KR20120026215A - Hybrid Circulation System - Google Patents

Abstract

The present invention relates to a hybrid ventilation facility for integrally controlling the mechanical ventilation device and the natural ventilation device, which is installed on one side of a window of a building, and is provided with a rotation damper 120 for controlling the amount of air flowing in or out by opening and closing an air passage. On the air passage, the natural ventilation device 100 is provided with a first wind speed anemometer 110 for calculating the wind direction, wind speed and amount of air flowing in or out; Supply air blower 230, exhaust blower 240, heat exchanger 250, indoor air hygrometer 210 for measuring the temperature and humidity of the air discharged from the room, and measures the temperature and humidity of the air flowing from the outside Mechanical air ventilator 200 having an outdoor air hygrometer 220 is integrally provided in one body; An air supply duct 310 connecting the mechanical ventilation device 200 and each space in the room to supply air introduced from the outside; An exhaust duct 410 for connecting the mechanical ventilation device 200 and each space in the room to discharge the indoor air to the outside; Receives the detected signal from the first air flow anemometer 110 of the natural ventilation device 100, the indoor air hygrometer 210 of the mechanical ventilation device 200, and the outdoor air hygrometer 220, A control unit 600 for controlling the operation of the rotation damper 120 of the ventilation device 100 and the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200; And a remote control 700 for transmitting the operation signal selected by the user to the control unit 600.

Description

Hybrid ventilation system {Hybrid Circulation System}

The present invention relates to a hybrid ventilation facility for complementary operation by combining natural ventilation and mechanical ventilation, characterized in that high efficiency can be realized by maintaining a comfortable indoor environment at a minimum cost.

In December 2009, the Ministry of Land, Transport and Maritime Affairs announced a new housing performance class. According to this, the housing performance class 1 product is composed of a single system of natural and mechanical ventilation equipment, which can be operated complementarily if necessary. ) Ventilation equipment is installed.

The natural ventilation device is a natural convection generated by the difference between the temperature and pressure of the indoor and outdoor air, and refers to a device capable of indoor ventilation by introducing outdoor air into the room or outflowing indoor air to the outside.

The natural ventilation device has the advantages of low installation cost and operation cost, but has a lot of heat loss, difficult to block fine dust, and outdoor noise is transmitted to the indoor area, and local ventilation is performed only in the area where the natural ventilation device is installed. There is also.

The mechanical ventilation device refers to a device that can actively ventilate the room by using an air conditioner equipped with a blower, which has advantages of low heat loss, fine dust blocking, and prevention of inflow of outdoor noise. Is relatively high and there is a disadvantage that the blower noise of the mechanical ventilation device can be introduced into the room.

The purpose of the present invention is to compensate for the advantages and disadvantages of the natural ventilation device and the mechanical ventilation device to achieve high efficiency.

The object of the present invention is to provide a highly efficient hybrid ventilation facility by complementing the advantages and disadvantages of the natural ventilation device and the mechanical ventilation device.

The configuration of the present invention created to solve the technical problem of the present invention is as follows.

The present invention relates to a hybrid ventilation facility for integrally controlling the mechanical ventilation device and the natural ventilation device, which is installed on one side of a window of a building, and is provided with a rotation damper 120 for controlling the amount of air flowing in or out by opening and closing an air passage. On the air passage, the natural ventilation device 100 is provided with a first wind speed anemometer 110 for calculating the wind direction, wind speed and amount of air flowing in or out; Supply air blower 230, exhaust blower 240, heat exchanger 250, indoor air hygrometer 210 for measuring the temperature and humidity of the air discharged from the room, and measures the temperature and humidity of the air flowing from the outside Mechanical air ventilator 200 having an outdoor air hygrometer 220 is integrally provided in one body; An air supply duct 310 connecting the mechanical ventilation device 200 and each space in the room to supply air introduced from the outside; An exhaust duct 410 for connecting the mechanical ventilation device 200 and each space in the room to discharge the indoor air to the outside; Receives the detected signal from the first air flow anemometer 110 of the natural ventilation device 100, the indoor air hygrometer 210 of the mechanical ventilation device 200, and the outdoor air hygrometer 220, A control unit 600 for controlling the operation of the rotation damper 120 of the ventilation device 100 and the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200; And a remote controller 700 which transmits an operation signal selected by a user to the control unit 600. The control unit 600 includes a first air flow meter 110 of the natural ventilation device 100. It is characterized in that the operation of the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200 in the direction to compensate for the difference by comparing the amount of air received from the room and the required ventilation amount.

