KR20190095695A - Air ventilation system for functionally diplaying air-quality with wireless communication - Google Patents

Abstract

According to the present invention, disclosed is a ventilation system having a contamination marking function through wireless communication with a heat exchanger. The ventilation system comprises: an indoor air quality detection unit measuring contamination information on the air in an indoor space in which a user is located; an operation information generation unit determining an operation status and an operation strength of a ventilator in accordance with the contamination information; and a ventilation control unit controlling driving of the ventilator disposed on a ceiling based on the operation information. Accordingly, ventilation can be performed by reflecting a contamination level of a living space, and the air can be prevented from being contaminated by an air supply pipe. Moreover, a detection sensor can be easily maintained or repaired when the detection sensor is defective.

Description

Air ventilation system for functionally diplaying air-quality with wireless communication

The present invention relates to a ventilation system, and more particularly, it is possible to ventilate by reflecting the pollution degree of the living space, to prevent the contamination of air by the air supply pipe, and to the ventilation system that is easy to maintain or repair in the event of air quality sensor failure It is about.

Conventionally, in accordance with the revision of the rules on the building standards of buildings, etc. in 2006, multi-unit houses that are newly built or remodeled have been installed with mechanical ventilation equipment that satisfies the ventilation frequency of 0.5 or more times per hour. Natural ventilation is preferred, especially when yellow dust occurs, the window is not closed or the ventilation itself is not performed.

Moreover, even if the building is equipped with a ventilation system, it is also neglected to manage the ventilation system and insufficient use of the ventilation system is observed. For example, excessive operation of the ventilation system causes energy waste. On the contrary, if the operation is continually interrupted, there may be a problem of harming public health by living in a polluted environment.

In consideration of this recognition, the user's movement in the room is sensed to determine whether there is a person present in the space, and to prevent the cooled air from being discharged by heat exchange with the evaporator to the area where no person exists. In order to increase the user's satisfaction by allowing the wind direction of the discharged air to be varied according to the movement of the user present in the room, or, conversely, the user exists if the user does not want to directly discharge the cold air. The technology to satisfy the user's various preferences by providing the indirect cooling effect to the user by controlling the cold air to be discharged in other directions by avoiding only the current area, but according to the installation position of the ventilation device disposed in the indoor space The area to detect the If installed in the center of the space can detect the presence of users in the left, right, center area, but if installed in the left or right side of the indoor space can not determine the presence of the user on the right and left, respectively There is a problem that the blind area is generated, it is not possible to perform the control of the accurate discharge direction for the user's position.

In addition, referring to FIG. 8 in Korean Patent Laid-Open Publication No. 2005-0078886, the ventilation apparatus according to the prior art includes a cabinet 2 in which an air inlet 2a and an air outlet 2b are formed, and the cabinet 2. A blower (4) built-in to forcibly blow air into and out of the cabinet (2), and purifying air built into the cabinet (2) and blown into the cabinet (2) through the air inlet (2a) At least one filter 6 to be made, and the operating conditions of the ventilator is input according to the controller to control the operation of the ventilator according to the current operation state, etc., such a controller is largely according to the user's will The operating conditions, that is, the manual mode in which the air volume is set, and the degree of contamination of the place where the ventilation device is installed through the gas sensor and the dust sensor 10 are sensed, and the operating condition of the ventilation device is automatically determined according to the detected result. Although the automatic mode in which the air volume is set is implemented, the ventilation apparatus according to the prior art sets the air volume according to the pollution degree of the place where the ventilator is installed in the automatic mode, so even when there is no person in the place where the ventilator is installed, Energy can be wasted by operating a lot, and carbon dioxide can be temporarily increased due to the collection and breathing of people and animals, that is, depending on the movement and activity of living things. The air volume is not controlled automatically according to the movement of living things. There is a problem in that it operates inefficiently.

Actually, the space where the user is active in the room is located within 2m from the floor, but most of the ventilation sensors are installed on the wall or the ceiling, so there is a problem that does not properly reflect the pollution level of the living space. If the sensor is mounted inside, there is also a problem that is difficult to actually maintain.

