KR102148367B1 - Construction site supervision and security sysgem - Google Patents

Abstract

The present invention relates to a construction site supervision and security system using a mobile technique. The technical task to be solved of the present invention is to provide the construction site supervision and security system using a mobile technique that can reduce work of writing documents for each type of construction of a supervisor as much as possible without having to carry out complicated programming for each design standard of a construction site, and can automatically record data that determines whether or not the construction is normally performed without writing, by the supervisor, documents using a smartphone or PC of the supervisor. According to the construction site supervision and security system using a mobile technique of the present invention, a 360-degree camera and 360-degree lighting are installed in the construction site so that supervision images for each type of construction are automatically recorded in a supervision data server remotely and manually by using the 360-degree camera, wherein the 360-degree camera and 360-degree lighting monitor intruders and generate image information at night.

Description

Construction site supervision and security system using mobile technology {CONSTRUCTION SITE SUPERVISION AND SECURITY SYSGEM}

The present invention relates to a construction site supervision and security system using mobile technology, and more specifically, it is installed at the construction site to automatically monitor the progress of the construction site during the day or to perform manual supervision if necessary, but supervision It relates to a construction site supervision and security system using mobile technology that allows video information about the system to be linked with the system and to monitor chip particles in the construction site at night.

Currently, at the construction site, we work on the site in the form of a resident or non-resident for supervision, and supervise whether each type of construction has progressed as designed or if a design change is necessary, and perform various supervision tasks on the status of human supervision and contract execution. Is done.

In this case, if the supervisor who visits the site is supervising the work type, he/she will take a picture of the work type at the site with a smartphone or camera he/she carries, and insert it into the document of the work type report using the photo taken. And so on.

Looking at the related prior literature, document 1, Korean Patent No. 10-1354688 (registered on January 27, 2014) relates to a method of supervising a construction site in which construction is conducted using a 3D virtual space modeling system. The process of photographing the actual image of the construction site through the camera, the process of detecting the vector shooting information of the photographed construction site, the process of transmitting the photographed real image and the detected vector shooting information to the management server side, and the management A process in which the server detects a 3D model that matches the vector photographing information in the database of the 3D virtual space modeling system and detects each individual object in the detected 3D model, and each object on the real image and the 3 The process of generating matching information by matching individual objects of the dimensional model respectively, the process of transmitting the detected attribute value and matching information of the 3D model to the terminal, and the transmitted matching information to the real image It includes the process of activating each object on the real-life image by combining and displaying the property information of the object when a user input touching the objects is detected after outputting the real-life image of each object on the terminal screen. .

In this way, Document 1 allows users to view the property values of each object on the screen simply by photographing the construction site and touching the photographed image, so that the construction status of the construction site can be more easily managed and supervised. In particular, users who supervise the construction site can easily perform supervision work with only a portable terminal without any prior preparation for the construction site.

However, this document 1, as described above, facilitates the supervision work, but since the object must be created for each design standard of the construction site, the program design cost for each object occurs at each construction site, There is a problem that requires a lot of cost. In addition, in Document 1, designing an object also requires supervision, which incurs additional service costs. In addition, document 1 may cause a situation in which the supervisor unintentionally omits the supervision task when the object creation is missed.

On the other hand, in the conventional supervision work, when the supervisor looks around the site with the constructor, he takes a picture of the construction for each type of work, and organizes the construction details on the construction date, location, type of work, and work details of the photographed picture. You have a duty to keep it.

In this case, the supervisor continues to take pictures for each type of work, but the current type of work has been shortened as the technology advances, so the progress of work types varies from day to day, and accordingly, supervisors supervise at a fast supervision speed. There are often situations in which it is necessary to perform.

Here, the supervisor took a picture with a camera to take a picture for each type of work during supervision, but recently, as the photo-taking function of a smartphone has improved significantly, the supervisor often takes a picture with a smartphone carried by the supervisor. .

Accordingly, the supervisor must prepare a document to determine whether the work type is normally progressed by comparing the design details and the work type photos after taking pictures of each type of work with his smartphone.

At this time, in the case of creating a document comparing the design and the construction type photos, the supervisor must manually transfer the stored photos stored in his smartphone to a PC to perform the work. In this case, the supervisor with a long experience can judge whether the supervision is normally performed or not is very skilled and accurate based on his long work experience, but he is an unfamiliar generation in dealing with IT devices such as smartphones and PCs. In addition, smartphones and PCs have a structure in which applications and detailed functions are so complicated that even a person who is skilled in function manipulation can cause frequent mistakes.

For this reason, the task of creating work progress documents for each type of work has a structure in which mistakes in documents are inevitable even though he is a supervisor who handles smart phones or PCs well, and this acts as a factor that overloads the work of the supervisor. As time goes by, the construction work is expected to be further shortened due to the use of machines to make specialized work, so there is a trend that the supervisor's task of preparing work progress documents for each work type is constantly increasing.

Therefore, as in Document 1 above, it is possible to shorten the work process of the supervisor as much as possible without proceeding with complicated programming for each design standard of the construction site, and at the same time, the supervisor can use his smartphone or PC. There is a need for a technical solution to automatically record video data that determines whether or not the work is normally progressed without taking pictures.

In addition, depending on the site situation, it is difficult for the supervisor to enter the site. For example, the supervisor supervises various piping lines and facilities such as ventilation facilities, pipes, or water pipes installed inside the building, but the access road is not secured by performing landscape work or road work outside the building, or subordinated construction business according to the construction order. There is a situation in which the self-work is stopped or the construction sequence is not a problem, but the work areas overlap each other and either side cannot perform the work.

For these reasons, there are cases in which the supervisor has no choice but to stop the construction of contractors who are already entering the building. As a result, construction contractors are delayed, resulting in losses, which often leads to frequent disputes between contractors.

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

To this end, the Korean Patent Registration No. 10-1844726 (2018.04.02 announcement) of 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 that has a constant diffusion rate per distance and irradiates an optical mark having at least a constant vertical length and a horizontal length component in the direction of the object to be supervised; And a control unit for controlling the operation of the RSS signal transmitting and receiving unit, the camera, and the light-emitting marking unit, wherein the control unit includes an RSS signal received from another drone and the strength of an RSS signal received from a separately provided RSS signal transmitting device. By comparing the relative position and distance between the other drone and the RSS signal transmission device, the first optical mark irradiated by the light-emitting marking unit to the object to be supervised and the second light mark irradiated by the other drone to the object to be supervised Disclosed is a drone for supervision of a building that controls the light-emitting marking unit and the camera to acquire a first image including a light mark and the object to be supervised.