In addition, the present invention is provided with a hood blower 520 for discharging the indoor air to the outside through an air passage separate from the mechanical ventilation device 200, the second wind speed meter for calculating the wind direction, wind speed and air volume of the discharged air Hood (500) is provided on the air passage; 510 is further included, the control unit 600 of the first air flow meter 110 of the natural ventilation device 100 and the hood 500 The operation of the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200 in a direction to compensate for the difference by comparing the amount of air received from the second air flow meter 510 with the required amount of ventilation in the room It is characterized by.

Technical effects of the configuration of the present invention are as follows.

First, energy consumption can be minimized by combining natural ventilation with mechanical ventilation.

In other words, after calculating the amount of air flowing in or out through the natural ventilation device, only the amount of air insufficient for the required ventilation amount can be supplemented by operating the mechanical ventilation device to minimize energy consumption.

Second, it is possible to automatically secure the necessary ventilation (ventilation amount that can secure more than 0.7 times of ventilation per hour in the unit household) to maintain a comfortable indoor environment.

In other words, it is possible to maintain a comfortable indoor environment by pre-setting the required ventilation in consideration of the generation area and calculating the amount of air flowing in or out of the control unit in real time, and automatically replenishing the insufficient air in the required ventilation.

Third, it is possible to control the ventilation considering the discharge amount discharged through the hood.

In other words, the flow rate through the hood is also considered to balance the total flow rate and the flow rate through the hood, natural ventilation system and mechanical ventilation system.

1 is an installation diagram of a general mechanical ventilation device.
2 is a view illustrating a general natural ventilation device.
3 is an installation diagram of the present invention hybrid ventilation equipment.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the natural ventilation device 100 has a structure similar to that of a general natural ventilation device, except that the first air flow meter 110 is installed.

The natural ventilation device 100 is installed on one side of the window of the building (upper side in the drawing), and is provided with a rotation damper 120 for controlling the amount of air introduced or discharged by opening and closing the air passage.

The rotation damper 120 may be manually operated or may be automatically operated by using a power device such as an electric motor.

On the air passage of the natural ventilation device 100, there is provided a first wind speed anemometer 110 for calculating the wind direction, wind speed and air volume of the air introduced or discharged, the first air flow anemometer 110 is a natural ventilation device 100 Is installed in each of the multiple natural ventilation device 100 is installed in each of the natural ventilation device 100 to calculate the wind direction, wind speed and air volume of the discharged inlet is delivered to the control unit 600, The control unit 600 integrates the signals transmitted from each of the first air flow wind gauges 110 to determine whether the air flows in or out, and calculates the inflow or outflow.

In some cases, a plurality of first air flow anemometers 110 may be installed in one natural ventilation device 100. In this case, the average value of the wind speeds is regarded as the wind speed of the natural ventilation device 100, and the rotation damper 120 The air volume is calculated by multiplying the wind speed by the input cross-sectional area according to the opening and closing rate.

The first air flow meter 110 may be applied to a variety of products, for example, by installing a propeller type axial fan may be a product that calculates the wind direction and wind speed by grasp the rotation speed and direction of rotation, It may be a product that calculates the air volume using a constant pressure tube voltage using a pitot tube, or may be a product using a hot wire semiconductor.

The mechanical ventilator 200 includes an air blower 230, an exhaust blower 240, a heat exchange element 250, an indoor air hygrometer 210 for measuring the temperature and humidity of the air discharged from the inside of the room, and the outdoor air hygrometer 210. The outdoor air hygrometer 220 for measuring the temperature and humidity of the air is integrally provided in one body.

The air supply duct 310 connects the mechanical ventilation device 200 and each space in the room to serve as a passage for supplying air introduced from the outside.

Exhaust duct 410 serves as a passage for discharging the indoor air to the outside by connecting the mechanical ventilation device 200 and each space in the room, and the air and exhaust from the heat exchange element 250 of the mechanical ventilation device 200 Heat exchange of the air is made.

Hood 500 is mainly installed in the kitchen, the hood 500 is provided with a hood blower 520 for discharging the indoor air to the outside through an air passage separate from the mechanical ventilation device (200).

In addition, a second air volume wind speed meter 510 for calculating the wind direction, wind speed, and air volume of the discharged air is provided on the air passage of the hood 500. The structure or function of the second air flow meter 510 is the same as that of the first air flow meter 110, and thus a separate description thereof will be omitted.

