KR20140029573A - Integration control system of new renewable energy arcade structure - Google Patents

Abstract

An integrated control system of an arcade structure, using new renewable energy, according to the present invention comprises: an environment detecting sensor for detecting the environmental conditions of an arcade structure; a roof opening and closing unit which is installed on one side of the arcade structure to open and close the roof of the arcade structure; a power supply unit for supplying electricity to the environment detecting sensor and the roof opening and closing unit; and a control unit for controlling the operation of the roof opening and closing unit to selectively open and close the roof of the arcade structure, based on the environmental conditions detected by the environment detecting sensor. [Reference numerals] (11) Timer; (12) Light detecting sensor; (13) Rainfall sensor; (14) Fire detecting sensor; (15) Temperature sensor; (16) Humidity sensor; (17) Signal input unit; (20) Roof opening and closing unit; (31) Commercial power supply unit; (33) Photovoltaic power generation unit; (34) Wind power generation unit; (35) Storage battery; (40) Control unit; (50) Security light; (60) Fire suppression unit

Description

Integrated control system for arcade structures using renewable energy {INTEGRATION CONTROL SYSTEM OF NEW RENEWABLE ENERGY ARCADE STRUCTURE}

The present invention relates to an integrated control system of an arcade structure using renewable energy, and more particularly, an arcade using renewable energy to automatically open and close the roof of the arcade structure by a controller by measuring an external environment of the arcade structure. The integrated control system of the structure.

In general, an arcade refers to a structure that is installed for an awning and a gutter so that an arc-shaped roof is installed on an upper part of a passage between buildings so that shopping can be made regardless of weather.

Such a general arcade structure, by forming a tunnel-shaped passageway that does not open and close the roof, it is possible to ventilate only through the arcade entrance portion, the ventilation is not properly made, the environment is not comfortable, especially in the event of a fire toxic gas is bad Since it can cause a great risk, the structure of the structure which can open a part of structure manually or automatically is widely used.

In the case of the arcade structure of the manual opening and closing method opening and closing work is inconvenient, there is a problem that opening and closing work is difficult in a situation such as a fire. In addition, there is a problem that the automatic opening and closing arcade structure is difficult to open and close the operation in the event of fire or blackout.

In addition, when the user sets for the external environmental conditions, the roof of the arcade structure cannot be opened and closed automatically when the measured value of the external environment becomes a specific condition, there is a problem that the ease of use is reduced.

In addition, in using a common object such as security, there is a problem that a dispute occurs between a large number of users due to the common usage fee.

In this regard, the technology related to the sliding open and close arcade structure is disclosed as Korea Utility Model Publication No. 20-0432435, but there is a problem that can not open the roof of the arcade structure in an emergency such as fire or power outage.

Republic of Korea Utility Model Registration No. 20-0432435 (2006.12.01)

The present invention has been made to solve the above problems, the user set for the external environmental conditions, the roof of the arcade structure can be opened and closed automatically when the measured value of the external environment is a specific condition, the convenience of use more It is an object of the present invention to provide an integrated control system of an arcade structure using renewable energy that can be improved.

In addition, the power generated by the solar and wind power generators is stored as reserve power in the battery, and the heat, smoke, and flame detectors automatically detect this in case of an emergency such as fire or power failure, and automatically display the roof and side gallery windows of the arcade structure. Another purpose is to provide an integrated control system of arcade structures using renewable energy that can prevent the secondary accidents caused by fire and power outages by quickly discharging smoke and heat.

In addition, by supplying the entire area produced by its own power generation system for the public, such as security, to provide an integrated control system of the arcade structure using renewable energy, which prevents disputes between multiple users due to the utility fee in advance. There is this.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the present invention, which are not mentioned here, can be clarified to those skilled in the art from the following description It can be understood.

Integrated control system of the arcade structure using the renewable energy according to the present invention, the environmental sensor for detecting the environmental condition of the arcade structure and in order to open and close the roof and side gallery window of the arcade structure, installed on one side of the arcade structure The roof opening and closing the roof of the arcade structure on the basis of the environmental sensor sensed by the environmental sensor and the power supply unit for supplying power for the operation of the environmental sensor and the roof opening and closing the roof opening and closing part And a control unit for controlling the operation of the opening and closing unit.

