construction site can know the work.

However, although the document 3 can be photographed, there is a problem in that photographing is impossible at night because illumination does not enter in the interior of the building.

Of course, it is possible to think of a method of installing lights on the entire interior of the building so that objects can be identified at night, but when lighting the entire building site, not only waste of electricity bills, but also civil complaints caused by lights illuminating the entire building There is a problem that continues to be raised.

Therefore, when a camera is installed and operated in a building at a construction site at night, if an illegal intruder enters the construction site, the lighting function and the shooting function are executed only where the intruder is located, but only when the intruder is detected. There is a need for technical solutions to ensure that functions and shooting functions are implemented.

On the other hand, since Document 3 monitors the construction site, it is possible to monitor the construction site even if the supervisor does not have a site as described above.

However, since the monitoring device of Document 3 has a structure that is difficult for the supervisor to carry, there is a problem in that it is difficult to take a picture of a model such as close-up when photographing by process.

Therefore, when performing a supervision task using a camera, the supervisor can normally monitor the work situation by type even if the supervisor is not at the construction site by using the camera. It is possible to do this, but at night, technical solutions are needed to enable the security function to be implemented in conjunction with lighting.

In addition, document 3 has a problem in that it is difficult to know the situation of the theft when an intruder who illegally intrudes into the construction site at night, when monitoring the construction site, has a technical solution to prevent theft accordingly. need.

(Document 1) Republic of Korea Registered Patent No. 10-1354688 (January 27, 2014 registration) (Document 2) Republic of Korea Registered Patent No. 10-1844726 (Announcement of April 4, 2018) (Document 3) Republic of Korea Registered Patent No. 10-1971007 (2019.04.22 registered)

The technical problem of the present invention for solving the above problems is to allow the supervisor to shorten the task of preparing the work progress document for each type of construction without complicated programming for each design standard of the construction site, and at the same time, the supervisor can use his smartphone. The purpose of the present invention is to provide a method for operating a construction site supervision and security system using mobile technology that enables data to be automatically recorded to determine whether or not a construction is in progress without writing a document using a photograph taken using InaPC.

In addition, another technical problem of the present invention is to install and operate a camera in a building at a construction site at night, if an illegal intruder enters the construction site, the lighting function and the shooting function are executed only in the place where the intruder is located. The object of the present invention is to provide a method for operating a construction site supervision and security system using mobile technology that enables an illumination function and a shooting function to be executed only when an intruder is detected.

In addition, another technical problem of the present invention is to perform a supervision task using a camera, so that the supervisor can normally monitor work status by type of work even if the supervisor is not at the construction site using the camera, and supervises when photographing is necessary. The aim is to provide a method for supervising a construction site and operating a security system using mobile technology that enables close-up photography by carrying a camera.

In addition, another technical problem of the present invention is to provide a method for operating a construction site supervision and security system using mobile technology so that an intruder illegally invading a nighttime construction site knows the seizure situation when the camera is captured. have.

The construction site supervision and security system driving method using the mobile technology of the present invention for achieving the above technical problem is to transmit the camera ID of the 360-degree camera to the supervision data server while the supervisor runs the supervision app of the administrator terminal. Then, the work content by construction district type according to the camera ID input from the supervision data server is transmitted to the supervision app of the manager terminal so that the job content by construction district type is output on the supervision app screen, but the supervisor uses the manager terminal. A construction zone construction content input step of inputting or modifying the construction area work details by construction type; A 360-degree camera is placed inside the construction site where the supervisor is supervised to be positioned at a certain height with the camera support coupled to the camera support, and the 360-degree camera is placed at a certain height with the lighting support coupled to the lighting support. 360-degree lighting arrangement step; If the supervisor runs the supervisory app of the administrator terminal and the supervisor touches the remote supervision mode icon among the icons of the preset program of the supervisory app on the touch panel of the supervisor terminal, the screen switches to the screen for selecting the remote supervisory mode. The supervisory mode is executed, and when the supervisor touches the manual supervisory mode icon on the touch panel of the administrator terminal among the icons of the preset program of the supervisory app, it switches to the screen for selecting the manual supervisory mode and executes the manual supervisory mode. , When the supervisor touches the security mode icon on the touch panel of the administrator terminal among the icons of the preset program of the supervision app, the supervisor mode is switched to a screen for selecting a security mode to execute the security mode; In the supervisor mode selection step, when the supervisor runs the supervisory app of the supervisory terminal and touches the remote supervisory mode icon on the supervisory device's touch panel among the icons of the preset program of the supervisory app, it is photographed by the 360-degree camera. By receiving the image information recorded in the supervision data server to be output from the supervisory data server to be output to the screen of the manager terminal, and the video information of the 360-degree camera output to the manager terminal is dragged to the touch panel screen of the manager terminal in one direction A remote supervision step of allowing the video information to be recorded in the form of a DB in the supervision data server while changing the shooting direction of the 360-degree camera in proportion to the dragged direction and distance; In the supervisor mode selection step, when the supervisor runs the supervisor app of the supervisor terminal and touches the manual supervisor mode icon on the supervisor's touch panel among the icons of the preset program of the supervisor app, the 360-degree camera is photographed. A manual supervision step of recording the video information captured by the 360-degree camera in the form of a DB in the supervision data server while the video information to be displayed is output to the screen of the manager terminal through a signal cable; And, when the supervisor runs the supervisory app of the supervisory terminal in the supervisory mode selection step, touches the security mode icon on the supervisory device's touch panel among the icons of the preset program of the supervisory app. Is sent to the supervision data server, and the supervisory data server transmits information on the execution of the security mode with the 360-degree camera and the 360-degree light through the camera communication module, and each of the 360-degree camera and the 360-degree light includes a first motion sensor and When a person invades the construction site by continuously monitoring a person invading around the construction site through a second motion sensor, an object detection signal is generated, and when the object detection signal is generated, the 360-degree lighting control unit By turning on the light emitting module part to illuminate the surroundings, the second motion sensor rotates the light rotating mechanism in the direction of detecting the object so that light is irradiated toward the moving object. A security step of generating image information and tracking the moving object by the motion sensor and the camera rotation mechanism unit and transmitting the image information to the supervision data server; It includes.

