KR100877756B1 - Energy saving system and method for unoccupied control based on space reservation and management - Google Patents

Abstract

The present invention relates to an energy saving system and method for reducing energy use of a building, and more particularly, permits the use of energy-using devices for air-conditioning supply and lighting use only for the space reserved by the reservation management for each space in the building. The present invention relates to a vacancy control energy saving system and method based on space reservation management, which enables real-time meter reading of each space and enables effective control of energy consumption for the entire building by wireless or wired method.

The vacancy control energy saving system and method based on the space reservation management according to the present invention, which is licensed according to the reservation information for each space in the building, lighting equipment, temperature controller, damper controller An energy consuming device such as a physical sensor and a fan coil unit, and a fan coil unit controller for wirelessly controlling the energy consuming device and storing meter reading data thereof; One side of the building wirelessly controls the operation of the fan coil unit controller according to the reservation information for each space, and stores the energy usage meter reading data of the energy-using device delivered to the fan coil unit controller, and uses the energy consumption for each space based on the meter reading data. The system comprises a building control unit that calculates the total energy consumption of the building, the building heating and cooling loads, and the number of air-conditioning energy-using devices.

In addition, the energy management in the building can be efficiently managed in accordance with the reservation information for each space by a method comprising a reservation management step, a space control method determination step, a vacancy control step, a reservation space control step, and an energy consumption calculation step. It is done to be.

Vacancy control, occupancy control, reservation management, air conditioning, fan coil unit, energy saving.

Description

Energy saving system and method for unoccupied control based on space reservation and management

1 is a schematic diagram showing a vacancy control energy saving system based on space reservation management according to the present invention.

Figure 2 is a schematic diagram showing a building control apparatus applied to an embodiment of the present invention.

3 is a schematic diagram showing a fan coil unit controller applied to an embodiment of the present invention.

Figure 4 (a) (b) is a schematic diagram showing an energy use device applied to an embodiment of the present invention.

5 is a view showing a temperature controller with a built-in lighting switch applied to an embodiment of the present invention.

Figure 6 is a schematic diagram showing a vacancy control energy saving system based on space reservation management including a vacancy control device according to another embodiment of the present invention.

7 is a view showing a vacancy control device applied to another embodiment of the present invention.

8 is a flow chart showing a vacancy control energy saving method based on space reservation management according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: vacancy control energy saving system based on space reservation management

10: building control device

20: fan coil unit controller

30: energy use equipment

40: vacancy control device

The present invention relates to an energy saving system and method for reducing energy use of a building, and more specifically, to permit the use of energy-using devices for air-conditioning supply and lighting use only for the space reserved by the reservation management for each space in the building. The present invention relates to a vacancy control energy saving system and method based on space reservation management, which enables real-time meter reading of each space and enables effective control of energy consumption for the entire building by wireless or wired method.

In general, as the industry develops, the number of buildings is increasing, and each building uses a lot of energy for heating and cooling and operating the facilities. Energy consumption in buildings accounts for about 22.3% of the country's energy consumption and is increasing every year, which is a problem related to the national industry and the economy as a whole.

In addition, since the energy consumption of the building is directly connected to the financial expenditure from the viewpoint of the building owner, the tenant, and the user, the energy consumption of the inefficient building has a significant financial burden. To solve these problems, it is necessary to efficiently and systematically manage the use of energy consumed in buildings.

Conventionally, a large number of fan coil units are generally installed in a large building to efficiently control heating and cooling, and such conventional fan coil units are controlled by zone, that is, by floor or section, or individually. A temperature controller was attached to the fan coil unit to control the operation of the fan coil unit according to the temperature of the space where each fan coil unit was installed.

However, such a conventional method operates in accordance with the temperature regardless of whether there is a person or not when there are multiple spaces (offices, conference rooms, lecture rooms, general rooms, etc.) in the building in a manner controlled by temperature. There was a problem that the fan coil unit is operated even in a space without people, which wastes energy.

In addition, since it uses the energy-saving devices and the overall air-conditioning system for the entire building, it is necessary to control all the sections or the whole building even if the space in which the user in the building, ie the occupant occupies, occupies a part of the building. Therefore, there was a problem that causes unnecessary energy waste.

An object of the present invention is to provide an energy saving system and method for vacancy control based on space reservation management, which is designed to solve the above problems, and to control energy use through reservation management of each space in a building. It is done.

It is also an object of the present invention to provide an energy saving system and method for vacancy control based on space reservation management, which can individually control energy-using devices for each space and measure energy consumption in real time to efficiently control energy usage in the entire building. It is done.

The vacancy control energy saving system and method based on the space reservation management according to the present invention for achieving the above object, is installed in one side of the building to configure the building control device for controlling the energy use of each space according to the reservation information Each space includes a fan coil unit controller controlled by the building control device and an energy use device.

More specifically, in the energy saving system for reducing the energy consumption of the space in the building (office, meeting room, lecture room, general room, etc.),

Energy control devices such as lighting devices, temperature controllers, damper controllers, occupancy sensors, fan coil units, etc., which are licensed according to the reservation information for each space and are read in real time, and wirelessly control the energy usage devices. The fan coil unit controller is provided to store its metering data.

In addition, one side of the building wirelessly controls the operation of the fan coil unit controller according to the reservation information for each space, and stores the energy usage meter reading data of the energy use device delivered to the fan coil unit controller, the meter reading Based on the data, the building control device calculates the energy consumption of each space, the total energy usage of the building, the heating and cooling load of the building, and the number of use of the heating and cooling energy-using equipment.

Accordingly, it is characterized in that the energy consumption in the building can be efficiently managed according to the reservation information for each space.

First, the building control device, the communication unit is connected to the fan coil unit controller; A data input unit for inputting reservation information such as space information, use date, use time, air-conditioning or lighting use, and desired temperature of each floor / room; A data output unit which displays or outputs the energy usage and usage state used in the building, such as a reservation state for each space, energy consumption for each space, total heating and cooling loads, number of air-conditioning equipment used, and required air volume data for each space; A database unit for storing the reservation information input through the data input unit, the energy consumption amount of the energy using device, the actual energy consumption of the energy using device input through the fan coil unit controller, and the energy consumption according to the space; The reservation information is processed based on the data input to the database unit, and the energy consumption of each space and the energy consumption of the entire building are calculated. Accordingly, the number of air-conditioning and energy-using devices used in the building is calculated. A central controller controlling the data output unit, the database unit, and the communication unit through a control signal; It comprises a power supply unit for supplying power.

