KR20020064030A - Air-conditioner be improved cooling power - Google Patents

Abstract

PURPOSE: An air conditioner with improved cooling performance is provided to make heat exchange in an evaporator safe. CONSTITUTION: An air conditioner includes a trap(115a), one of a p-trap, an s-trap and a u-trap, mounted on a middle of a discharge pipe(115) positioned to discharge condensed water(A) collected in a drain member(120) placed under an evaporator(110); and a refrigerant pipe(105) connected with a condenser, penetrating the trap and connected with an inlet of an expansion valve so that the temperature and pressure of refrigerant of high temperature and high pressure is dropped by the condensed water prior to reaching the expansion valve.

Description

Air-conditioner be improved cooling power

The present invention relates to an air conditioner having an improved cooling capability, and more particularly, to collect the condensation from the evaporator before the expansion valve inlet, and to contact the condensate with the refrigerant pipe for transporting the refrigerant so that the heat exchange of the refrigerant in the evaporator can be completed completely. An air conditioner with improved cooling capability.

In general, a cooling apparatus includes a compressor for compressing a refrigerant into a gas of high temperature and high pressure, a condenser for liquefying a high temperature and high pressure refrigerant compressed by the compressor, and a high temperature and high pressure by the condenser. It consists of an expansion valve for reducing the refrigerant liquefied to low temperature and low pressure, and an evaporator for evaporating or exchanging heat exchanged refrigerant by the expansion valve. Is forcibly blown by the blower into the room where cooling is required.

1 is a view illustrating an indoor unit of a conventional general air conditioner equipped with the above-described air conditioner. As illustrated, the indoor unit 10 includes a lower panel 11 having an inlet formed therein so as to suck indoor air in a lower part of a front surface thereof. It is provided, the upper panel consists of an upper panel 12 having a discharge port for discharging the cooled air to the indoor side, and the inner lower end of the indoor unit 10 is provided with an evaporator 13 for heat exchange, the lower end thereof It is provided with a drain member 14 for collecting and discharging the condensed water generated during heat exchange, the blower 15 for blowing the heat-exchanged air to the indoor side is provided. Meanwhile, a compressor and a condenser not shown are mounted on an outdoor unit installed outdoors.

However, the air conditioner made as described above has a problem in that the heat exchange is performed while passing through the evaporator while the refrigerant is continuously pumped from the compressor mounted in the outdoor unit, so that the refrigerant is not completely heat exchanged in the evaporator.

That is, since the heat exchange is made by air, since the refrigerant passes by not being completely contacted with the evaporator by the continuous pumping of the refrigerant, there is a problem that the cooling capacity is lowered.

The present invention has been invented to solve such a problem, the discharge pipe which is connected to the drain member provided to collect the condensed water generated from the evaporator to discharge the condensed water to form a trap so that the condensed water and the inside of the trap The purpose of the present invention is to provide an air conditioner having an improved cooling capacity by preheating the refrigerant before the expansion valve by conduiting the refrigerant pipe so that safe heat exchange is performed during heat exchange in the evaporator.

1 is a view showing an indoor unit of a conventional general air conditioner

2 is a view showing the indoor unit of the air conditioner with improved cooling capacity according to the invention

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

100: indoor unit 105: refrigerant pipe

110: evaporator 115: discharge pipe

115a: trap 120: drain member

In order to achieve the above object, the present invention provides an outdoor unit installed outdoors by mounting a compressor for compressing a high temperature / high pressure gas, a condenser for liquefying a high temperature / high pressure refrigerant compressed by the compressor. An expansion valve connected to an expansion valve for lowering the refrigerant conveyed from the condenser to a low temperature and a low pressure, an evaporator for exchanging the refrigerant expanded by the expansion valve, and a discharge pipe for collecting and discharging condensate generated during heat exchange to the lower end thereof. In the air conditioner consisting of a member and an indoor unit formed by mounting a blower provided to discharge the air heat exchanged to the upper end of the evaporator to the indoor side, the discharge pipe provided for discharging the condensed water collected in the drain member provided in the lower end of the evaporator In the meantime, a trap is formed so that the condensate can accumulate, Is through the refrigerant pipes from the accumulation conduit is achieved by the improved air conditioning cooling capacity, it characterized in that the conduits to be connected to the inlet side of the expansion valve.

