KR200265904Y1 - heating exchange system of out door machine unification air conditioner - Google Patents

Abstract

The present invention relates to a heat exchange device of an outdoor unit integrated air conditioner.

The present invention is arranged separately from the upper heat exchanger 30 and the lower heat exchanger 31 in the space where the first heat exchanger 3 is separated, and the upper heat exchanger 30 and the lower heat exchanger 31 are also Each of the upper left heat exchanger 30a, the upper right heat exchanger 30b, the lower right heat exchanger 31a, and the lower left heat exchanger 31b is provided. 3) and condensate generated in the second heat exchanger (5) are selectively injected so that the heat exchanger on the one hand is cooled by air cooling, and the heat exchanger on the other hand is heat exchanged by a water-cooled and air-cooled mixture.

Description

Heat exchanger of outdoor unit integrated air conditioner

The present invention relates to a heat exchanger installed in an air conditioning facility such as an air conditioner, an air conditioner, and the like. In particular, an outdoor unit integrated type that can improve heat exchange efficiency by partially separating a heat exchanger and allowing condensed water, which is naturally generated by heat exchange, to be used for heat exchange. It relates to a heat exchanger of the air conditioner.

The heat exchanger of the air conditioner is water-cooled, air-cooled, or a mixture of water-cooled and air-cooled depending on the method of the cooling medium.

In water-cooling, the water used for the heat exchange is continuously circulated by the circulation pump, so that the water temperature of the condensate water rises and the condensation efficiency decreases.

The air-cooled heat exchanger uses a cooling blower fan, and a blower fan is installed at the upper part of the condenser, and in this structure, approximately the circumferential range formed by the outer periphery of the blower fan due to the hydrodynamic characteristics of the air flow. Although a certain amount of blow air acts on the area of the condenser, the air flow is gradually weakened as the air flows outward, so that the condensation efficiency is lowered. Specifically, as shown in FIG. 1, when the blower fan 200 is installed on the condenser 100, the perimeter of the blower fan 200 is generally formed rather than the area W of the condenser. The arbitrary area D of the circumferential shape becomes small, in which the upper portion of the condenser corresponding to the circumferential area D of the blower 200 is formed by the suction force of the blower fan 200. Although the flow of air is relatively constant, the flow of air is lower in the lower part, and in the outer space S (S '), the flow rate of air is further reduced, especially in the space S' than in the space S. In), heat exchange is performed only in a part of the condenser due to the nonuniform air flow due to the hydrodynamic characteristic that the air flow is significantly reduced. This air flow fluctuation is related to the fact that the cooling air moving inside the heat exchanger is subjected to the resistance of the cooling fins or the heat exchanger pipe, and the air flow rate decreases, resulting in less heat transfer area, resulting in lower heat exchange efficiency. It is becoming. For this reason, it is considered that the heat exchanger of the air conditioner using pure air cooling is impossible, and in the case of adopting air cooling, as an auxiliary heat exchanger, condensed water naturally generated during the heat exchange process is sprayed by an injection pump or ultrasonic wave to mix air cooling and water cooling. Heat exchange type structures are known.

As described above, the heat exchange method using a mixture method using scattering particles of air and water is a pure water-cooled heat exchanger, that is, a conventional water-cooled air conditioner, which is repeatedly circulated in the water used for heat exchange, and condensate efficiency is increased by increasing the water temperature. Although it may fall off, it can be expected to improve the condensation efficiency by discharging it after using it for heat exchange using naturally occurring condensate, and it can be used conveniently by automatically treating the condensate. It is not intended, but is selected as a means for easily treating condensate in the apparatus, and the essential performance of heat exchange is made possible by air cooling, so that structural problems attributable to the hydrodynamic properties described above are always inherent.

The present invention distributes the heat exchanger to the left and right in the air conditioner main body to enable regionally divided heat exchange, and installs a blower fan for local heat exchange in the distributed heat exchanger so as to correspond to each of the distributed heat exchangers. To make the heat exchange evenly.

