KR200257468Y1 - Airconditioner having upper suction and exhaust section - Google Patents

Abstract

The present invention relates to an upper intake and discharge type air conditioner configured to reduce the installation area of the entire air conditioner and to efficiently utilize the space by configuring the intake and discharge of air at the upper part of the cabinet.

The present invention sucks the outside air and cools the heat through the heat exchanger 22 installed in the cabinet 20, and the cooled air is returned to the cabinet 20 through the fan 24 provided above the heat exchanger 22. In the air conditioner 100 for discharging to the outside of the), the cabinet 20 is provided with the inlet port 30 and the discharge port 32 side by side on the upper surface, and the partition wall 34 is installed vertically in the inner center Both sides of the partition 34 are divided into a first chamber 36 and a second chamber 38, and a fan 24 is disposed above the second chamber 38, and the first chamber 36 and A heat exchanger 22 is disposed below the second chamber 38 so that outside air sucked from the suction port 30 flows into the first chamber 36 so that the first chamber 36 and the second chamber ( Cooled while passing through the heat exchanger 22 provided between the 38 and the second chamber 38, the cooling air is discharged to the discharge port 32 of the upper surface through the fan 24. .

The present invention can be efficiently used in the space of the apartment or building, such as to reduce the manufacturing cost.

Description

Air conditioner having upper suction and exhaust section

The present invention relates to an upper intake and discharge type air conditioner, and more particularly, the intake of the outside air and the discharge of the cooling air can be performed at the upper part of the cabinet, thereby reducing the installation area of the entire air conditioner and efficiently reducing the space. An upper intake and discharge type air conditioner is utilized.

In general, an air conditioner is a device used to cool or heat a room in a normal home or building in summer or winter. The air conditioner is a device that sucks heat from inside or outside and heats it and then discharges it into the room.

Such air conditioners are generally classified into duct type air conditioners mounted on the floor of an indoor or outdoor depending on the cooling capacity and installation type, and room type air conditioners mounted on the wall of an indoor room to cool a relatively small space. The duct type air conditioner is as follows.

1 to 2 schematically show a conventional duct type air conditioner 100, having a suction grill 10 on the front or rear thereof, and a cabinet 20 having a discharge port 12 on the upper surface thereof. ), A heat exchanger 22 installed inside the cabinet 20 to cool the air, and a fan 24 fixed inside the upper plate of the cabinet 20 to the upper side of the heat exchanger 22 to discharge cold air. ) And a discharge duct 26 for guiding cold air to a specific place to cool the outside of the cabinet 20 upper plate is connected. The heat exchanger 22 performs the heat exchange of the suction air sucked into the cabinet 20 through the suction grill 10. When cooling, the heat exchanger 22 sucks and cools the heated air in the room. Warms the indoor air.

Referring to the operation of the duct type air conditioner 100 configured as described above, first, when the power is supplied to the air conditioner 100 and the driving motor 44 is operated, the fan 24 inside the cabinet 20 is rotated. Air is sucked in through the suction grill 10 at the front or rear of the cabinet 20, and the sucked air passes through the cabinet 20 and exchanges heat with a heat exchanger 22 installed in the cabinet 20. After that, it is discharged through the discharge duct 26 on the outer side of the upper surface of the case 20.

However, such a conventional duct type air conditioner 100 sucks air from the front or rear, and since the air is discharged upward through the heat exchanger 22 and the fan 24, the air is sucked into the front or rear. If there is not enough space to be provided, it could not be installed, and even after installation, the front of the suction grill 10 had to be secured to leave a certain space for smooth communication of air, which became a problem for efficient utilization of space. In addition, when inhaling outside air using a duct, a suction duct (not shown) is installed to communicate with the suction grill 10. In this case, an extra area occupied by the suction duct in addition to the area occupied by the cabinet 20. This was more difficult to install in confined spaces. Accordingly, when the air conditioner 100 is installed in a space to be installed in an apartment or a building, a lot of space has been received, and a narrow space or a border space could not be utilized.

