KR200379764Y1 - Multi air conditioner without outdoor unit - Google Patents

Abstract

The present invention is a self-cooling mobile air conditioner that does not require an outdoor unit, and the 4-way directional valve, heating heater, and auxiliary heater are respectively installed inside the main body so that it can be used as a cooling device or a heating device. By proposing an air conditioner without an outdoor unit,

In summer, it can be used as an air conditioner without an outdoor unit, and in winter, the circulation direction of the refrigerant can be changed to be used as a warm air fan. Is not inherent to each other, but uses a single circulation system to induce cooling and heating, so its size is significantly reduced, resulting in excellent space utilization, and exothermic energy of the condenser and evaporator, rather than using additional fuel or external energy. It relates to an air conditioner without an outdoor unit that combines cooling and heating because it uses cooling and heating.

Description

Air conditioner without outdoor unit that combines cooling and heating {Multi air conditioner without outdoor unit}

The present invention is a self-cooling mobile air conditioner that does not require an outdoor unit, and is equipped with a valve for switching the refrigerant flow direction of the air conditioner and a separate heating heater and an auxiliary heater to be used as a cooling device by this. In addition, the present invention relates to an air conditioner without an outdoor unit that combines cooling and heating, which can be used as a heating device if necessary.

An air conditioner (hereinafter referred to as an air conditioner) is generally used for cooling indoors in summer, and thus serves to lower the indoor temperature by supplying cold air to the indoors.

In a general air conditioner, an air conditioner commonly referred to is divided into an evaporation means and a blowing means located in the room, a condensation means located in the outdoors, and each of these means is called abbreviated as an indoor unit and an outdoor unit.

In addition, the hot air heater used in winter is to control the temperature by burning the oil and heat the high heat generated through the indoors, and it is common to purchase and use an air conditioner and a hot air fan separately. In some cases, a cooling and heating system with built-in functions is used.

However, the general air conditioners as described above are divided into air conditioners and hot air heaters, so they must be used in a state in which both are purchased. Therefore, they occupy a very large space and greatly reduce space efficiency. Even the air conditioner has to be provided with an outdoor unit and a fuel tank together with the indoor unit, so that there is a disadvantage in that the space is very large.

In addition, in the case of the above-mentioned hot air blower is a noise and generates soot can not be used in a normal home, there is a hassle to replenish the fuel tank at any time.

The present invention was devised to eliminate the problems as described above, and improved utility model registration No. 222092, which was devised and registered by the applicant of the present invention, but the 4-way directional valve and heating heater, auxiliary By proposing an air conditioner without an outdoor unit, each heater is additionally installed to convert the heater to a cooling device or a heating device.

In summer, it can be used as an air conditioner without an outdoor unit, and in winter, the circulation direction of the refrigerant can be changed to be used as a warm air fan. Is not inherent to each other, but uses a single circulation system to induce cooling and heating, so its size is significantly reduced, resulting in excellent space utilization, and exothermic energy of the condenser and evaporator, rather than using additional fuel or external energy. It is an object of the present invention to provide an air conditioner without an outdoor unit that combines cooling and heating because it uses cooling and heating.

Hereinafter, preferred embodiments of the present invention will be described.

1 is an overall configuration diagram of an air conditioner according to the present invention.

A compressor (1) having a refrigerant discharge pipe (2) and a refrigerant recovery pipe (3) is formed inside the main body (100) on the enclosure, and the ends of the refrigerant discharge pipe (2) and the refrigerant recovery pipe (3) are separated 4- to the way valve (4)

One branch pipe 5 drawn out from the 4-way valve 4 forms a zigzag first heat exchanger 20 above the main body 100 so that its end portion is connected to the capillary tube 6. The other branch pipe 5 'is formed by continuously forming the zigzag RF capacitor 21 and the second heat exchanger 22 in a separate split case 101 partitioned at the inner bottom of the main body 100. End is connected to the other end of the capillary (6),

Dispersion plate 15 is located between the RF capacitor 21 and the second heat exchanger 22 in the water tank 10 positioned at the lower end of the main body 100 and having the heating heater 16 built therein. A water supply pipe 13 for supplying water by the pump 11 to the injection nozzle 12 having a) and a water recovery pipe 14 connected to the bottom surface of the split case 101 are formed, respectively.

A blower 103 having an exhaust port 102 protruding to the outside of the main body 100 is built in the upper part of the split case 101, and the lower one side of the split case 101 flows in from the outside of the main body 100. It is made by forming an intake pipe 104.

In addition, the first heat exchange unit 20 is to be equipped with a separate auxiliary heater 23 to be able to improve the heat efficiency during heating,

The separate air filter 24 is formed on the upper side of the distribution plate 15 embedded in the split case 101 to thereby filter out foreign substances introduced into the intake pipe 104.