The environmental sensor includes a timer for measuring a time set by a user, an optical sensor for detecting light outside the arcade structure, a rain sensor for detecting rainfall outside the arcade structure, and a fire inside the arcade structure. At least one of a fire detection sensor, a temperature sensor for measuring the temperature inside the arcade structure and a humidity sensor for measuring the humidity in the arcade structure.

The power supply unit is formed on the outer surface of the roof of the commercial power supply unit and the arcade structure to receive power from the power supply line to continuously supply power to the environmental sensor and the roof opening and closing part, and to generate power using solar energy. Is formed on the outside of the roof of the solar power generation unit and the arcade structure, the wind power generation unit for generating power using wind energy and stores the power produced by the solar power generation unit and the wind power generation unit, the power of the commercial power supply unit is When blocked, it characterized in that it further comprises a battery for supplying power to the entire system, the environmental sensor and the control unit of the arcade structure.

It is installed inside the arcade structure, and further includes a security light for illuminating the interior space, the power for the operation of the roof opening and closing is supplied from the commercial power supply, the power for the operation of the security light is supplied from the storage battery It is characterized by.

It is installed inside the arcade structure, and further includes a fire suppression unit is installed on the arcade structure, so as to extinguish the fire generated in the arcade structure and the security light to illuminate the internal space, the control unit, the environmental sensor Based on the environmental conditions measured by, characterized in that for controlling the operation of the security light and fire suppression unit.

On the basis of an environmental sensing step in which the environmental condition of the arcade structure is detected by an environmental sensor and the environmental condition detected by the environmental sensor, the control unit operates the roof opening and closing unit so that the roof of the arcade structure can be selectively opened and closed. It characterized in that it comprises a roof opening and closing step to control the.

The environmental sensor includes a timer for measuring a time set by a user, an optical sensor for detecting light outside the arcade structure, a rain sensor for detecting rainfall outside the arcade structure, and a fire inside the arcade structure. A fire sensor and a temperature sensor for measuring the temperature inside the arcade structure and a humidity sensor for measuring the humidity inside the arcade structure, the timer, light sensor, rainfall sensor, fire sensor, temperature sensor, humidity When the environmental condition detected by the sensor corresponds to the opening condition, the controller controls the roof of the arcade structure to open, and when the closing condition corresponds to the controller to control the roof of the arcade structure to close. It is characterized by.

The opening condition is when the fire is detected by the fire detection sensor, when the roof is set to be opened by the timer, and the measured value of the temperature and humidity detected by the temperature sensor and the humidity sensor. Is a value set to open, the closing condition is a time corresponding to a time set to close the roof by the timer, when it is detected that rain falls by the rainfall sensor, and the light detecting sensor And the roof of the arcade structure is closed when it is detected by night time and when the measured value of temperature and humidity detected by the temperature sensor and humidity sensor is set to be closed.

On the basis of the environmental state detected by the environmental sensor, the control unit further comprises a security light control step of controlling the security light of the arcade structure to be selectively operated, wherein in the environmental sensing step by a light sensor in the night If detected as, the control unit in the security light control step to control the security light to turn on, if detected in the day, the control unit in the security light control step to control the security light to be turned off. It is done.

On the basis of the environmental state detected by the environmental sensor, the control unit further comprises a suppression unit control step for controlling the fire suppression unit of the arcade structure to operate selectively, the fire detection sensor in the environmental detection step When the occurrence of the fire is detected by the control unit, the control unit is characterized in that the control to start the operation of the fire suppression unit.

And a power control step of controlling, by the controller, the power of the roof opening and closing unit to be selectively supplied from any one of a commercial power supply unit and a preliminary power supply unit based on the environmental state detected by the environmental sensor. When the power failure of the commercial power supply unit is detected, the control unit controls the power supply of the roof opening and closing unit from the preliminary power supply unit.

By the means for solving the above problems, the integrated control system of the arcade structure using the renewable energy of the present invention is set by the user for the external environmental conditions, when the measured value of the external environment is a specific condition roof and side of the arcade structure Since the gallery window can be opened and closed automatically, there is an effect that the usability can be further improved.