The present invention has been devised in view of the above-described conventional problems, and can be installed with an air conditioner without being restricted by space, which can effectively utilize space, and can reduce the cost of air and can expect a cost reduction effect. The purpose of the design is to provide a harmonic.

1 is a side view schematically showing a conventional air conditioner

Figure 2 is a front view showing a conventional air conditioner

Figure 3 is a side view showing an air conditioner of the present invention

4 is a front view showing an air conditioner of the present invention

5 is a plan view of the present invention

6 is a view showing an embodiment in which the air conditioner of the present invention is installed

* Description of the symbols for the main parts of the drawings *

10: suction grill 12, 32: discharge port

20: cabinet 22: heat exchanger

24: fan 26, 48: discharge duct

30: suction port 34: bulkhead

36: first room 38: second room

42: hot water coil 44: drive motor

46: suction duct 100, 200: air conditioner

The present invention for achieving the above object is an air conditioner that sucks outside air and cools it through a heat exchanger installed inside the cabinet, and discharges the cooled air back to the outside of the cabinet through a fan provided on the upper side of the heat exchanger. The cabinet is provided with a suction port and a discharge port side by side on the upper surface, and installed a partition wall vertically in the inner center to divide both sides into a first chamber and a second chamber centered around the partition wall, and to arrange a fan above the second chamber. A heat exchanger is disposed below the first chamber and the second chamber, and the outside air sucked from the suction port flows into the first chamber and is cooled while passing through a heat exchanger provided between the first chamber and the second chamber. The cooling air flows through the fan, and is characterized in that it is configured to be discharged to the discharge port of the upper surface.

The heat exchanger may be provided in plural and disposed in at least one of the first chamber and the second chamber, and the processing capacities of the provided heat exchangers may be arbitrarily selected.

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

The present invention sucks the outside air and cools the heat through the heat exchanger 22 installed in the cabinet 20, and the cooled air is returned to the cabinet 20 through the fan 24 provided above the heat exchanger 22. In the air conditioner for discharging to the outside, the cabinet 20 is provided with the inlet port 30 and the discharge port 32 side by side on the upper surface, the partition wall 34 is installed vertically in the inner center of the partition wall 34 The two sides are divided into the first chamber 36 and the second chamber 38, and the fan 24 is disposed above the second chamber 38, and the first chamber 36 and the second chamber ( A heat exchanger 22 is disposed below the side 38, so that outside air sucked from the suction port 30 flows into the first chamber 36, and between the first chamber 36 and the second chamber 38. Cooled while passing through the heat exchanger 22 provided, and flows to the second chamber 38, the cooling air is discharged to the discharge port 32 of the upper surface through the fan 24.

The heat exchanger 22 is provided in plural and disposed in at least one of the first chamber 36 and the second chamber 38, and the processing capacities of the provided heat exchangers 22 are each arbitrarily selected. consist of.

The present invention configured as described above has the intake port 30 and the discharge port 32 provided on the upper surface of the cabinet 20 so that the air is sucked from the upper part of the cabinet 20 and discharged to the upper part, thereby reducing the installation area of the entire air conditioner. Since the suction duct and the discharge duct can be formed integrally, the manufacturing cost can be reduced.

That is, when power is supplied to the cabinet 20 and the fan 24 inside the cabinet 20 is rotated by the driving motor 44, air is sucked from the inlet 30 of the upper surface of the cabinet 20. The sucked air flows along the first chamber 36 inside the cabinet 20. The intake air flowing along the first chamber 36 is cooled by heat exchange with the refrigerant while passing through a heat exchanger 22 located between the first chamber 36 and the second chamber 38, and thereafter, an upper fan. It is discharged to the discharge port 32 on the upper surface of the cabinet 20 through the (24).

At this time, the first chamber 36 and the second chamber 38 are divided into left and right sides with the central partition 34 inside the cabinet 20 interposed therebetween, so that the first chamber 36 and the second chamber 38 are suctioned from the suction port 30 on the upper surface of the cabinet 20. The air discharged through the heat exchanger 22 is not mixed with each other, and at the same time, the air sucked through the heat exchanger 22 passes through the at least one heat exchanger 22, and then the second air is discharged. It flows into the thread 38.

