KR20020027873A - The ceiling cassete type air-conditioner - Google Patents

Abstract

PURPOSE: A ceiling built-in type air conditioner is provided to increase the amount of air being sucked and discharged, while reducing volume of air conditioner by using a cross flow fan having a size smaller than the size of the turbo fan. CONSTITUTION: A ceiling built-in type air conditioner comprises an outer case(12) embedded into a ceiling, and which forms an outer appearance of indoor unit and accommodates component parts for a heat exchange cycle; a cover(13) coupled to the lower end of the outer case, and which has an inlet port(13a) for introducing air into the outer case, and an outlet port(13b) for discharging air passed through the outer case; a cross flow fan(14) installed within the outer case, and which circulates indoor air; a heat exchanger(15) interposed between the cross flow fan and the inlet port of the cover, and which heat exchanges the indoor air being sucked; and an air guide(16) installed within the outer case, and which guides the air passing through the outer case.

Description

Ceiling cassette type air conditioner {The ceiling cassete type air-conditioner}

The present invention relates to an air conditioner, and more particularly, to a ceiling cassette type air conditioner in which an indoor unit is embedded in an indoor ceiling for air conditioning.

Generally, a ceiling cassette type air conditioner is a type of air conditioner installed in a ceiling of a store, an office, or a home to achieve indoor cooling. The ceiling cassette type air conditioner is installed in a relatively low-use ceiling in an indoor space, and thus has less space constraints than a wall-mounted or standing type air conditioner. In addition, since the cold air is discharged from the ceiling, the rate of diffusion of cold air is high. Has the advantage.

Figure 1 is a schematic longitudinal cross-sectional view showing the structure of the indoor unit of the conventional ceiling cassette type air conditioner. As shown, the indoor unit 1 has a main body embedded in the ceiling. The main body is formed by the outer case (2) in which the components constituting the heat exchange cycle therein, the overall appearance is formed, the lower side of the outer case (2) for opening and closing the inner space of the outer case (2) The cover 3 is fastened.

The inner side of the outer case (2) is installed so that the turbo fan (4) has a vertical axis of rotation, the center of the turbo fan (4) is connected to the rotation shaft of the turbo fan (4) by a motor shaft (5a) The fan motor 5 is provided to provide the rotational power to the turbo fan (4). The turbofan 4 is a kind of centrifugal fan, which is designed to introduce air in the rotational axis direction and to discharge it in the centrifugal direction with respect to rotation, and its shape is well illustrated in FIG. 3.

Around the turbo fan 4, a heat exchanger 6 for heat-exchanging the introduced air is provided around the turbo fan, that is, in a circular shape. Such an installation shape is for allowing air discharged in the centrifugal direction of the turbofan 4 to pass through the heat exchanger 6 as described above. Under the heat exchanger 6, in the process of heat exchange of air, the moisture contained in the air is removed and a condensate receiver 7 for collecting the condensate generated is circular along the shape of the heat exchanger 6. It is provided with.

In addition, the cover 3 provided below the outer case 2 has an inlet port 3a through which the indoor air is sucked into the center of the cover 3, and the heat exchanger 6 on the outside thereof. A discharge port 3b through which the heat-exchanged air is discharged back to the room is formed.

Looking at the operation of the indoor unit by the configuration as described above, in the case of the cooling operation, the turbo fan (4) coupled thereto by the power generation of the fan motor (5) is rotated in one direction. In this case, as shown by arrows in FIG. 1, indoor air is sucked through the inlet port 3a formed in the center of the cover 3 by the rotational force of the turbofan 4, and the sucked air is sucked into the turbofan. The driving force is received by the rotational force of (4) and discharged in the centrifugal direction to pass through the heat exchanger (6).

After passing through the heat exchanger 6, the air is heat-exchanged with cold air at low temperature, and finally discharged to the indoor side through the discharge port 3b formed at the outer side of the cover 3, and the process is repeated. It is cooled.

Meanwhile, as illustrated in FIG. 3, the turbo fan 4 has a circular hub 4a in which a motor shaft 5a of the fan motor 5 is coupled to the center thereof, and a centrifugal direction at the hub 4a. It consists of a plurality of blades (4b) formed on the outer periphery of the extended portion. As shown in FIG. 4A, when the turbo fan 4 is rotated, external air flows into the center of the turbo fan 4 and is discharged in the centrifugal direction through the space between the respective blades 4b.

The blade 4b is formed to have a predetermined inclination angle with respect to the circumference around the hub 4a when viewed from the front. That is, as shown in Figure 4b, the cross section is formed to form a streamlined with respect to the rotation direction. In addition, the blade 4b may form an inlet angle α of the air inlet portion and an outlet angle β of the discharged portion differently, and the inlet angle α and the outlet angle β are somewhat different. Rotational characteristics of the turbofan 4 vary depending on whether the angle is formed.

However, the indoor unit of the conventional ceiling cassette type air conditioner using the turbo fan 4 as described above has the following disadvantages.

