KR100942014B1 - Air conditioning system - Google Patents

Abstract

PURPOSE: An air conditioner is provided to mix interior air with exterior air, separate foreign materials included in the mixed air by centrifugal separation, and discharge the filtered air. CONSTITUTION: An air conditioner comprises an air conditioner case(14), a suction blower(20), a mixing damper(21), a first heat exchanger(24a), a centrifuge(23), a second heat exchanger(24b), and an exhaust blower(25). The suction blower inhales interior air and exterior air through an interior air intake(10) and an exterior air intake(11). The mixing damper mixes the interior and exterior air into a mixed air. The first heat exchanger passes the hot mixed air from the mixing damper through to exchange the heat first. The centrifuge inhales the mixed air passing through the first heat exchanger and centrifugally separates foreign materials from the mixed air. The second heat exchanger passes the filtered air passing through the centrifuge to exchange the heat secondly.

Description

Air Conditioning System {AIR CONDITIONING SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for filtering and purifying fine dust, yellow dust, dust, automobile exhaust gas, odors and bacteria in the air, and more particularly, by a filtration filter member applied to an air conditioner. It replaces the filtration method with the centrifugal separation method and renews the flow path of the air to be treated to be applied to various installation environments.

Recently, the research on building construction has introduced a variety of eco-friendly technologies, such as high efficiency, energy saving, efficient resource utilization, and pollution emission reduction technology, and the interest in sustainable building construction with high efficiency and high performance is being increased.

The air conditioner has become an essential facility for such eco-friendly construction. In particular, air conditioning and purification in underground stations, where indoor air pollutants such as fine dust, yellow dust, dust, automobile exhaust gas, odors and bacteria are frequently formed, are directly related to the creation and maintenance of a pleasant indoor environment and the user's health. It is more important than any other facility.

On the other hand, the basics of energy saving plans in buildings can be summarized as follows: restraining loads, setting appropriate indoor environmental conditions, using natural energy, using array and unused energy, applying efficiencies system equipment, and preventing waste and over-operation. And so on. Among them, the application of technology and environment-friendly technology to the air conditioning system, which is a mechanical facility that occupies more than 25-30% of general buildings, is required.However, the excess capacity is set based on the central air conditioning system used in most buildings. It is trying to improve the operation efficiency of equipment by constructing the optimization system such as prevention, adoption of high efficiency equipment, proper division of heat source equipment, and prevention of overheating and supercooling by high efficiency operation and automatic control.

The causes of indoor air pollution can be classified into the effects of indoor pollutants, air pollution from industrialization and urbanization, and pollutants emitted from new building materials.

Control of air pollutants has been focused on technology development. However, since there is a limit to natural purification, it generally depends on the central air conditioning system, which is an artificial mechanical facility, and accordingly, the central air conditioning system consists of energy saving and high efficiency system. This is required.

Conventional air conditioners generally use a filtration filter to directly filter air, which incurs fixed costs such as filter purchase and labor costs due to periodic cleaning and replacement of the air filter. Due to the high loss, the power cost due to the decrease of the air volume was increased, and there were problems such as disposal of waste generated after using the air filter, low treatment efficiency and short replacement period, and limitation of load reduction. As an alternative, the centrifugal technology has been partially applied in recent years, and the centrifugal type air that collects pollutants in the air as fine moisture particles and purifies the air by centrifuging the air and water by the specific gravity difference. Harmonic devices are known, but operating costs are high, there is also a problem of falling economic efficiency.

The problems caused by the use of the filtration filter in the conventional air conditioner are listed in detail as follows.

First, there is a problem that the continuous operation of the air conditioner is impossible because the state of the filter element for filtration is continuously observed and if necessary to wash or replace.

Second, it can not cope with the problem of prevention of rapid indoor pollution, which may be caused by the careless inspection and cleaning of the filtration filter member and the care of the replacement cycle.

Third, the maintenance and management costs due to the replacement of the filter element for filtration is constantly entering, causing economic retrograde.