In addition, power generated by solar and wind power generators is stored as reserve power in storage batteries, automatically detects them in emergencies such as fires and power outages, and automatically opens roofs of arcade structures to quickly release smoke and heat And there is an effect that can prevent in advance the secondary accident caused by power failure.

In addition, by supplying the whole area produced by the power generation system for the public, such as security, there is an effect that prevents disputes between multiple users due to the utility fee in advance.

1 is a block diagram showing a control system of the integrated control system of the arcade structure using renewable energy according to the present invention.
Figure 2 is a block diagram showing a control method of the integrated control system of the arcade structure using renewable energy according to the present invention.
Figure 3 is a flow chart showing the operation sequence of the integrated control system of the arcade structure using renewable energy according to the present invention.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent by reference to an embodiment which will be described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

Integrated control system of the arcade structure using the present inventors renewable energy, as shown in Figure 1, the environmental sensor 10 for detecting the environmental state of the arcade structure, and the roof opening and closing portion (opening and closing the roof of the arcade structure ( 20) and a power supply unit 30 for supplying power to the environmental sensor 10 and the roof opening and closing part 20 and a control unit 40 for controlling the operation of the roof opening and closing part 20.

First, the roof opening and closing part 20 is provided in the integrated control system of the arcade structure using the renewable energy of the present invention. The roof opening and closing part 20 is positioned above the arcade structure and serves to open and close the roof provided on the arcade structure. This is to open and close the roof by the control of the controller 40 based on the environmental state detected by the environmental sensor 10 to be described below.

In addition, the roof opening and closing part 20 may include a side gallery window. The side gallery window is provided to allow ventilation on the side of the arcade structure, and may be driven together with the opening and closing conditions of the roof opening and closing part 20. Of course, the side gallery window may be opened and closed under different conditions from the roof opening and closing part 20. For example, when the roof opening and closing part 20 is closed, the side gallery window may be opened. In contrast, when the roof opening and closing part 20 is closed, the gallery window may be closed.

The environmental sensor 10 is composed of a sensor for detecting the environmental state of the arcade structure. The environmental sensor 10 includes a timer 11, an optical sensor 12, a rainfall sensor 13, a fire sensor 14, a temperature sensor 15, and a humidity sensor 16.

First, the timer 11 measures the time set by the user. That is, the user sets a predetermined time, and the timer 11 measures the time set by the user. For example, if 10 hours are set from 08 o'clock to 18 o'clock on the basis of 24 hours, the timer 11 measures the time set by the user, and if the time corresponds to the set time, the controller 40 controls the control unit 40. The roof opening and closing part 20 is operated.

Next, the light sensor 12 is located outside the arcade structure to detect external light. That is, by measuring the amount of sunshine by the light sensor 12 can distinguish between day time and night time. In addition, it is possible to measure the daytime and night time fluidly by measuring the amount of sunshine in cloudy weather is not much. Accordingly, when the light sensor 12 corresponds to the night, the control unit 40 operates the roof opening and closing unit 20 to close the roof at night, and to turn on the security lamp 50 to be described later. do.

The rainfall sensor 13 is located outside the arcade structure to detect rainfall. This is detected by the rain sensor 13 when the rain falls, the roof 40 is operated by the control unit 40 to close the roof of the arcade structure.

In addition, the fire detection sensor 14 detects whether the fire inside the arcade structure to a smoke or a temperature above a predetermined temperature. The fire sensor 14 detects a fire and opens the roof opening and closing part 20 by the controller 40. This discharges heat and smoke inside the arcade structure to the outside and facilitates fire suppression work on the arcade structure.

In addition, the temperature sensor 15 and the humidity sensor 16 are located inside the arcade structure, and the temperature and humidity preset based on the measured values detected by the temperature sensor 15 and the humidity sensor 16. When the abnormality is over, the control unit 40 opens the roof opening and closing part 20. Therefore, when the temperature and humidity inside the arcade structure increases, the temperature and humidity inside the arcade structure can be kept constant by opening the arcade structure roof to ventilate the inside of the arcade structure.

In addition, the integrated control system of the arcade structure using the renewable energy, the signal input unit 17 further includes. The signal input unit 17 is provided at one side of the arcade structure to allow the roof opening and closing unit 20 to be manually operated by a user's manipulation.