On the other hand, the ventilation device often supplies the ventilation air to the indoor room along the air supply line. If a time passes after 1 to 2 years after installation, a high level of pollution is generated inside the air supply line and air flows along the line. In this case, the problem of supplying contaminated air to the indoor room is also a problem that cannot be overlooked, and even if the installation of the ventilation device is fixed, it is possible to supply the ventilated air to the indoor room partitioned by the partition walls, It is necessary to manage the fine dust concentration and carbon dioxide concentration in the space.

Accordingly, the technical problem to be solved by the present invention is to provide a ventilation system that can be ventilated by reflecting the pollution degree of the living space, to prevent contamination of air by the air supply line, and easy to maintain or repair in case of detection sensor failure. .

In order to solve the above technical problem, the indoor air quality detection unit for measuring the pollution information of the air present in the indoor space where the user is located, and determine the operation of the ventilation device, the operating strength according to the pollution information It provides a ventilation system comprising an operation information generating unit and a ventilation control unit for controlling the driving of the ventilation device provided on the ceiling based on the operation information.

According to one embodiment of the invention, the indoor air quality detection unit may be a user can carry.

According to another embodiment of the present invention, the indoor air quality detecting unit may include a carbon dioxide concentration measuring sensor or a fine dust concentration measuring sensor.

According to another embodiment of the present invention, the carbon dioxide concentration measuring sensor or the fine dust concentration measuring sensor may be further provided with a measuring airflow generation unit.

According to another embodiment of the present invention, the measuring airflow generation unit is an airflow fan through which air flows in a predetermined direction, and the direction of the airflow by the airflow fan passes through a carbon dioxide concentration measuring sensor first and then passes through a fine dust concentration measuring sensor. It may be

According to another embodiment of the present invention, the ventilator operates to supply the outside air to the indoor air through the air supply passage through the air supply passage, and exhausts the polluted air in the room to the exhaust air through the exhaust passage. Operating the exhaust fan provided in the flow path is discharged, the air supply passage may be provided with a filtration unit for filtering the fine dust contained in the outside air.

According to another embodiment of the present invention, the ventilation device is provided with a discharge passage in the indoor room partitioned by a partition in the room, to exhaust the indoor room according to the pollution information detected by the indoor air quality detection unit of the indoor room. It may be to control.

According to another embodiment of the present invention, the exhaust of the indoor room according to the pollution information detected by the indoor air quality detection unit through the other exhaust passage of the air conditioning apparatus for supplying or exhausting the indoor room partitioned by the partition wall It may be to control.

According to the ventilation system according to the present invention, it is possible to ventilate reflecting the pollution degree of the living space, to prevent the pollution of the air by the air supply line, there is an effect that is easy to maintain or repair in the event of sensor failure.

1 is a view schematically showing an embodiment of a ventilation system according to the present invention,
2 is a view showing the features of the ventilator of the present invention,
Figure 3 is an exploded perspective view of an example of a device that can be carried by a user who implements the indoor air quality detection unit of the present invention,
FIG. 4 is a plan view showing the inside of FIG. 3 and shows the direction of airflow detected by the sensor.
5 is a view showing the air conditioning apparatus of another embodiment of the ventilation system according to the present invention,
6 is a view schematically showing another embodiment of the ventilation system according to the present invention,
7 is a view showing another embodiment of the ventilation system according to the present invention, the indoor air quality sensing unit implemented in the smartphone,
8 is an exploded perspective view of a conventional ventilation device.

Hereinafter, the present invention will be described in detail.

However, it should be noted that the technical terms used in the present invention are merely used to describe specific embodiments, and are not intended to limit the present invention.

