KR102326708B1 - Window type air-conditioner having condensate dry function - Google Patents

Abstract

The present invention relates to a window air conditioner, comprising: a case; an evaporator installed in the case and installed indoors; a cylindrical evaporator fan disposed in the case and installed adjacent to the evaporator; a condenser installed in the case and erected on the outdoor side; a cylindrical condenser fan disposed in the case and installed adjacent to the condenser; a condensate receiver disposed just below the condenser and coupled to the case to receive condensed water falling from the evaporator; And, it is characterized in that it comprises a condensate drying unit for drying the condensed water accommodated in the condensate receiver, it is possible to dry the condensed water together with supplying the condensed water received in the condensate receiver to the condenser to cool.

Description

Window type air conditioner with condensate drying function {WINDOW TYPE AIR-CONDITIONER HAVING CONDENSATE DRY FUNCTION}

The present invention relates to a window-type air conditioner having a condensate drying function, and more particularly, condensate drying that can simultaneously dry condensate and cool the condenser by mechanically spraying condensate generated in the evaporator and accommodated in the condensate receiver to the condenser. It relates to a window-type air conditioner that includes a function.

Recent window air conditioners have a structure in which an indoor unit (evaporator) and an outdoor unit (condenser) are integrally built into the case, and a window frame installation frame to be installed on the window is included separately, so the user, not a professional engineer, can easily install it. thing is made possible

In particular, since the rear surface of the air conditioner facing the outdoors does not protrude from the outer wall, when installed in a double-glazed window frame, the outer window can be closed when not in use.

On the other hand, since the window air conditioner is installed directly on a window frame or window, when a hose for separately discharging condensate generated from the evaporator is connected to the outside, it is necessary to add a configuration to prevent interference between the hose and the window as well as condensate Since the hose protrudes outside to be discharged into the furnace, it has a disadvantage that it is not good in appearance.

Korean Patent Publication No. 10-2000-0020818 (April 15, 2000)

The present invention has been devised to solve the problems of the prior art, and an object of the present invention is to suck up the condensed water generated in the evaporator and drop it through a pump and spray it on the surface of the condenser to evaporate the condensate and cool the condenser for cooling efficiency It is to provide a window-type air conditioner that includes a condensate drying function that can further increase the temperature.

In order to achieve the above object, the window air conditioner according to the present invention,

case;

an evaporator installed in the case and installed indoors;

a cylindrical evaporator fan disposed in the case and installed adjacent to the evaporator;

a condenser installed in the case and erected on the outdoor side;

a cylindrical condenser fan disposed in the case and installed adjacent to the condenser;

a condensate receiver disposed just below the condenser and coupled to the case to receive condensed water falling from the evaporator; and,

It is characterized in that it is configured to include a condensate drying unit for drying the condensed water accommodated in the condensate receiver.

The condensed water drying unit,

a pump installed on the outside of the condensate receiver and having an inlet and an outlet for condensate;

a suction hose connected to the inlet and the condensate receiver to introduce condensed water;

a discharge hose extending from the outlet to the rear surface of the condenser through the upper end of the condensate receiver to discharge condensed water; and,

It characterized in that it comprises a nozzle connected to the front end of the discharge hose.

The discharge hose is formed to be bent toward the top and is characterized in that it is configured to face the rear surface of the condenser.

A suction filter is formed at the bottom of the condensate receiver, and the inlet of the suction hose is disposed to face the suction filter.

When viewed from a plan view, the condenser and the condenser fan, and the evaporator and the evaporator fan are separated by a partition wall, and between the partition wall and the side of the condenser fan, the air introduced through the condenser from the outdoors is guided to the outside again It is characterized in that the guide air path is formed.

According to the present invention having the configuration as described above, a case, an evaporator installed in the case and installed indoors, a cylindrical evaporator fan disposed in the case and installed adjacent to the evaporator, is installed in the case and installed outdoors Condenser installed upright on the side. A cylindrical condenser fan disposed in the case and installed adjacent to the condenser, a condensate receiver disposed immediately below the condenser and coupled to the case to receive condensed water falling from the evaporator, and the condensate receiver. Condensate drying unit for drying the condensate is included, so that it is possible to easily dry the condensed water received by falling on the condensate receiver.

