KR20150059831A - Air conditioner having drain treatment structure - Google Patents

Abstract

An air conditioner having a condensed water treatment structure according to an embodiment of the present disclosure includes: an evaporator located on a silver side; A condenser located on the outdoor side, comprising: a condenser having a plurality of heat dissipation fins; A condensed water collecting part for guiding the condensed water generated in the evaporator so as to be high on the lower side of the condenser; And a condensed water absorbing portion provided in contact with the heat dissipating fin of the condenser and sucking up the condensed water that has remained in the condensed water collecting portion. According to this, since the condenser is cooled by the porous member using the capillary phenomenon, it has an advantage of increasing the cooling efficiency of the condenser without adding additional energy or equipment.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner having a condensed water treatment structure,

The present disclosure relates to an air conditioner, and more particularly, to an air conditioner having a condensed water processing structure in which condensed water generated in an evaporator (indoor unit) is used for cooling a condenser.

Generally, the air conditioner for cooling is composed of a compressor, a condenser, a capillary tube (evaporator), and an evaporator to cool the room by lowering the temperature of the room to a temperature lower than the external temperature. That is, the EVAPORATOR flows through the capillary tube (capillary tube) and the liquid refrigerant that has been lowered at a low temperature and a low pressure flows into the space or heat exchange with the object to be cooled, And the compressor is a device for increasing the pressure up to the saturation pressure corresponding to the condensation temperature so that the low temperature low pressure gas refrigerant evaporated in the evaporator is sucked and condensed and liquefied in the next condenser, and the condenser The device is a device for condensing and liquefying high-temperature and high-pressure gas refrigerant compressed and discharged from a compressor by releasing heat of gas refrigerant by heat exchange with ambient air or condensed water. The capillary tube (capillary tube) Temperature and high-pressure liquid refrigerant condensed and liquefied is supplied to the following evaporator A valve for regulating and supplying a proper amount of refrigerant flow so as to cause a heat absorption action by evaporation of liquid, wherein the device undergoes a process of compression → condensation → expansion → evaporation to cool the room by lowering the temperature to a temperature lower than the external temperature Device. At this time, the evaporator is a device for cooling refrigerant through the capillary tube (capillary tube) and introducing the liquid refrigerant that has been lowered to low temperature and low pressure to exchange heat with the surrounding space or the object to be cooled, Condensate will inevitably occur during the evaporation process.

Korean Patent Laid-Open Publication No. 1998-023786 discloses a condensate water recycling system for an indoor unit of an air conditioner.

1 is a view showing an air conditioner having a conventional condensed water treatment structure.

Referring to FIG. 1, the outdoor unit has a predetermined shape, and constitutes an outdoor unit body formed by bending an iron plate of a metal material. Several discharge ports and suction ports 21a are formed on the front and rear of the body, . A compressor (23) for pumping the refrigerant at a high temperature and a high pressure is provided at a predetermined position in the main body through a fixing means. A refrigerant having a high temperature and a high pressure from the compressor (23) close to the suction port (21a) A condenser 22 for cooling is provided through a fixing means, a suction port 21a at the front and rear of the main body, and a motor fixed via a fixing bracket in the middle of the discharge port are provided, (Not shown). The above is a description of a typical outdoor unit configuration except that a filtering net 27 constituting a seating portion 21c which is recessed into the upper surface of one side of the outdoor unit main body and fitted and fixed to one side of the suction port is provided, . The water spraying member has a water collecting part 111 which is recessed to one side of the upper surface and a nozzle 110 in which several spray holes 111a are arranged at regular intervals on the bottom surface thereof. A fixing plate 120 integrally formed on one side of the nozzle 110 and having a plurality of fastening holes 121 facing each other is formed. The water spraying member is seated on the seating part 21c formed on the upper surface of one side of the outdoor unit body having the above-described construction, and then the bolt is screwed into the fixing hole of the fixing plate 120 on one side of the water spraying member 100, Member is installed on one upper surface of the outdoor unit main body. Then, the low-temperature, low-pressure liquid refrigerant introduced into the evaporator 12 of the air conditioner absorbs heat from the periphery of the evaporator, thereby changing the liquid refrigerant into gas refrigerant. In this process, Condensation condensation causes condensation. The condensed water gradually increases in accordance with the operation of the air conditioner and rides on the surface of the evaporator provided at an inclined state to be floated on the evaporation dish 30. The water that has been dumped into the evaporation dish is supplied to the outside through the hose 31, 100 to the collecting part formed inside the nozzle 110. [ The condensed water dropped to the nozzle is sprayed through several spray holes 111a provided on the bottom surface and falls down to the filtering net 27 installed on one side of the outdoor unit main body suction port 21a. Accordingly, when the condensed water is continuously discharged through the filter net and the cooling fan 24 in the outdoor unit body is driven, the outside air passes through the condensed water flowing in the outer peripheral portion of the filter net and flows into the outdoor unit body, So that the heat radiation of the condenser is improved.