The integrated control system of the arcade structure using the renewable energy, the environmental sensor 10 and the roof opening and closing unit 20 further includes a power supply unit for supplying power for the operation. The power supply unit 30 is composed of a commercial power supply unit 31 and a preliminary power supply unit 32 to supply power to the environmental sensor 10 and the roof opening and closing part 20.

The power supply unit 30 is provided with a commercial power supply unit 31. The commercial power supply unit 31 receives power from a power supply line and continuously supplies power to the environmental sensor 10 and the roof opening and closing unit 20. That is, it plays the same role as the method of receiving general power.

The power supply unit 30 is provided with a preliminary power supply unit 32. The preliminary power supply unit 32 is composed of a solar power generation unit 33 for producing electric power, a wind power generation unit 34 and a storage battery 35 for storing the generated power.

The preliminary power supply unit 32 is provided with a solar power generation unit 33. The solar generator 33 is formed on the outer surface of the roof of the arcade structure to produce power using solar energy.

The preliminary power supply unit 32 is provided with a wind power generation unit 34. The wind power generator 34 is formed outside the arcade structure to produce power using wind energy. The wind power generator 34 produces electric power by rotating the propeller while the propeller rotates in a wind blowing direction. This has the effect of increasing power generation efficiency because the propeller rotates while rotating regardless of the direction of the wind.

The preliminary power supply unit 32 is provided with a storage battery 35. The storage battery 35 serves to store the power produced by the solar power generation unit 33 and the wind power generation unit 34. The storage battery 35 stores the power produced by the solar power generation unit 33 and the wind power generation unit 34, and when the power of the commercial power supply unit 31 is cut off, the entire system of the arcade structure, the environment. It serves to supply power to the detection sensor 10 and the control unit 40. This is to supply the power produced and stored by the preliminary power supply unit 32 even if the power of the commercial power supply unit 31 is cut off due to an accident, such as a fire, power failure, so that the entire system of the arcade structure is normally operated. Play a role.

Inside the arcade structure, a security lamp 50 is provided. The security lamp 50 is installed in the arcade serves to illuminate the internal space. In addition, the security lamp 50 is turned on by receiving power from the storage battery 35 of the preliminary power supply unit 32. Therefore, by using the power produced by the solar power generation unit 33 and the wind power generation unit 34, it is possible to prevent the disturbance according to the common electric charges between residents in the arcade.

The arcade structure, the fire suppression unit 60 is provided. The fire suppression unit 60 is installed in the arcade structure so as to extinguish the fire generated in the arcade structure at an initial stage. That is, when the fire is detected by the fire sensor 14, the fire suppression unit 60 is operated by the control unit 40 to suppress the fire initially.

In addition, the fire suppression unit 60, the user specifies the zone in advance, the fire suppression unit 60 by the control unit 40 to operate only in the area detected by the fire detection sensor (14). Can be. That is, when a fire is detected by the fire detection sensor 14, the fire suppression unit 60 is operated only in the region where the fire detection sensor 14 is located by the control of the control unit 40. For this reason, when the fire suppression unit 60 is operated, it is possible to prevent damage to the electrical devices provided in addition to the fire zone. That is, the fire suppression unit 60 operates only in the area where the fire occurs by the controller 40 to extinguish the fire, and the fire suppression unit 60 does not operate in an area where no other fire occurs. Simultaneously with the initial suppression caused by the fire, there is an effect of preventing damage to the electrical components provided in the arcade structure. Of course, the fire suppression unit 60 may be operated in the entire arcade structure or a plurality of predetermined sections according to a user's setting.

The integrated control method of the arcade structure of the present invention, as shown in Figure 2, the environmental sensing step 100 for detecting the environmental state of the arcade structure, and based on the environmental state detected in the environmental detection step 100 Roof opening and closing step 200 for opening and closing the roof of the arcade structure.

In addition, the integrated control method of the arcade structure, the security light control step (300) to reveal the inside of the arcade structure, the suppressor control step 400 for operating the fire suppression unit 60 in the event of a fire and the entire arcade structure It may further include a power control step 500 for controlling the system power.