Such a drone for building supervision in Document 2 allows the user to easily photograph the construction site and match the stored information of the object to be supervised, and through this, simply touch the captured image to view the information of each object on the screen. By doing so, it provides the advantage of being able to more easily manage and supervise the construction status of the construction site, and also provides the advantage of securing image information about the supervision even if the supervisor is some distance away from the site.

However, since the drone for building supervision in Document 2 cannot photograph the inside of the building, it is difficult to obtain a picture of the inside of the building by type of work, and there is a problem with the limitation of the transmission and reception distance of wireless communication. Since there are many areas and requires a skilled operation function for maneuvering, there is a problem that it is difficult to be adopted as a practical supervision means.

Therefore, in order to film the progress of each type of work, the supervisor seeks a technical solution that allows the progress of each type of work to be grasped even when not directly at the site, but requires a technical solution that allows the image to be secured without using a drone. Do.

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

Therefore, in most construction sites at night, by closing the site, it prevents outsiders from entering the site.Some contractors who are familiar with such a policy may enforce unauthorized night work to shorten the construction period. , There are many cases in which delinquent youth or homeless people secretly enter the construction site and damage the construction site through actions such as lighting a fire.

In order to monitor this, construction companies sometimes install surveillance cameras on the access road, but most construction sites do not install surveillance cameras, and in particular, it is impossible to monitor the interior of the building.

Accordingly, in Document 3, Registration Patent No. 10-1971007 (registered on April 22, 2019), a camera, speaker, microphone, and antenna are provided in one device to enable overall monitoring of the construction site as well as installation on the construction site. Disclosed is a mobile construction site monitoring device and system capable of overall monitoring of the work situation in a space where a large number of personnel and equipments are mixed, such as a construction site, by being clamped and fixed to a structure suitable for the following.

As described above, in Document 3, since the construction site is generally monitored using a camera, workers in the construction site can know the work details.

However, although it is possible to photograph in Document 3, there is a problem that photographing is impossible at night because the lighting does not come on inside the building.

Of course, it is possible to think of a method of installing lights throughout the building so that objects can be identified even at night, but if the entire building site is lit, it is not only wasted electricity bills, but also residents' complaints due to the lights that illuminate the entire building. There is a problem that continues to arise.

Therefore, in the case of installing and operating a camera in a building at a construction site at night, when an illegal intruder enters the construction site, the lighting function and the photographing function are executed only where the intruder is located, but only when an intruder is detected. There is a need for technical solutions to enable the function and the shooting function to be executed.

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 exist as described above.

However, since the monitoring device of Document 3 has a structure that it is difficult for the supervisor to carry, there is a problem in that it is difficult to take pictures for construction types such as close-up photography when taking pictures for each process.

Therefore, in the case of supervising work using a camera, it is possible to monitor the work status of each type of work by using the camera in normal times, even if the supervisor is not at the construction site. It is possible, but in the case of nighttime, a technical solution is needed to enable security functions to be implemented in conjunction with lighting.

In addition, Document 3 has a problem in that it is difficult to know the deodorization situation when an intruder who illegally intrudes into a construction site at night and steals a camera, so technical solutions for preventing theft are therefore required. need.

(Document 1) Korean Patent Registration No. 10-1354688 (registered on Jan. 27, 2014) (Document 2) Korean Patent Registration No. 10-1844726 (announced on April 2, 2018) (Document 3) Korean Patent Registration No. 10-1971007 (registered on April 22, 2019)

The technical problem of the present invention for solving the above problems is that the supervisor can shorten the work progress document creation task for each type of work as much as possible without performing complicated programming for each design standard of the construction site, and at the same time, the supervisor can use his smartphone It is to provide a construction site supervision and security system using mobile technology that allows data to determine whether or not the work is normally progressed without creating documents with pictures taken using or PC.

In addition, another technical problem of the present invention is that when a camera is installed and operated in a building at a construction site at night, when an illegal intruder enters the construction site, the lighting function and the photographing function are executed only where the intruder is located, It is to provide a construction site supervision and security system using mobile technology that enables lighting and shooting functions to be executed only when an intruder is detected.

In addition, another technical problem of the present invention is that when supervising work is performed using a camera, it is possible to monitor the work status of each type of work by using a camera in normal times, even if the supervisor is not at the construction site, and if necessary to take a photo, the supervisor It is to provide a construction site supervision and 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 construction site supervision and security system using mobile technology so that when an intruder illegally intruding into a construction site at night steals a camera, it is possible to know the deodorization situation.

The construction site supervision and security system using the mobile technology of the present invention to achieve the above technical problem is installed inside the building to photograph the entire inner space of the building under construction, and generates an object detection signal when the object moves. 360 degree camera including a first motion sensor; A camera support coupled with the 360 degree camera to support the 360 degree camera; 360-degree illumination including a second motion sensor that is installed inside the building so as to transmit the entire interior space of the building under construction, and generates an object detection signal when an object moves; A lighting support combined with the 360-degree lighting to support the 360-degree lighting; A remote supervision mode in which the image captured by the 360-degree camera is received and stored, but the progress of work by work type is remotely photographed from the inside of the building and stored as remote image information by the work type, and the image captured by the 360-degree camera is input and stored. In the inside of the building, a manual supervision mode for manually photographing the work progress for each type of work and storing it as manual image information for each type of work, and the 360 degree camera interlocks with the 360 degree lighting to photograph an object, and the 360 degree lighting is the second motion sensor. A supervision data server including a security mode in which the 360-degree camera shoots an object according to the object detection signal detected by the first motion sensor in a state in which light is irradiated on a moving object according to the detected object detection signal; And an administrator terminal controlling the supervision data server so that any one of the remote supervision mode, the manual supervision mode, and the security mode is executed in connection with the supervision data server. Includes.

Here, the 360-degree camera is a photographing module part for converting optical information inputted to the first motion sensor and lens into image information, and the first motion sensor and the photographing module part are mounted, and the photographing direction of the photographing module part when rotating The camera rotation mechanism unit controls the zoom function and the tilt function of the photographing module unit, converts image information photographed by the photographing module unit into image information, and a remote supervision mode, a manual supervision mode, and a security mode set in the supervision data server. A camera control unit that controls rotational operation of the camera rotation mechanism unit according to any one of the mode information selected from among the, and transmits the image information converted by the photographing module unit to the supervision data server, and interlocks with the supervision data server to the supervision data. A camera communication module unit receiving any one mode information selected from a remote supervision mode, a manual supervision mode, and a security mode set in the server and transmitting it to the camera control unit, a component acceptor for receiving the camera control unit and the camera communication module, and the It may be configured to include a connection socket protruding from the lower part of the part receiver.

