KR100611494B1 - Ceiling type air conditioner - Google Patents

Abstract

The present invention relates to a ceiling type air conditioner, the casing 20; A turbo fan 30 provided inside the casing 20; A fan motor 40 coupled with the turbo fan 30; A vibration reduction part 50 protruding from the bottom surface of the casing 20 to reduce vibration transmitted from the fan motor 40 to the casing 20; It is provided on the upper portion of the vibration reducing portion 50, and comprises an air flow guide 60 for preventing an unbalanced flow of air generated between the turbo fan 30 and the vibration reducing portion 50. Accordingly, vibration and noise of the entire system can be reduced, and the functionality and usability of the air conditioner can be further improved.

Air Conditioner, Casing, Turbo Fan, Fan Motor, Vibration Reduction Unit, Air Flow Guide

Description

Ceiling Air Conditioner {CEILING TYPE AIR CONDITIONER}

1 is a cross-sectional view showing the internal structure of the indoor unit of the conventional ceiling-type air conditioner,

2 is a configuration diagram of a ceiling type air conditioner according to the present invention;

3 is a perspective view showing an indoor unit of a ceiling type air conditioner according to the present invention;

4 is a cross-sectional view showing the internal structure of the indoor unit of the ceiling type air conditioner according to the first embodiment of the present invention;

5 is a partial perspective view showing an installation state of the air flow guide provided in the indoor unit of the ceiling-type air conditioner according to the first embodiment of the present invention,

6 is a cross-sectional view showing the air flow in the indoor unit of the ceiling type air conditioner according to the first embodiment of the present invention;

7 is a cross-sectional view showing the internal structure of the indoor unit of the ceiling type air conditioner according to the second embodiment of the present invention;

8 is a partial perspective view showing an installation state of the air flow guide and the sound absorbing material provided in the indoor unit of the ceiling-type air conditioner according to the second embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

20: casing 22: case body

24: front panel 25: suction port

26: discharge port 30: turbo fan

40: fan motor 50: vibration reduction portion

60: air flow guide 70: sound absorbing material

80: heat exchanger 90: vane

The present invention relates to a ceiling type air conditioner, and more particularly, to a ceiling type air conditioner capable of reducing vibration and noise generated by a turbo fan.

In general, an air conditioner is a device that cools or heats a room by circulating a refrigerant between an indoor unit and an outdoor unit, and the cooling or heating is implemented by a refrigeration cycle.

During the cooling operation of the refrigeration cycle, the refrigerant is vaporized in the heat exchanger of the indoor unit to absorb the surrounding heat, and the heat is released by liquefying the refrigerant in the heat exchanger of the outdoor unit. In addition, the heating operation of the refrigeration cycle operates in the opposite way to the cooling operation.

Such air conditioners are classified into stand type, wall type and ceiling type, and in particular, the ceiling type air conditioner has an advantage of not occupying a separate installation space, and the demand thereof is increasing.

As shown in FIG. 1, an indoor unit of a conventional ceiling type air conditioner includes a case body 1 embedded in a ceiling 10; A front panel 4 coupled to the case body 1 and having air inlets 2 and air outlets 3 formed therein; A turbo fan 5 provided inside the case body 1; A fan motor 6 coupled with the turbo fan 5; A heat exchanger 7 provided outside the turbo fan 5; A vane 8 provided at the air discharge port 3 of the front panel 4; It comprises a vibration reducing unit (9) for reducing the vibration transmitted to the case body (1) from the fan motor (6). By such a configuration, the indoor air is sucked into the case body 1 through the air inlet 2 and heat exchanged through the heat exchanger 7, and the heat-exchanged air is again indoors through the air outlet 3. Can be supplied.

The vibration reducing unit 9 protrudes from the bottom surface of the case body 1 and / or to reduce vibration and noise when the vibration generated by the fan motor 6 is transmitted to the case body 1. It has a recessed structure.

