KR200283883Y1 - The air condition system using enthalpy in a outsider temperature - Google Patents

Abstract

The present invention detects the enthalpy (heat content) of the outside temperature and the enthalpy of exhaust air discharged from the inside of the building to the outside, and detects the amount of carbon dioxide (CO ₂ ) inside the building according to the difference. Therefore, the automatic opening rate of the external air inlet damper and the internal air exhaust damper installed in the building is automatically adjusted to automatically adjust the amount of air flowing into the building from the outside and the amount of air discharged from the inside of the building to the outside.

The present invention relates to an air conditioner using enthalpy of the outside air, which enables the control and setting of all driving devices in the central main control system so that all control situations can be identified and understood at a glance.

Description

Air conditioner using enthalpy of outside air {The air condition system using enthalpy in a outsider temperature}

The present invention relates to a constant temperature / humidity air conditioner installed inside a building to perform air conditioning and humidification control. More specifically, an enthalpy (heat content) of outside temperature and exhaust air discharged from the inside of a building to the outside By detecting the enthalpy and detecting the amount of carbon dioxide (CO ₂ ) inside the building and automatically adjusting the amount of air flowing into the building from the outside and the amount of air discharged from the inside of the building according to the detected amount The present invention relates to an air conditioner using an enthalpy of outside air, which enables highly efficient and ideal energy saving management to be carried out, but which enables central control of all drives in the main control system.

In general, constant temperature and humidity devices and air conditioning units installed in buildings operate freezers for indoor dehumidification in the summer to maintain the same indoor temperature and humidity regardless of the temperature or humidity of the outdoor air. It is operated in an inefficient manner by operating boilers and heating and cooling humidifiers all year round.

Therefore, this technology has emerged to improve this, by detecting the temperature and humidity of the building interior and compare the room temperature and humidity value with a predetermined set value set by the administrator to constantly maintain the room temperature and humidity according to the set temperature and humidity. There is a control method to maintain.

However, the indoor temperature and humidity setting control method has a certain energy saving effect compared to the conventional one by the administrator giving a setting value arbitrarily, but the administrator manually changes the temperature and humidity value according to the condition of the external air. Many problems have been exposed, including the hassle of setting and inaccurate setting.

In addition, the conventional energy device has a setting unit (temperature setting, humidity setting switch, etc.) is located in the site where the driving device, such as cooling, heating or humidity device is installed, the administrator is installed in order to control the temperature and humidity, etc. There was a cumbersome problem of moving to a location.

The present invention was devised to solve the above problems, and the object of the present invention is to detect the enthalpy (heat content) of the outside temperature and the enthalpy of exhaust air discharged from the inside of the building to the outside, and according to the difference, the building Detects the amount of carbon dioxide (CO ₂ ) inside and adjusts the amount of air flowing into the building from the outside and the amount of air discharged from the inside of the building to the outside according to the detected amount and the external air inlet damper and internal air discharge damper installed in the building It is to provide an air conditioner using the enthalpy of the outside air so that the efficiency of the energy saving management can be performed very efficiently by automatically adjusting the opening rate of.

Another object of the present invention is to provide an air conditioner using the enthalpy of the outside air so that all the control situations can be checked and understood at a glance, as well as control of all the driving devices in the central main control system.

The present invention for achieving the above object is an indoor temperature detection unit for detecting the temperature inside the building through the indoor temperature sensor, and an outside air temperature for detecting the temperature of the air flowing into the building from the outside through the outside temperature sensor Exhaust air temperature detection unit for detecting the temperature of the air discharged to the outside of the building through the exhaust sensor, exhaust temperature sensor, indoor and outdoor humidity detection unit for detecting the humidity inside and outside the building through the humidity sensor and the external temperature and humidity sensor And a sensing unit including a fan driving RPM detecting unit detecting an RPM of the indoor ventilation fan and a carbon dioxide detecting unit detecting a concentration of carbon dioxide (CO ₂ ) in the building by using a carbon dioxide detecting sensor; The enthalpy of the air flowing from the outside is calculated by receiving the detection signal of the detector, and the enthalpy of the air discharged from the inside of the building is detected. A control unit for greatly reducing the outside air into the building and controlling the internal air to be discharged to the outside; A setting unit including a temperature setting unit for setting a building indoor temperature and a humidity setting unit for setting a building indoor humidity, and inputting a set key value to the control unit; An indoor ventilation fan driver for driving an indoor ventilation fan circulating indoor air under the control of the controller; An outside air inlet damper driver for driving the outside air inlet damper for introducing external air into the building under the control of the controller; A discharge damper driver for driving an internal air discharge damper for discharging indoor air to the outside of the building under the control of the controller; And a heating driving unit, a cooling driving unit, and a humidifying driving unit for driving the heating device, the cooling device, and the humidifying device. Has the features, including.