Fourth, the wind pressure loss is large, which causes the driving load on the driver side to increase.

Therefore, the present invention was created to supplement the problems of the conventional air conditioner as described above, an object of the present invention is to provide a filtration filter that can reduce the load while semi-permanently air filtration function without the use of a filtration filter in the air conditioner The purpose is to provide an alternative structure.

Another object of the present invention, by changing the filtration method to remove and collect the fine dust contained in the air in the air conditioning apparatus from the collection method by the filtration filter to the centrifugal separation method by applying a precooling system by the heat exchange pad according to The purpose is to reduce the load on the refrigerator.

An air conditioner according to the present invention for achieving the above object, in the air conditioner, the air conditioning case formed with an indoor air inlet and an external air inlet and an exhaust air damper and an air outlet on one side and the other side, respectively, the air conditioning case The suction blower which sucks the indoor air and the outside air through the indoor air inlet and the external air inlet, is installed between the external air inlet and the exhaust air damper to change the mixed air by mixing the indoor air and the outside air, partly the exhaust air A mixing damper discharged through a damper, a first heat exchanger installed at one side of the mixing damper, and primarily exchange heat by passing hot mixed air mixed in the mixing damper; and mixed air passing through the first heat exchanger. A centrifuge for suctioning and centrifuging particulate impurities contained in the mixed air; A second heat exchanger installed at one side of the air filter and passing through the filtered air filtered through the centrifugal separator for second heat exchange, and a discharge blower for discharging the filtered air heat exchanged through the second heat exchanger to the air outlet. It is achieved by an air conditioner characterized in that.
The mixed air formed through the mixing damper is preferably mixed at a ratio of 7: 3, which is indoor air 70 and external air 30, under the condition that the total amount is 100.
The centrifuge has a suction port for suctioning the mixed air on one side, there is a cyclone body is connected to the suction port to accelerate the rotation of particulate impurities contained in the mixed air, the cyclone body is connected by a connecting pipe, One end of the connecting pipe may be provided with a recovery container, and an upper end of the cyclone body may include a discharge port for discharging the filtered filtration air after particulate impurities are collected by a blower down.

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The air conditioner according to the present invention changes the indoor air and the external air into mixed air and then, by centrifuging the particulate impurities contained in the mixed air to discharge the filtered air, it is necessary to replace a separate filter element for filtration. It is possible to operate in a semi-permanent state without.

In addition, there is an effect that can cope with the problem of preventing a sudden indoor pollution that may occur due to the care and cleaning of the filter element for filtration and careless exchange cycle management.

In addition, it is possible to operate economically by saving the maintenance and management costs due to frequent replacement of the filter element for filtration, there is an effect that does not cause problems, such as stopping the operation of the entire air conditioner due to filter cleaning or replacement.

In addition, there is an effect that it is possible to continuously supply the filtered air through the centrifuge to control the temperature while minimizing the load to the appropriate temperature suitable for maintaining comfortable indoor air.

Hereinafter, the configuration of the air conditioner according to the present invention with reference to the drawings as follows.
1 is a schematic diagram illustrating an air conditioner according to the present invention, Figure 2 is a configuration example of a centrifuge according to the present invention, Figure 3 is for explaining the impurity filtration state of the centrifuge according to the present invention, (a) is a front view of a cyclone main body, (b) is a top view of a cyclone main body.

1 to 3, the air conditioner according to the present invention, the indoor air inlet 10 and the external air inlet 11 and the discharge air damper 12 and the air outlet 13 is formed on one side and the other side, respectively Intake blower 20 for sucking the indoor air A1 and the outside air A2 through the air conditioning case 14 and the indoor air inlet 10 and the external air inlet 11 from the inside of the air conditioning case 14. And, it is installed between the external air inlet 11 and the discharge air damper 12 to mix the indoor air (A1) and the external air (A2) to change to the mixed air (A3) to partially discharge air damper (12) A first heat exchanger 24a for primarily heat-exchanging and cooling the mixing damper 21 and the mixed air A3 mixed in the mixing damper 21, and the first heat exchanger 24a. A centrifuge (23) for sucking the mixed air (A3) passing through the gas and centrifuging the particulate impurities contained in the mixed air (A3); A second heat exchanger (24b) which is passed through the filtered air (A4) filtered through the centrifugal separator (23) and heat exchanged and cooled secondly, and the filtered air that is heat exchanged through the second heat exchanger (24b). A discharge blower 25 for sending (A4) to the air outlet (13).
The mixed air A3 formed through the mixing damper 21 may be mixed so that the indoor air A1 is 70 and the external air A2 is 30 in a 7: 3 ratio under the condition that the total amount is 100. .