The turbo fan 4 is a central portion of the air flow. Therefore, in order to increase the area of the intake portion through which air is introduced, it is necessary to increase the central area of the turbofan 4. However, in order to do so, the size of the turbofan 4 must be increased, and as a result, the overall weight of the turbofan 4 becomes heavy and a problem arises in that the volume of the air conditioner becomes large.

Also, as another means for increasing the inflow of air, the blowing force can be improved by changing the blade 4b shape of the turbofan 4 by changing the blade inlet angle α and outlet angle β. have. However, in such a case, if the shape of the blade 4b is designed to increase the blowing force, the noise due to the flow resistance increases, and if the design is reduced, the blowing force decreases, so that the blowing force and the noise are appropriate. You will design from the line that yields to the level. Therefore, there is a disadvantage in that both have a limit in terms of improving wind power and noise reduction.

In addition, the heat exchanger 6 is installed to surround the turbo fan 4. Therefore, the size of the heat exchanger 6 is increased, so that the material cost is increased, and the volume of the heat exchanger 6 in the inside of the outer case 2 is increased, thereby increasing the overall volume of the indoor unit. As pointed out.

SUMMARY OF THE INVENTION An object of the present invention is to provide a ceiling cassette type air conditioner for improving the above-mentioned problems and reducing noise and reducing noise.

Another object of the present invention is to provide a ceiling cassette type air conditioner having a small volume.

1 is a schematic longitudinal sectional view showing the indoor unit structure of a conventional ceiling cassette type air conditioner.

Figure 2 is a bottom view showing a cover structure of a conventional ceiling cassette type air conditioner.

3 is a perspective view showing the shape of a turbofan.

Figures 4a-4b is a longitudinal sectional view and a front view showing the structure of the turbofan.

5A-5B are schematic longitudinal cross-sectional and bottom views of a preferred embodiment of the present invention.

Figure 6 is a front view showing the structure of a crossflow fan applied to an embodiment of the present invention.

Figure 7 is a schematic longitudinal sectional view showing another embodiment of the present invention.

※ Explanation of code about main part of drawing ※

10: indoor unit 12: outer case

13 cover 13a inlet

13b: discharge port 14: crossflow fan

15: heat exchanger 16: air guide

16a: condensate receiver

The ceiling cassette type air conditioner according to the present invention for achieving the above object is embedded in the ceiling of the room for air conditioning to form the exterior of the indoor unit, and the outer case is installed inside the components constituting a heat exchange cycle and ; A cover which is fastened to a lower end of the outer case and has a suction port through which air is introduced into the outer case, and a discharge hole through which the air passing through the outer case is discharged to the outside; A crossflow fan installed inside the outer case and circulating air in the room; A heat exchanger installed between the crossflow fan and the suction port to heat-exchange the indoor air to be sucked; Installed inside the outer case, it comprises an air guide for guiding the air passing through the outer case.

According to an embodiment of the present invention, the heat exchanger is installed to be inclined at a predetermined angle to face the inlet, and the air guide is integrally provided with a condensate receiver for collecting condensate generated by the heat exchanger.

The suction port and the discharge port are formed in parallel with each other to correspond to the length of the crossflow fan.

In addition, according to another embodiment of the present invention, the upper surface of the outer case is formed in a curved surface.

According to the configuration as described above, it is possible to improve the blowing force of the indoor unit, to reduce the noise, and to reduce the size of the indoor unit.

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

5A is a schematic longitudinal sectional view showing the indoor unit structure of a ceiling cassette type air conditioner according to the present invention, and FIG. 5B is a bottom view. As shown, the outer case 12 forming the outer shape of the indoor unit 10 is embedded in the ceiling, the components constituting the heat exchange cycle is installed inside the outer case 12. And the lower side of the outer case 12 is fastened a cover 13 for opening and closing the inner space of the outer case 12.

A cylindrical crossflow fan 14 is installed in the inner center of the outer case 12 in the horizontal direction. One side rotation center of the crossflow fan 14 is connected to a fan motor 14a (see FIG. 6) that provides rotational power to the crossflow fan 14.

The crossflow fan 14 is generally used for a wall-mounted indoor unit of a separate air conditioner, and its shape is well illustrated in FIG. 6. The crossflow fan 14 has an advantage of superior blowing power compared to a centrifugal fan such as a turbo fan, and since a portion that sucks air during rotation is formed in the longitudinal direction thereof, the suction area of the air is wide.

The lower one side of the crossflow fan 14 is provided with a heat exchanger 15 for heat-exchanging the sucked air. The heat exchanger 15 has a plate shape having a length corresponding to the length of the crossflow fan 14, and the heat exchanger 15 is inclined so as to face the lower side in which air flows.

An air guide 16 is formed below the crossflow fan 14 to form a flow path of air flowing through the air conditioner. The air guide 16 is to control the direction of the air discharged from the crossflow fan 14, so that the flow path can be formed more efficiently, one side of which extends to the lower end of the heat exchanger (15) In addition, it is molded into a condensate receiver 16a for collecting condensate generated in the heat exchanger 15.

