KR102095716B1 - Multifunctional Air Conditioning System - Google Patents

Abstract

The present invention provides a multifunctional air conditioning system which can control humidity by efficiently removing fine dust at low costs. The multifunctional air conditioning system includes: a duct having an inlet and an outlet; a sensor unit sensing the state of atmosphere including the concentration of indoor dust in a user space; an air conditioning unit; and a control unit storing a user dust concentration about a dust concentration of the user space, receiving the concentration of the indoor dust sensed by the sensor unit, and controlling at least one among an air blower, a roller driving unit, and a water supply unit to lower the concentration of the indoor dust to the user dust concentration or less when the received concentration of the indoor dust exceeds the user dust concentration. The air conditioning unit has: a pair of rollers supported on a duct to rotate; the roller driving unit rotating the pair of rollers; a water screen filter supported by the pair of rollers to rotate while forming a closed loop; the water supply unit supplying water to an upper side of the water screen filter; a water tank at least accommodating the roller in the lower one of the pair of rollers and collecting water dropping from the water screen filter, wherein the water tank can control a water level to maintain a state in which the accommodated lower roller is sunk; the air blower enabling the air to flow toward the water screen filter; and a heat exchange unit heating or cooling the air flowing by the air blower.

Description

Multifunctional Air Conditioning System

The present invention relates to a multifunctional air conditioning system, and more particularly, to a multifunctional air conditioning system capable of stably performing air conditioning according to a user's request in an indoor space.

Recently, as the amount of fine dust in the outdoor atmosphere increases, it has become a major concern to remove fine dust in the room. In addition, it is necessary to control indoor humidity since it is mainly very dry on a day with a lot of fine dust. In general, in order to control fine dust and humidity while performing cooling and heating, it is necessary to remove and humidify fine dust during ventilation and indoor air circulation.

However, as a method of removing fine dust in a conventional air conditioning system, filtering is mainly used, and accordingly, the filter needs to be constantly replaced. Therefore, the maintenance cost is increased, and the filter efficiency is continuously changed until a new filter is replaced. There was a problem of this declining efficiency. In addition, in the case of humidification, a heating method and an ultrasonic method are used, and there is a problem that high oil cost is required.

(Advanced technical literature)
Constant temperature and humidity system using registered patent water circulation (Registration No .: 10-1886178, Registration Date: Aug. 01, 2018)

Accordingly, an object of the present invention is to provide a multifunctional air conditioning system capable of controlling humidity while efficiently removing fine dust at low cost.

A multi-functional air conditioning system for achieving the object of the present invention includes a duct having an inlet and an outlet; A sensor unit that detects indoor and outdoor temperature, humidity, and atmospheric conditions including fine dust in the user space; A pair of rollers rotatably supported by the duct, a roller driving unit for rotationally driving the pair of rollers, a water film filter supported by the pair of rollers and rotating in a closed loop, and the water film filter The water supply unit for supplying water to the upper side of the pair of rollers, the lower roller is accommodated at least and collects the water falling from the water filter, and the water collecting tank is adjustable to maintain the at least locked state of the lower roller. , An air conditioning unit having a blower for flowing air toward the water film filter and a heat exchanger for heating or cooling air flowing by the blower; And storing the user dust concentration for the dust concentration in the user space, receiving the indoor dust concentration detected from the sensor unit, and when the received indoor dust concentration exceeds the user dust concentration, the indoor dust concentration is the user dust concentration. It includes a control unit for controlling at least one of the blower, the roller driving unit and the water supply unit to lower to a concentration or less. It is possible to purify indoor and outdoor air by removing fine dust of indoor air using a water filter.

Here, the sensor unit, a humidity sensor for detecting the indoor humidity of the user space; And a temperature sensor that detects the indoor temperature of the user space, and the controller stores a user humidity range and a user temperature range for the humidity and temperature of the user space, and the room detected by the humidity sensor and the temperature sensor. When the humidity is received and the received indoor humidity and indoor temperature are out of the user humidity range and the user temperature range, the blower and the heat exchange unit may set the indoor humidity and indoor temperature within the user humidity range and the user temperature range. , It is preferable to control the humidity and temperature of the user space by controlling at least one of the roller driving part and the water supply part.