In addition, the technical terms used in the present invention should be interpreted as meanings generally understood by those skilled in the art unless the present invention has a special meaning defined in the present invention, and is excessively comprehensive. It should not be interpreted in the sense of being, or in an excessively reduced sense, and when a technical term used in the present invention is an incorrect technical term that does not accurately express the spirit of the present invention, it should be interpreted as a technical term correctly understood by those skilled in the art. The general terms used in the present invention should be interpreted as defined in the dictionary or according to the context before and after, and should not be interpreted in an excessively reduced sense, and the singular used in the present invention The expression of is used in the plural form unless the context clearly indicates otherwise. In the present invention, terms such as “consisting of” or “comprising” are not to be construed as necessarily including all of the various components or steps described in the invention, and some or some of them The steps may not be included, or should be construed as to further include additional components or steps, and when it is determined that the detailed description of the known art related to the present invention may obscure the gist of the present invention. The detailed description is omitted.

1 is a view schematically showing an embodiment of the ventilation system according to the present invention, Figure 2 is a view showing the features of the ventilation device of the present invention, Figure 3 is a user carrying the indoor air quality detection unit of the present invention portable As an example of a device that can be used, an exploded perspective view thereof, and FIG. 4 is a plan view showing the inside of FIG. 3, showing the direction of airflow detected by the sensor, and FIG. 5 shows another embodiment of the ventilation system according to the present invention. Figure 6 shows the air conditioning apparatus, Figure 6 is a schematic view showing another embodiment of the ventilation system according to the present invention, Figure 7 is another embodiment of the ventilation system according to the present invention, the indoor air quality detection unit A diagram conceptually illustrating a situation implemented in a smartphone, which will be described with reference to this.

Ventilation system according to the present invention is the indoor air quality detection unit 100 for measuring the pollution information of the air present in the indoor space where the user is located, and the operation to determine the operation of the ventilation device, the operating strength according to the pollution information And a ventilation control unit 300 for controlling the driving of the ventilation device 400 provided in the ceiling based on the information generating unit 200 and the operation information.

Here, the indoor air quality detection unit 100 is located in the space where the user is located, the user lives in the house, the company lives such as work in the building, in the manufacturing field to be active inside the factory as a living space In fact, it is possible to measure indoor air quality in such living space (IS).

Since such a living space will actually be a space composed of a height within 2 meters (m) from the floor, the indoor air quality detecting unit can contribute to the health of the user only by detecting the air quality of the space.

Therefore, the indoor air quality detecting unit 100 is not fixed to the wall or the ceiling, but must be provided and operated in a space where the user is actually active, so that the indoor air quality detecting unit 100 has a portable feature and is small enough to be gripped. It can be implemented in a device of a size, or a convenient device such as a mobile phone or a smart phone.

In addition, since the indoor air quality detection unit 100 is to be moved and operated from time to time in various spaces in which the user is active, communication with the ventilation device is almost impossible to use a wire, wireless communication (WC) is It is necessary to use a wireless connection method such as Wi-Fi and Bluetooth.

On the other hand, the indoor air quality detection unit 100 may include a carbon dioxide concentration measuring sensor or a fine dust concentration measuring sensor, the carbon dioxide concentration is a carbon dioxide concentration measuring sensor that can detect this, because the concentration is increased by the user's breathing. Can be used.

The carbon dioxide concentration measuring sensor can be used irrespective of any type or type of sensor such as optical method, compound detection method as long as it can measure the concentration of carbon dioxide.

In addition, the indoor air quality detection unit 100 may use a fine dust concentration measurement sensor, a sensor capable of measuring 0.1 μm particle size dust from 50 μm particle size dust suspended in indoor air. There is no particular limitation.

In addition, the indoor air quality detection unit 100 may include a display unit indicating the carbon dioxide concentration, the fine dust concentration, the ventilation device operation, thereby operating the ventilation device according to the indoor air quality, if the air quality enters the normal range A series of controls to stop the ventilation can be shown to the user in letters, numbers and colors.