At this time, the central control unit, the reservation management processing unit for processing the use permission of the fan coil unit controller for each space through the control signal according to the reservation information, the energy consumption and energy use device of the energy using device through the fan coil unit controller A meter reading calculator for calculating the energy consumption of each space based on the energy consumption of the space, a load calculator for calculating the energy consumption of the entire building based on the energy consumption of the space, and calculating the energy load of the entire building accordingly; It includes a device operation number selection unit for selecting the number of use of the energy-using device for heating and cooling based on the energy consumption and the energy load of the entire building.

In addition, the energy usage for each space in the meter reading unit is calculated based on the energy usage of the energy-using device for each space by using the following formula.

<< Fan Coil Unit >>

Heating usage = hot water flow rate * (hot water inlet temperature-hot water outlet temperature) * operating time * equipment efficiency

Cooling capacity = cold water capacity * (cold water inlet temperature-cold water outlet temperature) * operating time * equipment efficiency

Power = Fan Motor Power Consumption * Running Time * Equipment Efficiency

<< damper >>

Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1

Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1

(Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃)

<< Lighting power consumption >>

Power Consumption = Lighting Power Consumption * Uptime

At this time, if necessary, the fan coil unit is calculated as follows.

<< Fan Coil Unit >>

Heating usage = heating capacity 1 * uptime * supply temperature efficiency * equipment efficiency

Cooling capacity = Cooling capacity 1 * Uptime * Supply temperature efficiency * Equipment efficiency

Power consumption = Fan motor power consumption 1 * operating time * equipment efficiency

(Heating capacity 1, cooling capacity 1, fan motor power consumption 1 is the specification or design value heating and cooling capacity suggested by the equipment company, and the supply temperature efficiency is the efficiency comparing the difference between the supply reference temperature and the actual supply temperature.)

The fan coil unit controller is formed in a fan coil unit equipped with a fan, a valve, a cold / hot water pipe, and a fan motor, and reserves information on the installed space and reading data of energy usage of the energy using device and operation of the energy using device. Unit memory unit that stores status data, unit communication unit connected to communication unit of building control device and receiving operation control signal and data and connected to energy consuming device to send its operation control signal, fan / valve status and energy use in space An input / output unit for inputting and outputting the state of the device and the metered energy consumption, a unit control unit controlling the input / output unit / communication unit / memory unit by a control signal and controlling the energy-using device based on the data of the unit memory unit; It is configured to include a power supply for supplying.

At this time, the unit communication unit, if necessary, characterized in that it comprises a relay module to serve as a repeater for connecting the fan coil unit controller and the building control device in the neighboring space.

The input / output unit is connected to the fan coil unit, and controls the fan speed / open / close control of the fan coil unit and the hot / cold water inlet temperature / cold / hot water outlet temperature / cold / hot water flow rate / fan motor power of the fan coil unit to control the cooling and heating by supplying cold or hot water. Fan coil unit I / O unit to be read, connected to the damper controller and proportional control of the air supply damper to control the air volume of the damper controller, and the air input and output of the damper controller that is input by reading the air flow rate / air supply temperature, Temperature controller input / output part for proportional control of fan coil unit fan speed and damper controller damper based on temperature and set temperature, lighting device input / output part connected to lighting equipment and metered lighting power consumption is input, and operation of occupancy sensor And an indoor sensor input / output unit for controlling the operation of the timer.

On the other hand, the energy-using device such as the damper controller, temperature controller, lighting equipment, occupancy sensor, the communication unit connected to the fan coil unit controller using a wireless communication means receives a control signal, and the energy consumption of the energy-using device in real time And an input / output unit for transmitting to the fan coil unit controller and a power supply unit for supplying power.

At this time, the temperature controller, including the exit button connected to the input and output unit is configured to stop the cooling and heating supply of the space during the operation of the exit button.

In addition, the lighting device is composed of a plurality of lights installed in the space, a light switch connected by the lighting circuit for controlling the operation of the light, and a light switch module connected to the fan coil unit controller, the light switch module By configuring a communication unit, a power supply unit, and an input / output unit, the user of the space is configured to select the use of lighting by the light switch.

On the other hand, if necessary, the temperature controller is a temperature controller including a light switch module that includes a light switch, to control the temperature and lighting in the space, so that a separate power supply is not necessary by using a power supply connected to the light switch module. It is composed.

Further, according to another embodiment of the present invention, in each of the spaces as needed, a vacancy control device for wirelessly controlling the operation of the fan coil unit controller separately from the building control device to control the operation of the energy-using device in the space. It is provided including.

At this time, the vacancy control device, the input and output unit for inputting and outputting the use date / use time / air-conditioning or lighting use / desired temperature for the user in the space, the input state of the user and the energy using device A display unit showing a state of use, a communication unit connected to the building control apparatus and the fan coil unit controller by wireless communication means, a control unit controlling the input / output unit and the communication unit by a control signal, and a power supply unit supplying power. It is configured by.

Subsequently, the energy saving method using the vacancy control energy saving system based on the space reservation management according to the present invention goes through the following steps.

In a building equipped with an energy consuming device installed in each space in the building, a fan coil unit controller installed in the space to control the energy consuming device, and a building control device installed at one side of the building to control the fan coil unit controller. In the energy saving method,

A reservation management step of inputting and storing the reservation information for the use of each space in the building and the energy consumption of the energy-using device in the building control device; The fan control unit determines whether each space is a reserved space or an empty space (vacancy) by the building control device according to the reservation information of the reservation management step, and determines the permission and control of the use of energy devices in the reserved space and the vacancy. Determining a control method for each space to be transmitted to the unit controller; A vacancy control step in which only the use of an energy-using device for maintaining the lowest temperature set in the vacancy is permitted and controlled by the fan coil unit controller in the vacancy when the control method for each space is determined as an empty space (vacancy); A reservation space control step of allowing use of the energy-using device by the fan coil unit controller in the corresponding space when the space is determined in the space-based control method determination step, and reading the amount of energy used in real time; The energy consumption of the energy-using device for each space controlled according to the vacancy control step and the reservation space control step is transferred to the building control device. Based on this, the building control device uses the energy consumption of each space, the energy consumption of the entire building, and the building. It calculates the energy load of the inside, and the energy usage calculation step of charging a usage fee for the amount of energy used by the user of the reservation space.

Accordingly, each space in the building is characterized in that the use of the energy-using device is controlled according to the reservation information, and energy can be saved by efficiently managing the energy usage of each space in the building according to the measured energy consumption in real time. .

