KR19990046315A - Cooling heat reserving type air conditioner - Google Patents

Abstract

The present invention relates to a cold storage air conditioner, which uses a late night electric power with a relatively low electric charge and stores the cold heat in the cold storage material, and then uses only the latent heat of the cold storage material without cooling the compressor when the cooling is performed during the day. It is an object of the present invention to provide a cold storage air conditioner that can perform cooling at a lower price. In order to achieve the above object, the present invention provides a body case formed with a predetermined storage space; A cold storage tank located below the main body case and storing a liquid cold storage material therein; An evaporation coil whose middle part is embedded in the cold storage material and whose ends extend outward from the main body case; A compressor connected to an end of the evaporation coil and forcibly circulating a refrigerant into the evaporation coil to cool the cold storage material to a predetermined temperature; A circulation pipe connected to the cold storage tank to circulate the cooled liquid heat storage material; A cooling radiator formed in the middle of the circulation tube to radiate the cold air while the cold storage material flows inside the circulation tube; And a fan coil installed in the middle of the circulation tube so as to force circulation of the cold storage material inside the circulation tube and to blow the cool air around the air conditioner to the upper front of the main body case.

Description

Cold Storage Air Conditioner {COOLING HEAT RESERVING TYPE AIR CONDITIONER}

The present invention relates to a cold storage air conditioner, and more particularly, to provide a cold storage tank containing a cold storage material in the lower side of the main body case and to install the evaporation coil inside the cold storage tank to operate the compressor in the midnight low power consumption rate The present invention relates to a cold storage air conditioner capable of cooling by using latent heat stored in a cold storage material when the cooling heat is stored in the cold storage material.

In general, the air conditioner (Air Conditioner) requires a cycle of evaporation to recover the gaseous refrigerant and back to the liquid. A mechanism for circulating and returning the refrigerant evaporated to the original liquid is generally referred to as a refrigeration cycle. There are two types of such methods, a compression type and an absorption type. The compression type is a method of mechanically using a compressor (compressor), and the absorption type is a method of chemically liquefying the refrigerant. The refrigeration cycle of the above air conditioner uses a compressed refrigerator. The compressor is integrally formed with a motor and a compression unit, which are enclosed in a hermetically sealed container and completely sealed. They are connected by welding so as not to leak, and a refrigerant (freon 22) is enclosed therein. This gaseous refrigerant is compressed to high temperature and high pressure by a compressor to liquefy condensation. The liquefied refrigerant flows through the capillary and flows into the evaporator and at the same time takes heat away from the evaporator and evaporates. The evaporated refrigerant becomes a gas and is again sucked into the compressor 140, and this circulation is repeatedly performed. A blower is installed at a position close to the evaporator, and the blower passes hot air in the room to convert it into cold air and blows it back into the room. By repeating this, the room is cooled.

1 is a configuration diagram schematically showing such a conventional air conditioner. As shown in FIG. 1, the conventional air conditioner 10 is provided with an evaporator 14 that vaporizes a refrigerant through a capillary tube to extract heat from the inside of the main body case 12, and approaches the evaporator 14. In the position, the blower 16 which forcibly blows cold air around the evaporator 14 to the room is provided. Outside the main body case 12, a condenser 18 for liquefying the vaporized refrigerant from the evaporator 14 to the compressor 20 is provided.

As such, when the conventional air conditioner is configured to be powered and the compressor 20 is operated, the refrigerant is forcedly moved through the evaporator 14 and the condenser 18 by the compression force of the compressor 20 in the direction of the arrow, thereby evaporating the refrigerant. By repeatedly passing through the condensation is converted into a gas and a liquid at this time by forcibly cooling the air around the evaporator 14 by using a blower 16 to cool the room.

However, the conventional air conditioner is mainly configured to be used during the day rather than the middle of the night, there is a limit that can not utilize the cheap midnight power because there is no cold heat storage means for storing the cold heat separately. In other words, the conventional air conditioner is a configuration that can only be cooled only during the day when the power bill is expensive, there is a problem that the power cost is high in performing the cooling, especially during the summer season when the air conditioner is running into a power shortage There is a problem.