In addition, according to the present invention, the condensate drying unit is installed on the outside of the condensate receiver and is connected to the inlet and the condensate receiver of a pump having an inlet and an outlet for condensate, and a suction hose for introducing condensate, the condensate from the outlet Since it includes a discharge hose extending to the back of the condenser through the upper end of the receiver to discharge condensed water, and a nozzle connected to the tip of the discharge hose, it can be supplied by finely spraying condensed water on the back of the condenser and through the condenser fan. By allowing the sprayed condensate to pass through a high-temperature condenser, part of it is dried by contact, and part of it can be discharged to the outside through the guide air passage after passing through the condenser, so that the cooling of the condenser and the discharge of the remaining condensate are made in a very efficient way. There is an advantage.

In addition, according to the present invention, since the condensed water is finely sprayed toward the rear surface of the condenser, there is an advantage in that the treatment efficiency of the condensed water is greatly increased, such as being directly evaporated by the heat of the condenser or discharged through the guide air passage.

In particular, according to the present invention, since the condenser fan has a cylindrical structure, when the condensed water sprayed on the rear surface of the condenser is not dried, it can be naturally discharged along the guide air path formed on the circumferential surface of the condenser fan, so that the treatment efficiency of the condensed water is very high It also has the advantage of being high.

As a result, cooling of the condenser is made easier by the sprayed condensate, and at the same time, there is an advantage that condensate can be naturally treated without a hose exposed to the outside.

In addition, according to the present invention, since the condensed water accommodated in the condensate receiver is easily sucked by the pump disposed on the outside of the condensate receiver and sprayed toward the rear surface of the condenser, there is an advantage that the installation structure is very simple.

1 is a front perspective view showing a window type air conditioner according to the present invention.
2 is a rear perspective view showing a window air conditioner according to the present invention.
3 is a side cross-sectional view showing a window type air conditioner according to the present invention.
4 is a front perspective view showing the main internal structure of the window air conditioner according to the present invention.
5 is a cross-sectional view of a window type air conditioner according to the present invention.
6 is a perspective view showing the lower internal structure of the window air conditioner according to the present invention.
7 is a rear view showing the lower internal structure of the window air conditioner according to the present invention.
8 is a rear exploded perspective view showing the lower structure of the window air conditioner according to the present invention.

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

1 to 4, the window type air conditioner 1000 according to the present invention. The case 100, the evaporator 200 installed in the case 100 and installed on the indoor side, the cylindrical evaporator fan 700 disposed in the case 100 and installed adjacent to the evaporator, the case A condenser 300 installed in 100 and installed standing on the outdoor side, a cylindrical condenser fan 600 disposed in the front of the condenser 300 in the case 100 and installed adjacent to the condenser 300 ) is included.

With the operation of the condenser fan 600 , the outdoor air is discharged to the second discharge unit 170 through the second suction unit 160 to cool the condenser 300 , and the evaporator fan 700 is operated In addition, the air in the room comes out to the first discharge unit 150 through the first suction unit 140 to cool the interior of the case 100 .

In particular, as shown in FIGS. 4 to 8 , the window-type air conditioner 1000 according to the present invention is disposed immediately below the condenser 300 and is coupled to the case 100 to fall from the evaporator 200 . It includes a condensate receiver 120 for accommodating the condensate to has been

As shown in FIG. 3 , a guide flow path for guiding the condensed water falling from the evaporator 200 to the condensate receiver 120 in which the condenser fan 600 is disposed may be installed.

The condensate drying unit is installed on the outside of the condensate receiver 120 and is connected to a pump 810 having an inlet 811 and an outlet 812 for condensate, the inlet 811 and the condensate receiver 120. A suction hose 820 for introducing condensed water, a discharge hose 830 extending from the outlet 812 to the rear surface of the condenser 300 through the upper end of the condensate receiver 120 to discharge condensed water, and the discharge hose and a nozzle 850 connected to the tip of the 830 .

In this case, it is preferable that the discharge hose 830 is bent to face the top and is configured to face the rear surface of the condenser 300 so that the condensed water is sprayed from the bottom to the top.

In particular, as shown in FIG. 7 , when the condenser 300 is viewed from the rear side, the discharge hose 830 is inclined inwardly of the condenser 300 with respect to the vertical line, so that the condenser 300 is wide. It is possible to drain the condensate to the

In addition, as shown in FIGS. 6 and 8 , a suction filter 170 is formed on the bottom of the condensate receiver 120 , and the inlet of the suction hose 820 is disposed to face the suction filter 170 . can be

The suction filter 170 has a pocket-type structure in which a mesh is formed on the surface, and a protrusion 171 may be formed on the surface to prevent it from falling out by being fitted into the inlet of the suction hose 820 .
Specifically, as shown in FIG. 8 , the suction filter 170 is inserted into the inlet of the suction hose 820 and a through passage 171a communicating with the inlet is formed to penetrate in the vertical direction. It consists of a projection 171 and a mesh member 172 including a mesh 172a extending from the lower outer circumferential surface of the projection 171 to the periphery and having a plurality of filter holes 172d on the surface formed through the top and bottom, It may have a pocket-type structure in which a pocket (not shown) is formed under the mesh 172a.

