KR200324735Y1 - Evaporative air conditioner without outdoor unit using cooling pad and thermoelectric element - Google Patents

Abstract

The present invention uses a cooling pad to evaporate and evaporate water to cool the grill first by evaporation latent heat, and the second cooled air passes through the cooling plate of the thermoelectric element and the cooling pad and thermoelectric element used for cooling purposes. It relates to a vaporized air conditioner without an outdoor unit used.

In order to realize this, the present invention, there is a low water tank at the bottom, the water in the low water tank is delivered to the cooling pad by the water pump and the cooling pad absorbing the water is the flow of air is formed by the driving of the fan. At this time, the flow of air is formed in two ways, one of which passes through the cooling pad, the primary cooling is formed on the cooling grill on the side of the cooling pad, and the other is the second cooling of the first cooled air is introduced into the room.

Accordingly, the present invention is characterized in that the outdoor pad and the cooling device without the outdoor unit using the cooling pad and the thermoelectric element using the temperature difference of the delta T (ΔT) of the cooling pad and the thermoelectric element do not require the outdoor unit and the refrigerant gas. It provides a vaporized air conditioner without an outdoor unit using a cooling pad and a thermoelectric element.

Description

Evaporative air conditioner without outdoor unit using cooling pad and thermoelectric element

end. Detailed description of the invention

(1) The technical field belonging to the invention and the prior art in that field

The present invention uses a cooling pad and a moisture absorption pad in the vaporization cooling, by using the temperature difference of the delta value of the thermoelectric element in the primary cooling air maximizing the cooling efficiency of the vaporization cooling of the cooling pad using the cooling pad and the thermoelectric element The present invention relates to a vaporized air conditioner without an outdoor unit using a cooling pad and a thermoelectric element capable of cooling an interior.

Conventionally and now, cooling pads and hygroscopic pads are used for evaporative cooling, and these evaporative cooling are used for barns, open houses, large workshops, warehouses, gymnasiums, etc. Although a cold fan has been recently developed, there is a problem in that the effect of the cold wind is minimized when the humidity is high.

In addition, the vaporization cooling is greatly affected by the external environment because the cooling pad and the moisture absorption pad in the micro-particles into the room into the room. In other words, when there is a lot of external humidity, vaporization cooling is substantially difficult.

In addition, the existing air conditioner uses a freon gas that pollutes the global environment as a refrigerant, and there is a problem of causing power disturbance due to the use of many air conditioners in the hot summer due to a lot of power consumption of the compressor.

In addition, the evaporative cooling fan using the cooling pad and the moisture absorption pad is installed upright to one side or multiple sides, and a constant reservoir is formed at the bottom to be cooled by the blower. Therefore, the water in the reservoir is wetted by the cooling pad and the moisture absorption pad, which is vaporized and evaporated to the bottom, and the remaining water is collected again into the reservoir. As this process is repeated, the pure water of the reservoir is evaporated, and the remaining water is concentrated in various minerals, and the bacteria in the water and the bacteria in the air are multiplied to become a hotbed of bacteria causing fatal damage to the human body.

Therefore, the present invention sets up the temperature of the reservoir water by installing a thermostat in the reservoir to drain the constant temperature and water of the existing reservoir, and replenishes the new inflow, thereby suppressing the hotbed of bacteria in the reservoir and increasing the efficiency of the evaporative cold wind. , The humid air generated from the cooling pad and the moisture absorption pad is discharged outside to maximize vaporization cooling by using only the air cooled by vaporization and cooling the primary air by using the temperature difference of the delta T (ΔT) value of the thermoelectric element. It is focused on how to cool.