The present invention has been made in view of the above-described problems, by providing a cold storage tank containing a cold storage material in the lower side of the main body case and installing the evaporation coil inside the cold storage tank to operate the compressor in the night with a relatively low power bill cold When the cold heat is stored in the heat storage material and then cooled during the day, the air is cooled by using only the latent heat of the cold heat storage material 122 without operating the compressor, thereby providing a cold storage air conditioner that can be cooled at a lower price. There is a purpose.

In order to achieve the above object, the present invention provides a body case formed with a predetermined storage space; A cold storage tank located below the main body case and having a liquid cold storage material stored therein; An evaporation coil whose middle part is embedded in the cold storage material and whose ends extend outside the main body case; A compressor connected to an end of the evaporation coil and forcibly circulating a refrigerant into the evaporation coil to cool the cold storage material to a predetermined temperature; A circulation tube connected to the cold storage tank to circulate the cooled liquid heat storage material; A cooling radiator formed in the middle of the circulation pipe so that the cold storage material can radiate cold air while flowing inside the circulation pipe; The fan coil is installed in the middle of the circulation tube so as to force circulation of the cold heat accumulator inside the circulation tube and to blow cool air around the air conditioner toward the upper front of the main body case.

1 is a schematic view showing a conventional air conditioner.

Figure 2 is a block diagram showing a cold storage air conditioner according to a preferred embodiment of the present invention.

* Description of the main parts of the drawings *

100: Air conditioner 110: Body case

112: intake 114: air vent

120: cold storage tank 130: evaporation coil

140: compressor 150: circulation tube

160: cooling heat fin 170: fan coil

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

Figure 2 is a block diagram showing a cold storage air conditioner according to a preferred embodiment of the present invention. As shown in FIG. 2, the air conditioner 100 of the present invention includes a main body case 110 in which a predetermined storage space is formed; A cold storage tank 120 positioned below the main body case 110 and storing a liquid cold storage material 122 therein; An evaporation coil 130 having a middle portion embedded in the cold storage material 122 and both ends extending out of the main body case 110; A compressor 140 connected to an end of the evaporation coil 130 and forcibly circulating a refrigerant into the evaporation coil 130 to cool the cold storage material 122 to a predetermined temperature; A circulation pipe 150 connected to the cold storage tank 120 so that the cooled liquid cold storage material 122 can be circulated; A cooling radiator (160) formed in the middle of the circulation pipe (150) so that the cold storage material (122) flows through the circulation pipe (150) to radiate cold air; The circulation pipe 150 may be configured to force circulation of the cold heat storage material 122 inside the circulation pipe 150 and to blow cool air around the air conditioner 160 to the outside front of the main body case 110. The fan coil 170 is installed in the middle.

Referring to the above-described components of the present invention in more detail, first, the main body case 110 has a predetermined storage space formed therein, and an intake port through which the indoor air flows into the lower side of the main body case 110. 112 is formed, and the air vent 114 for cooling cold air is formed above the main body case 110.

The cold storage tank 120 is located below the main body case 110, and the liquid cold storage material 122 is stored in the cold storage tank 120. The cold storage material 122 is a phase-converting material that continuously absorbs the surrounding heat until it reaches a predetermined temperature, stops heat absorption when the temperature reaches a predetermined temperature, and maintains the heat absorbed for a predetermined time for a predetermined time. .

The middle of the evaporation coil 130 is embedded in the cold heat storage material 122, and both ends are formed to extend outside the main body case (110). Here, the evaporation coil 130 serves as an evaporation role, and serves to allow the refrigerant to evaporate due to capillary phenomenon when the refrigerant is forcibly transported by the compression force of the compressor 140.

Compressor 140 is connected to the end of the evaporation coil 130, forcibly circulating the refrigerant into the evaporation coil 130 to cool the cold storage material 122 to a predetermined temperature, for example -5 ℃ Play a role.

The circulation pipe 150 is connected to the cold storage tank 120 so that the cooled liquid heat storage material 122 can be circulated.

