KR200395303Y1 - Fan coil unit controller without man - Google Patents

Abstract

The present invention relates to a fan coil or floor coil unit unmanned control system, by using a human body sensor to monitor the presence of people, if there is no person to operate the fan coil or floor coil unit for a predetermined time, If there is no person after a certain time has elapsed, by providing an unmanned control system for cooling and heating devices to stop the operation of the fan coil or the bottom coil unit, to prevent energy waste.

Description

Fan coil unit controller without man}

The present invention relates to a fan coil unit and a floor coil unit control system, and more specifically, to control the operation of the fan coil and the bottom coil unit according to the presence of a person, so that energy saving effect can be obtained. It relates to a heating / heating device unmanned control device.

In general, a large number of fan coil units are installed in a large building to efficiently heat and cool. Such conventional fan coil units are controlled by zones, that is, by floors or sections, or individually. The 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, since this conventional method uses a method controlled by temperature, the fan coil unit can be operated even in a space without a person because it operates only according to the temperature regardless of the presence or absence of a person when there are several seals. There was a problem of wasting energy.

In addition, when controlling by floor or section, even if a space where a person exists in a wide space is narrow, all of the corresponding sections must be controlled, causing unnecessary energy waste.

In addition, in the case of the floor coil through which the hot water installed on the floor for heating passes, the energy is wasted because it is controlled only according to the set temperature as described above.

An object of the present invention for solving the problems as described above is to control the operation of the cooling / heating device, that is, the fan coil and the bottom coil unit according to the presence of a person, if there is no person for a predetermined time set the fan coil and It is to provide an unmanned control system for cooling / heating devices to prevent energy waste by allowing the floor coil unit to operate and stopping the operation of the cooling / heating device when a certain time elapses.

A feature of the present invention for achieving the above object is to select a variety of operation modes including a human body sensor for detecting the presence of a person, a temperature sensor for measuring the internal temperature, a timer, the set time of the timer. A key input unit, a display unit operated according to an input operation control signal, a switch unit intermitting a power applied to a cooling / heating device including a fan coil unit or a bottom coil unit according to an input operation control signal, and a human body Controls the operation of the switch unit, the cooling / heating unit, and the display unit based on the signals output from the sensing sensor, the temperature sensing sensor, and the key input unit, and if there is no person, turns on the switch unit for a predetermined time. Keep it in the state to operate the cooling / heating device, and if there is no person after the predetermined time By turning off the unit (OFF) to stop the operation of the cooling / heating device, and to provide an unmanned control system for cooling / heating device comprising a control unit for outputting various operation modes through the display unit, to improve the energy efficiency .

An embodiment of the present invention as described above will be described with reference to the accompanying drawings. In the embodiment of the present invention, a fan coil unit will be described, and the bottom coil unit is the same as the operation of the fan coil unit. Omit the description.

1 is a block diagram showing a fan coil unit control apparatus according to the present invention, Figure 2 is a view showing an installation example of the fan coil unit unmanned control system according to the present invention.

Fan coil unit control apparatus according to the present invention is the human body sensor 10, the temperature sensor 20, the timer 30, the key input unit 40, the display unit 50, the switch unit 60, the control unit 70 It consists of.

The human body sensor 10 detects the presence of a person and outputs a signal corresponding thereto. In general, an infrared sensor is used, and the human body sensor 10 is installed at a ceiling or a corner of a wall opposite the door.

And, the temperature sensor 20 is installed at a height of 1-2m indoors, detects the temperature of the room and outputs a signal corresponding thereto.

The key input unit 40 and the display unit 50 are formed at a position that can be manipulated by a person so that a user can operate the key input unit 40 while looking at the display unit 50, and through the key input unit 40, It is possible to set the room temperature, the on / off of the fan coil unit, the timer setting, the cooling / heating setting, and the like, and the display unit 50 allows the user to recognize the set temperature, the set time, and the current room temperature. Since the operations of the key input unit 40 and the display unit 50 are already known, a description thereof will be omitted.

In addition, the switch unit 60 is connected between the power supply 80 and the fan coil unit 100, and typically uses a relay switch, a transformer, and the like, and the switch unit 60 is applied from the control unit 70. The short, that is, on / off is controlled according to the operation control signal.

Looking at the operation of the control unit 70, first, when the user drives the fan coil unit 100 through the key input unit 40, the fan coil unit 100 is operated while the switch unit 60 is turned on, and the temperature The operation of the fan coil unit 100 is controlled to maintain the room temperature at the set temperature based on the signal output from the detection sensor 20.

In this process, the controller 70 continuously detects whether a person is indoors based on a signal output from the human body sensor 10, and drives the timer 30 when the person is not indoors. The fan coil unit 100 is driven during t1).

As described above, the controller 70 continuously determines a signal output from the human body sensor 10 during a predetermined time t1 when the fan coil unit 100 is driven without a person, and when a person enters. The timer 30 is reset and controls the operation of the fan coil unit 100 to maintain the room temperature at a set temperature based on the signal output from the temperature sensor 20.

However, if there is no person even after a certain time t1 elapses, the controller 70 resets the timer 30, outputs an operation control signal to the switch unit 60, turns off the switch unit 60, and turns off the fan coil. The operation of the fan coil unit 100 is stopped by cutting off the power transmitted to the unit 100.

In this case, the setting time may be arbitrarily manipulated by the user through the key input unit 40. For example, the setting time may be set to 30 minutes, 45 minutes, 60 minutes, 90 minutes, and the like.

Therefore, according to the present invention, when there is no person, the operation of the fan coil and the bottom coil unit is automatically stopped after a predetermined time, thereby preventing unnecessary waste of energy.

In addition, since the fan coil and the bottom coil unit are driven for a certain time even if there is no person, the fan coil and the bottom coil unit are continuously driven when the person is away for a while, so the fan coil and the bottom coil unit are stopped and restarted. When it is possible to reduce the time and energy required to rise to the set temperature, improve the user satisfaction and save energy.

1 is a block diagram showing a fan coil unit control system according to the present invention

2 is a view showing an installation example of the fan coil unit unmanned control system according to the present invention

* Description of the symbols for the main parts of the drawings *

10: human body sensor 20: temperature sensor

30: timer 40: key input unit

50: display unit 60: switch unit

70 control unit 100 fan coil unit

Claims (3)

In the unmanned control system for heating / cooling unit including a fan coil unit or a bottom coil unit, Human body detection sensor such as infrared detection sensor for detecting the presence of a person, Temperature sensor for measuring internal temperature, timer, A key input unit for selecting various operation modes including a set time of the timer, A display unit operated according to an input operation control signal, Switch unit for controlling the power applied to the fan coil unit in accordance with the input operation control signal, Control the operation of the switch unit, the fan coil or the bottom coil unit and the display unit based on the signals output from the human body sensor, the temperature sensor, and the key input unit, and if there is no person, turns on the switch unit for a predetermined time. The fan coil or the bottom coil unit is operated by keeping it in the ON state, and if there is no person after the predetermined time, the switch unit is turned off to stop the operation of the fan coil or the bottom coil unit, and various operation modes Cooling / heating device unmanned control system, characterized in that it comprises a control unit for outputting through the display. The unmanned control system of claim 1, wherein the human body sensor is installed at a corner of a ceiling or a wall. The unmanned control system of claim 1, wherein the temperature sensor is installed at a height of 1-2m from the bottom surface.