KR0179265B1 - Package type airconditioner - Google Patents

Abstract

The present invention is to improve the cooling performance of the heat exchanger by improving the flow path to increase the amount of air passing through the heat exchanger in the air conditioner body, while preventing the occurrence of noise behind the heat exchanger.

To this end, the present invention flows while the air flowing through the air intake grill (6) in the front of the main body 1 forms a steady flow over the entire area of the heat exchanger (2) installed in the main body (1) 2) The lower end of the heat exchanger (2) is located on the flange surface (5) constituting the upper end of the front (4) of the condensate receiver (3) to enter into, the flange surface into the condensate receiver (3) It is a packaged air conditioner characterized in that to form a guide groove (7) inclined to the inside of the condensate receiver to guide the condensate flowing down from the surface of the heat exchanger.

Description

Packaged Air Conditioners

The present invention relates to a packaged air conditioner, and more particularly, to improve the cooling performance of the heat exchanger by improving the flow path of the air to increase the amount of air passing through the heat exchanger in the air conditioner body.

In general, an air conditioner refers to a device that automatically adjusts indoor air temperature, humidity, and the like by a mechanical device to keep the room in a comfortable state.

As shown in FIG. 1, a packaged air conditioner, which is a kind of a conventional air conditioner, has air in the lower part of the front surface of the main body 1 by driving a motor (not shown) built in the main body 1. When the hot air in the room is sucked through the suction grill 6, the sucked air passes through the heat exchanger 2 installed at the rear of the air suction grill 6, and with the cold refrigerant circulating in the tube of the heat exchanger 2. Cooled by the heat exchange action, the cooled air is introduced into the blower fan 9 embedded in the housing 8 above the heat exchanger 2 and then discharged through the discharge port to the upper part of the housing 8.

That is, the air cooled while passing through the heat exchanger (2) rises in the flow path between the front panel (10) in front of the blower fan (9) and the blower fan (9) housing (8). It flows in the same direction as the rotary shaft of the blower fan 9 through the suction port, pressurizes and accelerates while passing through the blade portion of the blower fan 9, and then moves upwards through the centrifugal force of the rotating blower fan 9 to the upper portion of the housing 8. Discharged.

On the other hand, the air discharged to the upper portion of the housing 8 is discharged into the room through the discharge louver 11 (Louver) installed on the upper front of the air conditioner main body 1 to cool the air in the room.

In addition, in the conventional air conditioner, the heat exchanger 2 is inclined to be inclined, and each grill of the air intake grill 6 allows air sucked through the gap between the grilles to flow in a vertical direction with respect to the front surface of the heat exchanger 2. It is installed inclined.

On the other hand, during the heat exchange in the heat exchanger (2), condensate generated by condensation of moisture in the air flows down the heat exchanger (2), collects in the condensate receiver (3a), and then drains the drain hose (12). Through the body 1 is discharged to the outside.

However, in the conventional air conditioner, although air is introduced in a direction perpendicular to the heat exchanger 2 due to the installation shape of the air intake grill 6, the lower end of the heat exchanger 2 has a main body caused by the outflow of condensate ( 1) Since it is installed in the condensate tray (3a) to prevent contamination inside, the front (4a) of the condensate tray (3a) is introduced through the air suction grille 6, the lower end of the heat exchanger (2) It will block the flow of air having a path to flow to.

That is, air hitting the front surface 4a of the condensate receiver 3a due to the installation angle of the heat exchanger 2 forms a vortex, so that air does not flow smoothly into the lower end of the heat exchanger 2. .

Accordingly, at the lower end of the heat exchanger (2), the refrigerant passing through the conduit in the heat exchanger (2) does not exchange heat, and flows into the heat exchanger (2) in an ideal flow state, thereby improving the efficiency of the cooling cycle. There was a problem that the lowering caused the lowering of the cooling capacity of the air conditioner.

In addition, since the lower end portion of the heat exchanger 2 is in close contact with the rear end portion of the main body 1, the lower end portion of the heat exchanger 2 is disposed between the lower end portion of the heat exchanger 2 and the rear end portion of the main body 1 by the air exiting the lower end portion of the heat exchanger 2. Vortex is formed in the space, causing noise.

The present invention is to solve the above-mentioned problems, to improve the cooling flow of the heat exchanger by improving the air flow path through the amount of air passing through the heat exchanger in the air conditioner body, while preventing the occurrence of noise behind the heat exchanger The purpose is to provide a packaged air conditioner.

In order to achieve the above object, the present invention is a lower end of the heat exchanger so that the air flowing through the air intake grill on the front of the main body flows while forming a steady flow over the entire surface of the heat exchanger installed in the main body to enter the heat exchanger The end is positioned on the flange surface constituting the front upper end of the condensate receiver, and the flange surface is formed with a guide groove inclined inside the condensate receiver to smoothly guide the condensate flowed down from the surface of the heat exchanger into the condensate receiver. It is a packaged air conditioner characterized by.

1 is a longitudinal sectional view showing a conventional air conditioner.

Figure 2 is a longitudinal sectional view showing an air conditioner to which the present invention is applied.

3 is an enlarged view of a portion A of FIG.

4 is a plan view of portion A of FIG.

5 is a perspective view showing a condensate receiver of the present invention.

* Explanation of symbols for main parts of the drawings

1: body 2: heat exchanger

3: condensate receiver 4: front of the condensate receiver

5: flange face 6: air intake grill

7: condensate guide groove

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 5.