The cooling radiator 160 is formed in the middle of the circulation pipe 150 so that the cold storage material 122 may radiate cold air while flowing inside the circulation pipe 150. It is desirable to have a serpentine shape to make wide contact.

The fan coil 170 forcibly circulates the cold heat storage material 122 inside the circulation pipe 150 and simultaneously blows cool air around the heat radiator 160 to the outside of the main body case 110. It is installed in the middle of the circulation pipe (150).

Referring to the operation of the cold storage material built-in air conditioner according to a preferred embodiment of the present invention configured as described above are as follows.

As shown in FIG. 2, the present invention operates the compressor 140 of the air conditioner 100 in the late-night time zone so as to utilize the late-night power, and stores the latent heat in the cold storage tank 120, and the latent heat stored during the day. It is divided into actions to use.

That is, when the compressor 140 is operated at midnight, the refrigerant is forcedly circulated in the evaporation coil 130, and the refrigerant evaporates while flowing inside the evaporation coil 130. As the refrigerant flowing in the evaporation coil 130 is evaporated, the surroundings of the evaporation coil 130 are cooled, and thus the cold storage material 122 is cooled. The cold storage material 122 is continuously cooled to maintain -5 ° C. At the same time, the temperature of the cold storage material 122 is sensed by a temperature sensor not shown in the drawing, and the operation of the compressor 140 is automatically stopped. When the cold storage tank 120 keeps cooling heat in the state where it is to be cooled in the daytime, the cooling heat storage material 122 is circulated by operating only the fan coil 170 even without the compressor 140 being operated. Circulate within 150. That is, when the fan coil 170 is operated, the liquid cold storage material 122 in the cold storage tank 120 is forcedly circulated into the circulation pipe 150 in the direction of the arrow.

At this time, the cold storage material 122 takes heat from the surroundings while passing through the cooling radiator 160 to cool the air around the cooling radiator 160, and the cooled air is cooled by the fan of the fan coil 170. 110 is blown into the room through the air vent 114 formed on the upper side. The warmed air in the room is introduced into the main body case 110 again through the inlet 114 formed under the main body case 110, and the introduced air is converted into cold while passing through the air conditioner 160, and then the air vent 114. ) And the room is cooled accordingly. For reference, when comparing the electric power rate of the conventional home air conditioner which consumes electricity during the day and the home air conditioner of the present invention which stores power at night, for example, in the case of industrial power (as of the date of 1999.2.2) ㎾ The late night per hour is 29.20 won and weekly is 79.40 won. Therefore, assuming that 30 ㎾h is used per day, conventionally, 79.40 * 30 = 2982 won, and 29.20 * 30 = 876 won in the present invention. As such, the difference of 2106 won per day, it can be seen that there is a significant difference in the month (month) and year (year) calculated.

As described above, the present invention provides a cold storage tank containing a cold storage material in the lower side of the main body case, and installs an evaporation coil inside the cold storage tank to operate the compressor in the middle of the night to store the cold heat in the cold storage material and then to cool the air during the day. In this case, the latent heat of the cold storage material is used for cooling, which makes it possible to overcome the power shortage by maximizing the power of the late night, and also helps the national industrial development. There is an economic effect that can be greatly reduced.

Claims (2)

A main body case in which a predetermined storage space is formed; A cold storage tank located below the main body case and having a liquid cold storage material stored therein; An evaporation coil whose middle part is embedded in the cold storage material and whose ends extend outside the main body case; A compressor connected to an end of the evaporation coil and forcibly circulating a refrigerant into the evaporation coil to cool the cold storage material to a predetermined temperature; A circulation tube connected to the cold storage tank to circulate the cooled liquid heat storage material; A cooling radiator formed in the middle of the circulation pipe so that the cold storage material can radiate cold air while flowing inside the circulation pipe; And And a fan coil installed in the middle of the circulation pipe so as to force circulation of the cold storage material inside the circulation pipe and to blow cool air around the cooling heat sink toward the upper front of the main body case. The cold storage type air conditioner according to claim 1, wherein the cold storage material is a latent heat storage material of -5 ° C phase change material (-5 ° C PCM).