KR100828500B1 - Air conditioning system - Google Patents

Abstract

An air conditioner is provided to form active air flow between hot air and warm air to mix the air evenly to prevent the air and heat from staying locally, thereby achieving active ventilation and keeping room temperature uniform, wherein local cooling or heating for a desired position may be achieved. An air conditioner includes an indoor unit(10) mounted at a corner in an indoor space(50) and a plurality of inducing fans(61-64) mounted at upper areas in the indoor space at a uniform interval for forming discharged air flow in a direction. A first one of the inducing fans is positioned at an immediately upper part of the indoor unit and the others are positioned at upper corners of the indoor space facing previous ones respectively. Each of the fans has a fan rotation unit, a temperature sensor, and a controller for controlling angles of the inducing fans by driving the fan rotation unit according to a signal output from the temperature sensor.

Description

Air conditioning system

The present invention relates to an air conditioning system, and more particularly, in any space, as a smooth airflow is generated between cold and hot air, indoor air and heat can be mixed evenly without stagnation in one place, so that ventilation is well performed. The temperature of the room becomes uniform, and particularly relates to an air conditioning system in which concentrated cooling and heating can be effectively performed to a desired place.

Air conditioners, also called air conditioners, thermo-hygrostats, and the like, control a constant space to a temperature, humidity, and airflow distribution suitable for human activity, and at the same time remove dust from the air.

Pleasant indoor temperature is subtle due to human sensation, but outside air and temperature difference is about 5 ~ 6 ℃ in summer, indoor temperature 25 ~ 29 ℃, humidity 60 ~ 70%, winter temperature 18 ~ 21 It is reported that about 55-70% of the humidity is good.

The principle of the air conditioner is to use the heat of evaporation that takes heat away from the liquid when the liquid evaporates, such as a refrigerator or a refrigerator. A liquid that is easy to evaporate even at a low temperature is used, and a freon gas is usually used.

The basic structure is a direct connection between the motor and the compressor in a sealed iron container, and the compressor is rotated by the motor to compress the refrigerant. Compressors are reciprocating and rotary. The condenser is equipped with aluminum fins on the surface of the copper pipe, and dissipates heat from the refrigerant into the air to cool the liquid. The capillary tube (capillary tube) is a device that lowers the pressure of the high pressure liquid refrigerant from the condenser and evaporates it in the next evaporator. It is a thin copper pipe having a diameter of about 1 mm. The structure of the evaporator is almost the same as the condenser, where the compressed refrigerant evaporates here and takes heat away from the surroundings. Therefore, the temperature of the air in contact with the surface of the evaporator is lowered, and the moisture in the air is removed as water droplets on the surface of the evaporator. The blower system is forcibly sending air for efficient heat exchange.

In the type of air conditioner, there is a central type of central unit, which is used for a large building, with a central unit and cooling / heating of each room by a duct there. There are also small unit types used in homes and offices, which are divided into two types according to the installation method. The main body is integrated, the window unit is installed on the window wall, the rear part of the cabinet is outdoor and the condenser is cooled by the outside air, and the indoor unit with the evaporator and the blower in the indoor side, and the outdoor unit with the compressor and the blower in the outdoor side. There is a split type that uses a refrigerant pipe to connect the indoor unit and the outdoor unit. In addition, there are package types that use cooling water to dissipate heat by a condenser in the large ones installed on the floor, such as an office.

On the other hand, as living standards improve, air conditioners are widely used in various places. In other words, air conditioners are widely used in homes, companies, large churches, cathedrals, auditoriums and gymnasiums.

However, in large churches, cathedrals, or large indoor venues such as auditoriums and gymnasiums, despite the use of air conditioners with large capacities, the airflow between cold and hot air is not well formed. As the air and heat in the room are stagnated in one place, not only the ventilation is poorly performed, but the temperature of the room is not uniform, and the intensive cooling and heating to the desired place does not occur effectively.

The purpose of the present invention is that in any space, as the smooth air flow between the cool air and hot air is formed, the air and heat in the room can be mixed evenly without stagnation in one place, so that the ventilation is good and the room temperature is uniform, especially It is to provide an air conditioning system that can efficiently perform concentrated cooling and heating to a desired place.