In this case, the reservation information of the reservation management step, the floor / room space information of the reservation space, the date of use of the space, the use time of the space, whether the heating and cooling of the space, the use of lighting of the space, the space It is characterized in that the desired temperature.

In addition, the vacancy control step, the heating and cooling supply, the use of lighting, the temperature setting, the use of cold and hot water valves in the space is blocked by the user, the fan coil is made of the real-time energy consumption of the energy-using device in the space to maintain the minimum temperature Characterized in that it is transmitted to the building control device through the unit controller.

And, if necessary, each space in the building is provided with a space control device connected to the fan coil unit controller for each space control, wherein the vacancy control step, the user who does not reserve the space to the space control device By the use of the fan coil unit controller and the energy-using device in the space, the energy consumption is characterized in that the real-time metering.

At this time, the step of controlling the reserved space, the heating and heating supply and lighting can be continuously used according to the desired temperature in the reserved space, the non-detection of the occupants in the space through the occupancy sensor and the use of energy in accordance with the off, exit The heating and cooling supply and the use of lighting is stopped, the energy consumption of the energy-using device is read in real time and transmitted to the building control device through the fan coil unit controller.

In the energy usage calculation step, the energy consumption of each space, the energy consumption in the building, and the total heating and heating load are calculated by the building control apparatus based on the energy usage of the space energy using device received through the fan coil unit controller for each space. To determine the use of energy-using equipment for maintaining the lowest temperature in the building, characterized in that to control.

On the other hand, the step of calculating the energy usage, using the following formula is characterized in that the energy usage of the energy-using device for each space is read and based on this, the energy usage for each space is calculated.

<< Fan Coil Unit >>

Heating usage = hot water flow rate * (hot water inlet temperature-hot water outlet temperature) * operating time * equipment efficiency

Cooling capacity = cold water capacity * (cold water inlet temperature-cold water outlet temperature) * operating time * equipment efficiency

Power = Fan Motor Power Consumption * Running Time * Equipment Efficiency

<< damper >>

Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1

Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1

(Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃)

<< Lighting power consumption >>

Power Consumption = Lighting Power Consumption * Uptime

And, if necessary, the fan coil unit is calculated using the following formula.

<< Fan Coil Unit >>

Heating usage = heating capacity 1 * uptime * supply temperature efficiency * equipment efficiency

Cooling capacity = Cooling capacity 1 * Uptime * Supply temperature efficiency * Equipment efficiency

Power consumption = Fan motor power consumption 1 * operating time * equipment efficiency

(Heating capacity 1, cooling capacity 1, fan motor power consumption 1 is the specification or design value heating and cooling capacity suggested by the equipment company, and the supply temperature efficiency is the efficiency comparing the difference between the supply reference temperature and the actual supply temperature.)

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the vacancy control energy saving system and method based on the space reservation management of the present invention.

1 is a schematic diagram showing a vacancy control energy saving system based on space reservation management according to the present invention.
First of all, a system refers to an aggregate of combinations of related elements according to a law in order to realize necessary functions. The vacancy control energy saving system based on space reservation management according to the present invention includes an energy use device and a fan coil unit controller. It refers to a combined group of devices including a building control device, and the vacancy control energy saving system (1) based on the space reservation management described below to help the understanding of the invention and the clarity of the scope of rights is described as space reservation management. It is described that it has the same meaning as the vacancy control energy saving device based on.

As shown, the vacancy control energy saving system 1 based on the space reservation management according to the present invention controls the operation of all devices using energy in the building on one side of the building 2 or reads the energy usage thereof. Install a building control device (10) for storing and maintaining the energy used in the building at an appropriate level, and controls the operating state of the energy-using device (30) installed in each space in the building, and the building control device (10) and The fan coil unit controller 20 which is wirelessly connected and controlled is installed by the space.

At this time, the building control device 10 inputs the reservation information available for each space (office, meeting room, lecture room, general room, etc.) (that is, the date of use, time of use, whether to use heating or heating, desired temperature in the space) Then, the fan coil unit controller 20 and the energy using device 30 are allowed to operate according to the reservation information to control energy use in the building. In addition, all the devices that use the energy is measured in real time, the energy consumption of the building control device 10 based on this based on the energy consumption of the entire building based on the energy load in the building for heating and cooling in the building based on this Selective control of the number of energy-using devices.

The energy using device 30 installed in each of these spaces is a device that uses energy such as a lighting device, a temperature controller, a damper controller, a room sensor, a fan coil unit, and a control signal of the fan coil unit controller 20. The operating state is determined by.

First, the building control device 10 is installed in one side of the building, that is, the central control space that controls the building so that the reservation information is input and the energy use for each space in the building is primarily controlled.

The building control apparatus 10 stores the reservation information for each space and the usage meter reading data of the energy use device 30 through the fan coil unit controller 20, and based on this, the energy usage and building air conditioning for each space It is configured to control the operation of the load and space-specific fan coil unit controller 20.

In addition, the building control device 10 is provided with a wireless communication means on one side, and sends an operation control signal to the fan coil unit controller 20 according to the reservation information through the wireless communication means.

The fan coil unit controller 20 is preferably provided on a fan coil unit including a fan, a fan motor, and a valve for supplying air conditioning. The reservation information transmitted from the building control device 10 is provided. And according to the operation control signal to control the operation state of each individual energy-using device 30 by the wireless communication means provided on one side, and the energy usage data read by the energy-using device 30 to the building control device ( 10) by using a wireless communication means.

In addition, the fan coil unit controller 20 is configured to be interconnected with the fan coil unit controller 20 in the neighboring space as a repeater as necessary. In other words, the space provided with the fan coil unit controller 20 may be formed in plural numbers according to the size of the building 2 in which the system 1 is provided. In this case, the fan coil unit controller 20 may be formed depending on the distance. ) And the building control device 10 may not be easy. At this time, the neighboring fan coil unit controller 20 serves as a repeater to facilitate the control of the fan coil unit controller 20 in the corresponding space by the building control device 10.

According to the vacancy control energy saving system (1) based on the space reservation management configured as described above, each space in the building (2) is allowed to use energy only for the space reserved for each space, and the energy use device for each space (30) Can be used and can efficiently manage the energy consumption of the entire building according to the energy usage data of the metered energy-using device.

In addition, it is possible to save energy by charging a user who reserves and uses the reserved space according to the energy usage read in the reserved space.

At this time, the communication method of the building control device 10 and the fan coil unit controller 20 is preferably a wireless communication means using an RF communication module, a method using a wire can be used if necessary.