In this case, the 360-degree camera further includes a GPS receiver that receives the GPS location information and receives any one mode information selected from a remote supervision mode, a manual supervision mode, and a security mode set in the camera control unit, and the When the GPS receiver receives the mode information of the remote supervision mode or the security mode, it monitors the GPS location information and generates theft risk information when the GPS location information goes out of a preset range, and the communication function of the camera communication module unit The supervisory data server, which is transmitted to the supervision data server and receives the theft risk information, may transmit a text message or alarm information about the theft risk information to the manager terminal.

In addition, the building site supervision and security system using the mobile technology converts AC power into DC power and is electrically connected to the connection socket, so that the photographing module part, the camera rotation mechanism part, the camera control part, and the camera communication module A power supply unit for supplying the DC power to the unit, an AC connection cord unit electrically connected to the power supply unit, and a connection socket to receive the power supply unit so that the power supply unit is seated, and is coupled to the camera support to insert the connection socket. An AC adapter unit including a power supply cover body having an insertion region formed therein, and a power-side connection terminal disposed in the connection socket insertion region and electrically connected when the connection socket is inserted into the connection socket insertion region; And a battery part electrically connected to the connection socket to supply DC power to the photographing module part, the camera rotation mechanism part, the camera control part, and the camera communication module part, the battery part receiving the battery part, and the connection socket. A battery cover body that has a socket insertion region into which the socket is inserted and is detachably coupled to the part receptor, and a battery that is disposed in the socket insertion region and is electrically connected when the connection socket is inserted into the socket insertion region. An external battery including a connection terminal; It further comprises, wherein the AC adapter unit and the external battery have the connection socket insertion region and the socket insertion region formed in the same shape, and are supplied with power by wire by the AC adapter unit or wirelessly by the external battery. When the 360-degree camera is fixed and used, power is continuously supplied from the AC adapter to be driven, and when the 360-degree camera is carried and used, power is continuously supplied from the external battery. It may be formed to be driven so as to be used for fixed or portable use.

In this case, the construction site supervision and security system using the mobile technology comprises: a signal cable electrically connecting the manager terminal and the 360 degree camera; It further includes, wherein the administrator terminal is installed a supervision app for setting the remote supervision mode, the manual supervision mode, and the security mode in the supervision data server, and the supervision app is executed to proceed with the manual supervision mode. In this case, the image information captured by the 360-degree camera may be transmitted to the 360-degree camera and displayed through the signal cable, and the photographing direction of the 360-degree camera may be manually changed by the supervision app.

On the other hand, in the construction site supervision and security system driving method using the mobile technology of the present invention to achieve the above technical problem, the supervisory data server for the camera ID of the 360-degree camera while the supervisor runs the supervision app of the administrator terminal. To the supervision data server, and transmit the work contents by construction district work type according to the camera ID input from the supervision data server to the supervision app of the manager terminal so that the work contents by construction district work type are displayed on the screen of the supervision app. A construction district construction type content input step of inputting or correcting the work contents for each construction district construction type by using; A 360-degree camera that the supervisor arranges to be positioned at a certain height with a 360-degree camera attached to the camera support inside the construction site where supervision is performed, and a 360-degree camera that is placed at a certain height with the 360-degree lighting attached to the lighting support. 360 degree lighting arrangement step; With the supervisor running the supervision app on the supervisor terminal, if the supervisor touches the remote supervision mode icon on the touch panel of the supervisor terminal among the preset program icons of the supervisor app, it switches to the screen for selecting the remote supervision mode. The supervision mode is executed, and if the supervisor touches the manual supervision mode icon among the preset program icons of the supervision app on the touch panel of the manager terminal, the screen for selecting the manual supervision mode is switched to the manual supervision mode. , Supervision mode selection step of switching to a screen for selecting a security mode when the supervisor touches the security mode icon among preset program icons of the supervision app on the touch panel of the manager terminal to execute the security mode; In the supervision mode selection step, when the supervisor runs the supervision app of the supervisor terminal and touches the remote supervision mode icon on the touch panel of the supervision app among preset program icons of the supervision app, the 360-degree camera takes a picture. Thus, the image information recorded in the supervision data server is input from the supervision data server to be output on the screen of the manager terminal, and the image information of the 360 degree camera output to the manager terminal drags the touch panel screen of the manager terminal in one direction. A remote supervision step of allowing the image information to be recorded in the supervision data server in DB format while changing the shooting direction of the 360-degree camera in proportion to the dragged direction and distance in case of a drag; In the supervision mode selection step, when the supervisor runs the supervision app of the supervisor terminal and touches the manual supervision mode icon on the touch panel of the supervision app among preset program icons of the supervision app, the 360-degree camera is photographed. A manual supervision step of recording the image information photographed by the 360 degree camera in the supervision data server in the form of DB in a state in which the video information is output to the screen of the manager terminal through a signal cable; And, in the supervision mode selection step, when the supervisor touches the security mode icon on the touch panel of the manager terminal among preset program icons of the supervision app while the supervisor runs the supervision app of the manager terminal, start information of the security mode. Is transmitted to the supervision data server, and the supervision data server transmits information about the security mode execution with a 360 degree camera and a 360 degree illumination through the camera communication module unit, and each of the 360 degree camera and the 360 degree illumination is connected to the first motion sensor. The second motion sensor continuously monitors people who invade around the construction site, and when a person invades the construction site, each object detection signal is generated, and when the object detection signal is generated, the lighting control unit of the 360-degree lighting As a result, the light-emitting module is turned on to illuminate the surroundings, but the lighting rotation mechanism rotates toward the direction in which the second motion sensor detects the object so that the light is irradiated toward the moving object. 1 A security step of generating image information while tracking a moving object by a motion sensor and a camera rotating mechanism and transmitting it to the supervision data server; Includes.

In this case, in the method of driving the construction site supervision and security system 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 the location information of the 360-degree camera and the location information is changed. If the location information is changed, theft risk information is generated to the supervision data server through the camera communication module unit, and the supervisory data server receives the theft risk information. Theft prevention step of transmitting a text message or alarm information for the theft risk information to the terminal; It may be configured to further include.

In addition, the 360-degree camera is mounted on the first motion sensor, the photographing module part for converting optical information inputted through the lens into image information, the first motion sensor and the photographing module part, and when rotating, the photographing direction of the photographing module part is changed. It controls the camera rotation mechanism part to be adjusted, the zoom function and the tilt function of the photographing module part, converts the image information captured by the photographing module part into image information, and among the remote supervision mode, manual supervision mode, and security mode set in the supervision data server. A camera control unit that controls rotational driving of the camera rotation mechanism unit according to any one of the selected mode information, and transmits the image information converted by the photographing module unit to the supervision data server, and interlocks with the supervision data server to the supervision data server. A camera communication module unit that receives any one mode information selected from a remote supervision mode, a manual supervision mode, and a security mode set in and transmits it to the camera control unit, a parts receptor accommodating the camera control unit and the camera communication module, and the parts receptor It is formed including a connection socket protruding from the lower part of the and a GPS receiver that receives the GPS location information and receives any one mode information selected from a remote supervision mode, a manual supervision mode, and a security mode set in the camera control unit,

In the manual supervision step, in a state in which the 360-degree camera is supplied with power from the AC adapter and is used for a fixed use, the 360-degree camera is separated from the AC adapter, and the 360-degree camera and the external battery are combined. The road camera can be converted to a portable use state by being driven by receiving power from the external battery.