1 is a plan view of a building to which the air conditioner according to the present invention is applied as an embodiment,

2 is a circuit block diagram of an air conditioner according to the present invention;

3a and 3b is a control flowchart of the air conditioner using the enthalpy of the outside air according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: detection unit 20: control unit

30: setting unit 40: indoor ventilation fan drive unit

50: outside air inlet damper driving unit 60: exhaust damper driving unit

70: heating driving unit 80: cooling driving unit

90: humidification driving unit 100: freeze protection heater driving unit

110: flavor generator drive unit 120: interface

130: computer system MC: main control system

1 is a plan view of a building to which the air conditioner according to the present invention is applied as an embodiment.

As shown, the air conditioner (A) according to the present invention is installed in the interior (IN) of the predetermined building (B) (usually underground). Each floor or room of the building IN is provided with a temperature sensor 11a and a humidity sensor 14a for detecting temperature and humidity, and an indoor ventilation fan for circulating indoor air inside the air conditioner A. 40a is installed.

In addition, the air conditioner (A) has a heating device (70a) for performing a heating function, a cooling device (80a) for performing a cooling function, a humidifier (90a) for humidifying the room by generating steam, and indoors The fragrance generating device (100a) for generating the fragrance, and the freeze protection heater (110a) for preventing the freezing of the tube is installed.

In addition, an air inlet damper 50a for introducing air from the outside of the building OUT into the air conditioner A and air in the air conditioner A are formed at one side of the air conditioner A. An internal air discharge damper 60a for discharging to the outside is installed, and an outside air temperature sensor 12a for detecting an outside air temperature is installed at one side of the external air inlet damper 50a, and one side of the internal air discharge damper 60a. In the discharge air temperature sensor 13a for detecting the temperature of the discharged air is installed, the external air humidity sensor 14b for detecting the humidity of the outside air of the building is installed.

In addition, all of the detection sensors and the driving devices are connected to the main control system MC in the air conditioner A, so that all control and management can be performed centrally.

The present invention applied to the building (B) configured as described above, in the temperature and humidity control of the interior of the building, calculates the enthalpy of the air flowing from the outside, and detects the enthalpy of the air discharged from the inside of the building to the outside both If the difference in enthalpy is large, that is, the temperature of the air flowing into the room is high, the temperature of the air flowing out of the building is low (in summer-cooling operation), and the temperature of the air flowing into the building is low, When the temperature of the exiting air is high (winter-heating operation), the opening degree of the intake damper (50a) and the discharge damper (60a) is greatly reduced to allow very little air to flow into the building.

In addition, by using a carbon dioxide (CO ₂ ) sensor not shown to detect the amount of carbon dioxide (CO ₂ ) inside the building to determine the opening ratio of the dampers (50a) (60a) according to the detected amount of carbon dioxide (CO ₂ ). It is to adjust automatically. Of course, if the amount of carbon dioxide (CO ₂ ) is large, the opening rate is large, and if the amount of carbon dioxide (CO ₂ ) is small, the opening rate is small.

2 is a circuit block diagram of an air conditioner (main control system MC) according to the present invention.

As shown, the symbol 10 is a sensing unit, the indoor temperature sensing unit 11 for detecting the temperature in the building interior through the indoor temperature sensor 11a, and the outside of the building through the outside temperature sensor 12a. The outside air temperature detection unit 12 for detecting the temperature, that is, the temperature of the air flowing into the building, and the exhaust air temperature detection unit 13 for detecting the temperature of the air discharged to the outside of the building through the discharge temperature sensor 13a. And a humidity sensor 14 for detecting humidity inside and outside the building through a humidity sensor 14a and an external temperature humidity sensor 14b, and an RPM of the indoor ventilation fan 40a. A fan driving RPM detection unit 15 and a carbon dioxide detection unit 16 for detecting the concentration of carbon dioxide (CO ₂ ) in the building using a carbon dioxide detection sensor (not _shown ), each of which is a control unit (described below) ( Enter 20).

The control unit 20 programs a control method applied to the present invention and stores it in an internal memory. The control unit 20 receives various detection signals from the detection unit 10 and outputs the corresponding driving unit.