In a plan view, the condenser 300 and the condenser fan 600, and the evaporator 200 and the evaporator fan 700 are separated by a partition wall 900, the partition wall 900 and the condenser fan 600 It is preferable that a guide air path 910 for guiding the air introduced through the condenser 300 from the outside to the outside again is formed between the sides of the .
As shown in FIG. 5 , a portion of the partition wall 900 opposite to the side surface of the cylindrical condenser fan 600 has a concave curved surface.
In addition, the guide air passage 910 includes an inlet 911 and an outlet 912, and the partition wall 900 and the condenser fan 600 are disposed between the inlet 911 and the outlet 912. An accelerated flow portion 913 formed closest to each other is formed, and the interval between the partition wall 900 and the condenser fan 600 in the accelerated flow portion 913 is at the inlet portion 911 and the outlet portion 912 . It is formed to be smaller than the gap between the partition wall 900 and the condenser fan 600 .

Accordingly, when the condensed water sprayed from the nozzle 850 is sprayed on the rear surface of the condenser 300 , a part is dried by the high heat of the condenser 300 and evaporated, and the remainder passes through the condenser 300 and the guide It is discharged to the outside through the air passage (910).

As a result, the condensed water contained in the condensate receiver 120 is effectively discharged because the condensed water is dried and disappears or discharged to the outside.

Of course, since the sprayed condensate is dried by contacting the condenser 300 with high heat, and the condenser 300 is cooled at the same time, there is an advantage in that the thermal efficiency of the air conditioner is increased.

The embodiments of the present invention are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible within the scope of the following claims.

100... case
120... condensate tray
170... suction filter
200... Evaporator
300... condenser
500... hose
600... condenser fan
700... evaporator fan
810... pump
811... inlet
812... Outlet
820... suction hose
830... drain hose
850... Nozzle
900... bulkhead
1000... window air conditioner

Claims (5)

case;
an evaporator installed in the case and installed indoors;
a cylindrical evaporator fan disposed in the case and installed adjacent to the evaporator;
a condenser installed in the case and installed on the outdoor side;
a cylindrical condenser fan disposed in the front of the condenser in the case and installed adjacent to the condenser;
a condensate receiver disposed just below the condenser and coupled to the case to receive condensed water falling from the evaporator; and,
Doedoe comprising a condensate drying unit for drying the condensed water accommodated in the condensate receiver,
When viewed from a plan view, the condenser and the condenser fan, and the evaporator and the evaporator fan are separated by a partition wall, wherein a portion of the partition opposite to the side of the cylindrical condenser fan has a concave curved surface, the partition wall and the A guide air path is formed between the sides of the condenser fan to guide the air introduced through the condenser from the outdoors back to the outdoors,
The guide air passage includes an inlet and an outlet, and between the inlet and outlet, an accelerated flow portion formed by the closest approach of the partition wall and the condenser fan is formed, and the interval between the partition wall and the condenser fan in the accelerated flow portion is It is formed to be smaller than the distance between the partition wall and the condenser fan at the inlet and outlet,
The condensed water drying unit,
a pump installed on the outside of the condensate receiver and having an inlet and an outlet for condensate;
a suction hose connected to the inlet and the condensate receiver to introduce condensed water;
a discharge hose extending from the outlet to the rear surface of the condenser through the upper end of the condensate receiver to discharge condensed water; and,
A nozzle connected to the tip of the discharge hose,
The discharge hose is formed to be bent toward the upper part, is inclined inward toward the center of the width direction of the condenser, and is configured to face the rear surface of the condenser,
A suction filter is installed on the bottom of the condensate receiver to face the inlet of the suction hose, the suction filter is inserted into the inlet of the suction hose, and a through-path communicating with the inlet is formed to penetrate in the vertical direction It is made of a mesh member including a protrusion and a mesh extending from the outer peripheral surface of the lower end of the protrusion and having a plurality of filter holes penetrating vertically on the surface, and has a pocket-type structure in which a pocket is formed in the lower portion of the mesh. window air conditioner. delete delete delete delete

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