In the present invention, since the 360-degree camera installed at the construction site automatically stores pictures of supervision by construction type by interlocking with the supervision data server, the supervisor's task of creating work progress documents for each construction type without complicated programming for each design standard of the construction site In addition to shortening the maximum as much as possible, there is an effect that the supervisor can automatically record the data that determines whether the work is in progress without creating a document with a picture taken using his smartphone or PC. .

In addition, the present invention tracks and photographs the location of an intruder who has illegally intruded into a construction site at night with a 360-degree camera and 360-degree lighting, but is driven only when an intruder is detected. However, the lighting function and the photographing function are executed only when an intruder is detected, thereby reducing waste of electricity and preventing civil complaints from occurring due to lighting.

In addition, the present invention makes it possible to monitor the work situation for each type of work using a 360 degree camera in the remote supervision mode, and if necessary, the supervisor can carry the 360 degree camera in the manual supervision mode to take a close-up picture of the work situation for each work type, Even if the supervisor is not at the site, it is effective to secure the image information on the work situation for each type of work remotely, or to secure the proximity image by directly carrying the 360 degree camera when the supervisor is at the site.

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 360-degree lighting, the GPS receiver and supervision data are used to detect a situation in which an intruder who illegally invades a construction site at night steals the camera. Since the administrator can know by the server, it is possible to know the situation of theft, thereby making it possible to easily establish follow-up countermeasures.

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

Hereinafter, embodiments for carrying out the present invention will be described with reference to the accompanying drawings. In this case, when it is said that a certain part "includes" a certain component throughout the specification, 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 when describing a mechanical device, one part, function, It is considered to mean a use, point or drive element. In addition, in the following, the same or similar configurations will be described using the same reference numerals, and overlapping 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 device capable of communication including a central processing unit, a main memory device, an auxiliary memory device, and a display device, such as a computer, a notebook computer, and a smart phone. It is defined as an application or a set of computer programs designed to perform a specific task on an electronic device, such as an application. In this case, the application program is an operating system such as Windows, iOS, Android, and Linux. It is defined as running under the graphic interface environment of.

1 is a block diagram of a construction site supervision and security system using mobile technology according to an embodiment of the present invention. FIG. 2 is a side view of an enlarged 360-degree camera shown in FIG. 1; FIG. 3 is a side view of an enlarged 360-degree illumination shown in FIG. 1. 4 is a side view illustrating a state in which an external battery is coupled to the 360 degree camera shown in FIG. 1. FIG. 5 is an initial screen of a supervisory app running on the manager terminal shown in FIG. 1. 6 is a screen in a state in which the remote supervision mode of the supervision app shown in FIG. 5 is executed. 7 is a screen in a state in which the manual supervision mode of the supervision app shown in FIG. 5 is executed. 8 is a screen showing a state in which the security mode of the supervision app shown in FIG. 5 is executed.

First, a description will be given of a construction site supervision and security system configuration using a mobile technology according to an embodiment of the present invention with reference to the drawings.

1 to 8, the construction site supervision and security system utilizing the mobile technology according to an embodiment of the present invention is a 360-degree camera (1), a camera support (2), a 360-degree lighting (3) , A lighting support (4), a supervision data server (5), and a manager terminal (6). In addition, the construction site supervision and security system using the mobile technology according to an embodiment of the present invention may be configured to further include an AC adapter unit 7, an external battery 8, and a hanging strap 9 .

The 360-degree camera 1 is installed inside the building to photograph the entire interior space of the building in which construction is in progress. In this case, the 360 degree camera 1 is mounted and driven on a camera support 2 to be described later.

Such a 360 degree camera (1) includes a first motion sensor (1a), a photographing module (1b), a camera rotation mechanism (1c), a camera control unit (1d), a camera communication module unit (1e), and a component receptor (1f). And, it is configured to include a connection socket (1g), 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 of, each of the plurality of sensing directions are configured to be different from each other so as to detect an area for the entire direction of the 360 degree camera (1), the 360 degree camera (1) ) Can be detected in the entire area away from the installed location. In addition, the first motion sensor 1a is fixedly coupled to the periphery of the photographing module unit 1b, which will be described later, so that the position in the relative direction according to the photographing direction of the photographing module unit 1b when detecting a moving object. Can be detected.

The photographing module unit 1b converts optical information inputted to the lens into image information. In order to convert the 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 and transmits the optical information to the image sensor. It is converted into electrical signals, which are information. In this case, the photographing module unit 1b may have a zoom function and a tilt function.

The camera rotation mechanism unit 1c has a first motion sensor 1a and an image capturing module unit 1b mounted thereon, and adjusts the image capturing direction of the capturing module unit 1b when rotating. In this case, the camera rotation mechanism unit (1c) is configured with a rotation motor for rotating the imaging module unit (1b) in order to photograph the entire photographing module unit (1b) in the horizontal 360-degree direction with the ground surface, but at the shaft end of the rotating motor. A seating base on which the photographing module unit 1b is mounted may be coupled, and a photographing angle conversion motor for converting the photographing angle of the photographing module unit 1b is further configured on the seating base, so that the photographing angle of the photographing module unit 1b Can change. Accordingly, the camera rotation mechanism unit 1c is formed so that the shooting angle of the shooting module unit 1b is capable of capturing the entire hemispherical area. In this case, the camera rotation mechanism unit 1c is equipped with a hemispherical cover on the outside to prevent dust or foreign matter from entering the camera rotation mechanism unit 1c.

The camera control unit 1d is a device that includes a central computing device and a memory to execute a preset control command program according to an input. Such a camera control unit (1d) controls the zoom function and the tilt function of the photographing module unit (1b), converts the image information captured by the photographing module unit (1b) into image information, and remote supervision set in the supervision data server (5). The rotational drive of the camera rotation mechanism 1c is controlled according to any one mode information selected from a mode, a manual supervision mode, and a 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 remotely operate by external operation.