The purpose is

Air conditioner is installed in one corner area of the indoor space,

In the upper region of the indoor space, a plurality of attraction fans are arranged at intervals to form one-way air flow for the air discharged from the air conditioner,

It is achieved by an air conditioning system provided in each of the upper regions of the indoor space and configured to form a one-way air flow for the air discharged from the air conditioner.

Here, a first attracting fan of the plurality of attracting fans may be located directly above the air conditioner, and the remaining attracting fans may be provided in an upper corner region of the indoor space to face the front attracting fan.

A fan rotation unit provided in the plurality of attraction fans to rotate the attraction fan; A temperature sensor provided in the plurality of attraction fans; And controlling a fan angle of the plurality of attraction fans by driving the fan rotation unit based on the signal of the temperature sensor.

The control unit controls the fan rotation unit so that its direction is determined so as to be directed from the lowest temperature attraction fan in summer to the highest temperature attraction fan, and in winter the lowest temperature is attracted from the highest temperature attraction fan. The fan rotation unit may be driven to face the fan.

According to the present invention, in any space, as the smooth air flow between the cool air and the hot air is formed, the air and the heat of the room can be mixed evenly without stagnation in one place, so that the ventilation is good and the room temperature is uniform, especially desired Intensive cooling and heating to the place has an effect that can be made effectively.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention. In the description of the embodiments, the same reference numerals are assigned to the same components.

1 is a schematic perspective view of an air conditioner according to an embodiment of the present invention, Figures 2 to 4 is a front view, a plan view and a side view of Figure 1, respectively, Figure 5 is an air according to an embodiment of the present invention 6 is a schematic perspective view of a conditioning system, and FIG. 6 is a control block diagram of an air conditioning system according to an embodiment of the present invention.

Referring to these drawings, but mainly referring to FIGS. 1 to 4, the air conditioner 10 of the present embodiment includes a main body 20 having a plurality of discharge ports 21 and a plurality of discharge ports 21. Each of the plurality of discharge fan unit 30 is provided.

The main body 20 is a part which forms the external appearance of the air conditioner 10 of this embodiment. As shown, it may have a roughly cabinet structure. The outer surface is mainly made of metal material with corrosion resistance.

A foot member (not shown) may be provided below the main body 20 to move the position of the main body 20. If the foot member is provided, it may be desirable that some of them are provided for positional movement and others for fixing at that position. The drain portion 26 is formed at one upper side of the main body 20.

Referring to the internal structure of the main body portion 20, as shown in the lower inner region of the main body portion 20, the outside air is sucked into the interior of the main body portion 20 toward the upper discharge fan unit 30 A plurality of circulation fans 22 for circulating are formed. The control unit 28 is provided in the rear region of the circulation fan 22. The control unit 28 controls the components in the main body 20 based on signals of key buttons provided outside the main body 20 (not shown).

A suction damper part 23 is formed in a lower region of the rear side of the main body part 20 in which the plurality of circulation fans 22 are positioned so that air can be circulated through the plurality of circulation fans 22. The suction damper part 23 may be formed in any direction, such as a longitudinal direction or a lateral direction. The suction damper part 23 of this embodiment can open and close the opening part selectively. Therefore, when not using the air conditioner 10, there is an advantage that can block the inflow of dust or foreign matter into the body portion 20 through the suction damper (23).

At the periphery of the circulation fan 22, a filter member 24 for filtering impurities into the air sucked into the main body 20 is provided. The filter member 24 may be a prefilter, a hepa filter, or the like, but in addition, an electrostatic precipitating filter may be added. The electrostatic precipitating filter absorbs and collects foreign substances in the surroundings when power is applied to the electrostatic precipitating filter.

The upper region of the circulation fan 22 is provided with a heat exchanger 25 for heat-exchanging the air sucked into the body portion 20. The heat exchanger 25 may be arranged in an approximately oblique form to improve heat exchange efficiency. The lower region of the heat exchanger 25 is provided with a drain plate portion 25a for collecting the drain water generated during heat exchange by the heat exchanger 25 while supporting the heat exchanger 25.

On the other hand, the plurality of discharge fan unit 30 is provided so as to discharge the air formed in the main body 20, at least in one direction.

In FIG. 4, a state in which the plurality of discharge fan units 30 are turned downward is shown at 15 degree angles. However, this is only one embodiment, the discharge fan unit 30 is not only capable of changing the direction upwards, but also can be switched in the left and right directions.

