KR101838024B1 - Smart construction method of electric work - Google Patents

Abstract

Disclosed is a smart electric construction method to prevent an air delay which comprises: a schedule input step of inputting a construction schedule in a manager terminal; a boundary setting step of setting a work region where an electric construction is performed by the input schedule; a work time setting step of setting a work time expected by the construction schedule in the manager terminal; a construction step of performing construction since a worker has a worker terminal in the set work region during the set work time; and a check step of checking whether the worker terminal performing a construction work is positioned in the set work region for the set work time.

Description

{SMART CONSTRUCTION METHOD OF ELECTRIC WORK}

This technology relates to a method of constructing a smart electrical work.

And more particularly, to a smart electric construction method capable of setting a schedule, continuously checking whether a work progresses according to a schedule, and modifying a design content at the time of construction to prevent air delay.

Electricity is an essential element in modern society.

Electricity is supplied to the building by electric wires installed in the electric poles built up by the insulators, underground cables, devices such as transformers and safety devices, and external lights.

Electricity is supplied to the various devices by operating the switch or simply connecting the connector in the completed building. However, in order to operate like this, various wiring box, distribution box, piping, When installed, it must be installed and designed. That is, the construction of the building can be a concept including the installation and construction of the electric equipment.

The purpose of the construction is to satisfy the quality of the given construction safely in the required period, but the air delay which is a problem that has not been solved for a long time in the construction field has not been solved.

To select reasons for air delay, there are various factors such as climate factors such as temperature, wind speed, rainfall, air delay due to payment materials, occurrence of unexpected situation, delay of compensation, design drawing, specification change, There will be a requirement. This air delay is burdensome to the contractor and the client, and the labor cost caused by the air delay is coming to a great loss.

The air delay due to force majeure must be taken into consideration by the electric contractor. However, if the management and supervision of parts other than the force majeure force are continuously managed and supervised, air delay can be shortened.

On the other hand, IT technology has been remarkably developed in recent years. IT technology is all technology related to the production, application and management of information. If information and communication technologies are combined with information technologies such as high-speed internet, mobile communication, optical communication, home network, and information technology such as computer, software, database, multimedia, etc., this can be used to manage and supervise construction in real- It will be possible.

This can prevent air delays other than force majeure by using manpower efficiently.

Korean Patent Application No. "10-2013-0165406" "" The system for managing the availability of materials for self-alteration & Korean Patent Application No. 10-2014-0081176 "" System and method of managing cable construction"

The present invention provides a smart electric work construction method that can set a work space and a work time in real time according to a schedule and check whether a work is progressing in the work space or a work time to prevent an air delay .

It is another object of the present invention to provide a method of constructing a smart electric work which can set a dangerous area according to construction and transmit a signal to a terminal of an operator working in the space in a predetermined time, have.

It is another object of the present invention to provide a smart electric work construction method capable of modularizing a device to be installed according to a definite design drawing and intuitively recognizing it, have.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

A method of constructing a smart electric work according to the present invention aims at preventing air delay.

A smart electric construction method according to the present invention includes: a schedule input step of inputting a construction schedule to an administrator terminal; A boundary setting step of setting a work area in which electric work is performed according to an inputted schedule; A work time setting step of setting an expected work time in the manager terminal according to the construction schedule; A construction step in which the worker carries on work with the worker terminal in the set work area at the set work time; And a checking step of checking whether a worker terminal performing a construction work is located in the set work area at the set work time.

Here, the boundary setting step may include a risk boundary setting step of setting a work area for a plurality of layers according to the construction schedule, setting a plurality of work areas for each layer, and setting a work area where an accident will occur, Wherein the manager terminal is configured to receive the information on the altitude and the position information transmitted by the altitude transmitter and the GPS unit of the worker terminal in the ascertaining step, The operator terminal confirms whether the position of the worker terminal is located in the work area according to the altitude based on the altitude and the position of the worker terminal and receives a signal transmitted by the activator of the worker terminal, The worker has to check whether the work is started or not If the worker terminal is located at a position adjacent to the work area where the accident occurs, the manager terminal transmits a warning signal about the danger through the notification unit of the worker terminal. When the manager terminal detects an interval The operator terminal that has received the photographing signal performs a photographing operation and sends a plurality of pieces of photographing data generated at predetermined intervals to the manager terminal, When the received photographic data has the same GPS coordinates, the administrator terminal designates a point set in the photographed data received first, designates the same set point as the previously received photographed data with respect to the photographed data received later, , The number of points set in contrast Detect that the to is characterized in that to determine the degree of progress.