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The first heat exchanger 24a has a cooling structure in which water at atmospheric temperature is stored and heat-exchanges with air having a higher temperature, and the first heat exchanger 24a is provided with respect to the mixed air A3 flowing. In order to reduce the differential pressure, it is desirable to secure a wide distance between the heat exchange fins. Specific shape and configuration of the first heat exchanger 24a is a general configuration, and thus a detailed description thereof will be omitted. However, there is a jacket for storing water inside, and the water jackets are structured to reduce the flow resistance for the mixed air (A3) by securing a sufficient gap.
The centrifuge 23 has a suction port 30 for sucking the mixed air (A3) on one side, the cyclone body connected to the suction port 30 to accelerate the rotation of particulate impurities contained in the mixed air (A3) There is a 31, the cyclone body 31 is interconnected to the connecting pipe 32 can be made freely the air flow, the recovery pipe 33 for collecting the impurities collected at one end of the connecting pipe (32) In the upper end of the cyclone main body 23, particulate impurities are collected in the recovery container 33 by a blower down and discharge outlet 34 for discharging filtered air A4. do.

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Referring to Figures 1 to 3 the operation of the air conditioner according to the invention as follows.

That is, when the operation starts, the indoor air A1 and the outside air A2 are introduced into the air conditioning case 14 through the indoor air inlet 10 and the external air inlet 11, respectively.

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The suction force is driven by the operation of the suction blower 20. When the indoor air A1 and the outside air A2 introduced into the air conditioning case 14 pass through the mixing damper 21 while being mixed with each other, the mixed air becomes A3.

Part of the mixed air A3 thus mixed is discharged to the outside of the air conditioning case 14 through the discharge air damper 12, and the mixed air A3 remaining inside the remaining air conditioning case 14 is the centrifuge 23. Flow to the side. The flow force is due to the operation of the discharge blower 25, and the flow direction of the mixed air A3 is directed toward the centrifuge 23.

As shown in FIG. 3, the centrifugal separator 23 has an inlet 30 for sucking the mixed air A3 on one side thereof, thereby allowing the mixed air A3 to flow into the cyclone body 31. The cyclone body 31 continuously connected to the suction port 30 is connected to the connecting pipe 32 to drop a large amount of mixed air (A3) in the air by rotating the impurities 50 contained in the air by the rotation method Recovered through the recovery container 33, the filtered air is discharged through the discharge port (34).
The mixed air (A3) passing through the centrifuge (23) is changed to the filtered air (A4) and then adjusted to an appropriate temperature by the operation of the second heat exchanger (24b) and finally through the exhaust blower 25, the air outlet (13) Exit to

Here, the mixed air (A3) is preferably configured to be mixed in a ratio of 7: 3, which is indoor air (A1) 70 and external air (A2) 30, under the condition that the total amount is 100. This is not an absolute condition. While the temperature of the indoor air (A1) is relatively constant, the outside air (A2) is affected by the climatic environment, and also considering that the pollution and the air to be filtered are mostly the indoor air (A1), the indoor air (A2) rather than the outside air (A2) The quantity of A1) is set more, and it can be arbitrarily adjusted according to the environment of a facility.
The second heat exchanger 24b is installed at one side of the centrifuge 23. The second heat exchanger 24b is formed in the same configuration as the first heat exchanger 24a. The second heat exchanger 24b performs secondary cooling by passing the filtered air heat exchanged through the centrifuge 23.

