JP2003194370A - Air conditioning and humidity control on city water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To save energy and protect the environment by solving the disadvantage of an existing air conditioner that in the summer, heat is released to a hot atmosphere, and in the winter, heating draws heat from a cold atmosphere to dry up dry air, and by using blessings of nature or creating air conditioning and humidity control on city water of a year-round stable temperature. <P>SOLUTION: A condenser 4 of an outdoor unit of the existing air conditioner is covered in rustproof metal (water flow tank 5), to which a water pipe is connected. A pipe to a B side is mounted to emit incoming city water and lead it to a toilet, a bathroom, a washing machine and the like, and an air valve 6 is interposed therein to release and suction air (a). An air duct 14 is arranged from the outdoor unit 3 to a region under an indoor fan 13 of an indoor unit 1. In a region in the outdoor unit 3 of an inner ventilating duct 22 of the double duct, a spray nozzle valve 19 for injecting city water generates a spray and anions to control humidity. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention The present invention consists of the following two major pillars.

Throughout the year, cooling and heating of natural blessings and energy conservation and environmental protection by tap water that passes through the ground at a stable temperature not only dehumidifies in summer, but also causes discomfort such as static electricity due to the dry air in winter due to the jet of tap water The idea was to create a soft heating with the right temperature and humidity by fog and negative ions. The cause of the present invention was that it was like hell as hot air blew out of the outdoor unit of the air conditioner while walking in the city center when the temperature was 35 ° C or higher due to the heat island phenomenon in the summer. At that time, I thought that this heat could be used for heating by cooling the heat with water to make hot water and removing the heat from the water in winter. The present invention releases heat into the atmosphere in the hot summer, and it becomes hot because it releases heat, which makes the air conditioner work because it becomes hot, and it becomes a vicious cycle and energy consumption and environmental load. It takes heat from the air, it gets cold to take heat, and it gets cold to raise the temperature of the air conditioner, so it takes heat from the atmosphere and gets cold. The same 23 ℃
However, I thought about the purpose of lowering the heating temperature because the temperature felt at 20% humidity and the temperature felt at 50% humidity are different. After inventing the present invention, according to a prior application survey on the Internet, according to Patent Publication No. 9-196415, options for business use, air conditioners of old buildings, etc., water, fog, rainwater, etc. are stored in the condenser (radiator) of the outdoor unit. Therefore, there is an invention that efficiently cools the condenser by the heat of vaporization caused by the evaporation of water. However, in addition to wasting water, they often say that they do not work during rains such as the rainy season or during the winter months. In addition, as a similar technique, Japanese Patent Laid-Open No. 9-1592
There is 67. It is an invention that uses the water in the bath for heating and cooling by using a 24-hour bath, but this cannot be used for commercial purposes and the waste of energy that keeps the hot water in the bath for 24 hours. Although it is sterilized on top of it, it is not popular because of the resistance to accumulating water for a long time. Recently, more and more households are using the rest of the bath water for washing. This will explain the structure and usage of the present invention. The basis of the present invention is to cover the condenser of the outdoor unit of FIG. 1 with metal such as stainless steel that does not rust with water or air while attaching the radiator fin, and connect a pipe or hose from a water pipe to cover the metal ( The running water tank) is filled with tap water, and the tap water that has transferred heat by heat dissipation and heat absorption from the condenser is attached, and a drain pipe is attached and an air valve 6 for putting air in and out is installed at the end of the pipe to run the pipe under running water. Connect to the water inlet pipe of tank 5, and connect the pipe to water other than kitchen water (beverage) such as the electric water heater on the ▲ B ▼ side, toilet, bath, and washing machine. The reason for separating it from kitchen water (drinking water) is because of hygiene. Further, an air duct 14 having a double pipe from the outdoor unit to the outdoor unit is passed under the indoor fan, and a nozzle and an air filter for injecting tap water from the water pipe to the outdoor unit side of the ventilation duct 22 inside thereof are provided. Install. The reason why we did not install the jet nozzle in the outdoor unit is to prevent water droplets from mixing in the fog from the nozzle and causing water droplets to drop into the room. Pipe and pump for draining water from the running water tank 1 hour after the air conditioner is stopped