Here, if an operator performing an operation transmits a change signal to the administrator terminal according to a changed schedule using the worker terminal, the administrator terminal receives the change signal to change the construction schedule, corrects the work area, And resetting the operation time.

Here, in the confirming step, the work area may be designated as a plurality of boundaries, and each of the plurality of boundaries includes a number of the worker terminals to be located in the work area according to the schedule, And confirms whether a predetermined number of worker terminals are located at respective boundaries.

Here, in the construction step, a design confirmation step of determining whether or not the design drawing is proceeded before construction; A plurality of first pressure brackets arranged in the design drawing and protruding in one direction at a first spacing interval and having first pressure fingers arranged in a circumferential shape with a predetermined spacing, A wiring box preparation step of preparing a plurality of boxes; A plurality of pipes connected to the wiring box and having the same color as the colors of the first pressure brackets disposed at the connected positions are prepared to easily identify the connection positions, and the pipes are connected to one side of the pipes having different colors A second pressing finger having the same color as that of the first pressing bracket and having a second spacing interval which is a gap deviated from the first spacing distance is formed and when the first pressing finger is staggeredly inserted into the first pressing finger, A piping preparing step of inserting the 2-pressure bracket into the piping; And a mounting step of moving the wiring box and the pipe to a position where the construction is progressed, disposing the wiring box according to the design drawing, and fixing and connecting the second pressure bracket to the first pressure bracket.

Here, in the wiring box preparation step, the wiring box may have a round groove formed at an outer side of the wiring box and open at one side thereof, and a threaded connection formed at the outer side thereof; A connection ball disposed in the round groove and a fixing member extending from one side of the connection ball and having a connection hole formed at an end thereof; And a rotating medium coupled to a thread on the outer side of the connecting body in a form surrounding the connecting body and pressing the connecting body according to the rotation to firmly fix the fixing body and the connecting body, Can be inserted and fixed.

According to the present invention, the work space and the work time can be set in real time according to the schedule, and the air delay can be performed by checking whether the work is progressing in the work space or the work time.

In addition, according to the present invention, a dangerous area can be preset according to construction, and a safety of the operator can be achieved by transmitting / receiving a signal to a terminal of an operator working in the space with a predetermined time.

In addition, the present invention modularizes a device to be installed according to a determined design drawing, and intuitively recognizes the device so that a work can be rapidly performed, thereby preventing air delay.

1 is a perspective view illustrating a construction of a smart electric construction method according to the present invention.
FIG. 2A shows that the worker terminals are located in the work area set according to the boundary setting step, FIG. 2B shows that the worker terminal is located adjacent to the danger area set according to the dangerous boundary setting step, FIG. And the number of worker terminals set in the set work area is not positioned.
FIG. 3A is a block diagram showing each step of the method for constructing a smart electric work according to the present invention, and FIG. 3B is a block diagram showing each step constituting the construction step.
4 (a) shows that the point is set in the shooting data received by the administrator terminal at the first time in the checking step, and (b) shows that the shooting data received by the manager terminal at the second time As shown in Fig.
FIG. 5A shows a wiring box used in the smart electric construction method of the present invention, and FIG. 5B is an enlarged view of the first pressure bracket and the second pressure bracket of the wiring box.
FIG. 6A illustrates a wiring box, a first pressurizing bracket, a second pressurizing bracket, and a pipe separated by color in the construction step of the present invention. FIG. 6B is a cross- The wiring box is arranged and connected, and connected to the piping.

Hereinafter, an embodiment of the present invention will be described in detail with reference to exemplary drawings. However, this is not intended to limit the scope of the invention.