In this case, in the construction site supervision and security system driving method using the mobile technology, the GPS receiver of the 360-degree camera unit is driven during the execution of the security step to continuously receive location information of the 360-degree camera to change the location information. If the location information changes continuously, theft risk information is generated to generate theft risk information to the supervision data server through the camera communication module, and the supervisor at the supervision data server that receives the theft risk information A theft prevention step of transmitting a text message or alarm information about the theft risk information to the terminal; It may be configured to further include.

In addition, the 360-degree camera, the first motion sensor, a photographing module unit for converting optical information input to a lens into image information, the first motion sensor and the photographing module unit is seated and rotates the imaging direction of the photographing module unit Controls the camera rotation mechanism, the zoom function and the tilt function of the shooting module unit, converts the image information captured by the shooting module unit into image information, and among the remote monitoring mode, manual monitoring mode and security mode set in the supervision data server. The camera control unit controls the rotational drive of the camera rotation mechanism unit according to the selected one mode information, and transmits the image information converted by the photographing module unit to the supervision data server and works in conjunction with the supervision data server to operate the supervision data server. A camera communication module unit that receives any one of the mode information selected from a remote supervision mode, a manual supervision mode, and a security mode, and transmits it to the camera control unit, a component receptor that accommodates the camera control unit and the camera communication module, and the component receptor It is formed by including a connection socket protruding from the lower portion of the GPS location information, and a GPS receiving unit receiving any one of the mode information selected from the remote supervision mode, the manual supervision mode and the security mode set in the camera control unit.

In the manual supervision step, after the 360-degree camera is supplied with power from the AC adapter unit and fixedly used, the 360-degree camera is separated from the AC adapter unit, and then the 360-degree camera and an external battery are combined to form the 360-degree camera. The camera can be switched to a portable use state by being driven by receiving power from the external battery.

In the present invention, since a 360-degree camera installed at a construction site works in conjunction with a supervision data server to automatically store photos for supervision by type of construction, the supervisor's job creation document is processed by type of construction without complicated programming for each design standard of the construction site. At the same time, it is possible to shorten it as much as possible, and at the same time, the supervisor can automatically record the data that determines whether or not the engineering process is progressing without writing a document with a picture taken using his smartphone or PC. .

In addition, since the present invention is a 360-degree camera and a 360-degree lighting that tracks and photographs the location of an intruder illegally invading a construction site at night, it is driven only when an intruder is detected. It is to be executed, but by having the lighting function and the shooting function executed only when an intruder is detected, there is an effect of reducing waste of electricity and preventing complaints caused by the lighting of the lighting.

In addition, the present invention is to enable the monitoring of the work situation by type using a 360-degree camera in a remote supervision mode, and if necessary, the supervisor can carry a 360-degree camera in a manual supervision mode to take a close-up shot of the work situation by type, Even if the supervisor is not in the field, it has the effect of securing video information remotely about the work situation by type of industry, or, if the supervisor is in the field, carrying a 360-degree camera directly to secure a close-up video.

In addition, in the present invention, when the security mode is executed and the intruder is automatically tracked and monitored with a 360-degree camera and a 360-degree light, the GPS receiver and supervisory data can detect the situation in which an intruder illegally intrudes into the construction site at night and takes the camera. Since the administrator can know by the server, it is possible to know the theft situation, and it is possible to easily take a follow-up measure accordingly.

1 is a flow chart of a construction site supervision and security system driving method using a mobile technology according to an embodiment of the present invention.
FIG. 2 is an information flow system diagram showing a signal and information flow of a method for driving a construction site supervision and security system using mobile technology according to an embodiment of the present invention shown in FIG. 1.
3 is a block diagram of the construction site supervision and security system shown in FIGS. 1 and 2.
FIG. 4 is a side view of the 360 degree camera shown in FIG. 3 in an enlarged view.
FIG. 5 is a side view of the enlarged 360-degree illumination shown in FIG. 3;
Figure 6 is a side view of the external battery coupled to the 360-degree camera shown in Figure 3;
FIG. 7 is an initial screen of a state in which the supervision app is executed in the manager terminal shown in FIG. 6.
8 is a screen in a state in which the remote supervision mode of the supervision app shown in FIG. 7 is executed.
9 is a screen in a state in which the manual supervision mode of the supervision app shown in FIG. 7 is executed.
10 is a screen in a state in which the security mode of the supervision app shown in FIG. 7 is executed.

Hereinafter, exemplary embodiments for carrying out the present invention will be described with reference to the accompanying drawings. In this case, when a certain part of the specification "includes" a certain component, this is unless otherwise stated. It is considered to mean that other components may be further included rather than controlling other components. In addition, terms such as "... unit" described in the specification mean a unit that processes at least one function or operation when describing electronic hardware or electronic software, and one component, function, when describing mechanical devices. It is regarded as meaning a use, a point or a driving element. In addition, hereinafter, the same or similar components will be described using the same reference numerals, and duplicate descriptions of the same components will be omitted.

In addition, the terminal exemplified in the following specification is an electronic device, and is defined as a communicable device including a central processing unit, a main memory unit, an auxiliary memory unit, and a display device, such as a computer, a laptop, and a smart phone, and the application program is It is defined as a set of computer programs designed to perform a specific task on an electronic device, such as an application or an app, and in this case, the application is an operating system such as Windows, iOS, Android, Linux, etc. It is defined as running under a graphical interface environment.

1 is a flowchart of a construction site supervision and security system driving method using mobile technology according to an embodiment of the present invention. FIG. 2 is an information flow system diagram illustrating a signal and information flow of a construction site supervision and security system driving method using mobile technology according to an embodiment of the present invention shown in FIG. 1. 3 is a block diagram of the construction site supervision and security system shown in FIGS. 1 and 2. FIG. 4 is a side view of an enlarged 360-degree camera shown in FIG. 3. FIG. 5 is a side view of a state in which the 360-degree lighting shown in FIG. 3 is enlarged. FIG. 6 is a side view of a state in which an external battery is coupled to the 360-degree camera shown in FIG. 3. 7 is an initial screen of a state in which the supervision app is executed in the manager terminal shown in FIG. 6. 8 is a screen of a state in which the remote supervision mode of the supervision app shown in FIG. 7 is executed. 9 is a screen in a state in which the manual supervision mode of the supervision app shown in FIG. 7 is executed. 10 is a screen in a state in which the security mode of the supervision app shown in FIG. 7 is executed.