And it is installed in the water collecting tank further includes a decontamination unit for removing contaminants of the water filter, the decontamination unit, a brush and a brush driving unit that is in contact with the rotating water filter; An ultrasonic cleaning unit installed in the water collecting tank; And an ultraviolet lamp that illuminates the water film filter, which can efficiently separate fine dust from contaminated water of the water film filter, and is preferable because it can sanitarily manage the water of the water film filter.

Here, the water film filter is preferable because it is possible to increase the durability of the dust-proof filter while efficiently removing fine dust when it is provided with a dust-proof filter made of a water-repellent coated fabric made of a hydrophobic material in a mesh shape.

And the air conditioning unit, the pair of rollers are provided in a plurality in the duct; A roller driving unit selectively rotating and driving the pair of rollers installed in the plurality; A plurality of water film filters supported by the pair of rollers and rotating while forming a closed loop; A water supply unit selectively supplying water to an upper side of the plurality of water film filters; And divided into a plurality of regions, at least the lower rollers of the pair of rollers are respectively accommodated in each region, and water falling from the plurality of water film filters is collected, and each of the lower rollers received is at least locked. The water level is adjustable so that it is preferable to include a water collecting tank having an outlet, since it can be adjusted according to the concentration and humidity of indoor and outdoor fine dust.

Here, it is installed in the duct further comprises a micro-droplet generator for generating micro-droplets, the micro-droplet generator, at least one spray nozzle for generating micro-droplets; And forming a water pressure with the spray nozzle and including a spray pump for supplying water, which increases the efficiency of removing fine dust and can quickly increase the humidity in a dry room.

According to the present invention, there is an effect of purifying indoor air by removing fine dust using a water film filter according to indoor and outdoor atmospheric conditions.

It is possible to control the humidity and temperature of the user space by using the heat exchanger and the water film filter.

It is possible to efficiently separate fine dust from contaminated water of the water film filter by using a decontamination unit, and it is possible to cleanly and hygienically manage the water of the water film filter.

When the water filter is provided with a hydrophobic dust filter, it effectively removes fine dust and increases the durability of the dust filter.

When a plurality of water filter is provided, there is an effect that can be adjusted adaptively according to the concentration and humidity of the indoor and outdoor fine dust.

The use of a microdroplet generator increases the efficiency of removing fine dust and has the effect of rapidly increasing the humidity in a dry room.

1 is a schematic diagram of a multi-function air conditioning system according to the present invention.
Figure 2 is an enlarged detail of the air conditioning unit.
Figure 3 is a modified example of the air conditioning unit.
4 is an air flow diagram for each air conditioner.
5 is a control block diagram.

Hereinafter, a multifunctional air conditioning system 1 according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a multifunctional air conditioning system 1 according to the present invention, FIG. 2 is an enlarged detailed view of the air conditioning unit 30, and FIG. 3 is a modified example of the air conditioning unit 30, and FIG. 4 Is an air flow diagram of the duct 10, and FIG. 5 is a control block diagram of the multi-function air conditioning system 1.

As shown in Figure 1, the multi-function air conditioning system 1 is installed on the ceiling with a suction section 70 in the central region and a discharge portion 80 in the edge region. In some cases, the suction part 70 and the discharge part 80 may be formed by changing their mutual roles. The discharge unit 80 is preferably formed of a direction changing wing that can change the flow path of the air discharged from the duct 10 for circulation of the user space atmosphere.

The multi-function air conditioning system 1 includes a duct 10, a sensor unit 20, an air conditioning unit 30, a decontamination unit 40, a microdroplet generator 50, and a control unit 60. The duct 10 has an inlet and an outlet and provides a path for air to flow. The duct 10 includes a main duct 11 connected to the air conditioning unit 30, a bypass duct 12 formed to bypass the air conditioning unit 30, a discharge duct 13 disposed in the outer region, and a central region. It includes a suction duct 14 and a plurality of dampers 15.