FIG. 2 is a schematic view showing a building control apparatus applied to FIG. 1, and FIG. 3 is a schematic view showing a fan coil unit controller applied to FIG. 1.

Referring to this, referring to the vacancy control energy saving system 1 based on space reservation management in more detail as follows.

First, referring to Figures 1 and 2, the building control device 10 controls the use of each energy use device 30 through the fan coil unit controller 20 for each space according to the user's reservation information for each space. For this purpose, the data input unit 11, the data output unit 12, the communication unit 13, the database unit 14, the power supply unit 15, the central control unit 16 is largely composed.

In this case, the data input unit 11 is a reservation information input by the user who wants to use it for each space in the building is input, the reservation information is preferably input space information (floor, room), the use date and use of the space The time is input, and whether the heating and cooling supply according to the use of the heating and cooling energy equipment, whether the lighting is used and the desired temperature in the space is input.

In addition, the data output unit 12, the reservation management status for each space, the energy consumption for each space, the total energy usage of the building and the heating and cooling load according to it, the number of air conditioning equipment use, the fan coil unit controller use state, each The energy usage and usage status used in the building, such as air volume data by space, are displayed on the monitor or outputted using an output device.

In addition, the communication unit 13 is configured to be connected to the fan coil unit controller 20. At this time, through the communication unit 13, the building control device 10 sends a control signal for using the energy using device 30 in the corresponding space where the fan coil unit controller is installed, and the amount of energy used by the energy storage container 30 is measured. It is transmitted to the building control device 10 through the unit communication unit of the fan coil unit controller 20.

At this time, the communication unit 13 is preferably provided as a wireless communication means using the RF wireless communication module and performs the function of transmitting and receiving signals by the wire communication module for wire communication as necessary.

The database unit 14 inputs energy usage and various information for each space in the building. More specifically, the database unit 14 uses reservation information for each space input through the data input unit 11 and energy for each space. The energy consumption of the energy-using device 30, that is, the maximum wind volume of the damper, fan coil unit air-conditioning capacity, fan coil unit power consumption, lighting power consumption, and the like are stored, and the energy use device 30 for each space is stored. Actually used energy consumption, that is, data such as fan coil unit heat consumption and power consumption, damper heat usage, lighting power usage, and space-specific energy usage are stored.

This data is used by the central control unit 16 as a basis for calculating energy usage and energy load in the building.

On the other hand, the central control unit 16 of the building control device 10 is a place for controlling the operation and reservation management of all devices using energy in the building, based on the data load stored in the database unit 14 to the energy load amount Accordingly, the number of air-conditioning energy-using devices required for the entire building is calculated, and the data input unit 11, the data output unit 12, the database unit 14, and the communication unit 13 are controlled through a control signal.

In more detail, the central control unit 16 uses the reservation information stored in the database unit 14 to calculate the energy consumption of each space and the energy consumption of the entire building, and reserves the reservation in the fan coil unit controller 20. Space management management unit for each space that sends information and energy use device permission control signal to the communication unit 13, and the energy consumption meter data and energy use device of the energy use device for each space provided by the fan coil unit controller 20 Comparing the energy consumption of each space and the actual energy usage of the energy-using device 30 in each space (30) and calculates the energy consumption of each space based on this, the energy-using device meter reading calculation unit for each space to send to the database unit and Calculating the heating and cooling loads required for the entire building, that is, the energy loads based on the energy usage of each space. Including a load calculation unit and a device operation number selection unit for selecting the number of use of the energy-using device for heating and cooling by the fan coil unit controller in consideration of the energy consumption of the big gun and the energy load calculated on the basis of, It performs the function accordingly.

In this case, the energy usage of each space calculated by the meter reading unit is measured and stored based on the energy usage of the energy-using device for each space by using the following formula.

<< Fan Coil Unit >>

Heating usage = hot water flow rate * (hot water inlet temperature-hot water outlet temperature) * operating time * equipment efficiency

Cooling capacity = cold water capacity * (cold water inlet temperature-cold water outlet temperature) * operating time * equipment efficiency

Power = Fan Motor Power Consumption * Running Time * Equipment Efficiency

or,

Heating usage = heating capacity 1 * uptime * supply temperature efficiency * equipment efficiency

Cooling capacity = Cooling capacity 1 * Uptime * Supply temperature efficiency * Equipment efficiency

(Heating capacity 1, cooling capacity 1, fan motor power consumption 1 is the specification or design value heating and cooling capacity suggested by the equipment company, and the supply temperature efficiency is the efficiency comparing the difference between the supply reference temperature and the actual supply temperature.)

<< damper >>

Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1

Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1

(Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃)

<< Lighting power consumption >>

Power Consumption = Lighting Power Consumption * Uptime

Subsequently, referring to FIGS. 1 and 3, the fan coil unit controller 20 is formed in a fan coil unit equipped with a fan, a valve, a cold / hot water pipe, and a fan motor, and each space including the fan coil unit. The unit input / output unit 21, the unit communication unit 22, the unit memory unit 23, the power supply unit 24, and the unit control unit 25 are largely configured to control the energy-using device for each star.

The fan coil unit controller 20 configured in this way is installed for each space and receives an operation signal from the building control device 10 according to the reservation information of the corresponding space in which the controller is installed, the lighting device, the temperature controller, and the damper installed in the space. Controls the use of energy-using devices such as regulators, occupancy sensors, and reads energy usage in real time to transfer to the building control device 10.

To this end, the unit input and output unit 21 of the fan coil unit controller 20, the state of the energy-using device for each space and the energy use meter reading amount is input, for this purpose, is connected to the fan coil unit and the fan speed of the fan coil unit (Low / medium / high), open / close of valve, hot / cold water inlet temperature, hot / cold water outlet temperature, hot / cold water flow rate, fan coil unit input / output unit where fan motor power usage is read, and damper controller Proportional control of the air supply damper to control the air volume of the air supply, and the input and output of the damper controller, which is inputted after the air supply air volume and air supply temperature are read, and the temperature controller and the fan coil unit fan based on the current temperature and the set temperature in the space. A temperature controller input / output unit for proportionally controlling the damper of the speed and damper controller, a lighting device input / output unit connected to a lighting device and inputted with metering of lighting power usage, It is configured to include the sensor chamber of the operation timer and input and output units of the occupancy sensor for controlling the operation, and performs the status and energy consumption meter reading function of energy using devices.