First, below, prior to explaining a method for operating a construction site supervision and security system using a mobile technology according to an embodiment of the present invention with reference to the above drawings, construction site supervision and security according to an embodiment of the present invention The detailed configuration of the system will be described.

3 to 10, the construction site supervision and security system according to an embodiment of the present invention includes a 360-degree camera (1), a camera support (2), a 360-degree lighting (3), and a lighting support (4). ), supervision data server (5), and administrator terminal (6). In addition, the construction site supervision and security system according to an embodiment of the present invention may be further configured to further include an AC adapter (7), an external battery (8), and a hanging string (9).

The 360 degree camera 1 is installed inside the building so as to photograph the entire space inside the building under construction. In this case, the 360-degree camera 1 is mounted and driven on the camera support 2 to be described later.

The 360-degree camera 1 includes a first motion sensor 1a, a photographing module part 1b, a camera rotation mechanism part 1c, a camera control part 1d, a camera communication module part 1e, and a component receiver 1f And, it comprises a connection socket (1g), it is configured to further include a GPS receiver (1h).

The first motion sensor 1a is composed of a sensor such as an infrared sensor, and generates an object detection signal when an object moves. Here, the first motion sensor (1a) is composed of a plurality, but each of the plurality of each of the 360-degree camera (1) is configured to be different from each other so as to detect the area for the entire direction of the 360-degree camera (1 ) Can detect the movement of the entire area a certain distance from where it is installed. In addition, the first motion sensor 1a is coupled to a fixed state around the imaging module unit 1b, which will be described later, so that when a moving object is detected, the position of the relative direction according to the imaging direction of the imaging module unit 1b is detected. Can be detected.

The photographing module unit 1b converts optical information input to the lens into image information. The photographing module unit 1b receives optical information from a lens that adjusts focus by an actuator to convert optical information input to the lens into image information, transmits the optical information to the image sensor, and transmits the light input from the image sensor to the image. Information is converted into electrical signals. In this case, the photographing module unit 1b may have a zoom function and a tilt function.

The camera rotation mechanism part 1c is equipped with a first motion sensor 1a and a shooting module part 1b on the upper part, and controls the imaging direction of the shooting module part 1b when rotated. In this case, the camera rotation mechanism part 1c is configured with a rotation motor for rotating the imaging module part 1b so that the imaging module part 1b is photographed in a 360-degree direction horizontal to the ground surface, but at the shaft end of the rotation motor. A seating base on which the photographing module unit 1b is seated may be combined, and a photographing angle conversion motor for converting the photographing angle of the photographing module unit 1b is further configured on the seating base, and the photographing angle of the photographing module unit 1b is further configured. Can change. Therefore, the camera rotation mechanism part 1c is formed so that the imaging angle of the imaging module part 1b is capable of imaging the entire hemispherical area. In this case, the camera rotation mechanism part 1c is equipped with a hemispherical cover on the outside to prevent dust or foreign matter from entering the camera rotation mechanism part 1c.

The camera control unit 1d is a device configured to include a central computing device and a memory and to perform a preset control command program according to an input. The camera control unit 1d controls the zoom function and tilt function of the shooting module unit 1b, converts the image information captured by the shooting module unit 1b into image information, and performs remote supervision set in the supervision data server 5 The rotation drive of the camera rotation mechanism unit 1c is controlled according to one of the mode information selected from the mode, the manual supervision mode, and the security mode. Here, the camera control unit 1d is configured to perform driving according to a preset program according to each mode information or to operate remotely by an external operation.

The camera communication module unit 1e is a device that performs wireless communication, and performs communication using mobile communication technologies according to generations, such as 3G, 4G, and 5G. More specifically, the camera communication module unit 1e may transmit the image information converted by the imaging module unit 1b to the supervision data server 5 by wireless communication. In addition, the camera communication module unit 1e receives the mode information selected from one of the remote supervision mode, manual supervision mode, and security mode set in the supervision data server 5 in conjunction with the supervision data server 5 to receive the camera control unit. (1d). In this case, the camera communication module unit 1e is formed including a camera ID such as a MAC address or a modem unique number, and transmits the camera ID when performing communication with the supervision data server 5, so that the supervision data server 5 In the case of connecting a plurality of 360-degree cameras 1, it is possible to classify and store video information for each of them according to the camera ID.

The component receiver 1f is formed in a box shape and accommodates the camera control unit 1d and the camera communication module, thereby protecting the camera control unit 1d and the camera communication module from direct contact with foreign matter such as dust or water. In addition, the component receiving body 1f is provided with a seating base 1f1 on which the camera pivot mechanism 1c is seated in the inner region, thereby providing a region in which the camera pivot mechanism 1c can be rotated.

The connection socket 1g is coupled to the lower portion of the component housing 1f, and is formed to protrude from the lower portion of the component housing 1f. In this case, the connection socket (1g) is electrically connected to the power supply of the 360-degree camera (1), receiving power from an AC adapter (7) or an external battery (8) to be described later to power the 360-degree camera (1) Will supply.

The GPS receiver 1h receives the GPS location information and receives any one of the mode information selected from the remote supervision mode, the manual supervision mode, and the security mode set in the camera control unit 1d. In this case, when the GPS receiving unit 1h receives the mode information of the remote supervision mode or the security mode, the GPS communication location information is monitored to generate the theft risk information when the GPS location information is out of a preset range, thereby generating a camera communication module. It is transmitted to the supervision data server 5 through the communication function of the unit 1e. At this time, the supervisory data server 5 having received the theft risk information sends a text message or alarm information about the theft risk information to the manager terminal 6, so that someone other than the manager moves the 360 degree camera 1 By making it possible to know what to do, you can immediately check the theft situation and take countermeasures accordingly.

The camera support 2 is combined with the 360-degree camera 1 to support the 360-degree camera 1.

As such, the camera support 2 may include a camera seating plate 2a, a camera pole 2b, and a camera support leg 2c.

