KR20050102477A - Portable air conditioner - Google Patents

Abstract

The present invention provides a compressor for converting a refrigerant into a gas of high temperature and high pressure, a condenser that liquefies a gas of high temperature and high pressure, expands the refrigerant in a spray state at low temperature and low pressure to facilitate heat exchange, and controls the degree of expansion of the refrigerant. A mobile air conditioner including an expansion valve and a heat exchanger for generating cold air by heat-exchanging cold refrigerant on an internal pipe and an external air introduced by a fan, wherein the condensed water generated in the heat exchanger is collected through a condensate pipe. Condensate tank; And an injection unit receiving condensed water from the condensate tank and injecting the condensate into the condensate tank, wherein the waste water injected from the injection unit is introduced into the condensate tank through a waste water pipe.

Description

Portable air conditioner

The present invention relates to a mobile air conditioner.

In general, a mobile air conditioner is a relatively small air conditioner that can be easily moved to a user's desired place, as shown in Figure 1, the outdoor unit performing the condensation process and the indoor unit performing the evaporation process It is suitably configured in one housing 1, and the lower part of the housing 1 is equipped with a caster 2 at each corner part to facilitate the movement of the air conditioner.

In addition, one side of the housing 1 is connected to the air discharge pipe 4 for discharging the hot air heat exchanged from the outdoor unit to the outside.

The components in the housing 1 are as shown in FIG. 2.

As shown in FIG. 2, the mobile air conditioner is composed of a compressor 10, a condenser 11, an expansion valve 12, an evaporator 13, and the like.

Here, the refrigerant discharged from the compressor 10 has a circulation structure flowing back into the compressor 10 through the condenser 11, the expansion valve 12, the heat exchanger 13, the components are piped to each other It is connected.

Specifically, the compressor 10 is a device for converting the refrigerant into a gas of high temperature and high pressure, the condenser 11 is a device for liquefying the gas of high temperature and high pressure, the expansion valve 12 is a refrigerant at a low temperature low pressure to facilitate heat exchange. A device for expanding in a spray state and controlling the degree of expansion of the refrigerant, the heat exchanger 13 is a device for generating cold air by heat-exchanging the cold refrigerant on the pipe and the internal air introduced by the fan 14 with each other to be.

In addition, the lower part of the heat exchanger 13 is provided with a drip tray 15 for receiving condensed water, and a water tank 16 is provided to store the condensed water collected in the drip tray 15. Unexplained reference numeral 17 is a condenser fan.

However, the conventional mobile air conditioner has a problem in that the condensate of a relatively low temperature generated in the heat exchanger is stored in the condensate tank and then disposed of without recycling.

In addition, conventionally, there was a disadvantage in that the cooling efficiency is greatly reduced due to the high heat generated in the condenser, but there is a problem that there is no separate means to solve this problem.

The present invention has been made to solve the above problems, it is an object of the present invention to provide a mobile air conditioner that can greatly increase the cooling efficiency by reducing the high heat of the condenser by recycling the condensate.

According to an aspect of the present invention for achieving the above object, a compressor for converting a refrigerant into a gas of high temperature and high pressure, a condenser to liquefy the gas of high temperature and high pressure, and expand the refrigerant in a spray state at low temperature and low pressure to facilitate heat exchange And, an expansion valve for controlling the expansion degree of the refrigerant, and a heat exchanger for generating cold air by heat-exchanging cold refrigerant on the internal pipe and internal air introduced by the fan, wherein the air conditioner includes: A condensate tank for receiving the generated condensate through a condensate pipe and collecting the condensate; And an injection unit receiving condensate from the condensate tank and injecting the condensate into the condensate tank, wherein the waste water injected from the injection unit flows into the condensate tank through a wastewater pipe. Provide a flag.

The heat exchanger and the condensate tank is communicated by a cold air pipe, the cold air pipe is to provide the cold air discharged from the heat exchanger by the operation of the fan to the condensate tank to cool the condensate and wastewater entering the condensate tank. It features.

The injection unit preferably injects condensed water while linearly reciprocating along the longitudinal direction of the condenser.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of a mobile air conditioner according to the present invention.

3 is a block diagram of a mobile air conditioner according to the present invention.