1 is a view showing an air flow state in a conventional condenser

Figure 2 is a schematic diagram of a heating and cooling system to which the present invention is applied

3 is a system schematic diagram of the present invention

4 is an exploded stereoscopic view of the present invention

5 is a schematic front view of the present invention

6 is a system schematic diagram of another embodiment of the present invention.

7 is a cross-sectional view of the present invention blower

The present invention for achieving the above object is that the first and second heat exchangers of the compressor and the discharge pipe via the four-way valve selectively performs the role of the condenser and the evaporator, the cooling and heating is implemented, the first, second The condensate generated from the two heat exchangers is collected in a water tank and used for heat exchange, and in forming an outdoor unit integrated air conditioner having a blower fan installed on the left and right sides of the first heat exchanger, the first heat exchanger is separated into at least two heat exchangers, Each of the two heat exchangers is separately separated into two heat exchangers at an appropriate distance so as to face each of the left and right sides, and a blower is individually provided for each of the heat exchangers separated from the left and right sides. It is characterized by being installed.

Such an arrangement structure of the present invention means that the heat exchanger is separated into at least four by up, down, left and right, and compared to the conventional integrated heat exchanger having the same cooling and heating condition, the heat exchanger is separated and the air used for heat exchange is smooth. In addition, since the blowers for each heat exchanger separated in this way are installed for one heat exchanger, heat exchange efficiency per unit area is improved.

Although a blower can use what has a general radial structure of a blower blade, it is more preferable to provide a sirocco fan. The sirocco fan is installed corresponding to each heat exchanger to be separated. That is, if four separate heat exchangers are configured, four sirocco fans are also configured. Such a sirocco fan includes at least two sirocco fans placed vertically in either direction in order to reduce the installation space while efficiently using the internal space of the air conditioner, that is, to reduce the area occupied by the sirocco fan and the exhaust blower tube. It can be installed in series inside the case of the two heat exchangers so that the air used for heat exchange can be discharged through one exhaust blower.

The present invention is provided with a means for self-treating condensate naturally occurring in the process of operating the air conditioner, which is provided with a condensate pump, the condensate is supplied to the condensed water tank, as in the conventional system The pipe may be installed from the water tank to the heat exchanger. In addition, depending on the intended structure may be adopted to spray the collected condensed water by ultrasonic.

The heat exchanger of the present invention basically adopts an air-cooled heat exchanger in which a blower fan directly performs heat exchange of the heat exchanger, and in addition to this, an air-cooled heat exchanger including a water-cooled heat exchanger using condensate can be provided. It means. In addition, since the first heat exchanger is separated by at least two heat exchangers in the space separated by the diaphragm, one side may be an air-cooled heat exchanger if the condensate injection is made to the heat exchanger installed separately in any one space. The other side has a heat exchanger that combines air-cooled and water-cooled to minimize the area where the device is corroded by the condensate sprayed.

In more detail and briefly described above, the first heat exchanger is separated into an upper heat exchanger and a lower heat exchanger in a separated space, and the upper heat exchanger and the lower heat exchanger are also separated into respective left and right side heat exchangers. A spray nozzle in which the condensed water generated in the second heat exchanger is injected is placed in the space between the upper left heat exchanger and the upper right heat exchanger so that the upper heat exchanger is exchanged with water and air cooling, and the lower heat exchanger is exchanged with air. will be.

An embodiment in which the present invention described above is embodied will be described with reference to the accompanying drawings.

Figure 2 shows a schematic diagram of a conventional air-conditioning apparatus to which the present invention is applied. As shown in this figure, the air conditioning system is composed of a compressor (1), a four-way valve (2), a first heat exchanger (3), an expansion valve (4), and a second heat exchanger (5). The discharge pipe 6 and the suction pipe 7 of the compressor 1 are connected to the four-way valve 2, one port of the four-way valve 2 is connected to the first heat exchanger 3, and the other port. Is connected to the second heat exchanger 5.