It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the size and shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the constitution and operation of the present invention are only for explaining the embodiments of the present invention, and do not limit the scope of the present invention.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. It should be noted that the terms such as " part, "" module, " .

1 is a perspective view illustrating a construction of a smart electric construction method according to the present invention.

FIG. 3A is a block diagram showing each step of the method for constructing a smart electric work according to the present invention, and FIG. 3B is a block diagram showing each step constituting the construction step.

The smart electric construction method according to the present invention can be implemented through transmission and reception of signals between the manager terminal 100 and the worker terminal 200. The worker terminal 200 includes all the devices capable of transmitting and receiving signals with the manager terminal 100 without interfering with the operation of the worker such as a wearable device.

The administrator terminal 100 includes a transmitting unit 190, a receiving unit 195, a boundary setting unit 180, a working time setting unit 170, a schedule managing unit 120, a climate data 130, A signal generation unit 150, and a storage unit 110.

The operator terminal 200 includes a transmitter 290, a receiver 295, a photographing unit 230, a GPS unit 240, an altitude transmitter 260, an activating unit 210, a notification unit 230, (250).

Here, the transmitting units 190 and 290 and the receiving units 195 and 295 of the manager terminal 100 and the worker terminal 200 transmit and receive various signals.

A method of constructing a smart electric work according to the present invention is configured through signal transmission / reception between the manager terminal 100 and the worker terminal 200.

The schedule input step S1 is a step of inputting a construction schedule to the administrator terminal 100. [

A schedule for construction can be input to the schedule management unit 120 of the administrator terminal 100. [ For example, it can be set as A, B, C, C, steel reinforcement work, scheduled work time A, D, E, and so on. For example, in the construction of the electric work, the wiring box 300, the distribution panel, and the like may be installed after the reinforcement is completed, the piping 400 may be installed, and then the concrete may be laid. In this way, The work schedule of the electric equipment can be set according to the schedule input to the schedule management unit 120 by coordinating the construction work.

Here, the manager terminal 100 sets virtual work progress data on whether or not the construction schedule is progressed through the climatic data 130 of the administrator terminal 100. Climate data 130 stores data on the progress of construction according to temperature, wind speed, and rainfall. For example, in case of temperature X, wind speed Y, rainfall Z, temperature is too high, and data of scheduled work execution rate of 20% is stored from 10:00 to 16:00. In another embodiment, when the temperature is A, the wind speed is B, and the rainfall is C, data is stored that the work execution rate is 0% because the work can not be performed due to the wind speed. The manager terminal 100 receives the temperature, wind speed, and rainfall of the day on which the construction is scheduled, and predicts whether the construction progresses in the schedule management unit 120, thereby resetting the work time and the boundary of the worker.

Also, the schedule management unit 120 of the user can modify the schedule through the change status signal transmitted from the change status reporting unit 250 of the worker terminal 200. The worker transmits a change status signal to the manager terminal 100 through the change status reporting unit 250 of the worker terminal 200 and the manager terminal 100 transmits the change signal to the corresponding signal The schedule management unit 120 can change the construction schedule.

FIG. 2A shows that the worker terminals are located in the work area set according to the boundary setting step, FIG. 2B shows that the worker terminal is located adjacent to the danger area set according to the dangerous boundary setting step, FIG. And the number of worker terminals set in the set work area is not positioned.

The boundary setting step S2 is a step of setting a work area.

The administrator terminal 100 sets the boundary to be worked by the operator based on the inputted construction schedule. For example, when the piping (400) for wiring and the wiring work are scheduled for the A and B sections of the second floor and the fourth floor of the building, the manager terminal (100) And sets the area where the operator performs the work. In addition, the B zone of the fourth floor also sets a boundary to set an area where an operator performs an operation.

The worker terminal 200 includes a GPS unit 240, an altitude transmission unit 260, and an activation unit 210.

The GPS unit 240 of the worker terminal 200 transmits a signal for the coordinates at which the worker terminal 200 is located so that the position of the worker terminal 200 can be grasped.