The camera communication module unit 1e is a device that performs wireless communication, and performs communication using mobile communication technologies for each generation, such as 3G, 4G, and 5G. More specifically, the camera communication module unit 1e may transmit the image information converted by the photographing module unit 1b to the supervision data server 5 through wireless communication. In addition, the camera communication module unit 1e interlocks with the supervision data server 5 to receive information on any one of a remote supervision mode, a manual supervision mode, and a security mode set in the supervision data server 5, and receive the camera control unit. Transfer to (1d). In this case, the camera communication module unit 1e is formed to include a camera ID such as a MAC address or a modem identification number, and transmits a camera ID when performing communication with the supervision data server 5, and the supervision data server 5 When a plurality of 360-degree cameras 1 are connected, image information for each can be classified and stored according to the camera ID.

The parts receiving body 1f is formed in a box shape, and by accommodating the camera control unit 1d and the camera communication module, the camera control unit 1d and the camera communication module are protected from being directly touched by foreign substances such as dust or water. In addition, the parts receiving body 1f is provided with a seating base 1f1 on which the camera rotation mechanism 1c is seated in an inner region to provide an area in which the camera rotational mechanism 1c can be rotated.

The connection socket 1g is coupled to the lower part of the part acceptor 1f, and is formed to protrude from the lower part of the part acceptor 1f. In this case, the connection socket 1g is electrically connected to the power supply of the 360-degree camera 1, and receives power from the AC adapter 7 or the external battery 8, which will be described later, to power the 360-degree camera 1 Will be supplied.

The GPS receiver 1h receives the GPS location information and receives any one 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, the GPS receiver 1h monitors the GPS location information when receiving the mode information of the remote supervision mode or the security mode, and generates theft risk information when the GPS location information is out of a preset range, and the camera communication module It is transmitted to the supervision data server 5 through the communication function of the unit 1e. At this time, the supervision data server 5 receiving the theft risk information transmits 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 is being done, the situation of theft can be immediately confirmed and countermeasures can be established 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 seat plate 2a, a camera pole 2b, and a camera support leg 2c.

The camera mounting plate 2a is formed in a plate shape to provide an area in which 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 mounting plate (2a) is further formed with a socket passage hole (2a1) so that the part receiver (1f) of the 360-degree camera (1) can be inserted in a state in which the AC adapter is coupled.

The camera pole (2b) is formed in a rod shape, and one end is coupled to the camera seat plate (2a) but is formed to protrude downward. Here, the camera pole 2b may be configured in a form in which two rods are fitted and coupled to allow height adjustment. Such a camera pole (2b), when the 360-degree camera (1) is coupled to the camera mounting plate (2a), by allowing the 360-degree camera (1) together with the camera support leg (2c) to be described later to be disposed at a certain height, 360 The road camera 1 and the AC adapter 7 are not contaminated with foreign substances such as cement powder existing on the floor of the construction site.

The camera support leg (2c) is configured in the shape of a triangular leg 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, and a 360-degree camera ( 1) will be 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 on the construction site to perform a supervision task regarding image capture.

The 360-degree lighting 3 is configured to be rotatable and installed inside the building so as to transmit the entire interior space of the building in which construction is in progress, and irradiates light, but tracks and photographs moving objects.

The 360 degree lighting 3 may include a second motion sensor 3a, a light emitting module 3b, a lighting rotation mechanism 3c, a lighting control 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 an object moves. Here, the second motion sensor (3a) is composed of a plurality of, each of the plurality of the sensing direction is configured to be different from each other so as to detect an area for the entire direction of the 360 degree illumination (3), the 360 degree illumination (3) ) Can detect the movement of the entire area away from the installed place.

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 composed of a rotation motor for lighting for rotating the light emitting module part 3b in order to photograph the whole in the direction of 360 degrees from the surface of the light emitting module part 3b horizontal to the ground surface, but the shaft end of the rotation motor for lighting At the same time as the light-emitting module part 3b is mounted on the light-emitting module part 3b, the lighting mounting base 3c1 covering the light-emitting module part 3b may be coupled, and the lighting mounting base converts the shooting angle of the light-emitting module part 3b. An illumination angle conversion motor is further configured to change the illumination angle of the light-emitting module unit 3b.

The lighting control unit 3d is electrically connected to the light emitting module unit 3b and controls turning on or off the power supplied to the light emitting module unit 3b. In addition, when the lighting control unit 3d is electrically connected to the second motion sensor 3a and detects an object by the second motion sensor 3a to generate an object detection signal, the object detection signal is input. In addition, the lighting control unit 3d is electrically connected to the lighting rotation mechanism unit 3c to adjust the horizontal rotation angle of the lighting rotation mechanism unit 3c for the lighting rotation motor, and the vertical rotation angle of the illumination angle conversion motor. . In addition, the lighting control unit 3d is electrically connected to the 360 degree camera 1 by a wired cable to interlock with the camera communication module unit 1e, and transmits information that the security mode is being executed from the camera communication module unit 1e. When an input is received, driving is performed with a preset program, and when a mode other than the security mode is being executed from the camera communication module 1e, the driving is stopped. More specifically, when the security mode is executed at night, the lighting control unit 3d continuously receives an object detection signal from the second motion sensor 3a while first turning off the light-emitting module unit 3b. In this case, by turning on the power supplied to the light emitting module unit 3b while the second motion sensor 3a rotates the lighting rotation mechanism unit 3c to the position where the object is detected, the lighting is irradiated while tracking the moving object. It should be done, but only when a moving object is detected, the light is irradiated.

The interlocking cable 3e electrically connects the lighting control unit 3d of the 360 degree lighting 3 and the camera communication module 1e of the 360 degree camera 1. When the security mode is executed, the interlocking cable 3e transmits a driving signal related to the execution of the security mode to be input from the camera communication module unit 1e to the lighting control unit 3d, and a driving signal related to the execution of the security mode. When is input, the 360-degree illumination 3 as described above is driven by a pre-programmed setting of the illumination control unit 3d, and the security mode of the 360-degree camera 1 is set from the camera communication module 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), the power supplied from the power supply (7a), the light-emitting module (3b) of the 360-degree illumination (3), By supplying the lighting rotation mechanism unit 3c and the lighting control unit 3d, the 360-degree lighting 3 may 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 a program that tracks moving objects and irradiates light by a preset program is driven, The lighting operation signal is transmitted to the camera communication module 1e to the 360 degree camera 1 through the interlocking cable 3e, and the lighting operation signal is transmitted to the supervision data server 5 from the camera communication module 1e. The supervision data server 5 transmits a lighting operation signal when running the supervision app of the manager terminal 6 to indicate whether or not the 360 degree lighting 3 is normally running in the security mode state of the supervision app. It is marked with or characters so that the supervisor can check whether the 360-degree lighting (3) is normally operated.

The lighting support (4) is combined with the 360-degree lighting (3) to support the 360-degree lighting (3).

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 state.