The turbo fan 5 is installed to be spaced apart from the bottom surface of the case body 1 to form a cooling flow path (A), a plurality of air circulation holes (5a) are formed in the hub of the turbo fan (5) have. Accordingly, a part of the air discharged in the radial direction of the turbo fan (5) flows toward the fan motor (6) along the cooling flow path (A) on the back of the turbo fan (5) to continuously cool the fan motor (6) It becomes possible.

However, the ceiling type air conditioner as described above has a characteristic feature of the vibration reducing part 9, that is, the vibration reducing part 9 has a structure protruding and / or recessed in the bottom surface of the case body 1, and thus the turbo The unbalanced flow of air is generated when a part of the air blown through the fan 5 passes through the cooling passage A formed between the rear surface of the turbo fan 5 and the bottom surface of the case body 1. There is this.

This causes tremor of the turbofan 5, resulting in increased vibration and noise of the overall system.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a ceiling type air conditioner that can prevent the unbalanced flow of air generated in the cooling flow path between the turbofan and the vibration reducing portion. .

In order to achieve the above object, the present invention, the casing; A turbo fan provided inside the casing; A fan motor coupled to the turbo fan; A vibration reduction part protruding from the bottom surface of the casing to reduce vibrations transmitted from the fan motor to the casing; It is characterized in that it comprises an air flow guide provided on the upper portion of the vibration reducing portion, to prevent an unbalanced flow of air generated between the turbo fan and the vibration reducing portion.

The air flow guide preferably has a plate shape.

The air flow guide is preferably a sound absorbing material.

The air flow guide is preferably larger than the outer diameter of the turbo fan.

In addition, the present invention, in order to achieve the above object; A turbo fan provided inside the casing; A fan motor coupled to the turbo fan; A vibration reduction part protruding from the bottom surface of the casing to reduce vibrations transmitted from the fan motor to the casing; A plate-shaped air flow guide provided above the vibration reduction unit; It is characterized in that it further comprises a sound absorbing material laminated on top of the air flow guide to reduce the flow noise of air generated between the turbo fan and the air flow guide.

It is preferable that the said sound absorption material has a plate shape.

The sound absorbing material is preferably larger than the outer diameter of the turbo fan.

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

As shown in Figures 2 to 4, the ceiling type air conditioner according to the present invention and the outdoor unit 100 is installed outdoors; An indoor unit 200 installed on the ceiling of the room; It is connected to the outdoor unit 100 and the indoor unit 200, and comprises a refrigerant pipe 300 to form a refrigerant passage.

The outdoor unit 100 discharges the hot air heat-exchanged through a heat exchanger (not shown) to the outside during the cooling operation, and discharges the cold air heat-exchanged through the heat exchanger (not shown) to the outside during the heating operation.

The indoor unit 200 discharges cold air heat-exchanged through the heat exchanger 50 into the room during the cooling operation, and discharges hot air heat-exchanged through the heat exchanger 50 into the room during the heating operation.

The indoor unit 200 includes a casing 20; A turbo fan 30 provided inside the casing 20; A fan motor 40 coupled with the turbo fan 30; A vibration reducing portion 50 formed on the bottom surface of the casing 20; It is configured to include an air flow guide 60 provided on the upper portion of the vibration reducing portion (50).

The casing 20 includes a case body 22; It is configured to include a front panel (24) coupled to the case body (22).

The case body 22 is installed on the ceiling 10 and has a structure in which the lower part is opened to communicate with the air intake 25 of the front panel 24. The case body 22 is preferably embedded in the ceiling 10 in consideration of space utilization and interior properties, but may be installed on the wall surface of the ceiling 10 as necessary.

The front panel 24 is detachably coupled to the lower portion of the case body 22 and is exposed to the room so that air can be sucked / discharged. The front panel 24 has a rectangular plate shape to cover the open portion of the case body 22, an air inlet 25 for sucking air from the room, and an air discharge port 26 for discharging air into the room. ) Is formed.