For example, the indoor air quality detection unit 100 will be described. The case 110 constituting the housing of the indoor air quality detection unit, and the carbon dioxide concentration, fine dust concentration, and the presence or absence of the ventilation device on one surface of the case in letters, numbers, and colors. The display unit 120, which is an LED or LCD for displaying, is disposed, and a carbon dioxide concentration measuring sensor 130 and a fine dust concentration measuring sensor 140 are built into the case and installed on a circuit board (PCB) in which the ventilation control unit 300 is implemented. Is connected to the circuit, the operation information generation unit 200 in the microcomputer (not shown) for generating the display information output signal, the ventilation device operation signal in accordance with the power supply (not shown) for supplying the operating power or the concentration signal transmitted from the concentration sensor ) Can be implemented.

Here, the case 110 is a form that can be fixed in the form of fastening means using a bolt and a nut is injected into the form and the front case (110a) and the rear case (110b) separated in order to ensure ease of assembly or separation. In some embodiments, a protective plate 121 made of a transparent material may be further provided to protect the display unit 120.

In addition, the carbon dioxide concentration measuring sensor 130 or the fine dust concentration measuring sensor 140 disposed inside the case may further include a measuring airflow generation unit 500.

The measurement airflow generation unit 500 may be a fan for allowing air to flow in a predetermined direction, and the airflow fan may be disposed in or adjacent to the sensors 130 and 140, and may be disposed by the airflow fan. The direction of blowing (DB) is preferably the direction that passes the carbon dioxide concentration sensor first and then passes the fine dust concentration sensor.If the forced air flow by the airflow fan directly faces the carbon dioxide concentration sensor, the airflow fan Airflow with uneven concentrations of carbon dioxide, if directly acting as a source of contamination, can be measured and adversely affect the accuracy of the measurement.

On the other hand, the indoor air quality detection unit 100 based on the result of measuring the carbon dioxide concentration and the fine dust concentration of the indoor air pollution state, the operation information generation unit 200 is a clean state compared to the predetermined concentration information In other words, when the concentration of carbon dioxide or the fine dust farmland is lower than the predetermined concentration, the generation of concentration information, the ventilator operation stop information, and based on the information, the ventilation control unit 300 provides the concentration information to the user numerical values, characters, It is colored and the ventilator is deactivated.

On the contrary, the indoor air quality detection unit 100 determines the pollution state of the indoor air based on the result of measuring the carbon dioxide concentration and the fine dust concentration. In other words, when the concentration of carbon dioxide or fine dust farmland is higher than the predetermined concentration, the concentration information, the ventilation device operation, the intensity information is generated, and based on the information, the ventilation control unit 300 provides the numerical value or text to the user. Coloring is done and ventilation is carried out by operating strong or weak strength.

 Here, the ventilator 400 operates the air supply fan 420 provided on the air supply passage to the indoor air SA through the air supply passage 410 to supply the outdoor air OA, which is outdoor air, and pollutes the indoor air. The air RA is operated by the exhaust fan 440 provided on the exhaust flow path through the exhaust flow path 430 and discharged to the exhaust air EA, and the air supply / exhaust flow paths 410 and 430 cross each other. A heat exchanger (HE) having a multilayer heat exchanger plate structure which is commonly used may be provided to exchange heat energy of indoor and outdoor air during summer or winter, day or night, thereby preventing energy waste.

In addition, the air supply passage 410 may be disposed a filtration unit 450, such as a pre-filter, a medium filter or a hepa filter for filtering fine dust contained in the outside air (OA).

On the other hand, the ventilator 400 is provided with a discharge passage in the indoor room (Room) partitioned in the room (IS), it is possible to discharge the polluted air to the outside, the ventilated air through the ventilator Supplying the indoor room is inevitably a contaminant generated over time inside the piping as well as a ventilation device. When the ventilated air is supplied through the contaminated inner tube, the air may be additionally contaminated during supply. Not preferred.

Therefore, the contaminated air is discharged to the outside from the contaminated room, and the minus pressure will be formed in the indoor room as much as the discharged air, and the ventilation existing in the space where the ventilation device is installed, for example, the living room space. The supplied air can be supplied to the indoor room by the sound pressure and supplied, so that the pollution degree of the entire room can be managed.