In addition, the altitude transmission unit 260 of the worker terminal 200 transmits information about the altitude of the worker terminal 200 to the administrator terminal 100. For example, when the first worker terminal 200 is located at the height of the two-story building from above and the second worker terminal 200 is located at the height of the four-story building from above, ). Therefore, the manager terminal 100 is located on the second floor of the building where the worker carrying the first worker terminal 200 is installed, and the worker having the second worker terminal 200 is located on the fourth floor of the building .

The activation unit 210 of the worker terminal 200 may transmit a signal indicating whether the worker has performed an operation to the administrator terminal 100 so that the administrator terminal 100 can determine whether the worker performs an operation.

For example, when the activating unit 210 of the worker terminal 200 transmits the first job signal to the manager terminal 100, the manager terminal 100 judges that the worker having the worker terminal 200 starts work If the second work signal is transmitted, it is determined that the worker having the worker terminal 200 rests. If the third worker signal is transmitted, the worker having the worker terminal 200 determines that the worker has finished the work .

The boundary setting step S2 may include a dangerous boundary setting step S2.

The dangerous boundary setting step S2 is to set a work area where an accident will occur. Referring to FIG. 2C, there is a risk of falling due to some poorly installed scaffolding in the C zone installed on the 10th floor. In this case, the operator will perform electrical installation work in the adjacent F zone of zone C. Here, the boundary setting unit 180 of the administrator terminal 100 may set the C zone of the 10th floor as an accident occurrence area. The operator's worker terminal 200 transmits the altitude information signal to the manager terminal 100 through the altitude transmitter 260. [ When the coordinate information transmitted from the GPS unit 240 of the worker terminal 200 is located adjacent to the C zone, the attention signal generator 150 of the manager terminal 100 transmits a caution signal to the worker terminal 200 do. Then, the notification unit 230 of the worker terminal 200 informs the worker holding the worker terminal 200 to pay attention to the work.

Here, the notification unit 230 informs the user of caution when performing an operation adjacent to the C zone through voice, vibration, visualization, or the like.

The dangerous boundary setting step S2 includes a correction risk boundary setting step S2.

The modified risk boundary setting step S2 can set the dangerous area in real time by the boundary setting unit 180 of the administrator terminal 100 through a signal reported through the operator's worker terminal 200 in real time. In this case, the worker terminal 200 transmits the photographed data photographed and generated through the photographing unit 230 to the manager terminal 100 through the change status reporting unit 250. The administrator terminal 100 resets the danger zone based on the previously identified position of the worker terminal 200 as described above.

When the dangerous area is reset, the administrator terminal 100 can operate the notification unit 230 of the worker terminal 200 owned by the worker in the same manner as described above.

In this case, the operator can notify the manager terminal 100 of the dangerous element of the dangerous zone no longer present using the photographing unit 230 of the worker terminal 200 through the change status reporting unit 250, The boundary setting unit 180 of the terminal 100 may release the zone from the danger zone.

The work time setting step S3 is a step of setting the expected work time according to the construction schedule in the administrator terminal 100. [ For example, the worker's work time can be set from 9 am to 4 pm.

In the work time setting step S3, the work time can be reset by the schedule management unit 120 as described above. Accordingly, the work time of the operator can be efficiently managed.

FIG. 5A shows a wiring box used in the smart electric construction method of the present invention, and FIG. 5B is an enlarged view of the first pressure bracket and the second pressure bracket of the wiring box.

FIG. 6A illustrates a wiring box, a first pressurizing bracket, a second pressurizing bracket, and a pipe separated by color in the construction step of the present invention. FIG. 6B is a cross- The wiring box is arranged and connected, and connected to the piping.

In the construction step S4, the worker carries the work by carrying the worker terminal 200 in the work area set through the boundary at the set work time.

Here, in the construction step S4, the working time can be shortened through the modularization.

The construction step S4 includes a design confirmation step, a wiring box preparation step A2, a piping preparation step A3, and an installation step A4. The design determination step is a step of confirming the design drawing A1 to be designed before the construction through the design decision unit 160 of the administrator terminal 100. [ If a modularization operation is carried out without the design drawing A1 being confirmed, a re-modularization operation must be performed when the design drawing A1 is changed. As a result, air delay may occur. Make sure to operate after confirmation.