The symbol 30 is a setting unit, and includes a temperature setting unit 31 for setting the indoor temperature of the building, a humidity setting unit 32 for setting the indoor humidity of the building, and the like, and sends the corresponding key value to the control unit 20. Recognize

In addition, although not shown, the setting unit 30 includes an anti-freeze heater driving selection key for preventing freezing of tubes installed in a building room, a fragrance generating device driving selection key for generating fragrance in the room, and the like.

The reference numeral 40 is an indoor ventilation fan driver, which drives the indoor ventilation fan 40a for circulating air in the room under the control of the controller 20.

Reference numeral 50 denotes an external air inlet damper driver, and drives the external air inlet damper 50a for introducing the outside air into the building under the control of the controller 20.

Symbol 60 is a discharge damper driver, and drives the internal air discharge damper 60a for discharging indoor air to the outside of the building under the control of the controller 20.

In addition, the symbol 70 is a heating drive unit for driving the heating device (70a) to perform the heating function, the symbol 80 is a cooling drive unit for driving the cooling device (80a) to perform the cooling function, the symbol 90 is a steam Humidification driving unit for driving the humidification device (90a) to generate and humidify the room, and the reference numeral 100 is a freeze protection heater driving unit for driving a freeze protection heater (110a) for preventing the freeze protection of the pipe, etc. It is a fragrance generating device driving unit for driving the fragrance generating device (100a) for generating a fragrance indoors.

In addition, the reference numeral 120 is an interface, which interfaces with the control unit 20 and the computer system 130 and uses the data stored in the control unit 20 through the computer system 30 to calculate an enthalpy calculation value and an integrated amount. In addition, the enthalpy change is checked and calculated for various data such as average air volume calculation and total operating time.

The operation of the present invention configured as described above will be described below with reference to the flowcharts of FIGS. 3A and 3B.

First, the external temperature and humidity detected by the outside air temperature sensor 12a and the external humidity sensor 14b are input to the control unit 20 through the indoor temperature detecting unit 11 and the humidity detecting unit 14 (S1). step).

The control unit 20 receives the temperature and humidity values of the input external air, and at the same time the temperature (T1) and humidity (H1) values set in the current room input through the temperature and humidity setting unit (31, 32) Recognize (step S12).

Then, the currently set temperature T1 and humidity H1 values are changed according to the outdoor conditions (temperature and humidity). This is to reset the indoor conditions closest to the outside conditions within the range not to exceed the allowable temperature and humidity of the room (step S13). The indoor setting temperature and humidity reset data according to the outdoor condition are already stored in the memory of the controller 20 as data according to a predetermined experimental value.

The control unit 20 controls the indoor ventilation fan 40a, the heating device 70a, the cooling device 80a and the humidifier 90a according to the reset temperature T1 and humidity H1. The drive control output is performed to the ventilation fan driver 40, the heating driver 70, the cooling driver 80, and the humidification driver 90 (S14). For example, if the room temperature is lower than the set temperature, the heating device 70a is driven. If the room temperature is higher than the set temperature, the air conditioner 80a is driven.

In performing the temperature / humidity constant temperature and humidity control, the enthalpy according to the operation of each device is detected. If the enthalpy is detected for the purpose of energy management and maintenance, the detected enthalpy is transmitted to the computer system 130 through the interface 120 and the administrator reports the enthalpy value before and after the operation of each device. By detecting and recording each time zone, data such as average air volume calculation and operation time calculation can be obtained (steps S15 to S17).

On the other hand, the control device of the present invention is the enthalpy (E1) of the air coming into the room from the outside by the temperature and humidity sensors 12a, 14b installed on the outside air inlet side, the exhaust air sensor (13a) and the humidity sensor (14a) The enthalpy (E2) of the air discharged from the room to the outside through the (S18 step). Here, the difference between the outside air inlet side air enthalpy (E1) and the indoor exhaust air enthalpy (E2) is determined, and the outside air inlet side air enthalpy (E1) and the indoor exhaust air enthalpy (E2) are determined according to the difference between the outside air inlet damper (50a). ) And the open rate of the discharge damper (60a) automatically. In other words, if the difference between the air inlet side air enthalpy (E1) and the indoor exhaust air enthalpy (E2) is large, the open rate of the air inlet damper 50a and the discharge damper 60a is lowered to increase the thermal efficiency, and conversely, the air inlet side air enthalpy If the difference between (E1) and the indoor exhaust air enthalpy (E2) is small, the open rate of the outdoor air inlet damper (50a) and the discharge damper (60a) is increased to allow a lot of external air to be introduced and discharged (steps S19 to S21). ).

The opening degree is set in the difference between the enthalpy E1 and E2, and is already stored in the memory of the controller 20 as an experimental value result.