The sensor unit 20 detects indoor and outdoor temperature, humidity, and fine dust in the user space 2, including atmospheric conditions. The sensor unit 20 includes a temperature sensor 21, a humidity sensor 22 and a dust sensor 23. The sensor unit 20 may be applied to any sensor that can check the state of the atmosphere, including a wind direction sensor, a fragrance detection sensor that detects fragrance, an anion detection sensor, and a gas detection sensor. The sensor unit 20 may be installed at a plurality of indoor and outdoor locations.

The air conditioning unit 30 controls the temperature, humidity, and concentration of fine dust in the user space. The air conditioning unit 30 includes an upper roller 31, a lower roller 32, a roller driving unit 33, a water film filter 34, a water supply unit 35, a water collecting tank 36, a blower 37, and a heat exchange unit ( 38). The upper roller 31 and the lower roller 32 are rotatably supported by the duct, and are disposed at the upper and lower portions in parallel with each other. The roller driving part 33 rotates and drives at least the upper roller 31 and the lower roller 32. The roller driving unit 33 may be provided as a motor to be rotatably coupled to the upper roller 31 and the lower roller 32, and may also adjust the rotation speed by control of the control unit 60.

The water filter 34 is supported by a pair of rollers 31 and 32 and rotates to form a closed loop. The water film filter 34 may be a dustproof filter made of a water-repellent coated fabric made of a hydrophobic material in a mesh shape. The water film filter 34 may be formed of a flexible material and may form a locking hole inserted into the locking protrusions provided on the pair of rollers 31 and 32. Accordingly, the water film filter 34 can be rotated without slipping according to the rotation of the pair of rollers 31 and 32. The water film filter 34 may be chained to both ends in the longitudinal direction, and a pair of rollers 31 and 32 may be provided with sprockets.

The water supply unit 35 supplies water to the upper side of the water film filter 40. The water supply unit 35 includes a water supply pipe 351 and a selection valve 352. The water supply unit 35 may include a water supply pump to adjust the water supply amount. The selection valve 352 is installed on the water supply pipe 351 to supply water to at least one of the plurality of water supply pipes 351 formed by branching.

The water collecting tank 36 accommodates at least the lower roller 32 of the pair of rollers 31 and 32 and collects water falling from the water film filter 40 and adjusts the water level so that the received lower roller 32 is kept at least locked. It is possible. The water collecting tank 36 has a discharge port 363 to discharge water so that the water falling from the water film filter 40 maintains a constant water level. When the plurality of water film filters 40 are provided, the water collecting tank 36 is formed to be wide, and a plurality of partition walls 361 and 362 partitioned into a plurality of regions to accommodate each of the water film filters 40 may be formed.

The blower 37 is disposed in the duct 10 under the control of the control unit 60 to rotate forward and backward to flow indoor and outdoor air toward the water filter 34. The heat exchange unit 38 is formed to heat or cool the air flowing by the blower 37 under the control of the control unit 60. The heat exchange unit 38 includes a compressor 38-1, an outdoor heat exchanger 38-2, an expansion valve 38-3, an indoor heat exchanger 38-4, and a refrigerant pipe 38-5. The indoor heat exchanger 38-4 may be disposed in the duct 10 or may be disposed surrounding the outside of the duct 1. When the indoor heat exchanger 38-4 is disposed surrounding the outside of the duct 1, it is preferable that the duct 10 in which the indoor heat exchanger 38-4 is disposed has a shape capable of efficiently exchanging heat. . The compressor 38-1, the outdoor heat exchanger 38-2, the expansion valve 38-3, and the refrigerant pipe 38-5 are disposed in an outdoor unit arranged outdoors.