As shown, the mobile air conditioner according to the present invention is a compressor 20 for converting the refrigerant into a gas of high temperature and high pressure, a condenser 30 for liquefying the gas of high temperature and high pressure, and the refrigerant at low temperature and low pressure to facilitate heat exchange. An expansion valve 40 which expands to a spray state and controls the degree of expansion of the refrigerant, and a heat exchanger that generates cold air by heat-exchanging the cold refrigerant on the inner pipe and the air introduced by the fan 51 with each other ( 50, and includes a condensate tank 60 and the injection unit 150.

The condensate tank 60 receives and collects the condensate generated by the heat exchanger 50 through the condensate pipe 110.

In an embodiment, a heat exchanger fan 51 is provided at one side of the heat exchanger 50 to discharge outside air and discharge cold air heat exchanged with the heat exchanger 50, and a condensate receiver at the bottom of the heat exchanger 50 ( 80). The condensate receiver 80 is connected to the condensate tank 60 by the condensate pipe 110.

The injection unit 150 receives condensate from the condensate tank 60 and injects the condenser 30. The injector 150 injects condensed water while linearly reciprocating along the longitudinal direction of the condenser 30. At this time, the condenser 30 is positioned in a horizontally divided state rather than being erected as in the prior art.

As shown in FIG. 4, the injector 150 injects the condensed water of the condensate tank 60 pressurized by the pump 160 into the compressor 30 and injects the condensed water into the compressor 30. A rack gear 153 provided on both sides of the 151 in a vertical direction, a pair of pinion gears 154 meshing with the rack gears 153, a motor 156 for rotating the pinion gears 154, and an injector; Control unit for controlling the forward and reverse rotation of the motor 156 is provided with the position sensor 155 for detecting the limit position of the 151 and the position of the injector 151 from the position sensor 155 ( 157).

In operation of the injection unit 150, when the condensate stored in the condensate tank 60 is pressurized by the pump 160, the condensate is introduced into the injector 151, and the condensate introduced into the injector 151 is injected into the injector ( It is injected into the condenser 30 through a plurality of nozzles 152 provided in the 151.

At this time, the injector 151 moves to engage the rack gear 153 and the pinion gear 154. The position sensor 155 located on one side and the other side of the injector 151 provides this information to the control unit 157 as a signal when the injector 151 reaches a predetermined range, and the control unit 157 rotates forward. The motor 156 in the state is controlled to rotate in reverse or the motor 156 in the reverse state is controlled to rotate in the forward direction.

The present invention cools the condenser 30 using the injection unit 150 without cooling the condenser 30 only by the condenser fan 31 as in the related art, so that the cooling efficiency is increased and indoor cooling is possible within a relatively short time. There is an advantage.

In the present invention, the injection unit 150, in addition to the linear reciprocating motion as described above, although not separately shown in the drawings, forming the injector almost the same as the condenser total area, spraying condensate water throughout the condenser while the injector is fixed You may.

On the other hand, the waste water injected from the injection unit 150 and heat exchanged with the condenser 30 is collected back to the condensate tank 60 through the waste water pipe 120.

In an embodiment, a wastewater receiver 90 is provided at the bottom of the condenser 30.

The wastewater receiver 90 is connected to the condensate tank 60 by the wastewater pipe 120. The wastewater pipe 120 is formed so as to meet with the condensate pipe 110 at a portion adjacent to the condensate tank 60, the condensate and waste water flowing through the wastewater pipe 120 and the condensate pipe 110 is injected from the inside Preferably, the condensate tank 60 has a nozzle 152 'and a pump 170 at the inlet side.

The pump 170 operates after collecting a predetermined amount of water introduced through the wastewater pipe 120 and the condensate pipe 110 to inject water through the nozzle 152 '.

Although not separately illustrated in the drawing, a float switch (not shown) may be further provided inside the condensate tank 60 to sense the level of stored condensate and wastewater.

The present invention further includes a cold air pipe 100 in addition to the above components.

The cold air pipe 100 has a flow path to communicate the heat exchanger 50 and the condensate tank 60 with each other. The cold air pipe 100 provides a part of the cold air discharged from the heat exchanger 50 by the operation of the fan 51 to the condensate tank 60 to cool the condensate and wastewater entering the condensate tank 60. Specifically, when the condensate and waste water is injected into the condensate tank 60, since the particles of the condensate and waste water are smaller, the area in which the condensate and the waste water and the cold air are in contact increases to increase the heat exchange rate, the condensate and waste water Can be cooled at high speed.