The camera mounting plate 2a is configured in a plate shape to provide an area where the AC adapter 7 can be fastened and coupled by bolts, etc., and when the 360 degree camera 1 is connected to the AC adapter 7 An area in which the 360-degree camera 1 can be seated is provided. In this case, the camera seating plate 2a is further formed with a socket-passing hole 2a1 so that the component receiver 1f of the 360-degree camera 1 can be inserted in the state where the AC adapter portion is coupled.

The camera pole 2b is formed in a rod shape, and one end is coupled to the camera seating plate 2a but protrudes downward. Here, the camera pole (2b) may be configured in a form that the two rods are fitted to be adjustable height. When such a camera pole (2b) is a 360-degree camera (1) is coupled to the camera mounting plate (2a), the camera support leg (2c), which will be described later, with the 360-degree camera (1) arranged to a certain height, 360 The camera 1 and the AC adapter 7 are prevented from being contaminated with foreign materials such as cement powder present on the floor of the building site.

The camera support leg 2c is configured in the form of a triangular leg shape and is disposed under the camera pole 2b, so that the camera pole 2b maintains a vertical state with the floor surface of the construction site. 1) is supported.

Here, since the camera support 2 is configured to be movable as described above, the 360-degree camera 1 can be moved from a specific point in the building site to perform a supervision task for taking an image.

The 360-degree lighting (3) is configured to be rotatable so that it is installed inside the building so as to project the entire interior space of the building under construction, irradiating light, and tracking and photographing moving objects.

The 360-degree lighting 3 may include a second motion sensor 3a, a light emitting module part 3b, a lighting rotation mechanism part 3c, a lighting control part 3d, and an interlocking cable 3e. .

The second motion sensor 3a is composed of a sensor such as an infrared sensor, and generates an object detection signal when the object moves. Here, the second motion sensor (3a) is composed of a plurality, but each of the plurality of 360 degree lighting (3) is configured to be different from each other so as to detect the area for the entire direction of the 360-degree lighting (3), 360-degree lighting (3 ) Can detect the movement of the entire area a certain distance from where it is installed.

The light emitting module unit 3b is configured in a form in which a plurality of light emitting diodes are integrated, and emits light when power is supplied.

The lighting rotation mechanism part 3c is configured with a lighting rotation motor for rotating the light emission module part 3b so that the light emission module part 3b is photographed in a 360-degree direction on a horizontal surface and a horizontal surface, but the shaft end of the lighting rotation motor In the light-emitting module unit 3b, a light-mounting base 3c1 on which the light-emitting module unit 3b is seated may be combined, and a light-angle conversion motor for converting the shooting angle of the light-emitting module unit 3b is further configured to emit light. The illumination angle of the module part 3b can be changed.

The lighting control unit 3d is electrically connected to the light emitting module unit 3b to control turning on or off the power supplied to the light emitting module unit 3b. In addition, the lighting control unit 3d is electrically connected to the second motion sensor 3a, and when the second motion sensor 3a senses an object to generate an object detection signal, it receives an object detection signal. In addition, the lighting control unit 3d is electrically connected to the lighting rotation mechanism part 3c to adjust the horizontal rotation angle of the lighting rotation motor 3c for the lighting rotation motor, and to adjust the vertical rotation angle of the lighting angle conversion motor. . In addition, the lighting control unit 3d is electrically connected to the 360-degree camera 1 by a wired cable and interlocks with the camera communication module unit 1e, and receives information that the security mode is being executed from the camera communication module unit 1e. When the input is received, the driving is performed with a predetermined program, and when the mode other than the security mode is executed from the camera communication module unit 1e, the driving is stopped. More specifically, when the security mode is executed at night, the lighting control unit 3d continuously receives the object detection signal from the second motion sensor 3a while the light emitting module unit 3b is turned off. In the case, the light is irradiated while tracking the moving object by turning on the power supplied to the light emitting module unit 3b in the state where the second rotation sensor 3c is rotated to the position where the second motion sensor 3a detected the object. Make it possible, but let light be irradiated only when a moving object is detected.

The interlocking cable 3e electrically connects the lighting control unit 3d of the 360-degree lighting 3 and the camera communication module unit 1e of the 360-degree camera 1. When the security mode is executed, the interlocking cable 3e transmits a driving signal for executing the security mode to be input from the camera communication module unit 1e to the lighting control unit 3d, and a driving signal for executing the security mode. When is input, the 360-degree lighting 3 as described above is driven by a pre-programmed setting of the lighting control unit 3d, and the security mode of the 360-degree camera 1 is set from the camera communication module unit 1e. When a driving signal for stopping is input, the pre-programmed driving of the lighting control unit 3d is stopped. In addition, the interlocking cable 3e is electrically connected to the power supply 7a of the 360-degree camera 1, and the power supplied from the power supply 7a is 360-degree lighting 3 light emitting module 3b, It can be supplied to the lighting rotation mechanism part 3c and the lighting control part 3d, so that the 360-degree lighting 3 can be driven. In this case, when the lighting control unit 3d is driven by receiving power from the power supply unit 7a by the interlocking cable 3e and driving a program that tracks moving objects by a predetermined program and irradiates light, The lighting operation signal is transmitted to the camera communication module unit 1e to the 360 degree camera 1 through the interlocking cable 3e, and the camera communication module unit 1e transmits the lighting operation signal to the supervision data server 5 The supervisory data server 5 transmits a lighting operation signal when the supervisory application of the supervisory terminal 6 is executed to icons whether the normal operation of the 360-degree lighting (3) is normal in the security mode of the supervisory app. It is written in or to allow the supervisor to check whether the 360-degree lighting (3) is normally operated.

The lighting support 4 is combined with the 360 degree camera 1 to support the 360 degree camera 1.

As such, the lighting support 4 may include a lighting seating plate 4a, a lighting pole 4b, and a lighting support leg 4c.

The lighting seating plate 4a is configured in a plate shape to provide an area in which the 360-degree lighting 3 can be seated in a fastened and coupled state.