Depending on the structure of the building, such a hood 500 may not be installed. In this case, ventilation is performed only through the natural ventilation device 100 and the mechanical ventilation device 200.

The control unit 600 is the first air flow meter 110 of the natural ventilation device 100, the second air flow meter 510 of the hood 500, the indoor air temperature and humidity meter 210 of the mechanical ventilation device 200 and the outdoor Receives a sensed signal from the air temperature and humidity meter 220. In addition, the operation of the rotation damper 120 of the natural ventilation device 100, the hood blower 520 of the hood 500, and the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200 is controlled. .

That is, the control unit 600 compares the amount of air received from the first air flow meter 110 of the natural ventilation device 100 and the second air flow meter 510 of the hood 500 with the required amount of ventilation in the room to offset the difference. The operation of the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200 in the direction to be adjusted (rotational speed control).

If the hood 500 is not installed, the control unit 600 may include the first air flow anemometer 110 of the natural ventilation device 100, the indoor air hygrometer 210 of the mechanical ventilation device 200, and outdoor air. Receives a signal sensed from the thermo-hygrometer 220, and controls the operation of the rotation damper 120 of the natural ventilation device 100, and the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200 Will be.

That is, the control unit 600 compares the amount of air received from the first air flow meter 110 of the natural ventilation device 100 with the required amount of ventilation in the room to offset the difference between the air supply blower of the mechanical ventilation device 200 ( 230 and the operation of the exhaust blower 240 is adjusted.

The remote controller 700 transmits the operation signal selected by the user (for example, 'natural ventilation', 'automatic', or 'hood', etc.) to the control unit 600 via wired or wireless.

The remote control 700 is provided with a sensor for measuring the concentration of carbon dioxide in the room to transmit the carbon dioxide concentration to the control unit 600 in real time, the clock is provided to the control unit 600 in real time the current date and time It is then delivered to enable appropriate automatic control according to the indoor environment, day and night.

In addition, the remote control 700 displays the state of the current hybrid ventilation equipment and the amount of air flowing in or out.

According to the selection of the remote control 700, the inventors of the present invention, the hybrid ventilation system operates as follows.

<First operation>

The hood 500 is not provided separately, and the rotation damper 120 of the natural ventilation device 100 is a system that is automatically opened and closed by the control unit 600.

When the 'natural ventilation' is selected using the remote control 700, the control unit 600 opens the rotation damper 120 of the natural ventilation device 100 to the maximum, and the first air flow meter 110 of the natural ventilation device 100. Receives a signal about the air flow rate and the wind speed from) and compares it with the required ventilation amount of the preset room. The required ventilation amount is based on the Decree No. 205 of the Ministry of Land, Transport and Maritime Affairs and Article 11 of the Rules on the Equipment Standards of Buildings. It means the ventilation amount that can secure more than 0.7 ventilations per hour in a unit household.

(1) If the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount is less than the required ventilation amount, the control unit 600 additionally introduces a machine such that the amount of air corresponding to the difference between the required ventilation amount and the inflow amount is additionally introduced. The rotation speed of the air supply fan 230 of the ventilation device 200 is adjusted, and the rotation speed of the exhaust air blower 240 of the mechanical ventilation device 200 is adjusted so that the air flow rate corresponding to the required ventilation amount flows out.

For example, assuming that the required ventilation amount is 250CMH and the inflow amount (inflow air volume) through the natural ventilation device 100 is 100CMH, the control unit 600 supplies an additional air blower so that an additional air flow of 150CMH is introduced through the air supply duct 310. Adjust the rotation speed of 230) so that the total inflow is 250CMH, the required ventilation. In addition, by adjusting the rotation of the exhaust blower 240 so that the total outflow amount is 250CMH, the inflow amount and the outflow amount are balanced.

If the inflow and outflow are not balanced, it causes discomfort to the user, and in winter, condensation occurs in the generation due to leakage and invasion.

(2) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount exceeds the required ventilation amount, the control unit 600 stops the operation of the air supply blower 230 of the mechanical ventilation device 200, The rotation damper 120 of the natural ventilation device 100 is gradually closed until the inflow amount reaches the required ventilation amount. In addition, by adjusting the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 so that the outflow amount corresponding to the required ventilation amount to balance the inflow amount and the outflow amount.

For example, assuming that the initial inflow is 300CMH and the required ventilation amount is 250CMH, the rotation damper 120 is gradually closed so that the inflow through the natural ventilation device 100 becomes 250CMH and the outflow through the exhaust duct 410 is 250CMH. By adjusting the rotation speed of the blower 240 to balance the inflow and outflow. In this case, the air supply blower 230 is not operated.