In addition, the water tank 10 is formed with a water supplement pipe 17 connected to an external water pipe, and the buckle 18 connected to the water supplement pipe 17 and the valve is embedded in the water tank 10. It can also be configured to automatically fill the water inside the water tank (10).

In the figure, reference numeral 25 denotes a heat radiation fin.

When described in more detail by the accompanying drawings the operation of the air conditioner without outdoor unit combined with the present invention cooling, heating as follows.

Air conditioner according to the present invention is to enable the cooling and heating by only one heat exchange cycle by switching the flow of the refrigerant during cooling or heating and by varying the operation of a separate heater,

First, look at the operation process of cooling,

When power is supplied from the outside to supply the air conditioner, the compressor 1 operates to circulate the refrigerant. The refrigerant discharged along the refrigerant discharge pipe 2 reaches the 4-way valve 4. One branch pipe 5 'drawn out from the main body 100 is led to the split case 101, and the branch pipe 5' is zigzag-shaped on the upper side of the split case 101. 21) is formed, and then the second heat exchange part 22 in a zigzag shape is formed below.

At this time, since the end of the branch pipe 5 'is connected to one side of the capillary tube 6 in the second heat exchange part 22, the second heat exchange part is compressed by the refrigerant through the compressor 1. At 22, high temperature is generated in the branch pipe 5 'as the refrigerant is compressed and liquefied. At this time, the second heat exchange part becomes a condensation part of the cooling cycle.

Therefore, the cold wind is generated by the cooler in a cooler state by properly cooling the branch pipe 5 'in which high heat is generated. In this invention, the cooling catalyst of the branch pipe 5' is known. Since the cooling water is used as the injection nozzle 12 formed above the second heat exchange part 22 through the water supply pipe 13 by using the pump 11 from the water tank 10 mounted below the main body 100. The coolant is discharged at a high pressure, but a separate dispersion plate 15 is formed above the injection nozzle 12, and the coolant discharged at a high pressure is changed into a fine foam state by the dispersion plate 15. The branch pipe 5 'of the second heat exchange part 22 is cooled quickly and efficiently.

The refrigerant in the cooled state is introduced into another branch pipe (5) through the capillary tube (6), and the refrigerant passing through the capillary tube (6) is discharged under high pressure into the branch pipe (5) having a larger inner diameter and liquefied state. Of the refrigerant is evaporated and the heat is absorbed around the branch pipe 5 is rapidly cooled by the heat absorbed, the state in which the branch pipe 5 is formed on the upper side of the main body 100 in a zigzag shape It becomes one heat exchange part 20, and the 1st heat exchange part 20 of a cooling state becomes an evaporator in a cooling cycle.

Further, as described above, the branch pipe 5 having the first heat exchange part is connected to the 4-way valve 4 again and circulated to the compressor 1 through the refrigerant recovery pipe 3 according to the valve connection. will be.

Therefore, the first heat exchanger 20 cooled as described above discharges the cooled air of the first heat exchanger 20 to a room by a separate blower fan (not shown in the drawing). Will be discharged and can be used as a cooling device.

At this time, the cooling water discharged through the injection nozzle 12 is evaporated and rises in the high heat of the second heat exchanger 22. The steam reaches a plurality of RF capacitors 21, which are also generating high temperatures. The evaporated air is evaporated by the heat dissipation fins 25, and the evaporated air is discharged to the outside through the exhaust port 102 by using a separate blower 103 to prevent the temperature of the main body 100 from rising, as well as high temperature. By discharging the air is to act to improve the cooling efficiency of the second heat exchange unit (22).

In addition, the cooling water discharged and dropped from the injection nozzle 12 is recovered again into the water tank 10 through the water recovery pipe 14 formed on the bottom surface of the split case 101, and the recovered water is pumped again. High pressure is sent to the water supply pipe 13 through the (11) is supplied to the injection nozzle (12).

Therefore, as described above, new air as much as the air discharged through the exhaust port 102 flows back into the split case 101 through the intake pipe 104 and is always circulated with the new air, thereby allowing the second heat exchange unit ( 22) by the air to act again to cool the heat efficiency is more excellent.

In particular, the inside of the split case 101 has a separate air filter 24 that traverses the split case 101 is built in foreign matter or dust contained in the outside air introduced through the intake pipe 104 This will prevent the inside of the air conditioner from being contaminated.

In addition, the heating heater 16 embedded in the water tank 10 is in a non-operating state, and the auxiliary heater 23 located in the first heat exchange unit 20 is also in an inoperative state.