In addition, the unit communication unit 22 of the fan coil unit controller 20 is connected to the building control device 10 to exchange information between the control state of each space and the state of the energy use device, the energy use device 30 for each space It is configured to be connected to the control and metered energy usage of each energy-using device is exchanged information, for this purpose, the central wireless communication module and energy-using device 30 connected to the building control device 10 for this purpose The device wireless communication module is configured.

In this case, a wired communication module may be used as the wireless communication module.

In addition, the unit communication unit 22 is connected to the fan coil unit controller in the neighboring space according to the size of the building to perform the role of a repeater using a relay module to transfer its information and energy consumption to the building control device 10. do.

On the other hand, the unit memory unit 23 of the fan coil unit controller 20 is a place where the information transmitted from the input / output unit 21 and the communication unit 22 is dataized and stored through the unit control unit 25, the corresponding space installed Reservation information and energy use device operation status data for control of the data, and the energy usage metering data measured at each energy use device is stored.

More specifically, the reservation information input to the data input unit of the building control device 10, the occupant detection data through the detection of the occupants in the space, the light switch ON / OFF state data, the exit button ON / OFF state data is stored The energy consumption such as heat or power consumption of the fan coil unit, damper heat consumption and lighting power consumption is stored.

Subsequently, the unit controller 25 of the fan coil unit controller 20 controls the input / output unit 21, the communication unit 22, and the memory unit 23 through a control signal, and controls the set temperature and the room temperature. By controlling the air temperature according to the comparison of the fan speed and the temperature difference of the fan coil unit by comparing the room temperature degree, the control of the energy use device in the space is executed by the internal control logic based on the data stored in the memory unit 23.

The fan coil unit controller 20 is connected to the power supply unit 24 of the fan coil unit to receive power energy.

On the other hand, the fan coil unit controller 20 is installed in the fan coil unit for each space to control the energy-using device, according to the size of each space as a general energy use device that is not provided with the fan coil unit controller 20 A plurality of fan coil units may be installed in the space.

At this time, the fan coil unit is controlled by the fan coil unit having the fan coil unit controller 20, and the fan coil unit controller (by reading the fan speed, valve state, cold / hot water inlet / outlet temperature, power amount, etc. in real time). 20) or receive a control signal.

Figure 4 (a) (b) is a schematic diagram showing an energy-using device applied to an embodiment of the present invention, Figure 5 is a block diagram showing a temperature controller with a built-in lighting switch applied to an embodiment of the present invention to be.

Referring to Fig. 4 (a) and (b), the energy use device 30 installed in each space includes a communication unit 31, a power supply unit 32, and an input / output unit 33.

At this time, the communication unit 31 is provided with a wireless communication means using an RF module to be connected to the fan coil unit controller 20 provided for each space receives a control signal, the power supply unit 32 of each energy-using device It will supply power.

In addition, the input / output unit 33 reads the energy usage of each energy-using device in real time, and is connected to a switch to directly control the operating state of each energy-using device.

Although not shown, each energy-using device is an independent device including a separate memory unit (not shown) in which the metered energy consumption is stored and a control unit (not shown) controlling the operation of the device by control logic. Can be used.

Such, the energy-using device 30 provided in the space may include a room sensor (a), damper controller (b), temperature controller (c), lighting equipment (d), a separate fan coil unit (e) In addition, the occupancy sensor (a) detects the occupant in the space and informs the fan coil unit controller 20 through the input / output unit 33a constituting the occupancy sensor module a1 and is provided with a timer 34a. For example, a signal is sent to the fan coil unit controller 20 according to 0 to 60 minutes, so that the use of the energy using device 30 can be controlled.

The damper controller (b) supplies cool air or hot air through the duct installed in the space, that is, provides heating and cooling. It is read through the input / output unit 33b of the regulator module b1 and is transmitted to the fan coil unit controller 20 so that the operation state is controlled.

In addition, the temperature controller (c) uses the temperature controller module (c1) according to the control signal of the fan coil unit controller 20 to adjust the fan speed of the fan coil unit and the damper of the damper controller based on the present temperature and the set temperature. A proportional control is provided, that is, a switch for vacancy control, that is, a exit button 35c is provided so that the cooling and heating supply in the space is stopped when the exit button is operated.

In addition, the lighting device (d) is composed of a plurality of lights (d1) installed in each space, and a light switch (36d) and a light switch module (d2) connected by a lighting circuit for controlling the operation of the light (d1). do.

The user of the corresponding space can select and control the use of the lighting (d1) by using the lighting switch (36d) connected to the relay and the lighting circuit, the lighting switch module (d2) is a number depending on the size of each space Dogs are installed.

On the other hand, the energy used in the lighting device (d), that is, the amount of power transfers the reading value to the fan coil unit controller 20 in the corresponding space through the input / output unit 33d in the module d2.

In addition, as shown in FIG. 4 (b), a plurality of separate fan coil units (e) may be provided in addition to the fan coil unit including the fan coil unit controller 20 provided in the corresponding space according to the size of the space.

At this time, the fan coil unit (e) is to supply cold or hot water by supplying cold water or hot water in the installed space, the communication unit 31e, the same as the other energy-using device 30 in the space shown in Figure 4 (a), A fan coil unit module e1 having a power supply unit 32e and an input / output unit 33e configured therein; The fan speed is read and transmitted to the fan coil unit controller 20 and the operation is controlled according to the control signal of the fan coil unit controller 20 and the communication unit.

On the other hand, referring to Figures 4 (a) and 5, the temperature controller is used as a temperature controller 50 that includes a light switch module of the lighting device built-in light switch.

At this time, the temperature controller 50 with the lighting switch is to perform the temperature control and lighting control for each space together according to the control signal of the fan coil unit controller 20, the lighting switch 36d and the lighting (d1) ) Is configured so that a separate power supply source is not needed by using the supply power supply unit 52 of the lighting circuit.

To this end, the temperature controller 50 built-in the light switch, the lighting / temperature module (f) is composed of a communication unit 51, the power supply unit 52, the input / output unit 53, the exit button 35c and the illumination A switch 36d is provided.

At this time, the communication unit 51 is provided with a wireless communication means using an RF wireless communication module to be connected to the fan coil unit controller 20 provided for each space, the amount of power of each energy using device through the input and output unit 53 That is, the energy usage is read in real time and transmitted to the fan coil unit controller 20.

In addition, the operation of the device is controlled by the fan coil unit controller 20 according to the room temperature and the set temperature value for each space transmitted to the input / output unit 53.