On the other hand, the cover 13 is fastened to the lower side of the outer case 12, as shown in Figure 5b, the inlet (13a) for intake of the air in the room to the portion corresponding to the lower side of the heat exchanger (15) Formed. The suction port 13a is formed to have a length corresponding to the length of the heat exchanger 15 located above, that is, the length of the crossflow fan 14. In addition, the cover 13 has a discharge port 13b through which cold air is discharged on a side surface opposite to the suction port 13a and formed in parallel with the suction port 13a.

Referring to the operation of the embodiment of the present invention by the above configuration in detail with reference to the drawings as follows.

First, the indoor unit 10 of the ceiling cassette type air conditioner according to the present invention uses a heat exchanger 15 having a smaller size than the conventional one, and a condensate receiver 16a for collecting condensate generated by the heat exchanger 15. ) Is integrally formed with the air guide 16. Therefore, compared with the conventional indoor unit, the internal structure will be simplified and its size will also be smaller.

When the air conditioner is operated, the crossflow fan 14 coupled thereto is first rotated in one direction by driving the fan motor 14a in the case of cooling operation. In this case, the indoor air is sucked through the suction port 13a of the cover 13 by the rotational force of the crossflow fan 14. At this time, a large amount of air may be sucked through the inlet 13a having a large area formed to a length corresponding to the length of the crossflow fan 14.

The air sucked into the indoor unit as described above is heat-exchanged with cold cold while passing through the heat exchanger 15 provided between the crossflow fan 14 and the suction port 13a. At this time, the moisture contained in the air passing through the heat exchanger 15 is condensed on the surface of the heat exchanger 15, which is lowered temperature, to become condensed water, and the condensate is inclined to the surface of the heat exchanger 15. It will flow down and collect from the air guide 16 to the condensate receiver 16a located below the heat exchanger.

The heat exchanged cold air flows into one side of the crossflow fan 14, and is discharged in a direction inclined to some extent by the centrifugal force of the crossflow fan. The discharged air is guided to the discharge port 15b side by the air guide 16 and finally discharged to the indoor side through the discharge port 13b. And this process is repeated to cool the room.

As described above, in the indoor unit of the ceiling cassette type air conditioner, the crossflow fan is used instead of the turbo fan, so that a large amount of air can be sucked and the volume of the indoor unit can be reduced. It is the technical gist of doing.

Within the scope of the above, many other variations will be possible to one skilled in the art.

For example, in the above-described embodiment, the cross-sectional shape of the outer case forming the outer shape of the indoor unit is formed in a quadrangular shape, but as shown in FIG. 7, the upper surface of the outer case 12 'is formed in the indoor unit 10'. In the case of forming a curved surface, the upper surface of the outer case 12 'guides the air sucked in the room to the crossflow fan 14, and directs the air discharged from the crossflow fan 14 to the discharge port 13b. By performing the guide function to guide the air, not only the air flow passing through the indoor unit 10 'can be formed more efficiently, but also unnecessary parts of the interior space of the indoor unit 10' is removed, the indoor unit 10 ') Will be expected to further reduce the size.

As described above, the present invention uses a crossflow fan instead of the conventional turbofan. Therefore, unlike the conventional inlet in which the inlet is limited to the central portion of the turbofan, it is possible to increase the area of the air inlet through which air is sucked by forming a length of a length corresponding to the length of the crossflow fan and widening the width thereof. The amount of air and the amount of air discharged can be increased, and a crossflow fan having a smaller size than that of a conventional turbo fan can be used for the required air volume, so that an effect of reducing the volume of the air conditioner can be expected.

In addition, the crossflow fan has less vibration and noise with respect to the amount of air required compared to the turbofan. Therefore, it is possible to provide satisfaction in use to the user who wants to be quiet.

In the present invention, the flow path of the air passing through the air conditioner is simply formed by using the crossflow fan, and the heat exchanger is also installed on only one side of the crossflow fan, so that a heat exchanger having a smaller size than the conventional one is used. In addition, the condensate receiver for collecting the condensate generated in the heat exchanger is formed integrally with the air guide. Therefore, since the overall structure of the air conditioner is simply configured, there is an advantage that can reduce the volume of the air conditioner.

Claims (5)

An outer case embedded in a ceiling of an interior for air conditioning to form an exterior of the indoor unit, and installed with components that constitute a heat exchange cycle; A cover which is fastened to a lower end of the outer case and has a suction port through which air is introduced into the outer case, and a discharge hole through which the air passing through the outer case is discharged to the outside; A crossflow fan installed inside the outer case and circulating air in the room; A heat exchanger installed between the crossflow fan and the suction port to heat-exchange the indoor air to be sucked; The ceiling cassette type air conditioner is installed in the outer case and comprises an air guide for guiding air passing through the outer case. The ceiling cassette type air conditioner according to claim 1, wherein the heat exchanger is installed to be inclined at a predetermined angle to face the intake port. The ceiling cassette type air conditioner according to claim 1, wherein the air guide is integrally provided with a condensate receiver for collecting condensate generated by the heat exchanger. The ceiling cassette type air conditioner according to claim 1, wherein the inlet port and the outlet port correspond to the length of the crossflow fan in parallel with each other. The ceiling cassette type air conditioner according to claim 1, wherein the upper surface of the outer case is formed in a curved surface.