In more detail, first, in the environmental sensing step 100, the environmental state of the arcade structure is detected by the environmental sensor 10. That is, the timer 11, the light sensor 12, the rainfall sensor 13, the fire sensor 14, the temperature sensor 15 and the humidity sensor 16 constituting the environmental sensor 10 Environmental conditions of the arcade structure is sensed by this. The role and function of the environmental sensor 10 is the same as described above.

In addition, in the roof opening and closing step 200, the roof opening and closing part 20 so that the control unit 40 can selectively open and close the roof of the arcade structure based on the environmental state detected in the environmental detection step 100. To control its operation. In more detail, an environmental condition detected by at least one of the environmental sensor 10, that is, the fire sensor 14, the timer 11, the temperature sensor 15, and the humidity sensor 16 corresponds to an open condition. In this case, the controller 40 controls the roof of the arcade structure to be opened. That is, when the fire is detected by the fire detection sensor 14, the case corresponding to the time set to open the roof by the timer 11, and the temperature sensor 15 and the humidity sensor 16 If the measured value of the temperature and humidity detected by the corresponding value is set to open, the roof of the arcade structure is controlled to open.

 In addition, the environmental state detected by at least one of the environmental sensor 10, that is, the timer 11, the rainfall sensor 13, the light sensor 12, the temperature sensor 15 and the humidity sensor 16 Is a closed condition, the controller 40 controls the roof of the arcade structure to be opened. That is, when the roof corresponds to the time set to be closed by the timer 11, when the rain is detected by the rain sensor 13 outside of the arcade structure, and the light sensor 12 When the detection of the night time by the time, and the value set to close the measured value of the temperature and humidity detected by the temperature sensor 15 and the humidity sensor 16, the roof of the arcade structure is closed Control as possible.

In addition, the integrated control method of the inventors arcade structure, the security light control step 300 is further included. The security lamp control step 300, based on the environmental state detected by the light sensor 12, the control unit 40 controls so that the security lamp 50 of the arcade structure is selectively turned on and off. . That is, when it is detected at night by the light sensor 12, in the security light control step 300, the control unit 40 controls the security light 50 to be turned on, if it is detected during the day In the security lamp control step 300, the control unit 40 controls the security lamp 50 to be turned off. Of course, the control by the timer 11 is also possible. That is, the timer 11 is set in a day and night time in advance, and if the time corresponds to the night time, the security light 50 is turned on, and if the night time, the security light 50 is controlled by turning off the light. can do.

In addition, the integrated control method of the arcade structure of the present invention, the suppression unit control step 400 is further included. In the suppression unit control step 400, when a temperature above a predetermined temperature is detected by the fire detection sensor 14, the control unit 40 may selectively operate the fire suppression unit 60 of the arcade structure. To control. That is, when a fire occurrence is detected by the fire detection sensor 14, the control unit 40 controls the fire suppression unit 60 to operate in the suppression unit control step 400 to the arcade In the event of a fire in the structure, it has the effect of suppressing the early stage. Also. The fire suppression unit 60 operated in the suppression unit control step 400, the role and efficacy are the same as described above.

In addition, the integrated control method of the arcade structure of the present invention, the power control step 500 is further included. In the power control step 500, based on the environmental state detected by the environmental sensor 10, the control unit 40 is the power of the roof opening and closing unit 20 is the power supply of the commercial power supply 31 and the reserve. It can be controlled to be selectively supplied from any one of the power supply (32). That is, when the power is normally supplied from the commercial power supply unit 31 and the roof opening and closing part 20 is opened and closed, and the power of the commercial power supply unit 31 is not supplied, the control unit 40 is the preliminary. The power supply 32 controls the power to supply the roof opening and closing part. As a result, even when a situation in which power is not supplied from the commercial power supply unit 31 to the roof opening and closing part 20 due to an accident such as a fire or a power failure occurs, the roof is supplied with power from the preliminary power supply unit 32. The opening and closing part 20 may be operated.

The operation sequence of the integrated control system of the arcade structure using renewable energy according to the present invention will be described. First, as shown in FIG. 3, the environmental state of the arcade structure is detected by the environmental sensor 10 (S11). The configuration and role of the environmental sensor 10 is the same as described above.