3 and 4, the operation of the mobile air conditioner according to the present invention, when the cold condensate generated in the heat exchanger 50 is collected in the condensate receiver 80, the collected condensate is condensate pipe It is stored in the condensate tank 60 along the (110).

The condensate stored in the condensate tank 60 is introduced into the injector 151 by the operation of the pump 160 again.

The condensed water introduced into the injector 151 is injected into the condenser 30 through the nozzle 152 of the injector 151.

Thereafter, the wastewater cooled by the high heat of the condenser 30 is collected in the wastewater receiver 90.

The wastewater collected in the wastewater receiver 90 flows back into the condensate tank 60 along the wastewater pipe 120.

At this time, the wastewater flowing into the condensate tank 60 is mixed with the condensate flowing along the condensate pipe 110 because the wastewater pipe 120 meets the condensate pipe 110, that is, the temperature of the wastewater is It is introduced into the condensate tank 60 in a lowered state.

The mixed water in which the wastewater and the condensed water are mixed by the nozzles 152 ′ provided at the inflow side of the condensate tank 60 is injected through the pump 170 into the condensate tank 60, and the mixed mixture is injected. The water is cooled by the cold air discharged from the cold air pipe 100.

The mixed water of the condensate tank 60 is circulated in order of the injector 151, the condenser 30, the wastewater receiver 90, and the condensate tank 60 by the operation of the pump 160.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile air conditioner, and includes a condensate tank, a cold air pipe, and an injection unit, so that the condensate generated by the condenser is efficiently cooled by recycling the condensate without simply discarding the condensate generated in the heat exchanger. There is an excellent effect that can surely improve the conventional problem that the cooling efficiency is greatly reduced due to high heat.

As such, there is an excellent effect capable of cooling the room in a relatively short time while cooling the high heat generated in the condenser.

In addition, there is an excellent effect that the cooling of the condenser is possible even if the flue (see reference numeral 4 of FIG. 1) for discharging the high heat generated in the condenser to the outside as in the prior art is removed.

1 is a perspective view showing the appearance of a mobile air conditioner according to the prior art,

2 is a block diagram of a mobile air conditioner according to the prior art,

3 is a block diagram of a mobile air conditioner according to the present invention,

Figure 4 is a block diagram showing an embodiment of the injection unit in the mobile air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawing

20; Compressor 30; Condenser

31; Condenser fan 40; Expansion valve

50; Heat exchanger 51; Heat exchanger fan

60; Condensate tank 80; Condensate Drain

90; Wastewater receiver 100; Cold Piping

110; Condensate pipe 120; Wastewater pipe

140; Injection pipe connection pipe 150; Jet

151; Injector 152, 152 '; Nozzle

153; Rack gear 154; Pinion Gear

155; Position sensor 156; motor

157; Control unit 160,170; Pump

Claims (3)

A compressor for converting the refrigerant into a gas of high temperature and high pressure, a condenser for liquefying the gas of high temperature and high pressure, an expansion valve for expanding the refrigerant into a spray state at low temperature and low pressure to facilitate heat exchange, and controlling the degree of expansion of the refrigerant; A mobile air conditioner including a heat exchanger that generates cold air by heat-exchanging cold refrigerant on an internal pipe and an external air introduced by a fan, A condensate tank configured to receive the condensate generated by the heat exchanger through a condensate pipe and collect the condensate; And It includes an injection unit for receiving condensate from the condensate tank and injects to the condenser, Mobile air conditioner, characterized in that for injecting the waste water heat-exchanged with the condenser after being injected from the injection unit into the condensate tank through the waste water pipe. The condensate of claim 1, wherein the heat exchanger and the condensate tank are communicated by cold air pipes, and the cold air pipes provide cold air discharged from the heat exchanger to the condensate tank by the operation of the fan to enter the condensate tank. And cooling the waste water. The mobile air conditioner according to claim 1, wherein the injection unit injects condensed water while linearly reciprocating along the longitudinal direction of the condenser.