(3) If the indoor air is leaked to the outside through the natural ventilation device 100 and the outflow amount is less than the required ventilation amount, the control unit 600 additionally supplies the air volume corresponding to the difference between the required ventilation amount and the outflow amount. Adjust the rotational speed of the exhaust blower 240 of the ventilation device 200, and adjust the rotational speed of the air supply blower 230 of the mechanical ventilation device 200 so that the inflow amount corresponding to the required ventilation amount is balanced To achieve.

For example, assuming that the flow rate through the natural ventilation device 100 is 150CMH and the required ventilation amount is 250CMH, the rotation speed of the exhaust blower 240 is adjusted to generate an additional flow rate of 100CMH through the exhaust duct 410, and the air supply duct By adjusting the number of revolutions of the air supply blower 230 to generate an inflow of 250CMH through the 310 to balance the inflow and outflow.

(4) when the indoor air flows out through the natural ventilation device 100 and the outflow amount exceeds the required ventilation amount, the control unit 600 stops the operation of the exhaust blower 240 of the mechanical ventilation device 200, The rotation damper 120 of the natural ventilation device 100 is gradually closed so that the flow rate reaches the required ventilation amount. In addition, by adjusting the rotation speed of the air supply blower 230 of the mechanical ventilation device 200 so that the inflow amount corresponding to the required ventilation amount to balance the inflow amount and the outflow amount.

For example, assuming that the flow rate through the natural ventilation device 100 is 350CMH and the required ventilation amount is 250CMH, the rotation damper 120 is gradually closed so that the flow rate is 250CMH and the inflow of 250CMH is generated through the air supply duct 310. By adjusting the rotation speed of the air supply blower 230 to balance the inflow and outflow. In this case, the exhaust blower 240 is not operated.

<Second operation>

Hood 500 is provided separately and the rotation damper 120 of the natural ventilation device 100 is a system that is automatically opened and closed by the control unit 600.

When the 'hood' is selected using the remote controller 700, the control unit 600 opens the rotation damper 120 of the natural ventilation device 100 to the maximum and operates the hood 500.

The control unit 600, which has received a signal regarding the air flow rate and the wind speed from the first wind flow anemometer 110 of the natural ventilation device 100 and the second wind flow anemometer 510 of the hood 500, sets the necessary ventilation amount in the room in advance. It is compared with, to adjust the rotation speed of the air supply blower 230 of the mechanical ventilation device 200 so that the mechanical ventilation amount corresponding to the difference between the required ventilation amount and the incoming air volume, and the difference between the required ventilation amount and the outflow air volume The rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 is adjusted to generate a corresponding mechanical ventilation amount.

For example, assuming that the required ventilation amount is 250CMH, the inflow through the natural ventilation device 100 is 150CMH, and the outflow through the hood 500 is 200CMH, the air supply blower 230 is configured to generate an inflow of 100CMH through the air supply duct 310. By adjusting the rotational speed of the exhaust fan 410 through the exhaust duct 410 to adjust the rotational speed of the exhaust blower 240 so as to balance the inflow and outflow.

<3rd operation>

The hood 500 is not provided separately, and the rotation damper 120 of the natural ventilation device 100 is a system that is automatically opened and closed by the control unit 600.

(1) In summer or mid-term (spring, summer)

When the control unit 600 is selected using the remote controller 700, the control unit 600 receives signals related to temperature and humidity from the indoor air hygrometer 210 and the outdoor air hygrometer 220, and compares them.

When the temperature, humidity, or enthalpy of the outdoor air is lower than the temperature, humidity, or enthalpy of the indoor air, the rotation damper 120 of the natural ventilation device 100 is opened to the maximum, and the first air flow anemometer 110 of the natural ventilation device 100 is opened. Compared with the signal about the air flow rate and the wind speed transmitted from the) and the required ventilation amount in the room, if the inflow amount flowing through the natural ventilation device 100 is less than the required ventilation amount, the air volume corresponding to the difference between the required ventilation amount and the inflow amount is generated. The air supply blower 230 of the ventilation device 200 is adjusted. In addition, the rotational speed of the exhaust blower 240 of the mechanical ventilation device 200 is adjusted so that the amount of air corresponding to the required ventilation amount flows out.