The heat exchanger 38 heats the user space under the control of the control unit 60. In this case, the compressor 38-1 is driven to compress the liquefied high-temperature refrigerant and liquefy it, and the refrigerant dissipates heat to become a low-temperature refrigerant. Accordingly, the refrigerant flows while dissipating heat around the indoor heat exchanger (38-4). Accordingly, air flowing through the duct 10 is heated. The low-temperature refrigerant flows to the expansion valve 38-3. The low-temperature refrigerant decreases in pressure and vaporizes as it passes through the expansion valve 38-3, and becomes a high-temperature vaporized refrigerant while taking away the surrounding heat. Accordingly, the refrigerant flowing through the opportunity absorbs the surrounding heat of the outdoor heat exchanger (38-2) and cools and flows. Since the outdoor heat exchanger 38-2 is disposed outside, heat exchange is naturally performed by wind or the like. The high-temperature refrigerant vaporized past the outdoor heat exchanger (38-2) is circulated to the compressor (38-1).

The heat exchange unit 38 cools the user space under the control of the control unit 60. In the case of cooling, the circulation of refrigerant flows in the opposite direction as in the case of heating. In this case, the compressor 38-1 is driven to compress the liquefied high-temperature refrigerant and liquefy it, and the refrigerant dissipates heat to become a low-temperature refrigerant. Accordingly, the refrigerant flows while dissipating heat around the outdoor heat exchanger (38-2). Since the outdoor heat exchanger 38-2 is disposed outside, heat exchange is naturally performed by wind or the like. The low-temperature refrigerant flows to the expansion valve 38-3. The low-temperature refrigerant decreases in pressure and vaporizes as it passes through the expansion valve 38-3, and becomes a high-temperature vaporized refrigerant while taking away the surrounding heat. Accordingly, the refrigerant that flows as an opportunity flows while absorbing and cooling the ambient heat of the indoor heat exchanger (38-4). Accordingly, the air flowing through the duct 10 in which the indoor heat exchanger 38-4 is disposed is cooled. The high-temperature refrigerant vaporized past the indoor heat exchanger (38-4) is circulated to the compressor (38-1).

When the humidity of the user space is required, the flowing air evaporates the water of the water film filter 34 to maintain the humidity of the user space. When the user space is very dry, the amount of water supplied to the water supply unit 35, the rotational speed of the water film filter 34, and the rotational speed of the blower 37 are increased. When the user space is very hot and humid, the air flows through the bypass duct 12 without going through the air conditioning unit 30. When the indoor heat exchanger 38-4 is cooled, the air flows to cool the flowing air. Simultaneously, the humidity in the air can be controlled so that condensation occurs on the surface of the indoor heat exchanger (38-4). Water condensation on the surface of the indoor heat exchanger (38-4) can be discharged by flowing in the discharge line of the water collecting tank (36).

The decontamination unit 40 is installed in the water collecting tank 36 to remove contaminants from the water film filter 34. The decontamination unit 40 includes a brush 41, a brush driving unit 42, an ultrasonic cleaning unit 43, and an ultraviolet lamp 44. The brush 41 is positioned to contact the surface of the water film filter 34. Accordingly, the brush 41 separates contaminants from the water film filter 34 from the water film filter 34. The brush driving part 42 drives the brush 41 to rotate. When the brush 41 is rotated, contaminants on the water film filter 34 can be more easily separated from the water film filter 34. The ultrasonic cleaning unit 43 is disposed at a lower portion or an outer lower portion to separate contaminants from the inner wall of the water collecting tank 36 or the water film filter 34. The ultraviolet lamp 44 shines ultraviolet light toward the water film filter 34. Thereby, the water in the water film filter 34 can be sterilized to be clean and hygienic.

The micro droplet generator 50 is installed in the duct 10 and generates micro droplets. The microdroplet generator 50 includes a spray nozzle 51 and a spray pump 52. The microdroplet generator 50 is necessary when the humidity of the indoor air in a very dry state is rapidly adjusted to include humidity. In addition, when the concentration of fine dust in the user space 2 is high, spray is generated in the duct to quickly remove the fine dust. Thereby, the fine dust comes into contact with the spray a lot and is captured, and the fine dust is captured by the water film filter 34 and the water of the water film filter 34. Accordingly, the fine dust is quickly removed due to the water collecting tank 36 and the decontamination unit 40.