The air suction port 25 is formed in the center area of the front panel 24, and the air discharge port 26 is formed symmetrically on the outer sides of the air suction port 25, respectively. The air inlet 25 has a grille structure, and the air outlet 26 has a rectangular structure having a predetermined width and length.

The formation position and number of the air discharge port 26 can be changed suitably as needed, and the shape of the air discharge port 26 can also be changed.

Inside the front panel 24 is provided a filter 28 for removing various foreign matter contained in the air sucked into the case body 22 through the air inlet 25.

The shape and size of the case body 22 and the front panel 24 may vary depending on various conditions such as the cooling capacity of the indoor unit.

The turbo fan 30 is installed at a position corresponding to the air intake 25 of the front panel 24 so as to improve the air intake efficiency, and the air inside the case by rotating the fan motor 40. 22) serves to suck the air into the heat exchanger 80.

Turbo fan 30 has the advantage that the efficiency is excellent as well as less noise than other types of fans.

A bell mouth 29 is provided between the turbo fan 30 and the air suction port 25 to guide the air sucked into the case body 22 from the inside by the rotation of the turbo fan 30. .

The turbo fan 30 is installed spaced apart from the bottom surface of the case body 22 to form a cooling flow path (A), a plurality of air circulation holes 31 are formed in the hub of the turbo fan 30 have. Accordingly, a portion of the air discharged in the radial direction of the turbo fan 30 flows toward the fan motor 40 along the cooling passage A on the rear surface of the turbo fan 30 to continuously cool the fan motor 40. It becomes possible.

The heat exchanger 80 is arranged in a square structure so as to surround the outside of the turbo fan 30, and serves to heat exchange the air sucked into the casing 20 through the turbo fan 30. 80 generates cold air in the cooling operation and hot air in the heating operation.

A drain plate 52 is provided below the heat exchanger 80 to accommodate the refrigerant of the heat exchanger 80 and the condensed water generated during the heat exchange process of the indoor air.

A guide flow path 27 is formed in the inner edge region of the case body 22, and the guide flow path 27 serves to guide the air heat exchanged by the heat exchanger 80 to the air discharge port 26.

The vane 90 is installed at the air discharge port 26 of the front panel 24, and has a structure that is rotated and opened at a predetermined angle by a driving means (not shown) such as a motor. The vane 90 is installed to be inclined outward with respect to the plate surface of the front panel 24, thereby providing a uniform wind from all sides of the ceiling to every corner of the room, thereby reducing the variation in the room temperature, thereby improving comfort.

Vibration reducing unit 50 serves to reduce the vibration transmitted from the fan motor 30 to the case body (22). That is, the vibration reducing unit 50 is the bottom surface of the case body 22 so that when the vibration generated by the fan motor 30 is transmitted to the bottom surface of the case body 22, the vibration and noise can be reduced. It has a structure formed to protrude and / or recess in.

The air flow guide 60 is supported on the upper portion of the vibration reducing portion 50 by an adhesive means such as a double-sided tape or an adhesive. The support structure of the air flow guide 60 can be variously changed.

The air flow guide 60 serves to prevent an unbalanced flow of air generated between the turbo fan 30 and the vibration reduction unit 50 due to the shape characteristic of the vibration reduction unit 50.

Therefore, vibration of the turbo fan 30 generated when a part of the air discharged in the radial direction of the turbo fan 30 flows into the fan motor 60 along the cooling flow path A on the rear surface of the turbo fan 30. The phenomenon can be removed efficiently.

An unbalanced flow of air passing through the cooling passage A is generated by the shape characteristic of the vibration reducing portion 50.

As shown in FIG. 5, the air flow guide 60 seated on the upper portion of the vibration reduction part 50 formed on the bottom surface of the case body 22 has a rectangular plate shape.

The air flow guide 60 is preferably made larger than the outer diameter of the turbo fan 30 and smaller than the heat exchanger 80 so as to completely cover the cooling flow path A (see FIG. 4).