The lighting pole 4b is formed in a rod shape, and one end is coupled to the lighting seating plate 4a but protrudes downward. Here, the lighting pole (4b) may be configured in a form that the two rods are fitted to be adjustable height. When such a lighting pole (4b) is a 360-degree lighting (3) is coupled to the lighting seating plate (4a), the lighting support leg (4c) to be described later with the 360-degree lighting (3) is arranged to a certain height, 360 Do not allow the lighting 3 to be contaminated with foreign substances such as cement powder on the floor of the building site.

The lighting support leg 4c is configured in the form of a triangular leg shape and is disposed under the lighting pole 4b, so that the lighting pole 4b maintains a vertical state with the floor surface of the construction site, thereby providing 360-degree lighting ( 3) will be supported.

Here, since the lighting support 4 is configured to be movable as described above, the 360-degree lighting 3 can be moved at a specific point in the building site to irradiate light to the object.

In this case, the lighting support 4 is positioned at a lower position than the position of the 360-degree camera 1, for example, the position of the 360-degree camera 1 at the bottom of the building site, in the middle of the position of the 360-degree camera 1 By being arranged in the sub-group, when the 360-degree camera 1 photographs a moving object, the moving object by the 360-degree lighting 3 is not blocked.

The supervision data server 5 is a server managed by a company performing supervision, and is installed and operated at a supervision company or a server provider. The supervision data server 5 stores the images taken by the 360-degree camera 1 according to the camera ID of the 360-degree camera 1, the construction district name, the type of construction, and the date and time, in the form of a DB. According to the manual monitoring mode and the security mode, the DB is separately stored. First, in the case of the remote supervision mode, the supervision data server 5 receives and stores the image captured by the 360-degree camera 1, but remotely records the progress of the work by each type inside the building and records the remote image information by type. , The execution mode and the contents of the construction are stored in DB form. Next, in the case of the manual supervision mode, the supervision data server 5 receives and stores the image taken by the 360-degree camera 1, but manually records the work progress by type in the interior of the building and records the manual image information for each type by date and time. , The execution mode and the contents of the construction are stored in DB format. Next, in the case of the security mode, the supervision data server 5 photographs an object in conjunction with the 360-degree lighting 3, but the 360-degree lighting 3 detects the second motion sensor 3a. A 360-degree camera (1) shoots an object according to the object detection signal detected by the first motion sensor (1a) while irradiating light to an object moving according to one object detection signal, and the 360-degree camera (1) shoots It receives and stores an image, but stores the date, time, execution mode, and security contents in a DB format for security. The supervision data server 5 selectively executes each of the remote supervision mode, the manual supervision mode, and the security mode by the administrator terminal 6 described later.

The manager terminal 6 may be configured as a communicable terminal having a display function and a touch panel function such as a smartphone or tablet PC carried by the manager, and may also be configured as a desktop PC or a laptop, if necessary. The administrator terminal 6 transmits a set signal to the supervisory data server 5 by selecting the remote supervisory mode, the manual supervisory mode, and the security mode in conjunction with the supervisory data server 5, thereby allowing the remote supervisory mode and the manual supervisory mode. The supervision data server 5 is controlled so that any one of the supervision mode and the security mode is executed. In this case, the manager terminal 6 is installed and operated in conjunction with the supervision data server 5 in order to execute each mode information, the supervision app interworking with the supervision data server 5 is installed. Here, the supervision app installed and operated in the administrator terminal 6 is programmed so that the execution buttons for each of the remote supervision mode, manual supervision mode, and security mode on the screen of the app interlock with the touch panel. In this case, when the remote supervision mode is executed by the administrator, the supervision app receives the image information stored in the supervision data server 5 by the 360-degree camera 1, and the current 360-degree camera 1 photographs You can check what kind of construction you are shooting and storing in the video through the screen of the administrator terminal (6), and when the administrator points and drags the screen with a finger, the 360-degree camera (1) is shot in the dragged direction. The drag program can be interlocked so that the direction is rotated to remotely control the shooting direction of the 360 degree camera 1. Here, when the administrator terminal 6 is composed of a desktop PC or a laptop, a program for PC or a PC for the laptop is installed, and the 360 degree camera 1 photographs and stores image information as a supervision data server 5 It can be input from and can change the shooting direction of the 360 degree camera 1 by dragging the input device such as a mouse. In addition, the manager terminal 6 may be electrically connected by a 360-degree camera 1 and a signal cable, and when a manual supervision mode is executed while electrically connected to the signal cable, the 360-degree camera 1 takes a picture. Information can be entered. As described above, when the manual monitoring mode is executed when the screen is touched by the supervisor by the supervisor 6, the supervisor monitors the video information photographed by the 360-degree camera 1 by the supervisor terminal 6, and then the 360-degree camera. With (1) carried, it is possible to selectively take a video of the work progress and still image of the work on the model. In this case, when the manual monitoring mode is executed, the recording button and the shooting button for the video and still image are set, and when the supervisor touches the recording panel and the touch panel for the area of the shooting button, the video and stop are executed. The video can be stored in the supervision data server 5, and when the stop button is touched, the video and still image can be stored. In addition, the administrator terminal 6 is executed when the supervisor touches the execution icon for the security mode of the supervision app, and the security mode is stopped when the security mode stop icon is stopped, and the supervision data server is executed when the security mode is executed. In (5), the 360-degree camera 1 and the 360-degree lighting 3 monitor the intruders entering the construction site by the first motion sensor 1a and the second motion sensor 3a.

The AC adapter unit 7 includes a power supply unit 7a, an AC connection code unit 7b, a power supply unit cover body 7c, and a power supply side connection terminal 7d.

The power supply 7a is a device that converts AC power into DC power. The power supply unit 7a is electrically connected to the connection socket 1g to supply DC power to the imaging module unit 1b, the camera rotation mechanism unit 1c, the camera control unit 1d, and the camera communication module unit 1e. Is done.

The AC connection cord portion 7b is formed in a cord shape in which an AC power terminal is connected to one end and is electrically connected to the power supply portion 7a. The AC connection code unit 7b electrically connects the power terminal box for construction at the construction site and the power supply unit 7a.