Attach 2 to the bottom of the tank and connect the pipe with the water from the water inlet pipe to the pipe that flows to side B. Draining water from the running water tank 5 is caused by the outside temperature that causes the temperature to rise in summer, the risk of freezing in winter, and the accumulation of water for a long time during spring, autumn, or going out. This is because of the hygiene caused by the decay of. Regarding the air valve, the air can flow in and out by the air switching valve 10 and the stopper ball 30 in FIG. 2, but when tap water enters, the stopper ball 30 floats up and the valve is closed so that water does not come out. To do. The temperature sensor 16 is attached to the refrigerant liquid pipe 15 in the running water tank 5 for several years, but there is water interruption. As a disadvantage of the present invention, when the air conditioner is used when water is cut off, there is a load on the device due to overheating in summer and frost from 0 ° C or less in winter. Therefore, the temperature sensor 16 or the outdoor air temperature sensor 17 of the outdoor unit may be used. Controls the output of the air conditioner. In addition, in order to prevent the temperature of the running water tank from rising in summer, the dehumidified water that has been dehumidified by cooling from the indoor unit is received by the drain tray 29 of FIG. The temperature of the running water tank 5 is prevented from rising by letting a part of the indoor cool air ▲ C ▼ flow from the outdoor fan 24 and the exhaust duct 21 outside the air duct 14. Even in winter, in order to prevent the temperature inside the running water tank 5 and the outdoor unit from lowering, part of the warm air ▲ H ▼ dirty in the room is applied to the running water tank 5 from the exhaust duct 21 outside the air duct 14. Prevents the temperature drop inside the outdoor unit 3. To explain the mechanism concretely, first, from the running water tank 5,
To drain tap water, first close the discharge switching valve 9 completely as shown in Fig. 4. Then, tap water flows from the check valve 8 to the ▲ B ▼ side pipe. Next, the switching valve 11 is closed, the air switching valve 10 is opened, and the discharge pump 12 is operated,
The tap water (W) in the running water tank 5 is discharged, merges with the water from the check valve 8 of the water inlet pipe, and flows into the B side pipe. Then, the water pressure in the running water tank is lowered, the stopper ball 30 of the air valve 6 is lowered, and the air (a) enters.
When the tap water (W) in the running water tank is exhausted, the air switching valve 10 is closed and the discharge pump 12 is stopped. After that, as shown in FIG. 5, tap water flows from the water inlet pipe through the check valve 8 and the switching valve 11, and tap water flows to the B side pipe. When the air conditioner is operated, the discharge switching valve 9 is opened only half as shown in FIG. 6, the tap water is put into the running water tank 5 and the air switching valve 10 is opened at the same time, the air ▲ a ▼ comes out from the air valve 6, and the running water flows. When the tank is filled with tap water, tap water enters the air valve 6, the stopper ball 30 floats, and the valve is closed to prevent water from flowing out. At the same time, the switching valve 11 is switched to change the flow from the running water tank and the discharge switching valve 9 is completely opened so that the tap water flows only to the running water tank 5. Summer As shown in Fig. 6, the heat in the room is absorbed by the evaporator 2, and the heat is absorbed by the refrigerant liquid pipe 1
5 is cooled by tap water in the condenser 4 of the outdoor unit,
It liquefies and returns to the outdoor unit. And the cold wind inside the room ▲
Exhaust duct 21 outside the air duct 14
From this, the dehumidified water that is blown to the running water tank 5 and cooled by the indoor unit 1 is flowed to the running water tank 5 by the drain hose 23, is evaporated together with the outdoor fan 24, and cools the running water tank 5 by the heat of vaporization. In addition, outside air is taken in from the ventilation duct 22 inside the air duct 14 through an air filter, but it is high temperature outside air, but due to the cold air ▲ C ▼ of the exhaust duct outside the double pipe, the inside ventilation duct 22 Since the heat is gradually exchanged inside the duct while flowing with the warm air ▲ H ▼, energy loss will be small even with ventilation. Also, even if the tap water is not used and the tap water remains, it will not exceed the exhaust heat.
Also in winter, instead of taking heat from the cold atmosphere as shown in FIG. 7, through the year, tap water passing through the ground at around 15 ° C. is passed through the running water tank 5 to take heat from the temperature of the tap water. While heating is blown from the indoor unit 1, part of the dirty warm air ▲ H ▼ is blown from the outside 21 of the air duct to the running water tank 5 of the outdoor unit 3 to raise the temperature inside the outdoor unit and freeze it. Prevent temperature drop. In addition, tap water passes through the clean water filter 18 and is fogged by the fog nozzle valve 19. Incorporating the air conditioner, the humidity is adjusted by adjusting the valve to adjust the indoor humidity during the winter, which cannot be achieved with existing air conditioners. You can live a comfortable life by saving energy, protecting the environment and eliminating the discomfort caused by static electricity due to dryness. In addition, the present invention can be used by simply adding a running water tank, a water pipe, an air duct, a fog nozzle valve, etc. to the equipment without changing the existing air conditioner. Then, from the ventilation duct 22 inside the air duct 14, the air filter 2
The low temperature outside air is taken in through 0, but due to the warm air ▲ H ▼ of the exhaust duct 21 outside the double pipe, between the cold air ▲ C ▼ with low temperature mist and negative ions passing through the inner ventilation duct 22. Heat transfer due to heat exchange gradually occurs, and energy loss due to ventilation can be reduced. Throughout the year, tap water that passes through the ground at a stable temperature is used, and even in cold regions, as shown in FIG. 8, a water pipe is directly passed through an air conditioner covered with a semi-underground heat insulating cover 31 and heat insulating material 32. From the above, tap water is taken into the running water tank to heat it and send warm air into the room, and in order to prevent the temperature inside the heat insulation cover and the inside of the air conditioner from decreasing, part of the warm air in the room is sent to the running water tank, Keep warm. In this case, I did not bury the heat insulation cover and the air conditioner underground, considering the maintenance. Then, when cooling in summer, open the opening 33 to release heat.