6 is a view showing a vacancy control energy saving system based on space reservation management including a vacancy control device according to another embodiment of the present invention, Figure 7 is a vacancy control device applied to another embodiment of the present invention Figure showing.

On the other hand, the vacancy control energy saving system (1) based on the space reservation management according to the present invention, in another embodiment of the configuration in the building (2), according to the information reserved for each space of the building (2) Therefore, even if there is no operation control signal of the fan coil unit controller 20 of the building control device 10, the operation of the energy-using device 30 through the fan coil unit controller 20 by the user (resident) for each space. Vacancy control device 40 is further included to control.

More specifically, according to an embodiment of the present invention, each space in the building is an energy-using device through the fan coil unit controller 20 provided in the corresponding space by reservation information input to the building control device 10 ( The use of 30) is permitted, and there is a case where an empty space (vacant space) is inadvertently used for control of the empty space (vacancy). At this time, the user who wants to use the vacancy without passing through the building control device 10 becomes a passenger and can control the operation of the fan coil unit controller 20 through the vacancy control device 40 provided in the space. .

At this time, the use state of each space by the vacancy control device 40 is known to the building control device 10 by the wireless communication means, the energy use equipment through the fan coil unit controller 20 The operation state of the 30 and the metered energy usage value are transmitted to the building control device 10 and dataized.

To this end, the vacancy control device 40, referring to Figure 7, is composed of a vacancy input and output unit 41, vacancy communication unit 42, vacancy power supply unit 44, vacancy control unit 45, can be confirmed by the occupant The display unit 43 is further configured as necessary to provide.

The vacancy input / output unit 41 is a place where the user of the space to be used in the building, that is, the occupant enters information for using the space, preferably inputs the same contents as the reservation information.

In other words, according to the use of the vacancy control device 40, the space information (floor, room), the use date, the use time are automatically input, and the occupant can enter the heating / cooling supply, the use of lighting, and the indoor desired temperature. . This is transmitted to the building control device 10 through the communication unit 42 in accordance with the control signal of the control unit 45.

In addition, the communication unit 42 is connected to the building control device 10 using a wireless communication means using an RF module, and the fan coil unit controller 20 is connected by a unit wired communication module.

As described above, the vacancy control energy saving system based on the space reservation management according to the present invention primarily permits the energy used in the energy use equipment for each space in the building according to the reservation information, thereby eliminating unnecessary space (vacancy). Reduces energy use, reduces unnecessary energy use by controlling the use of energy-using devices through the fan coil unit controller in the second reserved space, and thirdly, heating and cooling usage and lighting power of the user occupants in the reserved space, that is, energy Save energy by metering usage.

8 is a flowchart illustrating a vacancy control energy saving method based on space reservation management according to the present invention.

As shown, the energy saving method using the vacancy control energy saving system (1) based on the space reservation management according to the present invention, the use of the energy used in the building for the entire building to use the entire building Minimize the energy generated.

To this end, the vacancy control energy saving method includes a reservation information management step (S1), a control method determination step for each space (S2), a vacancy control step (S3), a reservation space control step (S4), and an energy consumption calculation step (S5). Is made of.

First, the reservation information management step (S1) is a step of inputting and storing the reservation information and the energy consumption of the device for use by space in each building.

Accordingly, the energy consumption amount of the energy-using device of each space is input and stored in the building control device in the building, and the user who wants to use each space can use the space information (floor, room) of the corresponding space, and the use date and space of each space. The time, the heating and cooling supply, the use of lighting and the desired temperature of the used space are stored.

In addition, the control method for each space is determined in step S2 based on the data of the reservation information management step S1 to determine the control method for each space in the building.

In this case, the use of energy is controlled according to the reserved space control step S4, and the use of energy is controlled according to the vacancy control step S3.

In the vacancy control step (S3), the occupants in the unreserved space cannot use the heating, cooling, or lighting of the space. More specifically, in the empty space (vacancy), the heating and cooling supply is cut off and the illumination remains OFF, the temperature setting of the occupants is impossible to use the illumination. In addition, the cold / hot water valve of the fan coil unit is kept in the CLOSE state.

However, in the vacancy control step (S3), the energy consumption of the energy-using device in the space is read in real time by the fan coil unit controller 20 provided in the space, and the read value is measured through the fan coil unit controller. It is delivered to the building control device 10 and stored. At this time, the fan coil unit controller and the building control device are connected by a wireless communication method.

Subsequently, in the reserved space control step (S4), the user is a room occupant in accordance with the reservation information input to the building control apparatus, and the heating and cooling in the corresponding space can be used.

More specifically, according to the reservation information, the heating and cooling is supplied according to the desired reservation temperature and the illumination is kept ON. In addition, the heating and cooling according to the temperature setting through the temperature controller of the occupant can be continuously supplied, that is, available. On the other hand, when the occupants in the reserved space are not detected by the occupancy sensor among the energy use devices installed in the space, the use of air conditioning and energy use equipment is restricted to save energy. In addition, according to the settings of the occupants, when the lighting is OFF, the reserved space is determined to be an empty space (vacancy) after a predetermined time and supply of air conditioning is stopped. However, when the lighting is turned on again according to the settings of the occupants during the reserved time, the supply of air conditioning and heating is continued.

On the other hand, when the switch unit (exit button) of the temperature controller or the temperature controller with the built-in lighting switch is operated, the supply of heating and cooling in the corresponding space is stopped.

In addition, the energy consumption of the energy-using device in the space is read in real time by the fan coil unit controller 20 provided in the space in the same manner as the vacancy control step (S3), and the read value is measured by the fan coil unit controller. It is transmitted to and stored in the building control device 10 through. At this time, the fan coil unit controller and the building control device are connected by a wireless communication method.

Subsequently, in the energy usage calculation step (S5), the building control device of the building calculates energy consumption for each space in real time based on the energy usage for each space received through the fan coil unit controller for each space. In addition, the total amount of energy used for each space is calculated to calculate the total heating and heating load, and by using the total heating and heating load to determine the use of the minimum number of fan coil units for maintaining a constant temperature in the building to control it.

As a result, the building normally maintains a constant temperature, for example, minimum heating and freezing temperature of 5 ° C. to prevent freezing in winter.

On the other hand, the user to reserve the reserved space, the user is paid for the amount of energy used based on the value calculated by the building control device.

The present invention described above is limited to the above-described embodiment and the accompanying drawings as various substitutions and modifications can be made within a range without departing from the technical spirit of the present invention for those skilled in the art. It doesn't happen.