The power supply cover body 7c is formed in a cylindrical shape. In this case, the power supply cover body 7c accommodates the power supply 7a so that the power supply 7a is seated inside, thereby preventing the power supply 7a from being contaminated by foreign substances. In addition, the power supply cover body 7c is formed in a shape in which the connection socket 1g insertion area is recessed downward so that the connection socket 1g is inserted. In addition, the power unit cover body 7c is coupled to the camera mounting plate 2a of the camera support 2 by a fastening member such as a bolt, in this case, the power unit cover body 7c is a socket of the camera mounting plate 2a. It is possible to make the connection socket 1g be inserted by matching the insertion hole and the connection socket 1g insertion area.

The power supply side connection terminal 7d is disposed in the connection socket 1g insertion area and is electrically connected when the connection socket 1g is inserted in the connection socket 1g insertion area. In this case, the power-side connection terminal 7d is electrically connected to the power supply 7a to supply the DC power converted by the power supply 7a to the 360-degree camera 1.

The external battery 8 includes a battery unit 8a, a battery cover body 8b, and a battery connection terminal 8c.

The battery part 8a is electrically connected to the connection socket 1g to supply DC power to the DC module 1b, the camera rotation mechanism part 1c, the camera control part 1d, and the camera communication module part 1e. Supply. Here, the battery unit 8a may be composed of a rechargeable lithium-ion battery, and may be replaced by being separated from the battery cover body 8b, which will be described later, when the life is over.

The battery cover body 8b is formed in a cylindrical shape to accommodate the battery portion 8a, thereby preventing the battery portion 8a from being contaminated by external contaminants. In this case, the battery cover body 8b is formed with a socket insertion region into which the connection socket 1g is inserted, and is detachably coupled with the component receiver 1f of the 360-degree camera 1. Here, the socket insertion area formed in the battery cover body 8b may be configured in the same form as the connection socket 1g insertion area of the power supply unit cover body 7c.

The battery connection terminal 8c is disposed in the socket insertion area and is electrically connected when the connection socket 1g is inserted into the socket insertion area. In addition, the battery connection terminal (8c) is electrically connected to the battery to supply the DC power supplied from the battery to the connection socket (1g) side to drive the 360-degree camera (1).

In the AC adapter unit 7 and the external battery 8, the connection socket 1g insertion area and the socket insertion area are formed in the same form, and are supplied with electric power by wire by the AC adapter unit 7 or the external battery. The power is supplied wirelessly by (8). When the 360-degree camera 1 is fixed and used, it is continuously supplied with power from the AC adapter 7 to be driven, so that it is available for fixed use. In addition, when the 360-degree camera 1 is carried by hand, the 360-degree camera 1 is formed to be portable so as to be continuously supplied with power from the external battery 8 and driven. Accordingly, when the supervisor performs a remote supervision mode in order to secure image information on a work condition for each type of construction, the supervisor may be continuously supplied with power to the AC adapter unit 7 to be driven. In addition, when performing the manual supervision mode in order to secure video information on the work situation for each type of work, the supervisor carries the 360° camera 1 with the external battery 8 mounted thereon, thereby providing a video of the work situation for each process. Information can be obtained.

Hanging strap (9) is formed extending from the outer battery (8) with both ends attached to the outer battery (8). In this case, the hanger strap 9 is a supervisor when the supervisor carries a 360-character camera and wants to take a picture of the work situation for each type, and when the external battery 8 is connected to the 360-degree camera 1, the supervisor By winding it on the neck or shoulder of the supervisor, supervisors can perform supervision very easily.

Hereinafter, a method of driving a construction site supervision and security system according to an embodiment of the present invention having the above-described configuration will be described.

The construction site supervision and security system driving method using mobile technology according to an embodiment of the present invention includes a construction content input step (S01) for each construction district, a 360-degree camera and a 360-degree lighting arrangement step (S02), and a supervision mode selection step ( S03), a remote supervision step (S04), a manual supervision step (S05), a security step (S06), and an anti-theft step (S07).

In the construction content input step (S01) for each construction district, the supervisor sends the camera ID of the 360-degree camera (1) to the supervision data server (5) while the supervisor app is running the supervisory application (6), and the supervision data server (5) ) The work contents for each construction district type according to the camera ID input are transmitted to the supervision app of the manager terminal (6) so that the job contents for each construction district are output on the supervision app screen. In this case, the supervisor can input or modify the work content for each construction type according to the camera ID by using a text input device interworking with the supervision app and store it in the supervision data server 5.

In the 360-degree camera and 360-degree lighting arrangement step (S02), the supervisor places the 360-degree camera (1) inside the construction site where supervision is performed, but the 360-degree camera (1) is mounted on the camera support plate (2). Arranged so as to be positioned at a constant height by the camera pole 2b and the camera support leg 2c in the state coupled to (2a), and the 360-degree lighting 3 is coupled to the lighting seat plate 4a of the lighting support 4 Arranged so as to be positioned at a predetermined height by the lighting pole 4b and the lighting support leg 4c in a state of being placed.

In the supervision mode selection step (S03), in the state in which the supervisory application of the supervisory terminal 6 is executed by the administrator, the supervisor displays the remote supervisory mode icon from among the icons of the preset program of the supervisory application on the touch panel of the supervisory terminal 6. When touched, the screen switches to the screen for selecting the remote supervision mode, and the remote supervision mode is executed. When the supervisor touches the manual supervision mode icon among the icons of the preset program of the supervision app on the touch panel of the administrator terminal 6, The screen is switched to the screen for selecting the manual supervision mode, and the manual supervision mode is executed. When the supervisor touches the security mode icon on the touch panel of the administrator terminal 6 among the icons of the pre-set application, the security mode is selected. Screen, and the security mode is executed.

In the remote supervision step (S04), when the supervisor runs the supervisory app of the supervisor terminal 6, touch the remote supervisory mode icon on the touch panel of the supervisor app 6 among the icons of the preset program of the supervisory app. The administrator terminal (6) is interlocked with the supervision data server (5), receives the video information recorded by the supervision data server (5) by the 360-degree camera (1), and receives it from the supervision data server (5). The image information captured by the 360 degree camera 1 is output on the screen of 6). In this case, in the remote supervision step (S04), when the image information of the 360-degree camera 1 is output from the administrator terminal 6, when the touch panel screen of the administrator terminal 6 is dragged in one direction, the 360-degree camera (1) changes the shooting direction by rotating in proportion to the drag distance in the dragged direction, and the supervisor remotely monitors the progress of the work for the model to be supervised by confirming that the shooting direction has been changed through the administrator terminal (6). You can check. In this case, when the supervisor touches the end button of the remote supervision mode existing on the screen of the supervisor terminal 6, the supervisor mode stops and the video information transmitted from the supervisory data server 5 to the supervisor terminal 6 is displayed. Transmission is stopped.