For example, when the ventilation device 400 is installed on the ceiling of the room 2 (R # 2), and the user has the air quality detecting unit 100 in another room, that is, the room 1 (R # 1). The air quality detecting unit 100 measures the air pollution state therein, and the operation information generating unit 200 compares the preset concentration information with the polluted state, that is, the concentration of carbon dioxide or fine dust farmland is higher than the preset concentration. If it is high, the concentration information, the operation of the ventilation device, the intensity information is generated, and based on the information, the ventilation control unit 300 displays the concentration information to the user in numerical value, text, or color, and polluted air through the discharge passage 470. The ventilator 400 is controlled to discharge the ventilator 400, and the ventilator 400 may be sequentially or selectively operated by a strong or weak strength.

Here, the sequential or selective operation of the ventilator 400 means supplying the ventilation air according to the amount of the polluted air discharged from the indoor room. If the polluted air is released, the air volume and pressure in the indoor space can be maintained at a constant level by stopping operation or operating at a low intensity.

On the other hand, the ventilation device 400 is additionally provided with an exhaust channel 470 when another air conditioner (eg, a system air conditioner, a central air conditioning system, etc.) for supplying or exhausting an indoor space or an indoor room is installed. Not provided, it can be interlocked to exhaust the polluted air through the other exhaust passage 740 'of the other air conditioning apparatus.

For example, the ventilation device 400 is installed on the ceiling of the room 2, and the air quality detection unit 100 when the user has the air quality detection unit 100 in another room, that is, the room 1 (Room1). ) Measures the state of air pollution therein, and the operation information generation unit 200 compares the concentration information with the preset concentration information, that is, when the concentration of carbon dioxide or fine dust is higher than the predetermined concentration concentration information. , Generates ventilation device operation, intensity information, and based on the information, the ventilation control unit 300 displays the concentration information to the user in numerical values, letters, and colors, and contaminates the other exhaust paths 470 'of other air conditioning devices. Control to discharge the air, it can be carried out by sequentially or selectively operating the ventilator 400 to a strong strength or weak strength.

Indoor air quality detection unit 100, operation information generation unit 200,
Ventilation control unit 300, ventilation unit 400,
Measuring air flow generation part 500

Claims (8)

An indoor air quality sensor configured to measure pollution information of air existing in a space where a user is located;
An operation information generation unit for determining whether to operate the ventilation device and the operation intensity according to the pollution information; And
Ventilation control unit for controlling the driving of the ventilation device provided on the ceiling based on the operation information; ventilation system comprising a.
The method of claim 1,
The indoor air quality detection unit is a ventilation system, characterized in that the user can carry.
The method of claim 2,
The indoor air quality detecting unit comprises a carbon dioxide concentration measuring sensor or a fine dust concentration measuring sensor.
The method of claim 3, wherein
The carbon dioxide concentration measuring sensor or the fine dust concentration measuring sensor further comprises a measuring air flow generating unit ventilation system.
The method of claim 4, wherein
The measurement airflow generation unit is a airflow fan for flowing air in a predetermined direction, the direction of the airflow by the airflow fan is a direction passing through the carbon dioxide concentration measurement sensor first and then the fine dust concentration measurement sensor.
The method of claim 1,
The ventilator operates the air supply fan provided on the air supply passage to the indoor air through the air supply passage, and operates the exhaust fan provided on the exhaust passage to the exhaust air through the exhaust passage. The exhaust system, characterized in that the air supply passage is provided with a filtration unit for filtering the fine dust contained in the outside air.
The method of claim 6,
The ventilation device is provided with a discharge passage in the indoor room partitioned by a partition in the room, ventilation system characterized in that for controlling the exhaust of the indoor room according to the pollution information detected by the indoor air quality detection unit of the indoor room.
The method of claim 1,
Ventilation system characterized in that for controlling the exhaust of the indoor room in accordance with the pollution information detected by the indoor air quality detection unit through the other exhaust passage of the air conditioning apparatus for supplying or exhausting the indoor room partitioned by the partition wall.

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