KR101299572B1 - Air conditioner energy saving device by condensation water - Google Patents

Abstract

The present invention recycles the heat energy of condensed water or condensed water generated during operation of the air conditioner to primarily heat or cool the outside air introduced into the air conditioner, and then flows the heat to the proper temperature in the room through the heat exchanger. It is to reduce the energy required to do so.
As a means for solving the above problems, the present invention allows the outside air is introduced into the air conditioner case through the outside air inlet to be purified by the filter, and the heat exchanger consisting of the cooling coil and the heating coil according to the room temperature In a conventional air conditioner which is adjusted to an appropriate temperature while passing through the air, and then blows into the room through a blower, an auxiliary heat exchanger consisting of a plate heat pipe is installed between the outside air inlet and the heat exchanger, and the collecting tank of the auxiliary heat exchanger. The hot and condensed water of the condensate or cooled condensate passes through the plate heat pipe, and the heat introduced into the air conditioner through the external air inlet passes through the subsidiary heat exchanger in the above state so that the primary heat exchange is performed. And the air is a heat exchanger consisting of a cooling coil and a heating coil. This becomes a secondary heat exchanger made by passing through the next one will be blown out into the room.

Description

Energy saving device of air conditioner using condensation and condensation water {AIR CONDITIONER ENERGY SAVING DEVICE BY CONDENSATION WATER}

The present invention relates to an energy saving device of an air conditioner, and in particular, by recycling the heat energy of condensed water or condensed water generated during operation of the air conditioner to heat or cool external air introduced into the air conditioner primarily, It is to save.

In general, when the air conditioner for both air conditioning and heating ventilates indoor air that is operated by cooling and heating in summer or winter, a large temperature difference occurs between the room temperature and the outside temperature. Since heating and cooling have to be carried out to reach the set temperature of the standard, there is a problem that it is not economical because the operation cost and energy consumption are increased.

As described above, the conventional air conditioner has an inefficient structure for simply ventilating the indoor air and the external air, and thus cannot recover the waste heat that is discarded to the outside.

As a means to solve this problem, Utility Model Registration No. 447885 has been provided.

That is, the present invention relates to an exhaust heat recovery apparatus of an air conditioner, and supplies an air exhausted from an air conditioner to an outdoor unit intake port, thereby increasing the outdoor unit condensation efficiency to recover the exhaust heat.

In other words, in order to blow indoor air in order to reduce indoor air pollution, air conditioning indoor air must be exhausted. The exhaust air is supplied to an inlet of an air-cooled outdoor unit or a cooling tower, thereby recovering exhaust heat by increasing the efficiency of the outdoor unit or cooling tower.

In the case of the device using the exhaust heat, the energy saving effect is not practically insufficient, and the high heat (about 55 ~ 60 ℃) of the condensate generated during the winter air conditioning process is not recovered, and waste heat treatment in the process of returning to the condensate tank In addition, the cold heat (about 13 ~ 17 ℃) of the condensation water generated during the summer air conditioning process is discharged to the outside as it is, the disadvantage that the heat source of condensed water or condensed water generated during the air conditioning process is not recycled. It was.

The present invention is to correct the various disadvantages of the conventional, by recycling the heat energy of the condensate or condensate generated during the operation of the air conditioner to the external air flowing into the air conditioner to be primarily heated or cooled and then introduced, through the heat exchanger It is to reduce the energy required to heat the outside air to the appropriate temperature in the room.

As a means for solving the above problems, the present invention allows the outside air is introduced into the air conditioner case through the outside air inlet to be purified by the filter, and the heat exchanger consisting of the cooling coil and the heating coil according to the room temperature In a conventional air conditioner which is adjusted to an appropriate temperature while passing through the air, and then blows into the room through a blower, an auxiliary heat exchanger consisting of a plate heat pipe is installed between the outside air inlet and the heat exchanger, and the collecting tank of the auxiliary heat exchanger. The hot and condensed water of the condensate or cooled condensate passes through the plate heat pipe, and the heat introduced into the air conditioner through the external air inlet passes through the subsidiary heat exchanger in the above state so that the primary heat exchange is performed. And the air is a heat exchanger consisting of a cooling coil and a heating coil. This becomes a secondary heat exchanger made by passing through the next one will be blown out into the room.