If the temperature, humidity, or enthalpy of the outdoor air is higher than the temperature, humidity, or enthalpy of the indoor air, the rotation damper 120 of the natural ventilation device 100 is completely closed and the inflow and inflow corresponding to the required ventilation amount through the mechanical ventilation device 200. The rotation speed of each of the air supply blower 230 and the exhaust air blower 240 is adjusted to generate the same.

(2) In winter

When selecting the 'auto' using the remote control 700, the control unit 600 receives a signal regarding the temperature and humidity from the indoor air hygrometer 210 and the outdoor air hygrometer 220 and compares.

When the temperature, humidity, or enthalpy of the outdoor air is higher than the temperature, humidity, or enthalpy of the indoor air, the rotation damper 120 of the natural ventilation device 100 is opened to the maximum, and the first air flow anemometer 110 of the natural ventilation device 100 is opened. Compared with the signal about the air flow rate and the wind speed transmitted from the required ventilation amount in the room and if the inflow amount flowing through the natural ventilation device 100 is less than the required ventilation amount mechanical ventilation so that the air flow corresponding to the difference between the required ventilation amount and the inflow amount The rotation speed of the air supply blower 230 of the apparatus 200 is adjusted, and the rotation speed of the exhaust blower 240 of the mechanical ventilation apparatus 200 is adjusted so that the air volume corresponding to the required ventilation amount flows out.

If the temperature, humidity or enthalpy of the outdoor air is lower than the temperature, humidity or enthalpy of the indoor air, the rotation damper 120 of the natural ventilation device 100 is completely closed and the inflow amount corresponding to the required ventilation amount is provided through the mechanical ventilation device 200. The rotation speed of each of the air supply blower 230 and the exhaust air blower 240 is adjusted to generate an inflow amount.

<4th operation>

The hood 500 is not provided separately and the rotation damper 120 of the natural ventilation device 100 is a system that is opened and closed manually.

When the 'natural ventilation' is selected using the remote controller 700, the control unit 600 receives a signal regarding the air flow rate and the wind speed from the first air flow anemometer 110 of the natural ventilation device 100 and sets it as necessary in advance. Compare with the amount of ventilation.

(1) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount thereof is less than the required ventilation amount, the air supply of the mechanical ventilation device 200 so that the air volume corresponding to the difference between the required ventilation amount and the inflow amount is introduced. The rotation speed of the blower 230 is adjusted, and the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 is adjusted so that the air volume corresponding to the required ventilation amount is flowed out.

(2) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount exceeds the required ventilation amount, the air flow rate corresponding to the difference between the inflow amount and the required ventilation amount is introduced. By controlling the rotation speed of the air supply blower 230, the positive pressure is generated in the room, and the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 is adjusted so that the air volume corresponding to the required ventilation amount flows out. When positive pressure occurs in the room in this manner, the inflow through the natural ventilation device 100 is reduced.

(3) When the indoor air flows out through the natural ventilation device 100 and the outflow amount is less than the required ventilation amount, the exhaust of the mechanical ventilation device 200 so that the air volume corresponding to the difference between the required ventilation amount and the outflow amount is outflowed. The rotation speed of the blower 240 is adjusted, and the rotation speed of the air supply blower 230 of the mechanical ventilation device 200 is adjusted so that the amount of air corresponding to the required ventilation amount is introduced.

(4) When the indoor air flows out through the natural ventilation device 100 and the amount of the outflow exceeds the required amount of ventilation, the amount of air corresponding to the difference between the amount of the outflow and the required amount of ventilation is released. The exhaust fan 240 adjusts the rotational speed to generate a sound pressure in the room, and adjusts the rotation speed of the air supply blower 230 of the mechanical ventilation device 200 so that the air volume corresponding to the required ventilation amount is introduced. When negative pressure is generated in the room, the amount of outflow through the natural ventilation device is reduced.

<Fifth operation>

The hood 500 is provided separately and the rotation damper 120 of the natural ventilation device 100 is a system that is opened and closed manually.

When the 'food' is selected using the remote controller 700, the control unit 600 operates the hood 500, and the first air flow meter 110 and the second air flow rate of the hood 500 of the natural ventilation device 100. Receiving a signal about the air flow rate and the wind speed from the anemometer 510, the control unit 600 compares it with the required ventilation amount of the room preset.

When the amount of air flowing out through the hood 500 is greater than the amount of air flowing through the natural ventilation device 100, the air supply blower of the mechanical ventilation device 200 so that the amount of air corresponding to the difference between the required ventilation amount and the introduced air flow is introduced. The number of rotations is adjusted, and the number of rotations of the exhaust blower 240 of the mechanical ventilation device 200 is adjusted so that the amount of air corresponding to the difference between the required amount of ventilation and the amount of outflowing air flows out.

