KR20040037788A - Outdoor Unit for Heat Pump - Google Patents

Abstract

PURPOSE: An outdoor device unit of a heat pump is provided to improve heating efficiency by defrosting effectively and aid heating performance of the heat pump without an additional auxiliary heating device in severe winter. CONSTITUTION: An outdoor device unit of a heat pump has a case, a blower fan(8), an outside heat exchanger(3), an influx adjusting damper(11) of air and a heater(12). The blower fan is installed to an open portion of a case to discharge air into the inside of the case after sucking outside air. The outside heat exchanger is installed inside the case transversely. The influx adjusting damper of air is installed to the other open portion of the case apart from the outside heat exchanger to adjust the amount of air sucked to the inside of the case. The heater is installed inside the influx adjusting damper of air to heat air passing though the influx adjusting damper of air. Thereby, heating efficiency is improved and effective defrosting is performed.

Description

Outdoor unit for heat pump

The present invention relates to an outdoor unit for a heat pump, and more particularly, to an outdoor unit for a heat pump that can improve heating efficiency by allowing efficient defrosting during heating operation of the heat pump.

When cooling, cool air comes out indoors and hot air comes out outdoors. When heating, the air conditioner is operated so that warm wind comes out and cold air comes out by reversing the flow of refrigerant and cooling. It's called a pump-cooling air conditioner or simply a heat pump, and it does not use petroleum or other fuels to enable clean air-conditioning without odor, and can selectively perform cooling or heating in the room without installing a separate air conditioner and heater. Since the space can be utilized efficiently, its spread has increased in recent years.

1 and 2 are conceptual diagrams for explaining the operating principle of the heat pump, Figure 1 shows the circulation path of the refrigerant during the cooling operation, Figure 2 shows the circulation path of the refrigerant during the heating operation, as shown in FIG. As described above, when the refrigerant discharged from the compressor 1 is circulated through the four-way valve 2 in the order of the outdoor side heat exchanger 3, the expansion valve 4, and the indoor side heat exchanger 5, the indoor side heat exchanger 5. (5) acts as an evaporator, the cooling of the room is achieved by the process of absorbing the heat of the room and evaporating to the gas state while the low temperature liquid refrigerant flowing into the indoor heat exchanger flows inside the indoor heat exchanger. 2, the four-way valve 2 is switched so that the refrigerant discharged from the compressor 1 passes through the four-way valve 2 to the indoor heat exchanger 5, the expansion valve 4, and the outdoor heat exchanger. When the air is circulated in the order of (3), the indoor heat exchanger 5 Groups are to act, the gaseous refrigerant of high temperature flowing into a group indoor heat exchanger releases heat toward the interior for flowing inside the indoor heat exchanger, and becomes the interior of the heating achieved by a process of condensation.

The outdoor heat exchanger (3) acts as a condenser during cooling, so that the hot gaseous refrigerant flowing into the outdoor heat exchanger is condensed by heat-exchanging with outdoor air having a lower temperature. It serves to discharge to the outside, and acts as an evaporator during heating, the low-temperature liquid state refrigerant flowing into the outdoor side heat exchanger receives heat from the outside air through heat exchange with the outside.

Although the temperature of the outdoor air during heating is low temperature, since the temperature of the outside air is relatively high compared to the temperature of the refrigerant inside the outdoor heat exchanger serving as an evaporator, it serves as a heat source for heating and evaporating the refrigerant.

As such, the outdoor side heat exchanger discharges heat from the inside to the outside during cooling and absorbs heat from the outside during heating, and is manufactured separately from the indoor unit and disposed outdoors for the convenience of heat exchange with the outside air. It is installed inside the outdoor unit.

3 is a cross-sectional view showing the basic configuration of the outdoor unit, wherein the outdoor unit 6 includes a case in which a blowing fan 8 for allowing a large amount of outside air to pass through the outdoor side heat exchanger together with the outdoor side heat exchanger 3. In the case of a large-capacity air conditioner, a plurality of blower fans may be installed, or refrigeration circuit components such as a compressor may be installed inside the case.

As described above, when the heat pump is heated, the outdoor heat exchanger uses the outdoor air as a heat source, absorbs the outdoor heat energy from the outdoor heat exchanger serving as the evaporator, and then uses the heat energy absorbed by the refrigerant as the condenser. Heating is performed by releasing the room through the room, and as the heating cycle progresses, the low-temperature outdoor heat exchanger, which acts as an evaporator, condenses and freezes moisture in the air.