Each of the plurality of discharge fan units 30 includes a tubular discharge pipe 31 provided to be exposed to the outside of the main body 20, a discharge fan 32 provided in the discharge pipe 31, and a discharge pipe. A driving unit 33 connected to the rear of the 31 to drive the discharge fan 32 and a rotating unit provided around the driving unit 33 to rotate the entire discharge fan unit 30 in one direction, that is, in the up, down, left and right directions ( 34).

In this embodiment, the discharge pipe 31 is manufactured in such a way that its diameter gradually decreases toward the exposed end. However, the shape of the discharge pipe 31 does not necessarily need to be the same as the drawing, and may be one integral pipe having the same cross-sectional diameter.

The driving unit 33 for driving the discharge fan 32 may be applied as a motor for driving the fan. The driving unit 33 may adjust the ALPM of the discharge fan 32 and the like, and thus may control the amount of air from the discharge fan 32.

The rotating part 34 serves to rotate the entire discharge fan unit 30 in the up, down, left and right directions. The rotating part 34 may be provided to enable manual operation by a mechanical structure, or may be automatically operated by a gear type structure. If the latter method is applied, the rotary part 34 may also be remotely controlled by the remote control.

As the discharge fan unit 30 is rotated up, down, left, and right by the rotating unit 34 to discharge the discharged air, hot and cold air can be supplied to a desired location, place, and area.

In particular, since it is easy to adjust the position in the downward direction in the warm air and upward in the cold wind, the air and heat in the room can be mixed evenly without stagnation in one place, so that the ventilation is well performed and the room temperature can be provided uniformly.

In addition, since it is possible to send intensively, especially where desired, it is possible to effectively intensive cooling and heating to the desired place.

A total of five discharge fan units 30 are provided in this embodiment. That is, five are arranged in a line along the transverse direction. However, since the scope of the present invention is not limited thereto, the number of the discharge fan units 30 may be more than five or at least.

As five discharge fan units 30 are provided, five discharge ports 21 in which the discharge fan units 30 are positioned are also provided. In this embodiment, the plurality of discharge fan units 30 and the plurality of discharge ports 21 are provided. Between the shield is further provided with a shield 40 for shielding the gap.

Although not shown in detail with respect to the shield 40, the shield 40 of the present embodiment is a bellows type shield 40 made of a collapsible flexible material, the discharge fan unit 30 and the discharge port It is provided in the area between the 21 and serves to shield the gap between the discharge fan unit 30 and the discharge port (21).

At this time, if the shielding portion 40 is an integral structure that is not folded, if the discharge fan unit 30 is rotated up, down, left and right, there is a fear that the shielding portion 40 is damaged by the rotation of the discharge fan unit 30 There is.

However, since the shield 40 of the present embodiment is a bellows type shield 40 made of a collapsible flexible material, the discharge fan unit 30 and the discharge port may be formed even when the discharge fan unit 30 is rotated at any angle. By shielding the gap between 21) it is possible to prevent the occurrence of heat loss. The bellows-type shield 40 can be considered to be a form of a plurality of pieces of cloth (40a, see enlarged portion of FIG. 4) like vertical blinds.

Of course, when fabricating the bellows shield 40 after the piece cloth (40a), the piece of cloth (40a) is not separated from each other, the piece of cloth (40a) due to the folding line (40b) formed between the pieces of cloth (40a) They must be folded or unfolded to shield the gap between the discharge fan unit 30 and the discharge port 21.

In the present embodiment, the shield 40 is a material that can withstand high temperatures of about 300 ° C. or more, and may be made of a flame-resistant PVC-based heat resistant material, but is not necessarily so. That is, the shielding part 40 may be manufactured using another material.

Meanwhile, the air conditioner system to which the air conditioner 10 having such a structure is applied will be described with reference to FIGS. 5 and 6.

As shown in FIG. 5, the air conditioner 10 having the above-described structure may be mounted and used in any indoor space 50. Here, the indoor space 50 may be the inside of a large indoor building, such as a large church or cathedral, or an auditorium or a gymnasium, but the scope of the present invention does not need to be limited thereto.

When the air conditioner 10 is used in the indoor space 50, the air conditioner 10 is installed at one side edge area of the indoor space 50.