The energy saving system and method for vacancy control based on space reservation management according to the present invention as described above permits the use of energy heating and heating and lighting and energy-using equipment according to the reserved information, thereby preventing unnecessary energy use. Reduces the secondary energy use according to the control by using the space control device in the reserved space, and charges the charge by real-time reading of the heating and cooling capacity of the occupants in the reserved space and the amount of power used by the energy-using device in real time. It has the effect of saving energy.

Claims (22)

In the device of the energy saving system for reducing the energy consumption of the space in the building, An energy use device in the space that is licensed according to the reservation information for each space and each energy usage is read in real time; A fan coil unit controller for wirelessly controlling the energy-using device and storing meter reading data thereof; One side of the building wirelessly controls the operation of the fan coil unit controller according to the reservation information for each space, and stores energy usage meter data of the energy using device delivered to the fan coil unit controller, based on the meter data. Including a building control device for calculating the energy consumption of each space, the total energy consumption of the building, the building heating and cooling load and the number of use of the heating and cooling energy use equipment; According to the reservation information for each space is made to efficiently manage the energy consumption in the building; The building control device includes a communication unit connected to the fan coil unit controller; A data input unit for inputting reservation information of space information, use date, use time, air-conditioning or lighting use, and desired temperature of each floor / room; A data output unit which displays or outputs the energy usage and usage state of each space for reservation, the energy consumption for each space, the total heating / cooling load of the building, the number of air-conditioning equipments used, and the required air volume data for each space; A database unit for storing the reservation information input through the data input unit, the energy consumption amount of the energy using device, the actual energy consumption of the energy using device input through the fan coil unit controller, and the energy consumption according to the space; The reservation information is processed based on the data input to the database unit, and the energy consumption of each space and the energy consumption of the entire building are calculated. Accordingly, the number of air-conditioning and energy-using devices used in the building is calculated. A central controller controlling the data output unit, the database unit, and the communication unit through a control signal; The vacancy control energy saving device based on space reservation management, characterized in that configured to include a power supply for supplying power. delete The method of claim 1, wherein the central control unit, A reservation management processing unit for processing the permission of the fan coil unit controller for each space through a control signal according to the reservation information; A meter reading calculator for calculating energy consumption for each space based on the energy consumption of the energy using device and the energy consumption of the energy using device through the fan coil unit controller; A load calculation unit configured to calculate an energy usage of the entire building based on the energy usage of each space, and calculate an energy load of the entire building accordingly; The room control energy saving device based on space reservation management, characterized in that it comprises a device operation number selection unit for selecting the number of use of the energy-using device for heating and cooling based on the energy consumption and energy load of the entire building. The method of claim 3, wherein The energy saving device of the vacancy control based on space reservation management, characterized in that the energy usage of the meter reading unit is calculated based on the energy consumption of the energy-using device for each space using the following formula. << Fan Coil Unit >> Heating usage = hot water flow rate * (hot water inlet temperature-hot water outlet temperature) * operating time * equipment efficiency Cooling capacity = cold water capacity * (cold water inlet temperature-cold water outlet temperature) * operating time * equipment efficiency Power = Fan Motor Power Consumption * Running Time * Equipment Efficiency << damper >> Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 (Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃) << Lighting power consumption >> Power Consumption = Lighting Power Consumption * Uptime The method of claim 3, wherein The energy saving device of the vacancy control based on space reservation management, characterized in that the energy usage of the meter reading unit is calculated based on the energy consumption of the energy-using device for each space using the following formula. << Fan Coil Unit >> Heating usage = heating capacity 1 * uptime * supply temperature efficiency * equipment efficiency Cooling capacity = Cooling capacity 1 * Uptime * Supply temperature efficiency * Equipment efficiency Power consumption = Fan motor power consumption 1 * operating time * equipment efficiency (Heating capacity 1, cooling capacity 1, fan motor power consumption 1 is the specification or design value heating and cooling capacity suggested by the equipment company, and the supply temperature efficiency is the efficiency comparing the difference between the supply reference temperature and the actual supply temperature.) << damper >> Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 (Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃) << Lighting power consumption >> Power Consumption = Lighting Power Consumption * Uptime The method of claim 1, The fan coil unit controller is formed in a fan coil unit equipped with a fan, a valve, a cold / hot water pipe, and a fan motor. A unit memory unit configured to store reservation information of the corresponding space, meter reading data of energy usage of the energy consuming device, and operation state data of the energy consuming device; A unit communication unit connected to the communication unit of the building control unit to receive an operation control signal and data, and connected to an energy-using device to transmit an operation control signal thereof; An input / output unit for inputting and outputting a fan, a valve, a state of an energy-using device in the space, and a metered energy consumption; A unit controller which controls the input / output unit, the communication unit, the memory unit by a control signal, and controls an energy-using device based on the data of the unit memory unit; The vacancy control energy saving device based on space reservation management, characterized in that configured to include a power supply for supplying power. The method of claim 6, The unit communication unit, the room control energy saving device based on space reservation management, characterized in that configured to include a relay module to act as a repeater for connecting the building unit and the fan coil unit controller in the neighboring space. The method of claim 6, The input / output unit is connected to the fan coil unit and supplies the cold or hot water to control the fan speed of the fan coil unit, the opening and closing control of the valve and the hot and cold water inlet temperature, cold and hot water outlet temperature, cold and hot water flow rate, the amount of fan motor power is read Fan coil unit input and output unit, A damper controller input / output unit connected to the damper controller and inputting the proportional control of the air supply damper for adjusting the air volume of the damper controller, the air supply air flow rate, and the air supply temperature to be read; A temperature controller input / output unit connected to the temperature controller and proportionally controlling the fan coil unit fan speed and the damper of the damper controller based on the current temperature and the set temperature; A lighting device input / output unit connected to a lighting device and inputting a lighting power usage amount, The room control energy saving device based on the space reservation management, characterized in that it comprises a room sensor input and output unit for controlling the operation of the room sensor and the operation of the timer. The method according to claim 1 or 6, The energy-using device includes a communication unit connected to a fan coil unit controller using a wireless communication unit and receiving a control signal, an input / output unit for reading the energy usage of the energy-using device in real time and delivering the power to the fan coil unit controller, and supplying power. The vacancy control energy saving device based on space reservation management, characterized in that configured to include a power supply. The method of claim 9, The energy-using device is configured to include a damper controller, a temperature controller, a lighting device, a room sensor, a fan coil unit, The temperature controller, including the exit button connected to the input and output unit