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According to the air conditioner according to the present invention, it can be seen that instead of using the filtration filter, the filtration air A4 is formed through the centrifuge 23 instead.
The problems associated with the use of the filtration filter and the various problems of the predictive function generated therefrom are mentioned in the background section above, and as such, the purification of the filtration performance and the filtration performance of the replacement of the filtration filter by the centrifuge Since the comparison is not directly related to the present invention, the specific contrast is omitted. However, the centralized air conditioner according to the present invention differs from the ventilation and air conditioner applied to a home-type or small-scale building and has different characteristics or pollution levels of the air to be treated. Accordingly, the air conditioner by the centrifuge 23 is filtered. Compared to the use of filters, it is possible to obtain more benefits in certain environments, and it is clear that the operation load can be lowered by rapid air acceleration and flow with little difference in the differential pressure of the flow air.

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The air conditioner according to the present invention enables the operation of a more advanced and efficient air conditioner.

That is, the operation method and the air conditioning system enable the facility of the first heat exchanger 24a at the front end of the centrifugal separator 23, and thereby maintain the temperature of the mixed air A3 at the minimum atmospheric temperature.

The installation of the first heat exchanger 24a does not depend on the use of any other energy, but primarily controls the temperature of the mixed air A3 to be treated by filling the jacket with water. As a result of not using the energy required for heat exchange, it is not applicable to the filtration filter method, and the desired heat exchange effect can be obtained in the accelerated flow flow through the centrifuge 23.

In this way, a more efficient air conditioner can be operated through the first heat exchange of the mixed air A3 by the first heat exchanger 24a.

1 is a schematic diagram illustrating an air conditioner according to the present invention;

Figure 2 is a schematic diagram for explaining the air conditioning system according to another embodiment of the present invention.

2 is a configuration example of a centrifuge according to the present invention,

Figure 3 is for explaining the impurity filtration state of the centrifuge according to the present invention, (a) is a front reference air flow state of the cyclone body. (b) is a planar reference airflow state diagram of the cyclone body.

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

10: indoor air inlet

11: outside air inlet

12: exhaust air damper

13 air outlet

14: air conditioning case

20: suction blower

21: mixing damper

23 centrifuge

24a, 24b,: First and second heat exchanger

25: exhaust blower

30: suction port

31 cyclone body

32 connector

33: recovery container

34: discharge port

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Claims (7)

delete delete delete In the air conditioner, An air conditioning case having an indoor air inlet, an external air inlet, an exhaust air damper and an air outlet on one side and the other side, respectively; A suction blower that sucks indoor air and external air through an indoor air inlet and an external air inlet inside the air conditioning case; A mixing damper installed between the external air inlet and the discharge air damper to mix the indoor air and the external air to change to mixed air, and part of the mixing damper is discharged through the exhaust air damper; A first heat exchanger installed at one side of the mixing damper and configured to primarily exchange heat by passing hot mixed air mixed in the mixing damper; A centrifugal separator for suctioning the mixed air passing through the first heat exchanger and centrifuging particulate impurities contained in the mixed air; A second heat exchanger installed at one side of the centrifugal separator and performing second heat exchange through the filtered air heat exchanged through the centrifugal separator; And an exhaust blower for discharging the filtered air heat exchanged through the second heat exchanger to the air discharge port. The method of claim 4, wherein The mixed air formed through the mixing damper is an air conditioner, characterized in that the mixture of the indoor air 70, the outside air 30: 7: 3 ratio in a condition that the total amount is 100. delete The method of claim 4, wherein The centrifuge has a suction port for suctioning the mixed air on one side, there is a cyclone body is connected to the suction port to accelerate the rotation of particulate impurities contained in the mixed air, the cyclone body is connected by a connecting pipe, One end of the connecting pipe is provided with a recovery container, and the upper end of the cyclone body is characterized by having a discharge port for discharging the filtered filtration air after the particulate impurities are collected in the blower (Blower Down) Conditioner.

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