The air conditioner 10 may be a so-called indoor unit, and an outdoor unit 15 is provided outside the indoor space 50 so as to interact with the air conditioner 10 and the air conditioner 10, which is an indoor unit, is connected to the pipe 16. .

For reference, the outdoor unit 15 includes a housing 15a, an exhaust fan 15b provided on one side of the housing 15a, a compressor 15c and a condenser 15d provided in the housing 15a.

As such, the air conditioner 10 of the present embodiment is connected to the outdoor unit 15 by the pipe 16, so that a refrigeration cycle to the compressor 15c, the condenser 15d, and the heat exchanger 25 is realized by cooling. Can be discharged. Of course, the circulation of the refrigerant is reversed during the warm air.

On the other hand, as in the prior art, if only the air conditioner 10 is installed in the indoor space 50 to implement the cooling and warming, the efficiency is not preferable because the efficiency can be reduced in the air stream generation.

Therefore, in the air conditioning system of the present embodiment, a plurality of attracting fans 61 to 64 are provided in addition to the air conditioner 10.

The plurality of attraction fans 61 to 64 serve to form a one-way air flow for the air discharged from the air conditioner 10. Due to these attracting fans (61 ~ 64) can be mixed evenly without stagnating the air and heat in one place, it is possible to make a good ventilation and uniform room temperature.

In the present embodiment, since a total of four attracting fans 61 to 64 are provided, these will be described as first to fourth attracting fans 61 to 64, respectively.

Looking at the installation position of the attracting fans (61 ~ 64), the first attracting fan (61) of the plurality of attracting fans (61 ~ 64) is located directly above the air conditioner 10, the remaining attracting fan ( 62 to 64 are provided in the upper corner region of the indoor space 50 to face the front attracting fan.

This is to easily send the air blown from the manned fan in the other direction to form a smooth air flow, through which the air and heat in the room can be mixed evenly without stagnating in one place. This ensures good ventilation and uniform room temperature.

In order to more smoothly generate air flow by the attracting fans (61 to 64), the air conditioning system of the present embodiment, the fan rotation unit 71 provided in the plurality of attracting fans (61 to 64) to rotate the attraction fan, The fan angles of the plurality of attraction fans 61 to 64 are driven by driving the fan rotation unit 71 based on the temperature sensors 72 provided on the plurality of attraction fans 61 to 64 and the signals of the temperature sensors 72. It further includes a control unit 73 for adjusting the.

For example, the control unit 73 to control the fan rotation unit 71, when attracting hot air to lower the angle of the attracting fans (61 ~ 64) a little, when the cold air is attracted fan It can be controlled to increase the angle of (61 ~ 64). This is due to the principle that hot air flows upwards and cold air flows downwards.

In particular, as the temperature sensor 72 is provided, the angle adjustment of the attracting fans 61 to 64 can be more smoothly performed. That is, the direction is determined so as to point from the lowest temperature draw pan to the highest temperature draw pan in summer, and in winter, the direction is directed from the highest temperature draw pan to the lowest temperature draw pan (61 ~ 64). As the angle adjustment of the) proceeds, more smooth airflow can be realized.

In FIG. 6, four attracting fans 61 to 64 are provided, whereas the fan rotation unit 71 and the temperature sensor 72 are provided one by one, but the fan rotation unit 71 and the temperature sensor 72 are also provided. Four manned fans (61 ~ 64) is provided as one is provided in the position.

In addition, the rotation angle adjustment of the attracting fans 61 to 64 by the control unit 73 may be adjusted at a long distance by a remote controller or the like.

On the other hand, Figure 7 is a schematic explanatory view showing a state that the blowing angle of the main fan of the present invention is adjusted in the summer, Figure 8 is a state of the blowing angle of the main fan of the present invention is adjusted in the winter It is a schematic explanatory drawing.

Depending on the season, there is a difference between the temperature of the blower air and the ambient air, that is, in the case of summer, the wind blows colder than the surrounding air, so the blower air is somewhat heavier than the surrounding air. As the wind blows, the blowing air is slightly lighter than the surrounding air.

 Therefore, as shown in FIG. 7, the controller 73 rotates the fan so that the attracting fans 61 to 64 are slightly higher than the reference position in consideration of the airflow of the blown air being lowered during the movement in summer. Drive control the unit,

In the winter, the airflow of the blown air rises during the movement, so that the fan fan 61 to 64 drives the fan rotation unit to face a lower position than the reference position.