Air flow guide 60 is made of a sound absorbing material to maintain the flow of air uniformly and to reduce the flow noise of air generated between the turbo fan (30, Fig. 4) and the air flow guide (60). . The sound absorbing material can be selectively applied to various kinds of known materials.

On the other hand, the air flow guide 60 may be variously changed in size and shape as needed, and 40 is a non-explained reference shows a fan motor installed on the bottom surface of the case body (22).

The air flow in the indoor unit of the ceiling type air conditioner described above will be briefly described with reference to FIG. 6.

When the indoor unit 200 is operated, the turbo fan 30 is rotated by the driving of the fan motor 40 to suck the indoor air into the case body 22 through the air inlet 25 to exchange the heat exchanger 80. Blow).

The air heat-exchanged while passing through the heat exchanger 80 moves along the guide flow path 27 formed in the case body 22 and is supplied into the room through the air discharge port 26.

At this time, the air flowing into the fan motor 40 through the cooling flow path (A) passes along the upper surface of the plate-shaped air flow guide 60 provided in the upper portion of the vibration reducing portion 50, the turbo fan 30 ) And the unbalanced flow of air generated between the vibration reduction unit 50 can be prevented.

Unexplained reference numeral 90 denotes a vane.

As shown in Figure 7 and 8, the indoor unit of the ceiling type air conditioner according to the present invention and the casing (20); A turbo fan 30 provided inside the casing 20; A fan motor 40 coupled with the turbo fan 30; A vibration reducing portion 50 formed on the bottom surface of the casing 20; An air flow guide 60 provided at an upper portion of the vibration reduction unit 50; It is configured to include a sound absorbing material 70 which is stacked on top of the air flow guide (60).

The casing 20 includes a case body 22; It is configured to include a front panel (24) coupled to the case body (22).

The case body 22 is installed on the ceiling 10 and has a structure in which the lower part is opened to communicate with the air intake 25 of the front panel 24. The case body 22 is preferably embedded in the ceiling 10 in consideration of space utilization and interior properties, but may be installed on the wall surface of the ceiling 10 as necessary.

The front panel 24 is detachably coupled to the lower portion of the case body 22 and is exposed to the room so that air can be sucked / discharged. The front panel 24 has a rectangular plate shape to cover the open portion of the case body 22, an air inlet 25 for sucking air from the room, and an air discharge port 26 for discharging air into the room. ) Is formed.

The air suction port 25 is formed in the center area of the front panel 24, and the air discharge port 26 is formed symmetrically on the outer sides of the air suction port 25, respectively. The air inlet 25 has a grille structure, and the air outlet 26 has a rectangular structure having a predetermined width and length.

The formation position and number of the air discharge port 26 can be changed suitably as needed, and the shape of the air discharge port 26 can also be changed.

Inside the front panel 24 is provided a filter 28 for removing various foreign matter contained in the air sucked into the case body 22 through the air inlet 25.

The shape and size of the case body 22 and the front panel 24 may vary depending on various conditions such as the cooling capacity of the indoor unit.

The turbo fan 30 is installed at a position corresponding to the air intake 25 of the front panel 24 so as to improve the air intake efficiency, and the air inside the case by rotating the fan motor 40. 22) serves to suck the air into the heat exchanger 80.

Turbo fan 30 has the advantage that the efficiency is excellent as well as less noise than other types of fans.

A bell mouth 29 is provided between the turbo fan 30 and the air suction port 25 to guide the air sucked into the case body 22 from the inside by the rotation of the turbo fan 30. .

The turbo fan 30 is installed spaced apart from the bottom surface of the case body 22 to form a cooling flow path (A), a plurality of air circulation holes 31 are formed in the hub of the turbo fan 30 have. Accordingly, a portion of the air discharged in the radial direction of the turbo fan 30 flows toward the fan motor 40 along the cooling passage A on the rear surface of the turbo fan 30 to continuously cool the fan motor 40. It becomes possible.

The heat exchanger 80 is arranged in a square structure so as to surround the outside of the turbo fan 30, and serves to heat exchange the air sucked into the casing 20 through the turbo fan 30. 80 generates cold air in the cooling operation and hot air in the heating operation.