Although the technical contents of the present invention have been described with reference to specific embodiments of the present invention as described above, the scope of protection of the present invention is not necessarily limited to these embodiments, and various designs may be made without changing the technical spirit of the present invention. Changes, additions or deletions of well-known technology, and simple numerical limitations also make it clear that they belong to the protection scope of the present invention.

100: natural ventilation device
110: first wind speed meter
120: rotary damper
200: mechanical ventilation device
210: indoor air temperature and humidity meter
220: outdoor air temperature and humidity meter
230: air supply blower
240: exhaust fan
250: heat exchange element
310: supply duct
410: exhaust duct
500: food
510: second wind speed meter
520: Hood blower
600: control unit
700: remote control

Claims (7)

The present invention relates to a hybrid ventilation system for integrally controlling a mechanical ventilation device and a natural ventilation device.
Installed on one side of a window of a building, a rotation damper 120 is provided to control the amount of air flowing in or out by opening and closing the air passage, and the first air volume calculating the wind direction, the wind speed, and the air volume of the air introduced or discharged on the air passage. Natural ventilation device 100 is provided with anemometer 110;
Supply air blower 230, exhaust blower 240, heat exchanger 250, indoor air hygrometer 210 for measuring the temperature and humidity of the air discharged from the room, and measures the temperature and humidity of the air flowing from the outside Mechanical air ventilator 200 having an outdoor air hygrometer 220 is integrally provided in one body;
An air supply duct 310 connecting the mechanical ventilation device 200 and each space in the room to supply air introduced from the outside;
An exhaust duct 410 for connecting the mechanical ventilation device 200 and each space in the room to discharge the indoor air to the outside;
Receives the detected signal from the first air flow anemometer 110 of the natural ventilation device 100, the indoor air hygrometer 210 of the mechanical ventilation device 200, and the outdoor air hygrometer 220, A control unit 600 for controlling the operation of the rotation damper 120 of the ventilation device 100 and the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200; And,
A remote controller 700 which transmits an operation signal selected by a user to the control unit 600;
It is configured to include,
The control unit 600 compares the amount of air received from the first air flow meter 110 of the natural ventilation device 100 with the required amount of ventilation in the room to offset the difference in the air supply of the mechanical ventilation device 200 Hybrid ventilation equipment, characterized in that for controlling the operation of the blower 230 and the exhaust blower (240). The present invention relates to a hybrid ventilation system for integrally controlling a mechanical ventilation device and a natural ventilation device.
Installed on one side of a window of a building, a rotation damper 120 is provided to control the amount of air flowing in or out by opening and closing the air passage, and the first air volume calculating the wind direction, the wind speed, and the air volume of the air introduced or discharged on the air passage. Natural ventilation device 100 is provided with anemometer 110;
The air supply fan 230, the exhaust blower 240, the heat exchange element 250, the indoor air hygrometer 210 for measuring the temperature and humidity of the air discharged from the room and the temperature and humidity of the air flowing from the outside Mechanical air ventilation device 200, the outdoor air hygrometer 220 is provided integrally in one body;
An air supply duct 310 connecting the mechanical ventilation device 200 and each space in the room to supply air introduced from the outside;
An exhaust duct 410 for connecting the mechanical ventilation device 200 and each space in the room to discharge the indoor air to the outside;
A hood blower 520 for discharging the indoor air to the outside through a separate air passage from the mechanical ventilation device 200 is provided, the second air flow meter 510 for calculating the wind direction, wind speed and air volume of the discharged air is A hood 500 provided on the air passage;
The first air flow anemometer 110 of the natural ventilation device 100, the second air flow anemometer 510 of the hood 500, the indoor air hygrometer 210 and the outdoor air temperature and humidity meter of the mechanical ventilation device 200 Receiving a signal detected from the 220, the rotary damper 120 of the natural ventilation device 100, the hood blower 520 of the hood 500, and the air supply blower 230 of the mechanical ventilation device 200 And a control unit 600 for controlling the operation of the exhaust blower 240; And,
A remote controller 700 which transmits an operation signal selected by a user to the control unit 600;
It is configured to include,
The control unit 600 compares the amount of air received from the first air flow meter 110 of the natural ventilation device 100 and the second air flow meter 510 of the hood 500 with the necessary amount of ventilation in the room, and the difference thereof. Hybrid ventilation facility, characterized in that to control the operation of the air supply blower 230 and the exhaust blower 240 of the mechanical ventilation device 200 in a direction to cancel. In claim 1,