That is, the angle of the attracting fans 61 to 64 becomes larger as the temperature of the blowing air is lower than the surrounding air (usually in the summer), and becomes larger (facing upward), and the temperature of the blowing air is higher than the surrounding air. The higher (usually in winter), the smaller (facing downward), the angle of the attracting fan (61 ~ 64) is also frequently when the relative temperature of the ambient air to the blowing air changes as the cooling and heating proceeds Can be adjusted.

 The angle adjustment of the attracting fan (61 ~ 64) may be manually adjusted by a person, but the temperature difference between the room temperature measured by the temperature sensor 72 and the blowing air discharged from the air conditioner (10) By setting the angle of the attraction fan in advance, the angle of the attraction fan 61 to 64 may be configured to be automatically adjusted by the control unit 73.

For example, if the room temperature measured by the temperature sensor 72 and the temperature of the blowing air discharged from the air conditioner 10 are the same, the rising or falling airflow does not occur during the blowing, attracting It is preferable to make the angle of the fan 61-64 match a reference position,

If the temperature of the blowing air discharged from the air conditioner 10 is colder than the room temperature measured by the temperature sensor 72, since the downdraft will occur during the blowing, based on the angle of the attraction fan (61 ~ 64) It should be set higher than the position, but the more severe the difference, the higher the angle of the manned fan will be.

If the temperature of the blower air discharged from the air conditioner 10 is warmer than the room temperature measured by the temperature sensor 72, since the rise of the air flow during the blowing, based on the angle of the attracting fan (61 ~ 64) It should be set lower than the position, but the deeper the difference, the lower the angle of the fan will be.

As described above, according to the present exemplary embodiment, as the air flow between the cool air and the hot air is generated in any space, the air and the heat of the room can be mixed evenly without being stagnated at one place, so that the air is well ventilated and the room temperature is uniform. In particular, intensive cooling and heating can be effectively performed to the desired place.

As described above, the present invention is not limited to the described embodiments, and various modifications and changes can be made without departing from the spirit and scope of the present invention, which will be apparent to those skilled in the art. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

1 is a schematic perspective view of an air conditioner according to an embodiment of the present invention;

2 is a front view of FIG. 1,

3 is a plan view of FIG.

4 is a side view of FIG. 1;

5 is a schematic perspective view of an air conditioning system according to an embodiment of the present invention;

6 is a control block diagram of an air conditioning system according to an embodiment of the present invention;

7 is a schematic explanatory diagram showing a state in which a blowing fan angle of the main fan of the present invention is adjusted in summer;

8 is a schematic explanatory view showing a state in which the blowing angle of the manned fan of the present invention is adjusted in winter.

* Explanation of symbols for the main parts of the drawings

10: air conditioner 20: main body

30: discharge fan unit 40: shield

50: indoor space 61 ~ 64: manned fan

73: control unit

Claims (5)

The air conditioner is installed in one corner area of the indoor space, In the upper region of the indoor space, a plurality of attraction fans are arranged at intervals to form a one-way air flow for the air discharged from the air conditioner, In an air conditioning system, each of which is disposed to face an attracting fan adjacent to the front, A fan rotation unit provided in the plurality of attraction fans to rotate the attraction fan; A temperature sensor provided in the plurality of attraction fans; And And a control unit for controlling the fan angles of the plurality of attraction fans by driving the fan rotation unit based on the signal of the temperature sensor. delete The method of claim 1, The control unit controls the fan rotation unit so that its direction is determined so as to be directed from the lowest temperature attraction fan in summer to the highest temperature attraction fan, and in winter the lowest temperature is attracted from the highest temperature attraction fan. And controlling the fan rotation unit to face the fan. The method of claim 1, The control unit controls the fan rotation unit to move the fan fan toward a higher position than the reference position in consideration of the air flow of the blown air is lowered during the movement in the summer, and the air flow of the blown air is raised during the movement in the winter In consideration of the fact that the manned fan is driven to control the fan rotation unit to face a somewhat lower than the reference position air conditioning system. According to claim 4, By setting the angle of the draw fan to the temperature difference between the room temperature measured by the temperature sensor and the blowing air discharged from the air conditioner, the angle of the draw fan is automatically adjusted by the controller Air conditioning system, characterized in that configured to.

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