Next, it is determined whether the environmental state detected by the environmental sensor 10 corresponds to the opening condition of the roof opening and closing part 20 (S12). If the environmental condition detected by the timer 11, the light sensor 12, the temperature sensor 15 and the humidity sensor 16 of the environmental sensor 10 corresponds to an open condition, the roof opening and closing part 20 is opened. Operate to open the roof of the arcade structure (S13).

Next, it is determined whether the environmental state detected by the environmental sensor 10 corresponds to the closing condition of the roof opening and closing part 20 (S14). If the environmental condition detected by the light sensor 12, the rainfall sensor 13, the temperature sensor 15 and the humidity sensor 16 of the environmental sensor 10 corresponds to the closing condition the roof opening and closing part 20 By operating the to close the roof of the arcade structure (S15). In addition, if it does not correspond to the closing condition of the roof opening and closing part 20, the current state is maintained (S16).

Next, it is determined whether the environmental state detected by the environmental sensor 10 corresponds to the lighting condition of the security lamp 50 (S17). If the environmental condition detected by the light sensor 12 of the environmental sensor 10 corresponds to the lighting condition (S18).

Next, it is determined whether the environmental state detected by the environmental sensor 10 corresponds to the extinguishing condition of the security lamp 50 (S19). When the environmental state detected by the light sensor 12 of the environmental sensor 10 corresponds to the extinguishing condition, the security lamp 50 is turned off (S20). In addition, if it does not correspond to the extinguishing condition of the security lamp 50, the current state is maintained (S21).

Next, it is determined whether the environmental state detected by the environmental sensor 10 corresponds to the condition in which the fire occurred (S22). When the environmental condition detected by the topic detection sensor 14 of the environmental sensor 10 corresponds to a condition in which a fire occurs, the fire suppression unit 60 is operated to extinguish the fire initially (S23). In addition, if the fire conditions do not correspond, the following steps are taken.

Next, it is determined whether to implement the above conditions and to terminate the operation of the integrated control system of the arcade structure using the renewable energy of the arcade structure of the present invention (S24). This, when the user inputs a signal that the operation of the integrated control system of the arcade structure using the renewable energy of the present invention by the user will end the operation. On the other hand, if the operation is not terminated by the user's operation, the process returns to step S11 of detecting the environmental state of the arcade structure by the environmental sensor 10, and it is possible to repeatedly perform a series of processes.

In addition, as shown in Figure 3, the roof opening and closing step (S1) including a series of processes from the step S12 to determine the opening condition of the roof opening and closing part 20 to the step S16 to maintain the roof opening and closing part 20 in the current state (S1) And a security light lighting step (S2) including a series of processes from the step S17 of determining the lighting condition of the security light 50 to the step S21 of maintaining the security light 50 in a present state and the presence of the fire The fire suppression control step (S1) including a series of processes from the fire detection step S22 to determine the step S23 to operate the fire suppression unit, may proceed in sequence, or according to the user's setting conditions You can also change the order freely.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: environmental sensor 11: timer
12: light sensor 13: rainfall sensor
14: fire detection sensor 15: temperature sensor
16: signal entrance 20: roof opening and closing
30: power supply unit 31: commercial power supply unit
32: reserve power supply 33: solar power generation unit
34: wind power generation unit 35: storage battery
40: control unit 50: security lamp
60: fire suppression unit
100: environmental detection step 200: roof opening and closing step
300: security light control step 400: suppressor control step
500: power control step

Claims (11)