(A2) and a piping preparation step (A3) based on the determined design drawing (A1). In the wiring box preparing step A2, the wiring box 300 includes a first pressing bracket 310 including first pressing fingers having different colors. For example, a wiring box 300 in which a first pressing bracket 310 is formed on the circumferential surface of the wiring box 300 and four first pressing brackets 310 are formed. Here, the first pressure brackets 310 have different colors. Therefore, the first pressing finger is also formed with a different color. Referring to FIG. 6A, the four first pressing brackets 310 may be formed in a clockwise direction of red, yellow, blue, and purple. Accordingly, the first pressing finger is also formed in red, yellow, blue, and purple. The first pressure fingers protrude in one direction from the outside of the wiring box 300 and are arranged in a circumferential shape with a first spacing distance. Also, the wiring box 300 itself can have a predetermined color. For example, one of the wiring boxes 300 may be set to black, and the other wiring box 300 may be set to white.

A plurality of piping 400 may be provided. The pipe 400 may have various shapes such as a shape bent in accordance with the design drawing A1, a pipe having a straight line, and the like. Here, the pipe 400 may have a color set to be divided into the respective pipes 400 connected to the first pressure bracket 310. That is, for example, the pipe 400 connected to the red first pressurizing bracket 310 is red, and the pipe 400 connected to the yellow first pressurizing bracket 310 can be colored yellow have. The pipe 400 is not bent by itself, but may be connected to the pipe through a pipe such as a T pipe, so that the overall shape of the pipe 400 can be changed according to the pipe 400 of the design drawing A1.

A second pressurizing bracket 320 is installed at an end of the pipe 400. The second pressurizing bracket 320 is formed in the same color as the first pressurizing bracket 310 connected thereto. That is, the red first pressure bracket 310 is provided with a red second pressure bracket 320 on the piping 400 colored red. The second pressurizing bracket 320 includes a second press finger arranged circumferentially with a second spacing distance. The second spacing distance is formed to be offset from the first spacing distance. Thus, the second press finger is positioned at a first spacing distance of the first press finger, and the first press finger is positioned at the second spacing distance of the second press finger.

When the first pressing finger and the second pressing finger are coupled to each other, they are moved inward and gradually pressed. Therefore, when the first pressing finger and the second pressing finger are pressed in directions opposite to each other, the first pressing finger and the second pressing finger can be pressed and connected to each other in a misaligned state. Thus, the wiring box 300 can be connected to the pipe 400 by a simple and intuitive method.

6B, when the wiring box 300 and the pipe 400 are installed according to the design drawing A1, the black wiring box 300 is placed in the center, and white and blue wiring boxes (300). Then, a second pressurizing bracket 320 colored red is connected to one side of the red colored first pressurizing bracket 310 of the black wiring box 300 to form a black wiring box 300 and the piping 400 are connected to the red wiring box 300 and the red wiring line box 300 is connected to the red first pressing bracket 310 of the remaining white wiring box 300, The second pressurizing bracket 320, which is colored red, is connected. As described above, the wiring box 300 and the piping 400, which are preliminarily classified through color, are arranged and connected according to the design drawing A1, so that the working time can be shortened.

Here, the first pressurizing bracket 310 and the second pressurizing bracket 320 are provided on the outer sides of the first pressurizing bracket 310 and the second pressurizing bracket 320 so that the connection between the first pressurizing bracket 310 and the second pressurizing bracket 320 can be further strengthened .

A connector 350 and a fixing body 360 may be provided on the outside of the wiring box 300. The wiring box 300 needs to be fixed to a form or a ground or the like. In this case, the wiring box 300 can be fixed through the connecting body 350 and the fixing body 360, the rotating medium 370, and the connecting pin.

The connector 350 is formed on the outside of the wiring box 300, and has round openings formed on one side thereof. A thread is formed on the outside of the connector 350.

The fixing body 360 has a connecting ball 361 disposed in a round groove and extends from one side of the connecting ball 361 and has a connecting hole 362 formed at an end thereof.