The reason why the plurality of heat exchangers 22 are used here is that the conventional heat exchangers 22 may be provided with the same size as the width of the suction grill 10, whereas the present invention provides an interior of the cabinet 20. Is vertically divided so that the space for the heat exchanger 22 is relatively narrow, and when a large capacity heat exchanger 22 is required, the plurality of heat exchangers 22 are symmetrically textured left and right about the partition 34. To maximize cooling efficiency. In addition, the plurality of heat exchangers 22 may be arbitrarily employed as having different cooling capacities from each other. When the plurality of heat exchangers 22 are controlled, each of the plurality of heat exchangers 22 may be artificially adjusted to control the cooling amount and the speed thereof, while the heat exchanger 22 is installed in Correspondingly, it is possible to provide an air conditioner 200 having a heat exchanger 22 of more various capacities.

In addition, the suction duct 26 positioned above the conventional cabinet 20 for discharging air is bisected as illustrated in FIG. 5 to communicate with the suction port 30 and the discharge port 32, respectively. By forming the 46 and the discharge duct 48, the suction duct (not shown) separately installed so as to communicate with the suction grill 10 on the front of the cabinet 20 in order to suck the outside air in the past is not necessary, so large production cost It can bring about savings.

In addition, the fan 24 in the cabinet 20 has conventionally used a constant speed fan, which is not operated automatically according to the cooling load because the operation is performed as the user sets the cooling mode. Therefore, it is preferable to use a variable speed fan for the air conditioner 200 of the present invention that the discharged air cooled by the load change is automatically adjusted. As a result, the amount of discharge air most suitable for the space to be cooled can be supplied.

In addition, when using for heating uses a hot water coil 42 provided on the lower side of the heat exchanger 22, in this case, if the hot water supplied from an outdoor heat storage tank (not shown) flowing to the hot water coil 42 The intake air passing through this section is changed to a high temperature and is discharged through the fan 24 to supply the space to be heated as in the case of cooling.

In addition, Figure 6 is an illustration of the installation of the air conditioner 200 of the present invention by using the space between the wall and the wall, it can be installed in the free space of the apartment roof or building in this way, the space is efficient It can be used as.

As described above, the present invention provides an air conditioner that can be installed in a space such as an apartment or a building, and does not need to have a separate suction duct on the front or the rear, so that the front or the rear of the air conditioner is a wall or a structure. Since it can be in close contact with the space or free space, it can be installed, and there is a suction and discharge duct only in the upper part, so that the existing manufacturing cost of having a separate suction duct can be saved. In addition, since the suction and discharge ducts are arranged side by side at the time of cleaning, it is convenient to clean only from the upper side and it is very useful because it can supply appropriate cooling air according to the cooling load by using a plurality of heat exchangers and variable speed fans with different processing capacity. .

Claims (2)

The outside air is sucked in and cooled by the heat exchanger 22 installed in the cabinet 20, and the cooled air is again outside the cabinet 20 through the fan 24 provided above the heat exchanger 22. In the air conditioner discharged to The cabinet 20 includes a suction port 30 and a discharge port 32 side by side on a top surface thereof, and a partition wall 34 is vertically installed at an inner center thereof so that both sides of the cabinet 20 are centered around the partition wall 34. And a second chamber 38, and a fan 24 is disposed above the second chamber 38, and a heat exchanger 22 is disposed below the first chamber 36 and the second chamber 38. And the outside air sucked from the suction port 30 flows into the first chamber 36 and passes through a heat exchanger 22 provided between the first chamber 36 and the second chamber 38. And then flows into the second chamber (38), wherein the cooling air is discharged through the fan (24) to the discharge port (32) on the upper surface. The method of claim 1, The heat exchanger 22 is provided in plural and disposed in at least one of the first chamber 36 and the second chamber 38, and the processing capacities of the provided heat exchangers 22 are each arbitrarily selected. Upper suction and discharge type air conditioner, characterized in that made.