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[Procedure amendment]

[Submission date] March 20, 2002 (2002.3.2)
0)

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Brief description of the drawing

[Correction method] Change

[Correction content]

[Brief description of drawings]

[Figure 1] Cross-sectional view of the entire air conditioner

[Fig. 2] Flow of water and air in a detailed cross-sectional view of the outdoor unit

[Fig. 3] Cross-sectional views of the indoor unit and the outdoor unit and the flow of water and air

[Fig. 4] Operation of discharging tap water from the outdoor unit

[Fig. 5] Flow of tap water in the outdoor unit when the air conditioner is stopped

[Fig. 6] Operating state of the air conditioner and the flow of water and air at the start of the cooling operation

[Fig. 7] Operating state of air conditioner during heating operation and humidity adjustment mechanism

[Fig. 8] Prevention of snow accumulation and installation method for outdoor units in cold regions

[Explanation of symbols] 1 outdoor unit 2 evaporator (condenser) 3 outdoor unit 4 condenser (evaporator) 5 running water tank 6 air valve 7 backflow prevention valve 8 backflow prevention valve 9 discharge switching valve 10 air switching valve 11 switching valve 12 Discharge Pump 13 Indoor Fan 14 Air Duct 15 Refrigerant Liquid Pipe 16 Temperature Sensor 17 Outside Air Temperature Sensor 18 Water Filter 19 Mist Nozzle Valve 20 Air Filter 21 Exhaust Duct (Inside Air) 22 Ventilation Duct (Outside Air) 23 Drain Hose (Dehumidified Water) 24 Outdoor fan 25 Reheater 26 Exhaust duct valve 27 Ventilation duct valve 28 Exhaust duct valve 29 Drain tray (dehumidifying water) 30 Stopper ball 31 Insulation cover 32 Insulation material 33 Opening / closing port A Water supply side B Electric water heater, toilet,
Bath, etc. R Indoor side W Tap water C Cold wind H Warm air-minus ion a Air

[Procedure amendment]

[Submission date] December 24, 2002 (2002.12.
24)

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Claims

[Correction method] Change

[Correction content]

Claims (2)

[Claims] [Claim 1] The condenser of the existing air conditioner outdoor unit is covered with a metal such as rust-free stainless steel (running water tank), and a hose is connected to the pipe from the water supply. In addition, a pipe for flowing tap water or air is connected to this flowing water tank, and the flowing tap water or air is passed through a pipe or an air valve to a toilet or bath. Figure 1 2. A pipe from the air conditioner outdoor unit to the outdoor unit.
Pass a heavier air duct, and attach a nozzle and an air filter that inject tap water from the water pipe to the ventilation duct inside it. Figure 3