The present invention provides an auxiliary heat exchanger consisting of a plate heat pipe between an external air inlet of an air conditioner and a heat exchanger consisting of a cooling coil and a heating coil, and while passing the high temperature condensed water or cooled condensed water generated when the air conditioner is operated in the auxiliary heat exchanger. Heat and cold heat is transmitted to the plate heat pipe, and the air introduced into the air conditioner through the external inlet in the above state passes through the auxiliary heat exchanger to perform the first heat exchange, and the air is composed of a cooling coil and a heating coil. The secondary heat exchange is made while passing through the heat exchanger and then blown into the room, thereby reducing the energy required to adjust the outside air to an appropriate temperature in the room through the air conditioner.

1: Schematic configuration diagram of the device of the present invention
2: Main part perspective view of the apparatus of this invention
3: A state diagram seen from the other side of FIG. 2
4 is a side configuration diagram of FIG.
5 is a perspective view of an auxiliary heat exchanger used in the apparatus of the present invention
6: A state diagram of FIG. 5 as viewed from the other side
7 is a cross-sectional view of FIG.

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

1 is a schematic configuration diagram of an air conditioner 10 provided with an energy saving device to be provided in the present invention, and FIGS. 2 to 7 are views showing the device of the present invention in more detail. An auxiliary heat exchanger (30) is provided between the external air inlet (11) configured at 10) and the heat exchanger (20) composed of the cooling coil (40) and the heating coil (50), and the auxiliary heat exchanger (30) is condensed. By connecting the condensed water collection tank 21 and the heating coil 50 through the water supply pipe 41 and the condensate water supply pipe 51, the external air flowing into the air conditioner 10 through the external air inlet 11 is 1. After the heat exchange to the secondary to be introduced into the heat exchanger 20 installed in the air conditioner 10 to save energy.

The configuration of these will be described in more detail.

A condensed water collection tank 21 is installed at a lower end of the heat exchanger 20 including a cooling coil 40 provided with a refrigerant supply pipe 42 and a heating coil 50 provided with a steam pipe 42, and the steam pipe 52. The condensate water supply pipe 51 is connected to the steam trap bypass pipe 53 is connected to the lower end.

A condensed water supply pipe 41 is installed at the lower end of the condensed water collection tank 21, and a control box 43, a pump 44, and a check valve 45 are installed at the end of the condensed water supply pipe 41.

The condensed water supply pipe 51 and the condensed water supply pipe 41 are connected to the collection tank 31 constituting the auxiliary heat exchanger 30, respectively.

A case 32 is installed at an upper portion of the collecting tank 31, and plate heat pipes 33 having a thin plate shape at equal intervals are installed at equal intervals between the case 32, but the lower portion of the plate heat pipe 33 is collected. It is to be located in the tank 31, the discharge tank 34 is provided on one side of the collecting tank (31).

The plate heat pipe 33 is filled with a freon-based working fluid to enable rapid heat transfer.

Reference numeral 60 denotes a filter, 62 a blower, and 63 a discharge port.

According to the present invention configured as described above, when the air conditioner 10 is operated, air is introduced into the air conditioner 10 through the outside air inlet 11, and the air introduced therein passes through the filter 60 and the heat exchanger 20. The temperature is adjusted to an appropriate temperature while being purified, and the air is blown into the room through the air blower 62 and the discharge port 63.

However, the air conditioner 10 to be provided in the present invention primarily exchanges air introduced into the air through the external air inlet 11 through the auxiliary heat exchanger 30 to approach the room temperature, and then into the air conditioner 10. By letting it in, it saves energy.

That is, in winter, high temperature steam is supplied to the heating coil 50 constituting the heat exchanger 20, and steam supplied to the heating coil 50 is partially condensed into water through heat exchange. The temperature is maintained at a high temperature of approximately 55 ~ 60 ℃.

The high temperature condensate is supplied to the collection tank 31 of the auxiliary heat exchanger 30 through the condensate supply pipe 51 and the steam trap bypass pipe 53.

The condensed water introduced into the collecting tank 31 quickly transfers heat to the plate heat pipe 33 installed at equal intervals in the collecting tank 31, so that the entire plate heat pipe 33 is quickly filled with a freon-based working fluid filled therein. Heated.