In addition, the control unit 20 detects the RPM of the indoor ventilation fan 40a by the fan driving RPM detecting unit 15 and increases the thermal efficiency by controlling the indoor ventilation fan at constant speed (steps S22 and S23).

In addition, when the indoor temperature is detected and the indoor temperature drops below a prescribed value (freezing temperature of the pipe), the freezing prevention heater 110a installed in the pipe is controlled to prevent freezing of the pipe (steps S24 and S25).

In addition, the controller 20 determines whether or not the drive selection of the fragrance generating apparatus 100a is performed through a value input from the setting unit 30, and when the fragrance generating apparatus 100a is selected, the drive control of the fragrance generating apparatus 100a is controlled. (Step S26, S27).

As described above, the present invention detects the enthalpy of the outside air and the enthalpy of exhaust air discharged from the inside of the building, and automatically calculates the amount of air flowing into the building from the outside and the amount of air discharged from the inside of the building according to the difference. By adjusting, there is an advantage that a very efficient and ideal energy saving management can be performed.

In addition, the present invention is able to perform all the control and management in the center is a very useful design that does not require administrators to move to the place where the corresponding drive device is installed for any setting.

In addition, the present invention is a useful design that can prevent the turbidity of indoor air by detecting the concentration of carbon dioxide to control the inflow of external air.

Claims (7)

Indoor temperature sensing unit 11 for detecting the temperature in the building room through the indoor temperature sensor 11a, and outside temperature sensing for detecting the temperature of the air flowing into the building from outside the building through the outside temperature sensor 12a. A branch 12, an exhaust air temperature detection unit 13 for sensing the temperature of the air discharged to the outside of the building through the exhaust temperature sensor 13a, a humidity sensor 14a and an external temperature and humidity sensor 14b By using the indoor and outdoor humidity detection unit 14 for detecting the humidity inside and outside the building, the fan driving RPM detection unit 15 for detecting the RPM (speed) of the indoor ventilation fan 40a, and a carbon dioxide sensor A detector 10 including a carbon dioxide detector 16 for detecting a concentration of carbon dioxide (CO ₂ ) in a building; When the sensing signal of the sensing unit 10 is input to calculate the enthalpy of the air flowing in from the outside, the enthalpy of the air discharged from the inside of the building to the outside is detected and the enthalpy difference between the two increases, the outside air inlet damper (50a) And a control unit 20 which greatly reduces the opening degree of the discharge damper 60a to allow very little air to flow into the building, and to control the internal air to be discharged to the outside. A setting unit 30 including a temperature setting unit 31 for setting a building indoor temperature and a humidity setting unit 32 for setting a building indoor humidity, and inputting a set key value to the control unit 20; An indoor ventilation fan driver 40 driving the indoor ventilation fan 40a for circulating indoor air under the control of the controller 20; An outside air inlet damper driver 50 for driving the outside air inlet damper 50a for introducing the outside air into the building under the control of the controller 20; A discharge damper driver 60 driving the internal air discharge damper 60a for discharging indoor air to the outside of the building according to the control of the controller 20; And Enthalpy of the outside air, characterized in that it comprises a heating device (70a), the cooling device (80a) and the humidifying device (90a) for driving the heating drive unit 70, the cooling drive unit 80 and the humidification drive unit (90) Used air conditioner. The method of claim 1, The setting unit (30) is an air conditioner using an enthalpy of the outside air, characterized in that it further comprises a freeze protection heater drive selection key for preventing the freeze of the pipes installed in the building. The method of claim 1, The setting unit 30 is an air conditioner using an enthalpy of the outside air, characterized in that the fragrance generating device drive selection key for generating a fragrance in the room further. The method of claim 1, The air conditioner is an air conditioner using an enthalpy of the outside air, characterized in that it further comprises a freeze protection heater driving unit 100 for driving a freeze protection heater (110a) for preventing the freeze protection of the tube. The method of claim 1, The air conditioner is an air conditioner using the enthalpy of the outside air, characterized in that the fragrance generator drive unit 110 for driving the fragrance generating device (100a) for generating a fragrance in the room. The method of claim 1, The air conditioner is an air conditioner using the enthalpy of the outside air, characterized in that all the sensor and the driving devices are connected to the main control system (MC), so that all the control and management can be performed in the center. The method of claim 1, The control unit 20 detects the amount of idealized carbon in the building, and automatically adjusts the amount of air flowing into the room and the air discharged to the outside according to the detected amount of air conditioning using the enthalpy of the outside air group.