An environmental sensor for sensing an environmental condition of the arcade structure;
A roof opening and closing part installed on one side of the arcade structure to open and close the roof of the arcade structure;
A power supply unit supplying power for operation of the environmental sensor and the roof opening and closing unit; And
An arcade structure using renewable energy, characterized in that it comprises a control unit for controlling the operation of the roof opening and closing part so that the roof of the arcade structure can be selectively opened and closed based on the environmental state detected by the environmental sensor. Integrated control system. The method of claim 1,
The environmental sensor,
A timer measuring a time set by a user;
An optical sensor for sensing light outside the arcade structure;
A rainfall sensor for detecting rainfall outside the arcade structure;
A fire sensor for detecting a fire inside the arcade structure;
A temperature sensor for measuring a temperature inside the arcade structure; And
A humidity sensor for measuring humidity in the arcade structure; Integrated control system of the arcade structure using renewable energy, characterized in that it comprises at least one of. The method of claim 1,
The power supply unit,
A commercial power supply unit receiving power from a power supply line and continuously supplying power to the environmental sensor and the roof opening and closing unit;
A solar power generation unit formed on an outer surface of a roof of the arcade structure and generating power using solar energy;
A wind power generation unit which is formed outside the roof of the arcade structure and generates electric power using wind energy; And
A storage battery which stores the power produced by the solar power generation unit and the wind power generation unit, and supplies power to the entire system of the arcade structure, the environmental sensor and the control unit when the power of the commercial power supply unit is cut off;
Integrated control system of the arcade structure using renewable energy, characterized in that it further comprises. The method of claim 3, wherein
It is installed inside the arcade structure, the security light for illuminating the inner space; further includes,
Power for the operation of the roof opening and closing is supplied from the commercial power supply,
Integrated control system of the arcade structure using renewable energy, characterized in that the power for the operation of the security light is supplied from the storage battery. The method of claim 1,
A security lamp installed inside the arcade structure to illuminate an internal space; And
The fire suppression unit is installed on the arcade structure so as to extinguish the fire generated in the arcade structure;
The control unit, the integrated control system of the arcade structure using renewable energy, characterized in that for controlling the operation of the security lamp and the fire suppression unit based on the environmental state measured by the environmental sensor. An environmental sensing step of sensing an environmental state of the arcade structure by an environmental sensing sensor;
A roof opening and closing step of controlling, by the controller, the operation of the roof opening and closing part so that the roof of the arcade structure can be selectively opened and closed based on the environmental state detected by the environmental sensor. Control method. The method according to claim 6,
The environmental sensor,
A timer measuring a time set by a user;
An optical sensor for sensing light outside the arcade structure;
A rainfall sensor for detecting rainfall outside the arcade structure;
A fire sensor for detecting a fire inside the arcade structure;
A temperature sensor for measuring a temperature inside the arcade structure; And
And a humidity sensor for measuring humidity in the arcade structure.
The environmental state detected by the timer, light sensor, rainfall sensor, fire sensor, temperature sensor, humidity sensor,
If the opening conditions correspond to the control unit controls to open the roof of the arcade structure,
If the closing condition corresponds to the control method of the arcade structure, characterized in that the controller controls the roof of the arcade structure to be closed. The method of claim 7, wherein
The opening condition is when the fire is detected by the fire detection sensor, when the roof is set to be opened by the timer, and the measured value of the temperature and humidity detected by the temperature sensor and the humidity sensor. Is the value that you set to open,
The closing condition is when the roof corresponds to the time set to be closed by the timer, when rain is detected by the rainfall sensor, when it is detected by the light sensor at night time, and the temperature. And controlling the roof of the arcade structure to close when the measured values of temperature and humidity sensed by a sensor and a humidity sensor correspond to a value set to close. The method according to claim 6,
And a security light control step of controlling, by the controller, the security light of the arcade structure to be selectively operated based on the environmental state detected by the environment detection sensor.
When the sensor is detected at night by the light sensor in the environmental sensing step, the control unit controls the security light to be turned on in the security light control step, and when it is detected during the day, the control unit is controlled in the security light control step. Control method of the arcade structure, characterized in that the control so that the security lights off. The method according to claim 6,
A suppression unit control step of controlling, by the controller, the fire suppression unit of the arcade structure to be selectively operated based on the environmental state detected by the environmental sensing sensor;
When the occurrence of a fire is detected by the fire detection sensor in the environmental detection step, the control unit in the suppressor control step, the control method of the arcade structure, characterized in that the control to start the operation of the fire suppression unit. The method according to claim 6,
And a power control step of controlling, by the controller, the power of the roof opening and closing unit to be selectively supplied from any one of a commercial power supply unit and a preliminary power supply unit based on the environmental state detected by the environmental sensor. ,
When the power failure of the commercial power supply unit is detected, the control unit controls the arcade structure, characterized in that the control to supply power to the roof opening and closing unit from the preliminary power supply unit.

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