When the outside cold air is introduced into the interior through the outside air inlet 11 in the above state, heat exchange is performed while passing between the plate heat pipes 33 of the auxiliary heat exchanger 30, and thus the cold air is primarily As the heat exchange is heated to close to the temperature of the room, at this time, the plate heat pipe 33 is formed in a plate shape to increase the contact area with the air to increase the heat exchange efficiency.

Since the warm air heated through the auxiliary heat exchanger 30 is supplied to the heating coil 50, it is possible to save energy due to air heating.

The condensed water heat exchanged in the collecting tank 31 is discharged to the outside through the discharge pipe 34, and is recovered to the condensate tank.

In the summer, the refrigerant is supplied to the cooling coil 40 through the refrigerant supply pipe 42, and condensation water is generated in the process of heat exchange while hot air passes through the cooling coil 40. The condensate water collecting tank 21 is collected.

At this time, the temperature of the condensed water is maintained about 13 ~ 17 ℃, the condensed water collected in the condensed water collection tank 21 is the collection tank 31 through the condensed water supply pipe 41 by the operation of the pump 44 Flows into.

The cold condensed water introduced into the collecting tank 31 cools the plate heat pipe 33 located at the bottom of the collecting tank 31, and is introduced into the air conditioner 10 through the outside air inlet 11 in the above state. Since the hot air passes through the cooled plate heat pipe 33 and is cooled by heat exchange, the cooled air is supplied to the cooling coil 40 to be secondarily cooled, thereby saving energy due to cooling.

The condensed water heat exchanged through the plate heat pipe 33 in the collecting tank 31 is discharged to the outside through the discharge pipe 34.

The operation of the pump 44 is performed by the control box 43 which detects the signal of the water level sensor (not shown) and the water level sensor installed in the condensate water collecting tank 21.

In addition, in the winter, the check valve 45 configured in the condensed water supply pipe 41 is closed to prevent freezing of condensate by preventing backflow.

As described above, the present invention provides a plate heat pipe installed in the auxiliary heat exchanger 30 by using the cooled condensed water and the heated condensed water generated in the cooling coil 40 and the heating coil 50 in the air conditioning process. 33) to cool or heat the external air flowing into the air conditioner to be primarily heated or cooled, and then to heat or cool the external air to the room temperature by allowing the secondary heat to be heated by the heat exchanger 20. Significant energy savings can be achieved.

(10)-air conditioner (11)-outdoor inlet
(20)-heat exchanger (21)-condensate sump
(30)-Secondary Heat Exchanger (31)-Catching Tank
(32)-Case (33)-Plate Heat Pipe
(34)-Drain tube (40)-Cooling coil
(41)-Condensed water supply pipe (42)-Refrigerant supply pipe
(43)-Control Box (44)-Pump
(45)-check valve (50)-heating coil
(51)-Condensed Water Supply Pipe (52)-Steam Pipe
(53)-Steam trap bypass piping

Claims (2)

As the outside air flows into the air conditioner 10 through the outside air inlet 11, the primary heat exchange is performed in the auxiliary heat exchanger 30 in which the collecting tank 31 is formed, and then purged by the filter 60. The condensed water supply pipe 41 and the condensed water supply pipe 51 are installed in the collecting tank 31, but the condensed water supply pipe 41 is connected to one side of the condensed water collection tank 21, and the condensed water supply pipe 51 is a heating coil ( 50 is connected to the lower end of the steam pipe 52, and the air purified by the filter 60 is again subjected to secondary heat exchange while passing through a heat exchanger 20 consisting of a cooling coil 40 and a heating coil 50 again. And, in configuring the air conditioner for the heat exchanged air is blown into the room through the outlet (63), the plate heat pipe (33) filled with a freon-based working fluid on the top of the collecting tank (31), The lower end of the plate heat pipe 33 is positioned in the collecting tank 31, so that the condensed water The plate heat pipe 33 is cooled or heated by the condensed water and the condensed water introduced through the pipe 41 and the condensed water supply pipe 51, and the external air passing through the plate heat pipe 33 is cooled or heated. Energy saving device of the air conditioner using condensation, condensed water, characterized in that the heat exchange is configured to be made. delete

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