When the air conditioner is in the cooling mode, the compressor (1) → discharge pipe (6) → four-way valve (2) → first heat exchanger (3) → expansion valve (4) → second heat exchanger (5) → four-way valve (2) → The suction pipe (7) operates in a circulating cycle leading to the compressor (1) .In the heating mode, the open / close flow path of the four-way valve (2) is changed so that the compressor (1) → the discharge pipe (6) → the four-way valve (2) → It operates in a reverse circulation cycle from the second heat exchanger (5) to the expansion valve (4) to the first heat exchanger (3) to the four-way valve (2) to the suction pipe (7) to the compressor (1).

Here, the first heat exchanger (3) has the following configuration as intended by the present invention.

3 shows an embodiment of the first heat exchanger 3 according to the present invention.

As referred to in this figure, the first heat exchanger 3 is first divided into an upper heat exchanger 30 and a lower heat exchanger 31.

The first heat exchanger 3 is separated into the upper heat exchanger 30 and the lower heat exchanger 31 for the purpose of separating the integral heat exchanger, and these heat exchangers are connected to each other to form one circulation cycle.

The upper heat exchanger 30 is separated into an upper left heat exchanger 30a and an upper right heat exchanger 30b at a predetermined distance.

The lower heat exchanger 31 is separated into a lower left heat exchanger 31a and a lower right heat exchanger 31b at a predetermined distance.

Blowers 8 and 9 are provided outside the first heat exchanger 3, respectively.

Each of the upper left heat exchanger 30a, the upper right heat exchanger 30b, the lower left heat exchanger 31a, the lower right heat exchanger 31b, and the second heat exchange, which constitute the upper heat exchanger 30, respectively. The condensate receivers 10, 11, 10a, 11b, and 12 are each formed of the condensate receivers 10, 11, 10a, 11b, and 12, respectively. 13 is connected to the water tank 14.

The water tank 14 may be provided with the injection pump 15 to discharge the condensed water collected, the condensed water supply pipe 17 having the injection nozzle 16 is connected to the injection pump 15 is discharged. In addition, it is equipped with a known level sensor, for example, a sensor, a float switch, etc., when the water level is a certain level can open and close the solenoid valve of the drain pipe 13 or control the operation of the injection pump 15.

The injection nozzle 16 is located above the space between the upper left heat exchanger 30a and the upper right heat exchanger 30b to inject condensate into the upper heat exchanger 30.

The blowers 8 and 9 are each formed of two sirocco fans 8a, 8b, 9a and 9b in series.

That is, as shown in FIG. 4, the blower 8 has two sirocco fans 8a and 8b formed by one case 18, and the blower 9 also has two sirocco fans 9a in the same manner. (9b) is formed in series in one case (19).

The discharge pipes of the blowers 8 and 9 are connected to one discharge blower pipe 20 so that the air used for heat exchange is joined and discharged.

Figure 5 is a front view schematically showing the inside of the air conditioner to which the present invention is applied.

Referring to this figure, the compressor 1 is installed in the lower part of the case 20 constituting the main body of the air conditioner, and the lower left heat exchanger 31a and the lower right side of the lower heat exchanger 31 are disposed on the left and right sides of the compressor 1. The heat exchanger 31b is installed, and the upper left heat exchanger 30a of the upper heat exchanger 30 and the upper right heat exchanger 30b are provided at an appropriate distance therefrom.

The upper heat exchanger 30 and the lower heat exchanger 31 are located in different spaces separated by the diaphragm 21 and are connected to each other to form one circulation cycle.

In the present invention, the heating and cooling is performed by the reverse circulation of the refrigerant like a conventional air conditioner. In the cooling mode, the first heat exchanger 3 becomes a condenser, and the second heat exchanger 5 becomes an evaporator, and a heating mode. In this case, the second heat exchanger 5 becomes a condenser, and the first heat exchanger 3 becomes an evaporator. Therefore, the heating is a high temperature and high pressure refrigerant discharged from the compressor (1) is sent to the second heat exchanger (5) by the four-way valve (2) to condense and dissipate the high temperature heat, the heat is supplied to the room to be heated , The refrigerant passing through the expansion valve (4) is implemented by a circulation cycle that is evaporated to a low temperature low pressure state in the first heat exchanger (3) and then sucked into the compressor (1) through the four-way valve (2), The flow path of the four-way valve 2 is controlled to be changed so that the high temperature and high pressure refrigerant discharged from the compressor 1 is sent to the first heat exchanger 3 through the four-way valve 2 to condense and then expands the expansion valve 4. By evaporating the second heat exchanger (5) in the state of low temperature and low pressure through the cold air is discharged to the cooling air is supplied to the room is implemented.