In the manual supervision step (S05), first, the supervisor disconnects the 360-degree camera 1 from the AC adapter 7, and then connects the external battery 8 to the 360-degree camera 1, and the 360-degree camera 1 ) Is connected to the manager terminal (6) by a signal cable, and is used while carrying the body using the hanging strap (9). Subsequently, in the manual supervision step (S05), the supervisor touches the manual supervision mode icon on the touch panel of the supervisor terminal 6 among the icons of the preset programs of the supervisor app while the supervisor app of the supervisor terminal 6 is running. When done, the video information shot by the 360-degree camera 1 is output to the screen of the manager terminal 6 through a signal cable, and when the video-recording icon formed in the supervision app is touched and executed, the current 360-degree camera 1 ) Is transmitted to the supervision data server (5) the image information for the area being photographed. In addition, when the supervisor sees the screen of the manager terminal 6 and touches the photo shooting icon formed in the supervisory app of the manager terminal 6, the 360-degree camera 1 photographs video information. It is sent to the supervision data server (5). Next, when the supervisor touches the end button of the manual supervision mode, the manual supervision mode is stopped.

In the security step (S06), when the supervisor selects the security mode of the supervisory app of the manager terminal 6 in the case of night after work and time on the construction site, when the supervisor selects the security mode of the supervisory app, In the supervisory application of the administrator terminal 6, an icon for the execution of the security mode is displayed, the start information of the security mode is transmitted to the supervision data server 5, and the supervision data server 5 has a camera communication module unit 1e. ) Through the 360-degree camera (1) and 360-degree lighting (3) to transmit information about the security mode execution. Then, each of the 360-degree camera 1 and the 360-degree lighting 3 continuously monitors the intruders around the construction site through the first motion sensor 1a and the second motion sensor 3a. When a person invades, an object detection signal is generated. In this way, when the object detection signal is generated, the 360 degree lighting 3 turns on the light emitting module unit 3b by the lighting control unit 3d to illuminate the surroundings, and the second motion sensor so that light is irradiated toward the moving object side. (3a) tracks the object and the second motion sensor (3a) is rotated toward the direction in which the object detects the object, the rotating rotating mechanism part rotates to track the moving object and irradiate light. In this case, the 360-degree camera generates image information while tracking the moving object by the first motion sensor 1a and the camera rotation mechanism unit 1c, and transmits it to the supervision data server 5, thereby displaying the image when the security mode is executed. Information will be saved.

In the anti-theft step (S07), while the security mode is being executed, the GPS receiver 1h of the 360-degree camera 1 is driven to continuously receive the location information of the 360-degree camera 1 to continuously observe whether the location information changes. When the location information is changed, the theft risk information is generated to generate the theft risk information to the supervision data server 5 through the camera communication module unit 1e. In this case, the supervision data server that receives the theft risk information (5) sends a text message or alarm information about the theft risk information to the manager terminal (6).

As described above, a method for operating a construction site supervision and security system using a mobile technology according to an embodiment of the present invention is a 360-degree camera (1) installed at a construction site interworking with the supervision data server (5). Since it is automatically saved, it allows the supervisor to shorten the task of preparing documents for each type of work without complicated programming for each design standard of the construction site, and at the same time, the supervisor takes pictures using his smartphone or PC. It is possible to automatically record the data that determines whether or not the industrial process is progressing without writing a document with one picture.

In addition, the construction site supervision and security system driving method using a mobile technology according to an embodiment of the present invention is a 360-degree camera (1) and 360-degree lighting (3) is the location of an intruder illegally invading the construction site at night Since tracking and shooting are executed only when an intruder is detected, the lighting function and the shooting function are executed only where the intruder is located, but the lighting function and the shooting function are executed only when the intruder is detected, thereby wasting electricity. It reduces and prevents complaints from being caused by the light of lighting.

In addition, the inspection site supervision and security system method according to an embodiment of the present invention enables the monitoring of work conditions for each type of work using a 360-degree camera 1 by a remote supervision mode, and when necessary, the supervisor enters the manual supervision mode. Since a 360-degree camera (1) can be carried in close proximity to the work situation by type, even if the supervisor is not in the field, remotely secures video information on the work status by type or when the supervisor is in the field. It is possible to secure a close-up image by carrying directly.

In addition, in the method of running a surveillance site inspection and security system according to an embodiment of the present invention, a security mode is executed, and when the intruder is automatically tracked and monitored by a 360-degree camera (1) and a 360-degree lighting (3), night construction is performed. Since the administrator can know the situation where the intruder illegally infiltrated the site and seizes the camera by the GPS receiver (1h) and the supervision data server (5), the stolen situation can be known, so that subsequent measures can be easily taken. There will be.

As described above, in the present invention, specific matters such as specific components and the like have been described by limited embodiments and drawings, but they are provided only to help the overall understanding of the present invention, and the present invention is not limited to the above embodiments , Anyone who has ordinary knowledge in the field to which the present invention pertains can make various modifications and variations from these descriptions.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and should not be determined, and all claims that are equivalent to or equivalent to the claims, as well as the claims described below, will fall within the scope of the spirit of the present invention. .