FIG. 2 is a longitudinal sectional view showing the air conditioner to which the present invention is applied, FIG. 3 is an enlarged view of portion A of FIG. 2, and FIG. 4 is a plan view of portion A of FIG. 2, and FIG. 5 is a perspective view of the condensate receiver of the present invention.

According to the present invention, the lower end of the heat exchanger (2) installed in the main body (1) is located on the flange surface (5) extending above the front (4) of the condensate receiver (3) so that the lower end of the heat exchanger (2) is not shielded. By being exposed, the air flowing through the air intake grill 6 in front of the main body 1 forms a steady flow over the entire area of the heat exchanger 2 and flows into the heat exchanger 2.

At this time, the front surface (4) of the condensate receiver 3 is formed of an inclined surface inclined in the same direction as the grill surface of the air intake grill (6) to match the flow path of the incoming air.

In addition, the flange surface 5 formed on the front surface 4 of the upper portion of the condensate receiver 3 has condensate flowed down through the heat exchanger 2 without being discharged to the outside of the condensate receiver 3. Condensate guide groove (7) to be introduced into is formed to be inclined.

On the other hand, the heat exchanger 2 installed in the main body 1 is configured such that the lower end is spaced apart from the main body 1 by a predetermined interval so that no vortex is formed behind the lower end.

Referring to the operation of the present invention configured as described above is as follows.

First, the lower end portion of the heat exchanger 2 installed in the main body 1 is positioned on the flange surface 5 extending on the upper side of the front surface 4 of the condensate receiver 3 so that the lower end portion of the heat exchanger 2 is not shielded. Since the air flowing through the air suction grille 6 in the front of the main body 1 forms a steady flow over the entire area of the heat exchanger 2 and flows into the heat exchanger 2 so that it can enter the heat exchanger 2. The heat exchanging area of 2) is increased as compared with the prior art.

That is, conventionally, the lower end portion of the heat exchanger 2 is positioned inside the condensate receiver 3 and is shielded by the front surface 4 of the condensate receiver 3, thereby being sucked into the main body 1 through the air intake grill 6. Although there was an area where air cannot be introduced, in the present invention, the lower end of the heat exchanger 2 is positioned at the upper end of the condensate receiver 3, and thus the lower end of the heat exchanger 2 is exposed without being shielded, so that the entire front surface of the heat exchanger 2 is exposed. Since the intake air passes over the area, the heat exchange capacity of the heat exchanger 2 is improved, thereby improving the cooling capacity of the air conditioner.

In this case, the front surface 4 of the condensate receiver 3 is formed with an inclined surface inclined in the same direction as the grill surface of the air intake grill 6 so as to match the flow path of the inflowing air. The air introduced into the main body 1 through) flows smoothly along the front surface 4 of the slope condensate receiver 3.

As a result, the vortices generated in front of the front face 4 of the condensate receiver 3 are not generated, so that a larger amount of air flows into the lower end portion of the heat exchanger 2 than in the prior art, thereby allowing the inside of the pipe of the heat exchanger 2 to flow. Since heat exchange with the refrigerant passing through is performed, the operating efficiency of the heat exchanger is increased.

On the other hand, the moisture in the air is condensed according to the heat exchange action of the heat exchanger (2) flows through the heat exchanger (2) to the lower side to the flange surface (5) of the upper end of the condensate receiver (3), the lower end of the heat exchanger (2) The condensate guide (7) is formed in the flange surface (5) extending on the top of the condensate receiver (3) front (4) is lower toward the inside of the condensate receiver (3), so that the heat exchanger (2) The condensate that has flowed out flows into the condensate receiver 3 without flowing out of the condensate receiver 3.

In addition, since the lower end of the heat exchanger 2 installed in the main body 1 is installed to be spaced apart from the main body 1 by a predetermined distance, the flow space of air passing through the lower end of the heat exchanger 2 is significantly increased. Therefore, when the vortex formed at the rear of the lower end of the heat exchanger 2 is no longer formed, noise generated by the vortex is reduced, thereby improving the quietness of the air conditioner.

As described above, the present invention facilitates heat exchange even at the lower end of the heat exchanger (2) in which heat exchange was not performed properly, while vortices occurring in front of the front (4) of the condensate receiver (3) and behind the lower end of the heat exchanger (2). It is a very useful invention that can reduce the noise by preventing the.

The present invention has the effect of improving the cooling performance of the heat exchanger (2) by improving the heat exchanger (2) installation structure in the air conditioner body (1) to improve the hydrodynamic behavior of the air passing through the heat exchanger (2). On the other hand, by reducing the noise by preventing the generation of vortex behind the heat exchanger (2) there is an effect that can improve the quietness in the operation of the air conditioner.

Claims (2)

The bottom end of the heat exchanger is configured to form the upper end of the condensate receiver so that air flowing through the air intake grill on the front of the main body flows into the heat exchanger while forming a steady flow over the entire area of the heat exchanger installed in the main body. Packaged air conditioner, characterized in that formed on the flange surface, the guide surface inclined to the inside of the condensate receiver to smoothly guide the condensate flowed down from the surface of the heat exchanger into the condensate receiver. The packaged air conditioner according to claim 1, wherein an inclined surface inclined to coincide with a flow path of air introduced through the suction grill is formed on the front surface of the condensate receiver.