It is an object of the present disclosure to provide an air conditioner having a structure for effectively cooling a condenser by using condensed water generated in an evaporator.

According to an aspect of an air conditioner having a condensed water treatment structure according to the present disclosure, an evaporator positioned on an indoor side; A condenser located on the outdoor side, comprising: a condenser having a plurality of heat dissipation fins; A condensed water collecting part for guiding the condensed water generated in the evaporator so as to be high on the lower side of the condenser; And a condensed water absorbing portion provided in contact with the heat dissipating fin of the condenser and sucking up the condensed water that has remained in the condensed water collecting portion.

In the air conditioning system according to one aspect of the present disclosure, the condensed water absorbing portion may include a plurality of through holes formed in the flow direction of the cooling air of the condenser, and a plurality of through holes communicating with the air flow path formed in the condenser .

In the air conditioning system according to one aspect of the present disclosure, the condensed water absorbing portion may be provided on each of the plurality of heat dissipating fins.

In the air conditioning system according to one aspect of the present disclosure, the condensed water collecting part includes a receiving part installed below the evaporator and having condensed water dropped therein; A guide portion for guiding condensed water to flow outwardly from the receiving portion; And a storage unit positioned at a lower end of the condenser and configured to condense the condensed water flowing through the guide unit.

In the air conditioning system according to an aspect of the present disclosure, the condensed water absorbing portion may be made of a porous member to draw up condensed water by capillary phenomenon, and the lower end portion thereof may be submerged in condensed water which is accumulated in the condensed water collecting portion.

According to the air conditioning system of the present disclosure, since the condenser is cooled by the porous member using the capillary phenomenon, there is an advantage that the cooling efficiency of the condenser is increased without adding additional energy or equipment.

According to the air conditioning system according to the present disclosure, it is possible to minimize the interference of the cooling air supplied by the plurality of through holes for cooling the condenser by the cooling fan by the condensed water absorption portion.

1 is a view showing an air conditioner having a conventional condensed water treatment structure,
2 is a view showing an air conditioner having a condensed water treatment structure according to a first embodiment of the present disclosure;
Figure 3 shows an air conditioner having a condensed water treatment structure according to a second embodiment of the present disclosure;
4 is a view showing an air conditioner having a condensed water treatment structure according to a third embodiment of the present disclosure.

Hereinafter, an air conditioner having a condensed water treatment structure according to an embodiment of the present disclosure will be described in detail with reference to the accompanying drawings.

Prior to this, the inventor could properly define the term concept to describe its invention in the best possible way, so that the terms and words used in the specification and claims are to be construed as limited to a conventional or dictionary meaning And should be construed as meaning and concept consistent with the technical idea of the present invention.

2 is a view showing an air conditioner having a condensed water treatment structure according to a first embodiment of the present disclosure;

2, the air conditioner 100 according to the present embodiment includes an evaporator 140, a condenser 150, a condensed water collector 160, and a condensed water absorber 170.

In addition, in the present embodiment, the pipeline is composed of four lines. Suppiy air is supplied to maintain the indoor temperature. Return air recovers the air supplied to the room, Exhaust air is to discharge polluted or damp air in the room, and Out air is to supply fresh air outside.

Specifically, the body 51 is provided with an outside air (OA) inlet, an exhaust (EA) outlet, a ventilation (RA) inlet, and an outlet (SA) outlet around the central compartment.