The lighting pole (4b) is formed in a rod shape, and one end is coupled to the lighting seat plate (4a), but is formed to protrude downward. Here, the lighting pole (4b) may be configured in a form in which the two rods are fitted and coupled to allow height adjustment. Such a lighting pole (4b), when the 360-degree lighting (3) is coupled to the lighting seating plate (4a), the 360-degree lighting (3) together with the lighting support leg (4c) to be described later is arranged at a certain height, 360 Make sure that the dojomyeong (3) is not contaminated with foreign substances such as cement powder present on the floor of the construction site.

The lighting support leg (4c) is configured in the same shape as a triangular bridge 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, so that 360-degree illumination ( 3) will be supported.

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

In this case, the lighting support 4 is a position in which the position of the 360 degree illumination 3 is lower than the position of the 360 degree camera 1, for example, the middle of the position of the 360 degree camera 1 at the floor position of the construction site. By being placed in the subgroup, when the 360 degree camera 1 photographs a moving object, the moving object is not covered by the 360 degree illumination 3.

The supervision data server 5 is a server managed by a company performing supervision work, and is installed and operated in a supervision company or a server provider. Such 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 name of the construction site, the type of construction, and the date and time, in the form of a remote supervision mode. , Manual supervision mode, and security mode, the DB is separated and 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 photographs the work progress of each work type from the inside of the building, and stores remote image information for each work type by date and time. , Execution mode and work type are saved in DB format. Next, in the case of manual supervision mode, the supervision data server 5 receives and stores the image captured by the 360-degree camera 1, but manually photographs the work progress for each type of work inside the building, and stores the manual image information for each type of date and time. , Execution mode and construction content are saved in DB format. Next, in the case of the security mode, the supervision data server 5 photographs an object by interlocking with the 360-degree camera 1 and the 360-degree illumination 3, but the 360-degree illumination 3 is detected by the second motion sensor 3a. In a state in which light is irradiated on a moving object according to an object detection signal, the 360-degree camera 1 photographs an object according to the object detection signal detected by the first motion sensor 1a, and the 360-degree camera 1 shoots. A video is received and stored, but the date, time, execution mode, and security content of the security situation are stored in DB format. Such a supervision data server 5 selectively executes each of a remote supervision mode, a manual supervision mode, and a security mode by the manager terminal 6 to be described later.

The manager terminal 6 may be configured as a communication terminal having a display function and a touch panel function, such as a smart phone or tablet PC carried by the supervisor, and may be configured as a desktop PC or a laptop if necessary. Such an administrator terminal 6 interlocks with the supervision data server 5 and transmits a setting signal for selecting and setting a remote supervision mode, a manual supervision mode, and a security mode to the supervision data server 5, 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 connection with the supervision data server 5 to execute the respective mode information. Here, the supervisory app installed and operated on the manager terminal 6 is programmed so that execution buttons for each of the remote supervision mode, manual supervision mode, and security mode are interlocked with the touch panel on the screen of the app. In this case, when the remote supervision mode is executed by the supervisor, the supervision app receives image information stored in the supervision data server 5 by shooting by the 360 degree camera 1 and the current 360 degree camera 1 You can check the screen of the manager terminal 6 to see what kind of work is being filmed and saved in the video, and when the manager drags the screen with a finger pointing to a specific direction, the 360-degree camera 1 is taken in the dragged direction. The drag program is linked so that the direction is rotated, so that the shooting direction of the 360 degree camera 1 can be remotely operated. Here, when the manager 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 image information captured and stored by the 360-degree camera 1 is transferred to the supervision data server 5. It is inputted from, and the photographing direction of the 360 degree camera 1 can be changed by a drag operation of an input device such as a mouse. In addition, the manager terminal 6 can be electrically connected to the 360-degree camera 1 and the signal cable, and when the manual supervision mode is executed while being electrically connected to the signal cable, the image captured by the 360-degree camera 1 Information can be entered. In this way, when the screen is touched by the supervisor and the manual supervision mode is executed, the supervisor terminal 6 checks the image information photographed by the 360 degree camera 1 with the supervisor terminal 6, (1) It is possible to selectively shoot video and still images of the progress of work on the construction type while carrying it. In this case, the supervision app is set to record buttons and recording buttons for video and still images when the manual supervision mode is executed, and when the supervisor touches the touch panel for the recording button and the recording button, the video and stops. The image may be stored in the supervision data server 5, and the moving image and the still image may be stored when the stop button is touched. In addition, the administrator terminal 6 is executed when the supervisor touches the execution icon for the security mode of the supervisory app, and when the security mode stop icon is stopped, the security mode is stopped, and the supervisory data server when the security mode is executed. In (5), the 360 degree camera 1 and the 360 degree illumination 3 monitor the intruder entering the construction site by the first motion sensor 1a and the second motion sensor 3a.

The AC adapter portion 7 includes a power supply portion 7a, an AC connection cord portion 7b, a power source cover body 7c, and a power-side connection terminal 7d.

The power supply unit 7a is a device that converts AC power into DC power. Such a power supply unit 7a is electrically connected to the connection socket 1g to supply DC power to the photographing 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 with an AC power terminal connected to one end, and is electrically connected to the power supply portion 7a. Such an AC connection cord part 7b electrically connects the construction power terminal box and the power supply part 7a in a construction site.

The power supply part cover body 7c is formed in a cylindrical shape. In this case, by accommodating the power supply unit 7a so that the power supply unit 7a is seated inside the power supply unit cover body 7c, the power supply unit 7a is prevented from being contaminated by external foreign substances. In addition, the power supply unit cover body 7c is formed in a shape in which the insertion region of the connection socket 1g is recessed downward so that the connection socket 1g is inserted. In addition, the power supply 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 supply cover body 7c is a socket of the camera mounting plate 2a. The connection socket 1g can be inserted by making the through hole and the connection socket 1g insertion area match.

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

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

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

The battery cover body 8b is formed in a cylindrical shape to accommodate the battery part 8a, thereby preventing the battery part 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 part receiving body 1f of the 360-degree camera 1. Here, the socket insertion region formed in the battery cover body 8b may have the same shape as the insertion region of the connection socket 1g of the power supply 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 and supplies DC power supplied from the battery to the connection socket 1g so that the 360-degree camera 1 is driven.

The AC adapter unit 7 and the external battery 8 have the same shape as the connection socket (1g) insertion region and the socket insertion region, and are supplied as power by wire by the AC adapter unit 7 or external battery Power is supplied wirelessly by (8). When the 360-degree camera 1 is fixed and used, power is continuously supplied from the AC adapter 7 to be driven so that it is fixedly usable. In addition, when the 360-degree camera 1 is carried and used, the 360-degree camera 1 is formed to be portable to be driven by continuously receiving power from the external battery 8. Accordingly, when the supervisor performs the remote supervision mode to secure image information on the work situation for each type of work, the supervisor may be driven by continuously receiving power from the AC adapter unit 7. In addition, when the supervisor performs the manual supervision mode in order to obtain image information on the work situation for each type of work, by carrying the external battery 8 mounted on the 360 degree camera 1, the image of the work situation for each process Information can be obtained.