The control unit 60 stores the user dust concentration for the dust concentration in the user space 2, receives the indoor dust concentration in the room detected by the sensor unit 20, and the received indoor dust concentration exceeds the user dust concentration. If it is to control at least one of the blower 37, the roller driving unit 33 and the water supply unit 35 to lower the indoor dust concentration below the user dust concentration.

The control unit 60 stores the user humidity range and the user temperature range for the humidity and temperature in the user space, receives the indoor humidity detected from the humidity sensor 22 and the temperature sensor 21, and receives the received indoor humidity and indoor When the temperature is outside the user humidity range and the user temperature range, the heat exchange unit 38, the brush driving unit 42, the ultrasonic cleaning unit 43, the ultraviolet lamp ( 44), the spray nozzle 51 and the spray pump 52 can be controlled.

The control unit 60 controls the rotational speed of the blower 37 according to the circulation amount of air, and accordingly, the selection valve 352 and the heat exchanger of the water supply unit 35 to control the rotational speed and water supply amount of the rollers 31 and 32 The part 38 is also controlled. The control unit 60 selects the valve 352 and the heat exchange unit of the water supply unit 35 so that the rotation speed of the blower 37, the rotation speed of the rollers 31 and 32, and the water supply amount are controlled according to the degree of cooling and heating. 38) also controls. The control unit 60 controls the spray amount of the microdroplet generator 50, and accordingly, the selection valve of the water supply unit 35 so that the rotation speed of the blower 37, the rotation speed of the rollers 31 and 32, and the water supply amount are controlled. 352 and the heat exchange unit 38 are also controlled. An intermittent valve (not shown) is installed at the outlet 363 of the water collecting tank 36 to adjust the water level of the water collecting tank 36.

3 is a diagram illustrating a modification of the air conditioning unit 30.

Three water film filters 341, 342, and 343 are installed, and the water supply part 35 is formed to supply water to the three water film filters 341, 342, 343 with a selection valve 352. Brushes 411, 412, 413, brush driving parts 42, and UV lamps 441, 442, 443 are arranged in each of the water film filters 341, 342, 343, and one ultrasonic cleaning part 431 It is installed at the bottom. The ultrasonic cleaning unit 431 may be installed inside the lower portion or may be installed outside the lower portion. The lower portion of the water collecting tank 36 has a funnel shape and an outlet 363 is disposed on the lowermost side. The microdroplet generator 50 is installed to spray the spray between the blower 37 and the air conditioning unit 30. The heat exchange unit 38 is disposed on the left side of the air conditioning unit 30.

4 is an air flow diagram for each air conditioner. 4 shows that the air flow is controlled by adjusting the damper 15 to perform circulation (heating and cooling).

4 (a) A flow discharged to both lower ducts 14 through the air conditioning unit 30 through the air intake to the upper duct 13 on the left side, which is made in the case of rapid circulation or rapid heating.

FIG. 4 (b) is a flow discharged from the two lower ducts 14 through the air conditioning unit 30 to the upper duct 13 on the left side, and is made in the case of rapid circulation or rapid cooling.

FIG. 4 (c) is a flow discharged to the upper duct 13 on the left side and discharged to the lower duct 14 on the right side through the air conditioning unit 30, and is made when the standby state of the user space is stable.

4 (d) A flow discharged to the lower duct 14 on the left side and then discharged to the upper duct 13 on the right side through the air conditioning unit 30. This is achieved when the air condition of the user space is stable.

Modified embodiments will be described in addition to the above examples.

The multifunctional air conditioning system 1 may include a dehumidifier (not shown) for dehumidification, and may be driven to lower humidity. This dehumidifier can also be controlled by the control of the control unit 60.

The water collecting tank 36 may include a water level sensor (not shown) for checking the water level. In addition, the control unit 60 may control the water supply from the water supply unit 35 to be forcibly stopped when the water in the water collection tank becomes higher than a predetermined height.