A filter installed on the outside of the body 110 and the air inlet RA and an exhaust fan / air supply fan / disposed on the exhaust EA and the air outlet SA, respectively.

Also, an outdoor unit and an indoor unit installed at both ends of the body 110 are provided.

In addition, a condensate water collecting part 160 is installed at the lower end of the indoor unit. The condensed water collecting part 160 includes a receiving part 161 provided below the evaporator 140, a guide part 161 extending from the receiving part 161 And a reservoir 163 provided at a lower portion of the condenser 150, the condensate being guided by the guide portion 162 being high.

The condensed water absorbing part 170 is provided with a member for sucking up the condensed water that has been accumulated in the condensed water retaining part 160. Specifically, the condensed water absorbing part 170 may be formed of a porous member, a blowing member, a fiber or the like for sucking condensed water by capillary phenomenon.

Meanwhile, the condensed water absorbing portion 170 is provided so that the lower end thereof is submerged in the condensed water accumulated in the condensed water retaining portion 160.

The condensed water absorbed by the condensed water absorbing part 170 is cooled by the condenser water absorbing part 170 and is cooled. At this time, the cooling of the condenser 150 is achieved without any additional device such as a pump, an injection nozzle.

3 is a view showing an air conditioner having a condensed water treatment structure according to a second embodiment of the present disclosure.

The air conditioner 100 having the condensed water processing structure according to the present embodiment has the same structure as that of the first embodiment described above except that the condensed water absorbing portion 170 is formed in the flow direction of the cooling air of the condenser 150 And the plurality of through holes 173 are provided to be communicated with an air flow path formed in the condenser 150. In addition,

Generally, the condenser 150 is cooled by air cooling, in which the flow of air passes through the condenser 150.

Accordingly, the flow of air may be interrupted by the condensed water absorbing part 170 provided in contact with the condenser 150, and the cooling efficiency of the condenser 150 may be greatly reduced.

Of course, because of the porous material, the flow of air will not be completely blocked, but it requires a considerable energy to lower the cooling efficiency or to make the air flow.

According to the present embodiment, the plurality of through holes 173 are formed in the condensed water absorbing portion 170, thereby making it possible to eliminate the obstruction of the air flow.

4 is a view showing an air conditioner having a condensed water treatment structure according to a third embodiment of the present disclosure.

The air conditioner 100 having the condensed water processing structure according to the present embodiment has the same structure as that of the first embodiment described above except that the condensed water absorbing portion 170 is in contact with the heat radiating fin 153 of the condenser 150 So that there is a difference.

Specifically, the condenser 150 is provided with a refrigerant pipe 151 and a radiating fin 153. The condensing water absorbing portion 170 is provided on a side surface of the radiating fin 153, and is disposed in a direction parallel to the radiating fin 153 So that it is possible to effectively cool the condenser by contacting the radiating fin 153 without interfering with the flow of the air for cooling the condenser 150. [

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention only and should not be construed as limiting the scope of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

An evaporator located on the indoor side;
A condenser located on the outdoor side, comprising: a condenser having a plurality of heat dissipation fins;
A condensed water collecting part for guiding the condensed water generated in the evaporator so as to be high on the lower side of the condenser; And
And a condensed water absorbing portion which is provided in contact with the heat radiating fin of the condenser and sucks up the condensed water which is high in the condensed water collecting portion. The method according to claim 1,
Wherein the condensed water absorbing portion has a plurality of through holes formed in a flow direction of the cooling air of the condenser and a plurality of through holes communicating with an air flow path formed in the condenser. . The method according to claim 1,
Wherein the condensed water absorbing part is provided on each of the plurality of heat dissipating fins. The method according to claim 1,
The condensed water collecting unit includes:
A receiver installed on the lower side of the evaporator to discharge condensed water;
A guide portion for guiding condensed water to flow outwardly from the receiving portion; And
And a storage unit disposed at a lower end of the condenser and configured to condense the condensed water flowing through the guide unit. The method according to claim 1,
Wherein the condensed water absorbing portion is made of a porous member to suck up the condensed water by capillary phenomenon and the lower end portion of the porous member is submerged in the condensed water in the condensed water collecting portion.

Images