Here, one of the round groove and the connection ball 361 has a protrusion along the outer circumferential surface and the other has a protrusion groove. In Fig. 5A, the protruding grooves are formed in the round grooves, and the protrusions are formed in the connecting balls 361. The protrusion is inserted and fixed in the protrusion groove continuously during the movement to prevent the connection ball 361 from being completely freely moved in the round groove. This allows the fixture 360 to be moved at an angle free from the connector 350 and to limit instantaneous movement to provide ease of installation.

 The rotating medium 370 is installed outside the connecting body 350. On the inner surface of the rotating medium 370 is formed a thread to be engaged with a thread. The operator turns the rotating medium 370 in one direction so that the rotating medium 370 presses the connecting body 350. The connecting body 350 and the fixing body 360 can be fixed by a pressing force.

A connecting pin can be inserted into the connecting hole 362. As an example, the connecting hole 362 and the connecting pin may be bolts and nuts, respectively, and in another example, the connecting pin may be a pressing body such as a pushpin. Through this, the wiring box 300 can be stably fixed to the place to be fixed.

The confirmation step S5 is a step of continuously checking whether the worker performs the construction work in the work area set at the set work time.

That is, it is determined whether the activating unit 210 of the worker terminal 200 has transmitted the first operation signal and the coordinate information transmitted by the GPS unit 240 is located in the set working area. Through this, the administrator terminal 100 can continuously manage and supervise whether the worker performs the work.

On the other hand, in the confirmation step S5, the administrator terminal 100 can transmit a photographing signal to the worker terminal 200, which has transmitted the first operation signal, at an interval set at the operator terminal. That is, the administrator terminal 100 can transmit the photographing signal at the first time and the photographing signal at the second time. The photographing unit 230 of the operator terminal 200 that has received the photographing signal may perform photographing to generate photographing data and transmit the photographing data to the administrator terminal 100. [

The administrator terminal 100 may receive the image pickup data transmitted from the administrator terminal 100 and store the image pickup data in the storage unit 110 in order. Accordingly, the administrator terminal 100 can grasp that the worker does not perform the work in the set work area.

4 (a) shows that the point is set in the shooting data received by the administrator terminal at the first time in the checking step, and (b) shows that the shooting data received by the manager terminal at the second time As shown in Fig.

Meanwhile, when the photographing data transmitted by the operator terminal 200 at the set intervals have the same GPS coordinates, the manager terminal 100 can compute and analyze the progress of the work through the operation unit 140. [

For example, when the photographed data transmitted by the operator terminal 200 at the first time is as shown in FIG. 4 (a), four points of the first pressure bracket 310 of the wiring box 300 are designated as points . Then, as shown in FIG. 4 (b), the photographic data transmitted at the second time can designate four points of the first pressure bracket 310 and four points of the second pressure bracket 320 as points. That is, the worker terminal 200 compares and analyzes the point of the photographed data received at the first time with the point of the photographed data received at the second time. In this case, since the change of the point has occurred, it is judged that the work is proceeding.

The operation unit 140 of the administrator terminal 100 sets a point and if there is no change in the comparison result point, the attention signal generation unit 150 of the administrator terminal 100 is operated, (230).

Also, in the checking step S5, it is possible to check whether the preset number of the operator terminal 200 preset in the work area in which the boundary is set is located.

For example, if two workers are scheduled to perform work in the A zone, the manager terminal 100 determines whether the two worker terminals 200 are located in the A zone where the boundary is set, If the two worker terminals 200 are not located in the A zone at the scheduled work scheduled time, the attention signal generator 150 of the manager terminal 100 is operated and the operator The notification unit 230 of the terminal 200 can be operated.

In addition, the smart electric construction method according to the present invention can store data of work performed in the storage unit 110 for each worker terminal 200 by data. In this case, the content of the work performed in the storage unit 110 for each worker terminal 200 is converted into data, and the progress of the work is continuously updated, managed, and supervised. If the newly employed worker The work area, and the work time, so that the continuity of the worker's work can be ensured.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: Administrator terminal 110:
120: schedule management unit 130: climate data
140: operation unit 150:
160: design decision section 170: work time setting section
180: boundary setting unit 190: transmitting unit (of the administrator terminal)
195: Receiver (of the administrator terminal)
200: worker terminal 210:
220: photographing unit 230:
240: GPS unit 250: Change status reporting unit
260: altitude transmitter 290: transmitter (of the operator terminal)
295: Receiver (of the operator terminal)
300: wiring box 310: first pressurizing bracket
320: second pressure bracket 350: connecting body
360: Fixture 361: Connection ball
362: connecting ball 370: rotating medium
400: Piping
S1: Schedule input step S2: Boundary setting step
S3: Set working time Step S4: Construction step
S5: Confirmation step S6: Modification step
A1: Design drawing A2: Wiring box preparation step
A3: Piping preparation step A4: Installation step