Due to the multi-functional air conditioning system 1, the indoor air is purified by humidifying the dry indoor air while removing fine dust using the water filter 34 according to the indoor and outdoor atmospheric conditions. By using the decontamination unit 40, fine dust can be efficiently separated from the contaminated water of the water film filter 34, and the water of the water film filter 34 can be managed cleanly and hygienically. When the water filter 34 is provided with a hydrophobic dust filter, the dust filter is effectively removed while the durability of the dust filter is increased. If a plurality of water filter 34 is provided, it can be adaptively adjusted according to the concentration and humidity of indoor and outdoor fine dust. When the microdroplet generator 50 is used, the efficiency of removing fine dust can be increased and the humidity in a dry room can be quickly increased.

1: Air conditioning system 2: User space
10: duct 11: main duct
12: bypass duct 13: upper duct
14: hub duct 15: damper
20: sensor unit 21: temperature sensor
22: humidity sensor 23: dust sensor
30: air conditioning unit 31: upper roller
32: lower roller 33: roller driving unit
34: water filter 35: water supply
36: catchment tank 37: blower
38: heat exchanger 40: decontamination unit
41: brush 42: brush drive
43: ultrasonic cleaning unit 44: UV lamp
50: micro droplet generator 51: spray nozzle
52: spray pump 60: control unit

Claims (6)

In the multi-function air conditioning system,
A duct having an inlet and an outlet;
A sensor unit for detecting a standby state including the indoor dust concentration in the user space;
A pair of rollers rotatably supported by the duct, a roller driving unit for rotationally driving the pair of rollers, a water film filter supported by the pair of rollers and rotating in a closed loop, and the water film filter The water supply unit for supplying water to the upper side of the pair of rollers, the lower roller is accommodated at least and collects the water falling from the water filter, and the water collecting tank is adjustable to maintain the at least locked state of the lower roller. , An air conditioning unit having a blower for flowing air toward the water film filter and a heat exchanger for heating or cooling air flowing by the blower; And
It stores the user dust concentration for the dust concentration in the user space, receives the indoor dust concentration detected from the sensor unit, and when the received indoor dust concentration exceeds the user dust concentration, the indoor dust concentration is the user dust concentration. And a control unit controlling at least one of the blower, the roller driving unit, and the water supply unit to be lowered below.
The air conditioning unit,
The pair of rollers installed in a plurality of the ducts;
A roller driving unit selectively rotating and driving the pair of rollers installed in the plurality;
A plurality of water film filters supported by the pair of rollers and rotating while forming a closed loop;
A water supply unit selectively supplying water to an upper side of the plurality of water film filters; And
It is divided into a plurality of regions, and each region has at least a lower roller among the pair of rollers, and collects water falling from the plurality of water film filters, and each of the lower rollers received is at least locked. Multi-function air conditioning system, characterized in that it comprises a water collecting tank with adjustable water level and an outlet.
According to claim 1,
The sensor unit,
A humidity sensor that detects the indoor humidity in the user space; And
It includes a temperature sensor for detecting the indoor temperature of the user space,
The control unit stores the user humidity range and the user temperature range for the humidity and temperature of the user space, receives the indoor humidity detected by the humidity sensor and the temperature sensor, and the received indoor humidity and room temperature are the user humidity. When it is outside the range and the user temperature range, it controls the at least one of the blower, the heat exchange unit, the roller driving unit and the water supply unit so that the indoor humidity and the indoor temperature are within the user humidity range and the user temperature range. Multifunctional air conditioning system.
According to claim 1,
It is installed in the water collecting tank further comprises a decontamination unit for removing contaminants of the water film filter,
The decontamination unit,
A brush and a brush driving part that comes into contact with the water filter when rotated;
An ultrasonic cleaning unit installed in the water collecting tank; And
A multifunctional air conditioning system comprising an ultraviolet lamp that illuminates the water film filter.
According to claim 1,
The water film filter is a multi-functional air conditioning system characterized in that it is a dust-proof filter made of a water-repellent coated fabric made of a hydrophobic material in a mesh shape.
delete According to claim 1,
It is installed in the duct further includes a micro-droplet generator for generating micro-droplets,
The micro droplet generator,
At least one spray nozzle that generates fine droplets; And
A multi-function air conditioning system comprising a spray pump that forms water pressure with the spray nozzle and supplies water.

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