The hanging string 9 is formed by extending from the external battery 8 with both ends attached to the external battery 8. Such a hanging string (9) is carried by the supervisor in a state where the external battery (8) is connected to the 360 degree camera (1) in order to photograph the work situation for each type of work while the supervisor is carrying the 360 camera. By wrapping it around the neck or shoulder of the person, the supervisor can perform supervision very easily.

Hereinafter, a description will be given of operation of a construction site supervision and security system using a mobile technology according to an embodiment of the present invention having the above configuration.

First, the supervisor transmits the camera ID of the 360 degree camera 1 to the supervision data server 5 while running the supervision app of the supervision data server 5, and according to the camera ID input from the supervision data server 5 The work content for each work type of the construction district is transmitted to the supervision app of the manager terminal (6) so that the work contents for each work type of the construction district are output on the screen of the supervision app. In this case, the supervisor may newly input or modify the work content for each construction district work type according to the camera ID by a text input device linked with the supervision app and store it in the supervision data server 5.

Next, the supervisor arranges a 360-degree camera (1) inside the construction site where the supervision is performed, but the camera pole in a state in which the 360-degree camera (1) is coupled to the camera seat plate (2a) of the camera support (2). 2b) and the camera support leg (2c) arranged to be positioned at a certain height, and the 360-degree lighting (3) is coupled to the lighting seat plate (4a) of the lighting support (4), and the lighting pole (4b) and lighting support It is arranged to be positioned at a certain height by the legs 4c.

Next, if the supervisor touches the remote supervision mode icon on the touch panel of the supervisor terminal 6 among the preset program icons of the supervisor app while the supervisor runs the supervision app of the supervisor terminal 6, the remote supervision mode When the supervisor touches the manual supervision mode icon among the preset program icons of the supervision app on the touch panel of the manager terminal (6), the user selects the manual supervision mode. The screen is switched to the screen to execute the manual supervision mode, 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 to select the security mode is switched to the security mode. The mod is executed.

Here, when the supervisor wishes to proceed with the remote management mode, the supervisory mode icon is displayed on the touch panel of the manager terminal 6 among preset program icons of the supervision app while running the supervision app of the manager terminal 6. When touched, the manager terminal 6 interlocks with the supervision data server 5, and image information recorded in the supervision data server 5 by taking a picture with a 360-degree camera 1 is input from the supervision data server 5 In response, the image information captured by the 360-degree camera 1 is output on the screen of the manager terminal 6. In this case, in the remote supervision mode, if you drag the touch panel screen of the manager terminal 6 in one direction while the manager terminal 6 outputs image information of the 360-degree camera 1, the 360-degree camera 1 Is rotated in proportion to the drag distance in the dragged direction to change the shooting direction, and the supervisor confirms that the shooting direction has changed through the manager terminal 6 so that the supervisor can remotely check the progress of work on the type of work to be supervised. do. 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 remote supervision mode is stopped and the image information transmitted from the supervision data server 5 to the supervisor terminal 6 Transmission is stopped.

Next, when the supervisor wants to execute the manual supervision mode, the supervisor connects the external battery 8 to the 360 degree camera 1 while the 360 degree camera 1 is separated from the AC adapter unit 7 The road camera (1) is connected to the manager terminal (6) with a signal cable, and it is used while carrying the body by using a hanging string (9). Subsequently, when the supervisor touches the manual supervision mode icon on the touch panel of the supervisor terminal 6 among preset program icons of the supervisor app while running the supervision app of the supervisor terminal 6, the 360-degree camera ( When the video information that 1) is shooting is output to the screen of the manager terminal 6 through the signal cable, and when executed by touching the video shooting icon formed in the supervision app, the current 360-degree camera 1 The video information about is transmitted to the supervision data server (5). In addition, when the supervisor touches and executes the photo-taking icon formed in the supervision app of the manager terminal 6 while viewing the screen of the manager terminal 6, the 360-degree camera 1 captures the image information. As a result, it is transmitted 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.

Next, the supervisor wants to execute the security mode, and in the case of the night after work and hours of the construction site, the supervisor selects and executes the security mode of the supervision app of the manager terminal 6. In this case, when the supervisor selects the security mode of the supervision app, an icon for the execution of the security mode is displayed on the supervision app of the administrator terminal 6, and the start information of the security mode is transmitted to the supervision data server 5 Then, the supervision data server 5 transmits information about the security mode execution to the 360 degree camera 1 and the 360 degree illumination 3 through the camera communication module unit 1e. Then, each of the 360-degree camera (1) and the 360-degree lighting (3) continuously monitors people who invade the construction site through the first motion sensor (1a) and the second motion sensor (3a). When a person intrudes into the vehicle, each object detection signal is generated. In this way, when the object detection signal is generated, in the 360-degree illumination 3, the light-emitting module unit 3b is turned on by the illumination control unit 3d to illuminate the surroundings, and the second motion sensor is irradiated to the moving object. (3a) tracks an object, and the lighting rotation mechanism rotates toward the direction in which the second motion sensor 3a detects the object to track the moving object to 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 1c, and transmits the image information to the supervision data server 5, so that the image for the execution of the security mode It will store the information.

On the other hand, while the supervisor is executing the security mode as described above, 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 check whether the location information is changed. Theft risk information is generated and the theft risk information is generated by the supervision data server 5 through the camera communication module unit 1e when the location information is changed. In this case, the supervision data server 5 receiving the theft risk information inputs a text message or alarm information for the theft risk information to the manager terminal 6.

In this way, in the construction site supervision and security system using the mobile technology according to an embodiment of the present invention, the 360 degree camera 1 installed at the construction site is linked with the supervision data server 5 to automatically take pictures of supervision by construction type. Because it is stored as a system, it allows the supervisor to shorten the work process document creation task for each type of work as much as possible without performing complicated programming for each design standard of the construction site, and at the same time, the supervisor takes a picture using his smartphone or PC. As a result, data that determines whether or not the work is normally progressed can be recorded automatically without writing a document.

In addition, the construction site supervision and security system using the mobile technology according to an embodiment of the present invention tracks the location of an intruder illegally intruding into a construction site at night by a 360 degree camera 1 and a 360 degree lighting 3 Because it is operated 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 photographing function are executed only when an intruder is detected, thereby reducing waste of electricity and lighting. This will prevent civil complaints from occurring due to the lights of

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

In addition, the inspection site supervision and security system according to an embodiment of the present invention automatically tracks and monitors an intruder with a 360-degree camera (1) and 360-degree lighting (3) when the security mode is executed. Since the administrator can know the situation in which an illegally intruding intruder steals the camera by the GPS receiver (1h) and the supervision data server (5), it is possible to know the theft situation and to easily establish follow-up measures accordingly. .