This is called a dropping phenomenon, and if the dropping continues to block the space between the fins of the heat exchanger, that is, the air passage, sufficient heat exchange between the refrigerant passing through the outdoor heat exchanger and the outside air cannot be made, and the heating efficiency is drastically reduced. Defrost operation is periodically performed to solve this problem. In the case of a heat pump type air conditioner, hot gas (hot gas) that defrosts by heat of the refrigerant is bypassed by bypassing a part of the high temperature refrigerant discharged from the compressor to the outdoor heat exchanger. gas) Defrosting is commonly used.

However, in the conventional outdoor unit, as illustrated in FIG. 3, since the outdoor side heat exchanger is exposed to the outside, when the outdoor temperature is low, the defrost water melted by the heat of the refrigerant causes the outdoor side heat exchange by the low temperature outdoor air. In many cases, the air flow was closed and the air flow was closed.In this case, the heat exchange between the outdoor heat exchanger and the outside air was not properly performed during the heating operation following the defrosting operation. .

On the other hand, in Korea, where the four seasons are clear and the temperature in winter is extremely low, especially in the northern North region, in the cold north, the central north-eastern region is not performing well because the heat is not properly performed, such as the limited amount of heat absorbed by the outdoor heat exchanger from low temperature outside air. It is also pointed out that buying a heat pump air conditioner is not meaningful.

Accordingly, a heat pump including an auxiliary heater such as an electric heater or a petroleum heater built into the indoor unit is proposed and sold, but it has a problem of not only occupying a lot of installation space in a limited indoor space but also costing a lot of fuel.

The present invention is to solve the problems of the conventional heat pump as described above, it is an object of the present invention to provide an outdoor unit for a heat pump that can improve the heating efficiency by enabling efficient defrosting.

Still another object of the present invention is to provide an outdoor unit for a heat pump that can effectively assist the heating operation of a cold weather heat pump without installing a separate auxiliary heating device in an indoor unit.

1 is a block diagram showing a refrigerant circulation path during a cooling operation of a heat pump type air conditioning air conditioner.

Figure 2 is a block diagram showing a refrigerant circulation path during the heating operation of the heat pump type air conditioning air conditioner.

3 is a longitudinal sectional view showing a conventional general outdoor unit.

4 is a longitudinal sectional view of an outdoor unit for a heat pump according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

3: outdoor side heat exchanger 8: blower fan

11: outside air introduction amount control damper 12: heater

15: condensate spray nozzle

The outdoor unit for a heat pump according to the present invention for achieving the above object, the case, a blowing fan installed in one opening of the case to suck and discharge the outside air into the case, the inside of the case, the inside of the case Is installed in an outdoor side heat exchanger installed across the door, a defrost water receiver installed in a lower portion of the outdoor side heat exchanger, and the other side opening of the case spaced apart from the outdoor side heat exchanger by a predetermined distance, and is provided in the case by the blower fan. And a heater installed inside the outside air introduction amount control damper, and configured to heat the outside air introduced through the outside air introduction amount control damper.

According to the outdoor unit for a heat pump of the present invention, by controlling the opening degree of the outside air introduction amount control damper during the defrosting, after limiting the amount of outside air introduced into the case by the blowing fan to a small amount, the outside air introduced in a small amount is surely by the heater. Since defrosting is performed by heating and passing the outdoor heat exchanger, defrosting can be efficiently completed in a short time without problems such as re-freezing of the defrosting water in the outdoor heat exchanger by low temperature outdoor air.

In the case of cold heating operation, when the heater is operated after appropriately adjusting the opening degree of the outdoor air introduction amount control damper, an appropriate amount of external air serving as a heat source for heating and evaporating the refrigerant passing through the inside of the outdoor heat exchanger is caused by the heater. Since the heating effect is directly supplied to the outdoor heat exchanger, cold weather heating is possible without installing a separate auxiliary heating device on the indoor unit side.

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

4 is a cross-sectional view showing an embodiment of the present invention, wherein the outdoor unit 6 of the present invention is a blower fan 8 for allowing the outdoor side heat exchanger 3 and a large amount of outdoor air to pass through the outdoor side heat exchanger. It is installed in the case (7) and is configured as in the prior art, the outdoor heat exchanger (3) is installed across the inside of the case inside the case (7), the amount of outside air sucked into the case The outside air introduction amount adjustment damper 11 for adjustment is spaced apart from the outdoor side heat exchanger 3 by a predetermined distance, and is installed in the opening of the case, and the heat transfer heater 12 is provided inside the outside air introduction amount adjustment damper 11, The outside air introduced through the outside air introduction amount control damper 11 is configured to be supplied to the outdoor heat exchanger 3 after being heated by the heat transfer heater 12.