Claims (6)

A method of constructing a smart electric work for preventing air delay,
A schedule input step of inputting a construction schedule to an administrator terminal;
A boundary setting step of setting a work area in which electric work is performed according to an inputted schedule;
A work time setting step of setting an expected work time in the manager terminal according to the construction schedule;
A construction step in which the worker carries on work with the worker terminal in the set work area at the set work time; And
And checking whether the worker terminal performing the construction work is located in the set work area at the set work time
In the boundary setting step
Setting a work area for each of a plurality of layers according to the construction schedule, setting a plurality of work areas for each layer,
And a risk boundary setting step of setting a work area where an accident will occur, wherein the work area and the danger area are set for respective layers,
In the confirming step,
The manager terminal receives the information of the altitude and the position of each altitude transmitted by the altitude transmitter and the GPS unit of the worker terminal and determines the position of the worker terminal based on altitude and position of the worker terminal, Lt; RTI ID = 0.0 > region, < / RTI >
Wherein the manager terminal receives a signal transmitted by the activator of the worker terminal and confirms whether the worker carrying the worker terminal starts the work and whether or not the work is performed, The manager terminal transmits a warning signal about the danger through the notification unit of the worker terminal,
The manager terminal transmits a photographing signal to the operator terminal at an interval set in the set working time, and the operator terminal, which has received the photographing signal, Please send it to the terminal to check if the electric work is going on.
The manager terminal designates a point set in the received photographing data when the received photographing data has the same GPS coordinates, designates the same set point as the previously received photographing data in the photographing data received later, And determines whether the number of points is increased,
When the worker performing the job transmits a change signal to the administrator terminal according to the changed schedule using the worker terminal, the administrator terminal receives the change signal to change the construction schedule, and corrects the work area to change the boundary And a correction step of resetting the operation time,
In the confirming step,
The plurality of work areas may be designated as a plurality of boundaries, and each of the plurality of boundaries includes a number of worker terminals to be located in the work area according to the schedule, The number of worker terminals is located,
In the construction step,
A design confirmation step for determining whether the design drawing is proceeded before construction;
A plurality of first pressure brackets arranged in the design drawing and protruding in one direction at a first spacing interval and having first pressure fingers arranged in a circumferential shape with a predetermined spacing, A wiring box preparation step of preparing a plurality of boxes;
A plurality of pipes connected to the wiring box and having the same color as the colors of the first pressure brackets disposed at the connected positions are prepared to easily identify the connection positions, and the pipes are connected to one side of the pipes having different colors A second pressing finger having the same color as that of the first pressing bracket and having a second spacing interval which is a gap deviated from the first spacing distance is formed and when the first pressing finger is staggeredly inserted into the first pressing finger, A piping preparing step of inserting the 2-pressure bracket into the piping; And
A step of moving the wiring box and the piping to a position where the construction is progressed to arrange the wiring box according to the design drawing and fixing the second pressurizing bracket to the first pressurizing bracket,
A method of constructing a smart electrical work comprising: delete delete delete delete The method according to claim 1,
In the wiring box preparation step, the wiring box
A connection body having a round groove formed on an outer side of the wiring box and having a round opening,
A connection ball disposed in the round groove and a fixing member extending from one side of the connection ball and having a connection hole formed at an end thereof; And
And a rotating medium coupled to the thread on the outer side of the connecting body in the form of surrounding the connecting body and pressing the connecting body along with the rotation to firmly fix the fixing body and the connecting body,
The connection pin may be inserted and fixed to the connection hole
The method comprising the steps of:

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