The trap is achieved by an air conditioner having improved cooling capacity, characterized in that any one of p trap, s trap, u trap.

Hereinafter, described in detail with reference to the accompanying drawings, the present invention.

2 is a view illustrating an indoor unit of an air conditioner having improved cooling capability according to the present invention.

As shown, the indoor unit 100 of the air conditioner includes a compressor for compressing a high temperature / high pressure gas, a condenser for liquefying a high temperature / high pressure refrigerant compressed by the compressor, and an outdoor unit (not shown) installed outdoors. , An expansion valve (not shown) for lowering the refrigerant conveyed from the condenser of the outdoor unit to a low temperature and a low pressure, an evaporator 110 for heat-exchanging the refrigerant expanded by the expansion valve, and condensate generated during heat exchange to the lower end thereof. A discharge pipe 115 for collecting and discharging (A) includes a drain member 120 having a connection and a blower 125 provided to discharge the air heat-exchanged to the upper end of the evaporator 110 to the indoor side.

The bottom of the drain member 120 is provided with a discharge pipe 115 to discharge the condensate (A) generated in the evaporator 110, the discharge pipe 115 is trapped to collect the condensate (A) in the middle ( 115a) is formed. In this case, as shown in FIG. 2, the refrigerant pipe 105 connected to the outlet side of the condenser passes through the trap 115a of the discharge pipe 115 to be connected to the expansion valve side.

Meanwhile, the trap 115a of the discharge pipe 115 shown in the present invention uses a p trap, but is not limited thereto, and may also use an s trap or a u trap.

When driving the air conditioner of the present invention made in this way, as shown in Figure 2 when the refrigerant from the compressor of the outdoor unit to compress the refrigerant to the condenser condenser condensing the refrigerant to the indoor unit 100 through the refrigerant pipe 105 Will be sent.

At this time, the refrigerant pipe 105 is conduit penetrated through the trap 115a of the discharge pipe 115 of the drain member 120 provided to collect and discharge the condensed water (A) generated in the evaporator 110, the refrigerant pipe ( The refrigerant pushed through 105 is preliminarily dropped in temperature and pressure by the condensed water A accumulated in the trap 115a.

Then, while passing through the expansion valve, the unreduced refrigerant is completely dropped to be fed to the evaporator 110 side.

Therefore, the refrigerant passing through the evaporator 110 is to be completely heat exchanged without being heat exchanged.

As described above, according to the present invention, the high temperature and high pressure cool down the refrigerant by using condensate generated from the evaporator before the expansion valve, and the refrigerant thus dropped is completely lowered from the expansion valve to be pumped to the evaporator so that the heat exchange can be completely performed. There is an effect to improve the ability.

Claims (2)

A compressor compressed in the form of a high temperature / high pressure gas, a condenser for liquefying a high temperature / high pressure refrigerant compressed by the compressor, and an outdoor unit installed outdoors, and a refrigerant fed from the condenser of the outdoor unit at a low temperature / low pressure An expansion valve for dropping, an evaporator for heat-exchanging the refrigerant expanded by the expansion valve, a drain member having a discharge pipe for collecting and discharging condensate generated during heat exchange to the bottom thereof, and air heat-exchanged to the top of the evaporator In the air conditioner composed of an indoor unit formed by mounting a blower provided to discharge the to the indoor side, A trap is formed to discharge the condensed water collected in the drain member provided at the lower end of the evaporator so that the condensed water can accumulate in the middle thereof, and a refrigerant pipe conduited from the condenser passes through the trap to the inlet side of the expansion valve. Air conditioning with improved cooling capacity characterized in that the conduit connected to. The method of claim 1 The trap is an air conditioner with improved cooling capacity, characterized in that any one of p trap, s trap, u trap.