A plurality of vanes 11a are rotatably installed so that the air introduction amount adjusting damper 11 is preferably a damper damper whose opening can be automatically adjusted from fully open to fully closed by an actuator (not shown). Although it is also possible to use a parallel damper in which the vanes are rotated in the same direction, in order to allow the inflow air to be distributed evenly with respect to the front side of the outdoor heat exchanger when the damper is partially opened, As described above, it is preferable to use an opposing damper formed so that adjacent vanes rotate in opposite directions, and an air filter is preferably installed at the front or rear of the damper so that dust or other impurities do not enter the outdoor unit.

The heat transfer heater 12 acts as an auxiliary heater in case of a defrosting action and in case of cold, and airs the fin-tube type heater in which a plurality of heat exchange fins 12a are formed on the outside to transfer the maximum heat to the outside air. It is preferable to arrange | position a large number inside the introduction amount adjustment damper 11, and to form.

A defrost water receiver 13 for collecting defrost water generated during defrosting is installed under the outdoor heat exchanger 3, and a condensate spray nozzle 15 is installed above the outdoor heat exchanger 3.

The condenser injection nozzle 15 injects condensed water generated by condensation of moisture in the indoor air into an indoor heat exchanger operating as an evaporator during cooling operation to a high temperature outdoor heat exchanger operated by a condenser to prevent condensation of the refrigerant. For the purpose of active use, a condensate pump is installed in the condensate receiver at the bottom of the indoor heat exchanger to periodically turn on / off when the collected condensate water exceeds a predetermined amount, and to condense the condensate to the condensate spray nozzle 15. The defrost water collected in the defrost water receiver 13 is discharged to the outside by a drain hose (not shown) or the defrost water pump 14.

Reference numeral 8a denotes a blower fan drive motor, 16 denotes a motor mounting bracket, and 17 flow air guide pieces, respectively.

Hereinafter, the operation of the outdoor unit for a heat pump according to the present invention will be described.

The outdoor unit of the present invention is particularly useful in heating operation, and as described above, the low temperature outdoor heat exchanger acting as an evaporator as the heating cycle proceeds to condense and freeze moisture in the air.

If the build-up progresses to a certain degree to block the air passage between the fins of the heat exchanger, sufficient heat exchange between the refrigerant passing through the outdoor heat exchanger and the outside air cannot be made and the heating efficiency is drastically deteriorated. Alternatively, when the defrosting operation is started in accordance with the detection result of the defrost sensor or the like, the amount of outside air introduced into the case 7 by the blower fan 8 is adjusted by adjusting the opening degree of the outside air amount adjusting damper 11 by the actuator. Limited in small quantities.

At the time of defrosting, it is preferable to adjust the opening degree of the damper so that the outside air introduced into the case is about 10% to 20% when the damper is fully opened, and the opening degree of the damper is adjusted so that the amount of inlet air is lower as the outside temperature is low.

Since the outside air introduced in a small amount through the outside air introduction amount control damper 11 is certainly heated by the heat transfer heater 12 and then passes through the outdoor heat exchanger 3 to perform defrosting, Defrosting can be completed efficiently in a short time without problems such as re-freezing of the defrost water.

On the other hand, when the outdoor temperature is lower than the predetermined value, the auxiliary air heating is performed by closing the outside air introduction amount control damper 11 damper and operating the heat transfer heater 12 at the same time. The opening degree of the damper is set smaller.

As described above, according to the heat pump outdoor unit of the present invention, it is possible to improve heating efficiency by achieving a perfect and efficient defrost with a simple configuration, and also to heat the cold weather without installing a separate auxiliary heating device in the indoor unit. It can act as an auxiliary heating device which effectively assists in the heating operation of the pump.

Claims (2)

A case; A blowing fan installed at one side opening of the case to suck and discharge outside air into the case; An outdoor side heat exchanger installed inside the case and across the inside of the case; An outside air introduction amount control damper installed in the other opening of the case spaced apart from the outdoor heat exchanger to adjust the amount of outside air sucked into the case by the blowing fan; And a heater installed inside the outside air introduction amount control damper to heat the outside air introduced through the outside air introduction amount control damper. The air conditioner of claim 1, further comprising a condensate spray nozzle disposed above the outdoor side heat exchanger to inject condensed water collected from the indoor side heat exchanger, which acts as an evaporator during cooling operation, to the top of the outdoor side heat exchanger. An outdoor unit for a heat pump, characterized in that.