The rotation damper 120 of the natural ventilation device 100 is automatically opened and closed by the control unit 600,
When the 'natural ventilation' is selected using the remote controller 700, the control unit 600 opens the rotation damper 120 of the natural ventilation device 100 to the maximum, and the first of the natural ventilation device 100. Receives a signal about the air flow rate and wind speed from the air flow wind meter 110 and compares it with the required ventilation amount of the room set in advance,
(1) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount is less than the required ventilation amount, the mechanical ventilation device 200 so that the air volume corresponding to the difference between the required ventilation amount and the inflow amount is introduced Adjust the rotation speed of the air supply blower 230, and adjust the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 so that the amount of air corresponding to the required ventilation amount flows out,
(2) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount exceeds the required ventilation amount, the operation of the air supply blower 230 of the mechanical ventilation device 200 is stopped, and the inflow amount is required. Slowly close the rotation damper 120 of the natural ventilation device 100 until the ventilation amount is reached, and adjust the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 so that an outflow amount corresponding to the required ventilation amount is generated. ,
(3) When the indoor air is discharged to the outside through the natural ventilation device 100 and the outflow amount is less than the required ventilation amount, the mechanical ventilation device 200 so that the air volume corresponding to the difference between the required ventilation amount and the outflow amount flows out Adjust the rotational speed of the exhaust blower 240, and adjust the rotational speed of the air supply blower 230 of the mechanical ventilation device 200 so that the air flow corresponding to the required ventilation amount is introduced,
(4) When the indoor air flows out through the natural ventilation device 100 to the outside and the outflow amount exceeds the required ventilation amount, the operation of the exhaust blower 240 of the mechanical ventilation device 200 is stopped, and the outflow amount is required. The rotation damper 120 of the natural ventilation device 100 is gradually closed to reach the ventilation amount, and the rotation speed of the air supply blower 230 of the mechanical ventilation device 200 is adjusted to generate an inflow amount corresponding to the required ventilation amount. Hybrid ventilation equipment. In claim 2,
The rotation damper 120 of the natural ventilation device 100 is automatically opened and closed by the control unit 600,
When the 'hood' is selected using the remote controller 700, the control unit 600 opens the rotation damper 120 of the natural ventilation device 100 to the maximum and operates the hood 500, and the natural ventilation The control unit 600 receives a signal related to the air flow rate and the wind speed from the first wind flow anemometer 110 of the apparatus 100 and the second wind flow anemometer 510 of the hood 500, and the control unit 600 sets the necessary ventilation amount in the room. Compared to the required ventilation amount and the amount of air flow in the mechanical ventilation amount corresponding to the difference between the flow rate of the air supply blower 230 of the mechanical ventilation device 200 is adjusted, and corresponds to the difference between the required ventilation amount and the outflow air volume Hybrid ventilation equipment, characterized in that for controlling the rotational speed of the exhaust blower 240 of the mechanical ventilation device 200 to generate a mechanical ventilation amount. In claim 1,
The rotation damper 120 of the natural ventilation device 100 is automatically opened and closed by the control unit 600,
In the case of summer or mid-term, when the 'auto' is selected using the remote control 700,
The control unit 600,
When the indoor air temperature and humidity meter 210 and the outdoor air temperature and humidity meter 220 receive a signal related to temperature and humidity and compare the temperature, humidity, or enthalpy of the outdoor air with the temperature, humidity, or enthalpy of the indoor air. The rotation damper 120 of the natural ventilation device 100 is opened as much as possible, and the signal relating to the air flow rate and the wind speed transmitted from the first air flow anemometer 110 of the natural ventilation device 100 is compared with the required ventilation amount of the room. When the inflow amount flowing through the natural ventilation device 100 does not meet the required ventilation amount, the air supply blower 230 of the mechanical ventilation device 200 is adjusted so that the air volume corresponding to the difference between the required ventilation amount and the inflow amount is introduced. Adjusting the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 so that the air flow corresponding to the required ventilation amount flows out,
If the temperature, humidity, or enthalpy of the outdoor air is higher than the temperature, humidity, or enthalpy of the indoor air, the rotation damper 120 of the natural ventilation device 100 is completely closed and the inflow amount corresponding to the required ventilation amount through the mechanical ventilation device 200. Adjusting the rotation speed of each of the air supply blower 230 and the exhaust blower 240 to generate,