The present invention is designed to solve the problem of vaporization cooling using a conventional cooling pad and a moisture absorption pad as described above and to maximize the efficiency of the vaporization cooling, the present invention is according to the temperature of the amount of water collected and evaporated remaining in the device When the temperature of the reservoir water rises, it opens the valve of the outlet to discharge the water of the reservoir, and supplements the new inflow water through the inlet as much as the amount of water discharged, and maintains the temperature of the reservoir water at about 20 degrees Celsius at all times. Equipped with a device that can supply electrolytic water, sterilize various germs in the reservoir and purify the water in the reservoir. In addition, to maximize vaporization cooling, cooling pads and moisture absorption pads are multiplied upright, and an aluminum plate is attached to the upright surface, and a cooling grill is installed between the aluminum plate and the aluminum plate to maximize vaporization cooling. The air cooled through the cooling plate is introduced into the room to maintain a comfortable temperature of the room and to eliminate the refrigerant gas and excessive electricity consumption of the air conditioner.

In order to achieve the above object, the present invention should be equipped with a thermostat that maintains the temperature of the water in the reservoir, and installs a manufacturing apparatus for sterilizing various bacteria in the reservoir and purifying the water in the reservoir, and during vaporization cooling An aluminum plate is attached to the upright surfaces of the cooling pad and the moisture absorption pad, and a cooling grill is installed between the aluminum to provide a means to maximize the effect of vaporization cooling.

In addition, the humid air passing through the cooling pad and the moisture absorption pad by installing the thermoelectric element on the upper side is discharged out through the heat sink of the thermoelectric element, and the vaporized air is cooled by the temperature difference of the delta T of the thermoelectric element. The cooler air has been provided to provide a vaporization air conditioner without an outdoor unit using a cooling pad and a thermoelectric element to realize cooling that is sent to the room.

1 is an overall configuration diagram of a vaporized air conditioner without an outdoor unit using a cooling pad and a thermoelectric element according to the present invention.

2 is an air flow chart of vaporization cooling according to the present invention.

3 is a configuration diagram of the primary vaporization cooling and the secondary thermoelectric element cooling related to the present invention

4 is a block diagram of the air flow of humidification heat according to the present invention

In order to realize this, the present invention installs water circulation devices such as a water tank, a cooling pad, and a moisture absorption pad at the side and the bottom, and a primary blower is installed at the upper side of the cooling pad and the moisture absorption pad. Cooling pads and moisture absorption pads are installed vertically to discharge, and an aluminum plate is installed on the cooling pad and the moisture absorption pad sides, and a cooling grill is installed between the aluminum plates. The air blown upward by the primary blower passes through the heat sink and the cooling plate of the thermoelectric element, respectively, and is discharged out of the device.

Here, the heat dissipation and cooling device of the heat sink and cooling plate of the thermoelectric element of the device should be installed a separate fan to maximize the efficiency of the thermoelectric element, on one side of the device to produce ozone water, oxidized electrolytic water, reduced electrolytic water, etc. In order to deliver the sterilization water production apparatus, one end of the connection pipe is coupled to the sterilization water production apparatus so that the other end is positioned in the reservoir in the state submerged in water to deliver the generated sterilization water. In addition, the sterilizing water stirrer is attached to the end of the connecting pipe to mix the sterilizing water and the water of the reservoir, and the sterilizing water stirrer can be equipped with a small fan or vibrator.

In addition, due to the pumping operation of the submersible pump, the water in the reservoir is evenly wetted by the water supply pipe to the cooling pad and the moisture absorption pad and flows downward.

At this time, when the primary blower and the secondary blower fan are operated, sound pressure is generated. As a result, air outside the appliance is drawn into the cooling grill through the suction network and moved to the cooling pad, the absorption pad and the cooling plate.

At this time, when a part of the intake air passes through the cooling pad and the moisture absorption pad, the water of the cooling pad and the moisture absorption pad is vaporized and evaporated so that the cold humidified air due to latent heat of evaporation passes through the heat sink and lowers the temperature of the heat sink of the thermoelectric element. Therefore, the temperature of the cooling plate of the thermoelectric element is further lowered (e.g., the characteristic of the product with a temperature difference of delta T of 70 degrees is that the temperature of the heat dissipation part is 40 degrees Celsius, and the temperature of the cooling surface becomes minus 30 degrees). Inhaled air flows to the cooling pad, the moisture absorption pad, and the cooling plate of the thermoelectric element.