As described above, in the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , If a person of ordinary skill in the field to which the present invention belongs, various modifications and variations are possible from this description.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be defined, and all things that have equivalent or equivalent modifications to the claims as well as the claims to be described later fall within the scope of the inventive concept. .

1: 360 degree camera
1a: first motion sensor 1b: photographing module unit
1c: camera rotation mechanism 1d: camera control unit
1e: camera communication module 1f: parts receptor
1g: connection socket 1h: GPS receiver
2: Camera support
2a: Camera mounting plate
2b: camera pole 2c: camera support leg
3: 360 degree lighting
3a: second motion sensor 3b: light-emitting module part
3c: lighting rotation mechanism unit 3d: lighting control unit
3e: Interlocking cable
4: lighting support
4a: lighting mounting plate 4b: lighting pole
4c: lighting support legs
5: Supervision data server 6: Administrator terminal
7: AC adapter part
7a: power supply part 7b: AC connection cord part
7c: Power supply cover body 7d: Power side connection terminal
8: external battery
8a: battery part 8b: battery cover body
8c: battery connection terminal
9: hanging string

Claims (5)

A 360-degree camera 1 that is installed inside the building so as to photograph the entire interior space of the building under construction, and includes a first motion sensor 1a that generates an object detection signal when an object moves;
A camera support (2) coupled with the 360 degree camera (1) to support the 360 degree camera (1);
360-degree lighting 3 including a second motion sensor 3a that is installed inside the building so that the entire interior space of the building under construction is transmitted, and generates an object detection signal when an object moves;
A lighting support (4) coupled with the 360 degree lighting (3) to support the 360 degree lighting (3);
A remote supervision mode in which the image captured by the 360-degree camera 1 is input and stored, but the progress of work by work type is remotely captured from the inside of the building and stored as remote image information for each work type. A manual supervision mode in which an image is received and stored, but the progress of work for each type of work is manually photographed inside the building and stored as manual image information for each type of work, and the 360° camera 1 interlocks with the 360° illumination 3 to The 360-degree camera (1) is the first motion sensor (1a) in a state in which the 360-degree illumination (3) irradiates light to a moving object according to the object detection signal detected by the second motion sensor (3a). Supervision data server 5 including a security mode for photographing an object according to the object detection signal detected by ); And,
An administrator terminal (6) for controlling the supervision data server (5) so that any one of the remote supervision mode, the manual supervision mode, and the security mode is executed in connection with the supervision data server (5); Construction site supervision and security system utilizing mobile technology that includes.
The method of claim 1,
The 360-degree camera (1) includes the first motion sensor (1a), a photographing module part (1b) for converting optical information inputted through a lens into image information, the first motion sensor (1a), and the photographing module part ( 1b) is seated and the camera rotation mechanism unit 1c that adjusts the photographing direction of the photographing module unit 1b when rotated, the zoom function and the tilt function of the photographing module unit 1b are controlled, and the photographing module unit 1b It converts the image information captured in the image information into image information, and drives the rotation of the camera rotation mechanism 1c according to any one mode information selected from a remote supervision mode, a manual supervision mode, and a security mode set in the supervision data server 5 The video information converted by the camera control unit 1d and the photographing module unit 1b is transmitted to the supervision data server 5 and interlocked 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 receiving any one mode information selected from a set remote supervision mode, a manual supervision mode, and a security mode are input and transmitted to the camera control unit (1d). A construction site supervision and security system using mobile technology, characterized in that it comprises a component acceptor (1f) to accommodate and a connection socket (1g) protruding from a lower portion of the component acceptor (1f).
The method of claim 2,
The 360-degree camera 1 further includes a GPS receiving unit 1h that receives GPS location information and receives mode information selected from a remote supervision mode, a manual supervision mode, and a security mode set in the camera control unit 1d. Is formed including,
When receiving the mode information of the remote supervision mode or the security mode, the GPS receiver (1h) monitors the GPS location information and generates theft risk information when the GPS location information is out of a preset range and communicates with the camera. Transmitted to the supervision data server 5 through the communication function of the module unit 1e, and the supervision data server 5 receiving the theft risk information receives a text message or alarm for the theft risk information to the manager terminal 6 Construction site supervision and security system using mobile technology, characterized by transmitting information.
The method of claim 2,
Converts AC power to DC power and is electrically connected to the connection socket (1g), so that the photographing module unit (1b), the camera rotation mechanism unit (1c), the camera control unit (1d), and the camera communication module unit (1e) To accommodate the power supply unit 7a so that the power supply unit 7a for supplying the DC power, the AC connection cord unit 7b electrically connected to the power supply unit 7a, and the power supply unit 7a are seated, The power supply cover body 7c, which is coupled to the camera support 2, and in which the connection socket 1g is inserted so that the connection socket 1g is inserted, and the connection socket 1g is disposed in the insertion region, and the connection socket (1g) an AC adapter unit 7 including a power-side connection terminal 7d electrically connected when the connection socket 1g is inserted into the insertion area; And,
It is electrically connected to the connection socket (1g) to supply DC power to the photographing module unit (1b), the camera rotation mechanism unit (1c), the camera control unit (1d), and the camera communication module unit (1e). A battery cover body (8b) that receives the battery part (8a) to supply and the battery part (8a) and has a socket insertion area into which the connection socket (1g) is inserted, and is detachably coupled to the part receiving body (1f). ), and a battery connection terminal 8c disposed in the socket insertion area and electrically connected when the connection socket 1g is inserted into the socket insertion area; It further includes,
The AC adapter unit 7 and the external battery 8 are formed in the same shape as the connection socket 1g insertion area and the socket insertion area, and are supplied by wire through the AC adapter unit 7 or Alternatively, by wirelessly receiving power by the external battery 8, when the 360-degree camera 1 is fixed and used, power is continuously supplied from the AC adapter 7 to be driven, and the 360-degree A construction site supervision and security system using mobile technology, characterized in that the camera (1) is continuously supplied with power from the external battery (8) and is driven to be driven when carrying the camera (1).
The method of claim 1,
A signal cable electrically connecting the manager terminal 6 and the 360 degree camera 1; It further includes,
The administrator terminal 6 is installed in the supervision data server 5 for the remote supervision mode, the manual supervision mode, and a supervision app to set the security mode, and the supervision app is executed to proceed with the manual supervision mode. In this case, the image information being photographed by the 360-degree camera 1 is transmitted to the 360-degree camera 1 and displayed through the signal cable, and the photographing direction of the 360-degree camera 1 by the supervision app Construction site supervision and security system using mobile technology, characterized in that to be changed manually.

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