A drain plate 52 is provided below the heat exchanger 80 to accommodate the refrigerant of the heat exchanger 80 and the condensed water generated during the heat exchange process of the indoor air.

A guide flow path 27 is formed in the inner edge region of the case body 22, and the guide flow path 27 serves to guide the air heat exchanged by the heat exchanger 80 to the air discharge port 26.

The vane 90 is installed at the air discharge port 26 of the front panel 24, and has a structure that is rotated and opened at a predetermined angle by a driving means (not shown) such as a motor. The vane 90 is installed to be inclined outward with respect to the plate surface of the front panel 24, thereby providing a uniform wind from all sides of the ceiling to every corner of the room, thereby reducing the variation in the room temperature, thereby improving comfort.

Vibration reducing unit 50 serves to reduce the vibration transmitted from the fan motor 30 to the case body (22). That is, the vibration reducing unit 50 is the bottom surface of the case body 22 so that when the vibration generated by the fan motor 30 is transmitted to the bottom surface of the case body 22, the vibration and noise can be reduced. It has a structure formed to protrude and / or recess in.

The air flow guide 60 is supported on the upper portion of the vibration reducing portion 50 by an adhesive means such as a double-sided tape or an adhesive. The support structure of the air flow guide 60 can be variously changed.

Sound absorbing material 70 serves to reduce the flow noise of air generated between the turbo fan 30 and the air flow guide 60 and to prevent the imbalanced flow of air.

Therefore, vibration of the turbo fan 30 generated when a part of the air discharged in the radial direction of the turbo fan 30 flows into the fan motor 60 along the cooling flow path A on the rear surface of the turbo fan 30. The phenomenon can be removed efficiently.

The sound absorbing material 70 has a flat rectangular plate shape, and the shape thereof can be variously changed as necessary.

The sound absorbing material 70 is preferably formed larger than the outer diameter of the turbo fan 30 so as to improve sound absorption efficiency.

On the other hand, the air flow guide 60 has a plate shape to be in close contact with the sound absorbing material (70).

As described above, according to the present invention, it is possible to eliminate the shaking phenomenon of the turbofan by preventing an unbalanced flow of air generated between the turbofan and the vibration reducing unit through the airflow guide. In addition, the sound absorbing material has the advantage of relatively reducing the flow noise of the air generated between the turbofan and the air flow guide.

Therefore, the noise of the whole system can be reduced, and the functionality and usability of the air conditioner can be further improved.

In addition, the air flow guide itself is made of a sound absorbing material can simplify the configuration.

Claims (7)

Casing; A turbo fan provided inside the casing; A fan motor coupled to the turbo fan; A vibration reduction part protruding from the bottom surface of the casing to reduce vibrations transmitted from the fan motor to the casing; And an airflow guide provided on an upper portion of the vibration reduction unit to prevent an unbalanced flow of air generated between the turbofan and the vibration reduction unit. The method of claim 1, The air flow guide is a ceiling type air conditioner, characterized in that having a plate shape. The method according to claim 1 or 2, The air flow guide is a ceiling air conditioner, characterized in that the sound absorbing material. The method of claim 3, The air flow guide is a ceiling type air conditioner, characterized in that larger than the outer diameter of the turbofan. Casing; A turbo fan provided inside the casing; A fan motor coupled to the turbo fan; A vibration reduction part protruding from the bottom surface of the casing to reduce vibrations transmitted from the fan motor to the casing; A plate-shaped air flow guide provided above the vibration reduction unit; Stacked on top of the air flow guide, ceiling-like air conditioner comprising a sound absorbing material to reduce the flow noise of air generated between the turbo fan and the air flow guide. The method of claim 5, Ceiling type air conditioner, characterized in that the sound absorbing material has a plate shape. The method according to claim 5 or 6, The sound absorbing material is a ceiling type air conditioner, characterized in that larger than the outer diameter of the turbofan.

Images