Therefore, when the air sucked into the cooling pad and the moisture absorption pad passes, the temperature of the cooling grill starts to fall below the outside temperature by vaporization cooling. (Example: 40 ° C, 40% RH air drops 30 °)

At this time, the external air passing through the cooling grill is cooled by the cooling grill, and part of the cooling pad and the moisture absorption pad are moved to the cooling plate of the thermoelectric element, and the external air cooled by the cooling grill is removed from the cooling plate of the thermoelectric element. It is cooled and discharged to the room.

In particular, the amount of water vaporized and evaporated due to the continuous recirculation of the reservoir is repeatedly supplied with fresh water by opening and closing the replenishment water supply valve by buoyancy of the water level regulator.When the temperature of the reservoir is raised, pure water is evaporated, so that the water in the reservoir is increased. The silver mineral is concentrated and bacteria in water and bacteria in the air are multiplied. The sterilizing water production apparatus is installed in the reservoir, and the sterilizing water production apparatus is automatically adjusted to an arbitrary setting value to sterilize various germs through the stirring of the water in the reservoir.

In addition, by installing a thermostat in the reservoir, when the water temperature of the reservoir rises, it opens the valve of the outlet and discharges the water of the reservoir into the pump out of the device, and the insufficient water is replenished through the inlet.

The present invention configured as described above uses a cooling pad and a moisture absorption pad to maximize the efficiency of vaporization cooling. The cooling pad and the moisture absorption pad are multiplied upright, and an aluminum plate is attached to the upright surface, and a cooling grill is installed between the aluminum plate and the aluminum plate. By maximizing the efficiency of the conventional vaporization cooling, it was possible to sterilize and purify bacteria and various bacteria in the water of the reservoir, and to replace the water in the reservoir according to the temperature of the reservoir, the present design cooling pad And by cooling the vaporized cooled air in the cooling plate of the thermoelectric element by using a moisture absorption pad, which results in a clean cooling and a comfortable environment. Since the compressor is not used, the power consumption is only 20% compared to a conventional air conditioner. Since it does not use gas, it has the special advantage that it is excellent in preventing environmental pollution. All.

Claims (6)

Cooling pad and thermoelectric element, which absorbs water from the cooling tank and the absorption pad and vaporizes the cooling by the blower, to multiply the cooling pad and the absorption pad in an upright position in order to maximize the efficiency of vaporization cooling. Air-conditioner without outdoor unit. The cooling pad and the thermoelectric element of claim 1, wherein an aluminum plate is attached to the cooling pad and the moisture absorption pad upright surface, and a cooling grill is installed between the aluminum plate and the aluminum plate, thereby maximizing the efficiency of conventional vaporization cooling. Air-conditioner without outdoor unit. According to claim 1 or 2, characterized in that the thermostat is installed to increase the temperature of the reservoir water is opened, the valve of the outlet opening to discharge the water of the reservoir to keep the water temperature of the reservoir constant according to the water of the inlet Evaporative air conditioner without outdoor unit using cooling pad and thermoelectric element. The cooling pad and the thermoelectric device of claim 1, wherein the air sucked from the outside of the device passes through the cooling grill and cools the vaporized air at the cooling plate of the thermoelectric device. Air-conditioner without outdoor unit. The cooling pad and the thermoelectric element according to claim 1 or 2 or 3 or 4, characterized in that the anion device and the functional device are useful for indoor cooling of the vaporized cooled air in the cooling plate of the thermoelectric element. Air-conditioner without outdoor unit. The vaporized air conditioner without an outdoor unit using a cooling pad and a thermoelectric element according to claim 1 or 2 or 3 or 4 or 5, characterized in that the function of the compressor and the function of not using the air conditioner refrigerant gas.