In the case of winter, when the 'auto' is selected using the remote controller 700,
The control unit 600,
If the temperature, humidity or enthalpy of the outdoor air is higher than the temperature, humidity or enthalpy of the indoor air, the natural air temperature and humidity signal is received from the indoor air hygrometer 210 and the outdoor air hygrometer 220 and compared. The rotation damper 120 of the ventilation device 100 is opened as much as possible, and the natural air is compared with a signal related to the air flow rate and the wind speed transmitted from the first air flow meter 110 of the natural ventilation device 100 and the required ventilation amount of the room. If the inflow amount flowing through the ventilator 100 does not meet the required ventilation amount, the rotation speed of the air supply blower 230 of the mechanical ventilation device 200 is adjusted so that the air volume corresponding to the difference between the required ventilation amount and the inflow amount is introduced. Adjusting the number of rotation of the exhaust blower 240 of the mechanical ventilation device 200 so that the air flow rate corresponding to the ventilation amount,
If the temperature, humidity, or enthalpy of the outdoor air is lower than the temperature, humidity, or enthalpy of the indoor air, the rotation damper 120 of the natural ventilation device 100 is completely closed and corresponding to the required ventilation amount through the mechanical ventilation device 200. Hybrid ventilation equipment, characterized in that for adjusting the rotational speed of each of the air supply blower 230 and the exhaust blower 240 so that the flow rate and inflow. In claim 1,
The rotation damper 120 of the natural ventilation device 100 is manually opened and closed,
When the 'natural ventilation' is selected using the remote controller 700, the control unit 600 receives a signal regarding the air flow rate and the wind speed from the first air flow anemometer 110 of the natural ventilation device 100 and sets it in advance. Compared with the amount of ventilation required in the room,
(1) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount is less than the required ventilation amount, the mechanical ventilation device 200 so that the air volume corresponding to the difference between the required ventilation amount and the inflow amount is introduced Adjust the rotation speed of the air supply blower 230, and adjust the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 so that the amount of air corresponding to the required ventilation amount flows out,
(2) When the outdoor air is introduced into the room through the natural ventilation device 100 and the inflow amount exceeds the required ventilation amount, the mechanical ventilation device 200 so that the air volume corresponding to the difference between the inflow amount and the required ventilation amount is introduced. Adjust the rotation speed of the air supply blower 230 of the air) to generate a positive pressure in the room, and to adjust the rotation speed of the exhaust blower 240 of the mechanical ventilation device 200 so that the air flow corresponding to the required ventilation amount,
(3) When the indoor air is discharged to the outside through the natural ventilation device 100 and the outflow amount is less than the required ventilation amount, the mechanical ventilation device 200 so that the air volume corresponding to the difference between the required ventilation amount and the outflow amount flows out Adjust the rotational speed of the exhaust blower 240, and adjust the rotational speed of the air supply blower 230 of the mechanical ventilation device 200 so that the air flow corresponding to the required ventilation amount is introduced,
(4) When the indoor air flows out through the natural ventilation device 100 and the outflow amount exceeds the required ventilation amount, the mechanical ventilation device 200 so that the air volume corresponding to the difference between the outflow amount and the required ventilation amount is outflowed. By adjusting the number of rotation of the exhaust blower 240 of the exhaust fan to generate a negative pressure in the room, and to adjust the speed of the air supply blower 230 of the mechanical ventilation apparatus 200 so that the air flow corresponding to the required ventilation amount Hybrid ventilation. In claim 2,
The rotation damper 120 of the natural ventilation device 100 is manually opened and closed,
When the 'food' is selected using the remote controller 700, the control unit 600 operates the hood 500, and the first air flow meter 110 and the hood 500 of the natural ventilation device 100. Natural air ventilating device receives a signal relating to the air flow rate and the wind speed from the second wind flow meter (510) of the control unit 600 compared to the preset ventilation amount of the room set in advance and the amount of air flowing through the hood 500 When the air flow rate is greater than the amount of air flowing through the air, the air flow rate corresponding to the difference between the required air flow rate and the amount of air flow is adjusted to adjust the rotation speed of the air supply fan 230 of the mechanical ventilation apparatus 200, and the required air flow rate and outflow Hybrid ventilation equipment, characterized in that for controlling the rotational speed of the exhaust blower 240 of the mechanical ventilation device 200 so that the amount of air corresponding to the difference with the amount of air flow.

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