vacancy control energy saving device based on the space reservation management, characterized in that configured to stop the cooling and heating supply of the space when the operation of the exit button. The method of claim 9, The energy-using device is configured to include a damper controller, a temperature controller, a lighting device, a room sensor, a fan coil unit, The lighting device comprises a plurality of lights installed in the space, a light switch connected by a lighting circuit for controlling the operation of the light, and a light switch module connected to the fan coil unit controller, the communication unit in the light switch module, An energy saving device based on space reservation management, comprising: a power supply unit and an input / output unit, wherein a user of a corresponding space can select lighting use by the light switch. The method of claim 9, The energy-using device is configured to include a damper controller, a temperature controller, a lighting device, a room sensor, a fan coil unit, The temperature controller includes a light switch module having a communication unit, a power unit, and an input / output unit. The temperature controller includes a light switch. The temperature controller controls temperature and lighting in a space, and a separate power supply unit is used by using a power unit connected to the light switch module. The vacancy control energy saving device based on space reservation management, characterized in that it is configured not to be necessary. The method according to claim 1 or 6, Each of the spaces, based on the space reservation management, characterized in that it further comprises a vacancy control device for controlling the operation of the energy-using device in the space by wirelessly controlling the operation of the fan coil unit controller separately from the building control device Vacancy control energy saving device. The method of claim 13, The vacancy control device includes an input / output unit for inputting and outputting a use date, a use time, whether air conditioning or lighting is used, a desired temperature for a user to use the space in the space, A display unit showing the input state of the user and the use state of the energy-using device; A communication unit connected to the building control apparatus and the fan coil unit controller by wireless communication means; A control unit controlling the input / output unit and the communication unit by a control signal; The vacancy control energy saving device based on space reservation management, characterized in that it comprises a power supply for supplying power. A building equipped with an energy consuming device installed in each space in the building, a fan coil unit controller installed in the space to control the energy consuming device, and a building control device installed at one side of the building to control the fan coil unit controller. In the energy saving method of A reservation management step of storing reservation information for use of each space in the building and an energy consumption amount of the energy-using device in the building control device; The fan control unit determines whether each space is a reserved space or an empty space (vacancy) by the building control device according to the reservation information of the reservation management step, and determines the permission and control of the use of energy devices in the reserved space and the vacancy. Determining a control method for each space to be transmitted to the unit controller; A vacancy control step in which only the use of an energy-using device for maintaining the lowest temperature set in the vacancy is permitted and controlled by the fan coil unit controller in the vacancy when the control method for each space is determined as an empty space (vacancy); A reservation space control step of allowing use of the energy-using device by the fan coil unit controller in the corresponding space when the space is determined in the space-based control method determination step, and reading the amount of energy used in real time; The energy consumption of the energy-using device for each space controlled according to the vacancy control step and the reservation space control step is transferred to the building control device. Based on this, the building control device uses the energy consumption of each space, the energy consumption of the entire building, and the building. Calculating an amount of energy used in the store, and calculating an amount of energy used to charge a user fee for the amount of energy used by the user of the corresponding space; Each space in the building controls the use of energy-using devices according to the reservation information, and saves energy by efficiently managing energy usage for each space in the building according to the metered energy consumption in real time. Energy saving method based on vacancy control. The method of claim 15, The reservation information of the reservation management step, the floor / room space information of the reservation space, the date of use of the space, the use time of the space, whether the heating and cooling of the space, the use of lighting of the space, the hope of the space A space control energy saving method based on space reservation management, characterized in that the temperature. The method of claim 15, In the vacancy control step, the heating and cooling supply, the use of lighting, the temperature setting, the use of cold and hot water valves are blocked by the user, and the fan coil unit controller is made by real-time energy consumption of the energy-using device in the corresponding space for maintaining the minimum temperature. The vacancy control energy saving method based on space reservation management, characterized in that the transmission to the building control device through. The method according to claim 15 or 17, Each space in the building is provided with a space control device connected to the fan coil unit controller for each space and controlling the same. In the vacancy control step, a user who does not reserve the space can use the fan coil unit controller and the energy using device in the space by the space control device, and the energy consumption is measured in real time. Energy saving method based on vacancy control. The method of claim 15, In the reserved space control step, the heating and cooling supply and lighting can be continuously used according to the desired temperature in the reserved space, and the energy use device, that is, the heating and cooling supply, is not provided when the occupants are not detected in the space through the occupancy sensor and the lights are turned off or dismissed. And the use of lighting is stopped, and the energy usage of the energy-using device is read in real time and transmitted to the building control device through the fan coil unit controller. The method of claim 15, The energy usage calculation step is to calculate the energy consumption of each space, energy consumption in the building and total heating and heating load in the building controller based on the energy usage of the space energy using device received through the fan coil unit controller for each space, An energy saving method of vacancy control based on space reservation management, characterized by determining the use of energy-using equipment for maintaining the lowest temperature in the room. The method of claim 20, In the energy usage calculation step, the energy consumption of each energy-using device for each space is read using the following formula, and the energy consumption for each space is calculated based on this. Way. << Fan Coil Unit >> Heating usage = hot water flow rate * (hot water inlet temperature-hot water outlet temperature) * operating time * equipment efficiency Cooling capacity = cold water capacity * (cold water inlet temperature-cold water outlet temperature) * operating time * equipment efficiency Power = Fan Motor Power Consumption * Running Time * Equipment Efficiency << damper >> Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 (Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃) << Lighting power consumption >> Power Consumption = Lighting Power Consumption * Uptime The method of claim 20, In the energy usage calculation step, the energy consumption of each energy-using device for each space is read using the following formula, and the energy consumption for each space is calculated based on this. Way. << Fan Coil Unit >> Heating usage = heating capacity 1 * uptime * supply temperature efficiency * equipment efficiency Cooling capacity = Cooling capacity 1 * Uptime * Supply temperature efficiency * Equipment efficiency Power consumption = Fan motor power consumption 1 * operating time * equipment efficiency (Heating capacity 1, cooling capacity 1, fan motor power consumption 1 is the specification or design value heating and cooling capacity suggested by the equipment company, and the supply temperature efficiency is the efficiency comparing the difference between the supply reference temperature and the actual supply temperature.) << damper >> Heating usage = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 Cooling capacity = air flow rate * damper opening rate (0-100%) * (air supply temperature-room temperature) * operating time * specific heat 1 (Specific heat 1: specific heat of air 0.24 ㎉ / ㎏ ℃) << Lighting power consumption >> Power Consumption = Lighting Power Consumption * Uptime

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