The condensate naturally occurring in the upper heat exchanger 30 and the second heat exchanger 5 of the first heat exchanger 3 due to the temperature difference due to the heat exchange during the cooling and heating process is condensed water receiver 10, 11, 12. ) Is first collected in the tank and then joined to the water tank 14, and when the water level reaches a predetermined level or more, the water is discharged by the injection pump 15 and sprayed in the state of small water particles from the injection nozzle 16, and the blower (8) (9) It is used for heat exchange while passing through the inside of the first heat exchanger 3 with the suction force of and then discharged to the outside.

FIG. 6 shows another embodiment of the present invention, in which the respective blowers 8a ', 8b', 9a 'and 9b' are installed for the upper heat exchanger 30 and the lower heat exchanger 31. By installing the ultrasonic vibrator 50 in the water tank 14a without installing the spray nozzle of the above-described embodiment, the lower heat exchanger 31 exchanges heat by using both air-cooling and water-cooling by steam generated by ultrasonic waves, and the upper heat exchanger. Numeral 30 denotes heat exchange by air cooling.

The present invention divides the heat exchanger into upper and lower parts and left and right sides to separate the heat exchange areas, and the condensed water naturally generated in the heat exchanger is sprayed to a part of the divided heat exchanger while the heat exchange is made by each blower, and the device is formed by moisture. While minimizing corrosion, it is possible to solve the inconvenience of using condensed water separately and to improve the heat exchange effect by the combined action of air cooling and water cooling.

Claims (6)

The suction pipe and the discharge pipe of the compressor pass through the four-way valve, and the first heat exchanger and the second heat exchanger selectively perform the roles of the condenser and the evaporator, thereby realizing cooling and heating, and condensed water generated in the first and second heat exchangers in the tank. In collecting and using for heat exchange, and forming an outdoor unit integrated air conditioner having a blowing fan installed on the left and right sides of the first heat exchanger, The first heat exchanger is separated into at least two heat exchangers and disposed in a space separated by a diaphragm, and the separated two heat exchangers are separately separated from the two heat exchangers at an appropriate distance so as to face the left and right sides, respectively. Heat exchanger of the outdoor unit integrated air conditioner, characterized in that for each heat exchanger separated by a blower is installed separately. The heat exchanger of the outdoor unit integrated air conditioner according to claim 1, wherein the blower comprises at least two sirocco fans placed in a vertical direction in one direction and is installed in series in one case. According to claim 2, wherein the first heat exchanger (3) is separated into the upper heat exchanger 30 and the lower heat exchanger 31 in the separated space, the upper heat exchanger 30 is the upper left heat exchanger ( 30a) and the upper right heat exchanger 30b, and the lower heat exchanger 31 is separated into a lower left heat exchanger 31a and a lower left heat exchanger 31b. . 4. The heat exchanger (30) according to claim 3, wherein the upper heat exchanger (30) and the lower heat exchanger (31) are arranged in different spaces separated by the diaphragm (22), and either heat exchanger includes cooling means by condensate. The heat exchanger is heat exchanged by air cooling, and the other heat exchanger is a heat exchanger of an outdoor unit integrated air conditioner, characterized in that the heat exchange is a combination of air cooling and water cooling. The heat exchanger of the outdoor unit integrated air conditioner according to claim 4, wherein the cooling means by the condensate ejects the condensate from the water tank in which the condensate is collected by the injection pump and the injection nozzle. The heat exchanger of the outdoor unit integrated air conditioner according to claim 4, wherein the cooling means by the condensate generates steam by an ultrasonic vibrator from the water tank in which the condensate is collected.