1: 360 degree camera
1a: 1st motion sensor 1b: shooting module unit
1c: camera rotating mechanism 1d: camera control
1e: Camera communication module unit 1f: Component receptor
1g: Connection socket 1h: GPS receiver
2: Camera support
2a: Camera seating plate
2b: Camera pole 2c: Camera support leg
3: 360 degree lighting
3a: second motion sensor 3b: light emitting module unit
3c: lighting rotating mechanism 3d: lighting control
3e: Interlocking cable
4: Lighting support
4a: Lighting seating plate 4b: Lighting pole
4c: Lighting support leg
5: Supervision data server 6: Administrator terminal
7: AC adapter part
7a: Power supply 7b: AC connection code
7c: power supply cover body 7d: power supply side connection terminal
8: External battery
8a: battery unit 8b: battery cover body
8c: Battery connection terminal
9: Hanger strap

Claims (3)

The supervisor sends the camera ID of the 360-degree camera (1) to the supervision data server (5) in the state that the supervisory application of the administrator terminal (6) is executed, and the construction according to the camera ID input from the supervision data server (5) The work content for each district type is sent to the supervision app of the manager terminal (6) so that the job content for each construction district is output on the screen of the supervision app, but the supervisor enters the work details for each construction district type by using the supervisor terminal (6). Entering or modifying the construction details for each construction district (S01);
The supervisor is placed inside the building site where supervision is performed so that the 360-degree camera (1) is positioned at a certain height while being coupled to the camera support (2), and the 360-degree lighting (3) is coupled to the lighting support (4). A 360-degree camera and a 360-degree lighting arrangement step arranged to be positioned at a predetermined height in a state (S02);
When the supervisor runs the supervisory app of the manager terminal 6, the supervisor selects the remote supervisory mode when the supervisor app touches the remote supervision mode icon on the touch panel of the supervisor app 6 among the icons of the preset program. The screen is switched to the remote monitoring mode, and when the supervisor touches the manual supervision mode icon on the touch panel of the administrator terminal 6 among the icons of the preset program of the supervisory application, the manual supervision mode is selected. When the switch is executed, the manual supervision mode is executed, and when the supervisor touches the security mode icon among the icons of the preset program of the supervision app on the touch panel of the administrator terminal 6, the screen is switched to the screen for selecting the security mode and the security mode is selected. Selecting a supervision mode to be executed (S03);
In the supervisory mode selection step (S03), the supervisor has touched the remote supervisory mode icon on the touch panel of the supervisory application 6 among icons of the preset program of the supervisory app while the supervisory app of the supervisory terminal 6 has been executed. If possible, the video information photographed by the 360-degree camera (1) and recorded on the supervision data server (5) is input from the supervision data server (5) to be displayed on the screen of the supervisor terminal (6), and the supervisor terminal When the video information of the 360-degree camera 1 output to (6) drags the touch panel screen of the manager terminal 6 in one direction, the 360-degree camera 1 is photographed in proportion to the dragged direction and distance. A remote supervision step (S04) in which the image information is recorded in the form of DB in the supervision data server 5 while changing the direction;
In the supervisory mode selection step (S03), in the state where the supervisor runs the supervisory app of the supervisory terminal 6, the supervisory mode icon is touched on the touch panel of the supervisory app 6 among icons of the preset program of the supervisory app. If possible, the supervision data server records the video information taken by the 360-degree camera 1 while the video information taken by the 360-degree camera 1 is output to the screen of the manager terminal 6 through a signal cable. (5) the manual supervision step to be recorded in DB form (S05); And,
In the supervision mode selection step (S03), the supervisor touches the security mode icon on the touch panel of the supervisor terminal 6 among the icons of the pre-set program of the supervisor app while the supervisor app of the supervisor terminal 6 is executed. In the case, the start information of the security mode is transmitted to the supervision data server 5, and the supervision data server 5 transmits the security information to the 360-degree camera 1 and 360-degree lighting 3 through the camera communication module 1e. Transmit information on execution, and the 360-degree camera (1) and 360-degree lighting (3) each continue to invade people around the construction site through the first motion sensor (1a) and the second motion sensor (3a). When a person intrudes into the construction site by monitoring with each, an object detection signal is generated, and when the object detection signal is generated, the light emitting module unit 3b is turned on by the lighting control unit 3d of the 360-degree lighting 3. Turned on to illuminate the surroundings, but the second motion sensor 3a rotates the illumination rotation mechanism in the direction in which the object is detected so that light is irradiated toward the moving object. A security step (S06) of generating image information and transmitting it to the supervision data server 5 while tracking an object moving by the motion sensor 1a and the camera rotation mechanism part 1c; Construction site supervision and security system driving method using a mobile technology comprising a.
According to claim 1,
During the execution of the security step (S06), the GPS receiver 1h of the 360-degree camera 1 is driven to continuously receive the location information of the 360-degree camera 1 to continuously observe whether the location information changes, When the location information is changed, the theft risk information is generated and theft risk information is generated to the supervision data server 5 through the camera communication module unit 1e, and the supervision data server 5 receives the theft risk information. ) From the administrator terminal (6) theft prevention step of sending a text message or alarm information for theft risk information (S07); Construction site supervision and security system driving method using a mobile technology further comprising a.
According to claim 2,
The 360-degree camera 1 includes the first motion sensor 1a, a photographing module unit 1b that converts optical information input to a lens into image information, the first motion sensor 1a, and the photographing module unit ( 1b) is seated and rotates the camera rotation mechanism unit (1c) for adjusting the imaging direction of the shooting module unit (1b), the zoom function and tilt function of the shooting module unit (1b) to control and control the shooting module unit (1b) Converts the image information captured in the image information to image information, and rotates the camera rotation mechanism unit 1c according to any one of the mode information selected from the remote supervision mode, manual supervision mode, and security mode set in the supervision data server 5 It transmits the image information converted from the camera control unit (1d), the shooting module unit (1b) to the supervision data server (5) and interworking with the supervision data server (5) to the supervision data server (5) The camera communication module unit (1e), the camera control unit (1d) and the camera communication module, which receive any one of the selected mode information selected from the set remote monitoring mode, manual monitoring mode, and security mode and transmit it to the camera control unit (1d) The receiving part receiving part (1f), the connecting socket (1g) protruding from the lower part of the receiving part (1f), and GPS location information are received, and among the remote monitoring mode, manual monitoring mode and security mode set in the camera control unit (1d) It is formed including a GPS receiver (1h) that receives any one of the selected mode information,
In the manual supervision step (S05), the 360-degree camera (1) is supplied with electric power from the AC adapter (7) and fixedly used, and the 360-degree camera (1) is separated from the AC adapter (7) Then, by combining the 360-degree camera (1) and the external battery (8), the power is supplied from the external battery (8) in the 360-degree camera (1) is driven by being switched to a portable state Method for supervising construction site and operating security system using mobile technology.

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