Next, look at the operation process when switching to heating,

The compressor 1 operates together with the supply of power, and at the same time, power is applied to the heating heater 16 inside the water tank 10 and the auxiliary heater 23 inside the first heat exchanger 20 to generate heat. It is

When the high-pressure refrigerant is discharged to the refrigerant discharge pipe 2 by the operation of the compressor 1, the refrigerant discharge pipe 2 reaches the 4-way valve 4 and the branch pipe 5 is switched by switching the valve. The refrigerant is guided to the first heat exchanger 20 through the first heat exchanger 20. At this time, the refrigerant is liquefied by the capillary tube 6 at a high pressure. In this process, high heat is generated. At this time, the first heat exchange unit 20 is to act as a condenser in the cooling cycle.

The refrigerant liquefied from the first heat exchanger 20 generating high heat is vaporized while being discharged to another branch pipe 5 'through the capillary tube 6, and the branch pipe 5' is second heat exchanged. Since the 22 is formed, the second heat exchanger 22 absorbing the ambient heat during the vaporization process is coldly cooled, and the second heat exchanger 22 at this time becomes an evaporator in the cooling cycle.

At this time, since the circulation of energy occurs when the second heat exchange part 22 in the cooling state is heated, the injection nozzle 12 is heated at a high temperature through the heating heater 16 inside the water tank 10. By discharging the hot water in a closed state, the second heat exchange part 22 in a cooled state is heated.

The refrigerant heated by the hot water is introduced again into the 4-way valve 4 through the RF capacitor 21, and the refrigerant is led to the refrigerant recovery pipe 3 in accordance with the switching of the valve and the compressor ( It is circulated to 1).

Therefore, since the second heat exchange part 22 is heated by discharging the hot water through the heating heater 16, the exothermic temperature of the condenser is further increased during the compression of the refrigerant, and the auxiliary heater operating together with the heating. Since more high-temperature air is formed through the 23, when the air is discharged from a separate blower fan (not shown in the drawing) into the room, effective heating is achieved.

At this time, the blower 103 is not to be operated, and is intended to discharge the warmth of the second heat exchanger 22 that needs to be heated to a high temperature so that the heat loss is not reduced. Since it does not, there is almost no water loss in the water tank 10 during heating, and there is no hassle of having to replenish replenishment water newly.

In addition, during cooling, a certain amount of water loss occurs due to the operation of the blower 103. At this time, a water supplement pipe 17 connected to the water pipe is formed on one side of the water tank 10, and the water The supplementary pipe 17 is equipped with a float 18 so that the water supplement pipe 17 is automatically opened and closed through the water level detection through the float 18, thereby reducing the trouble of having to replenish water every time. .

Therefore, according to the change of the season or the purpose of use, it can be used by switching to cooling and heating using one air conditioner, as well as the thermal efficiency is very economical.

The air conditioner without the outdoor unit which combines the present invention with cooling and heating as described above can be used as an air conditioner without an outdoor unit in the summer, and can be used as a hot air fan by switching the circulation direction of the refrigerant during the winter season, thereby facilitating easy switching of heating and cooling. Efficient control of room temperature is possible, but separate air conditioners or heating devices are not inherent, but cooling and heating are induced using a single circulation system. It is possible to use very innovative heat energy because it cools and heats by using exothermic energy of condenser and evaporator rather than using additional energy.

1 is an overall configuration diagram of an air conditioner according to the present invention

2 is an operation during cooling of the air conditioner according to the present invention

3 is an operation when heating the air conditioner according to the present invention

Explanation of symbols on the main parts of the drawings

1: compressor 2: refrigerant discharge pipe

3: refrigerant recovery pipe 4: 4-way valve

5,5 ': branch pipe 6: capillary

10: water tank 11: pump

12: injection nozzle 13: water supply pipe

14: water recovery pipe 15: dispersion plate

16: heating heater 17: water supplement pipe

18: float

20: first heat exchanger 21: RF capacitor

22: second heat exchanger 23: auxiliary heater

24: air filter 25: heat radiation fin

100: main body 101: split case

102 exhaust port 103 blower

104: intake pipe

Claims (4)

A compressor (1) having a refrigerant discharge pipe (2) and a refrigerant recovery pipe (3) is formed inside the main body (100) on the enclosure, and the ends of the refrigerant discharge pipe (2) and the refrigerant recovery pipe (3) are separated 4- to the way valve (4) One branch pipe 5 drawn out from the 4-way valve 4 forms a zigzag first heat exchanger 20 above the main body 100 so that its end portion is connected to the capillary tube 6. The other branch pipe 5 'is formed by continuously forming the zigzag RF capacitor 21 and the second heat exchanger 22 in a separate split case 101 partitioned at the inner bottom of the main body 100. End is connected to the other end of the capillary (6), Dispersion plate 15 is located between the RF capacitor 21 and the second heat exchanger 22 in the water tank 10 positioned at the lower end of the main body 100 and having the heating heater 16 built therein. A water supply pipe 13 for supplying water by the pump 11 to the injection nozzle 12 having a) and a water recovery pipe 14 connected to the bottom surface of the split case 101 are formed, respectively. A blower 103 having an exhaust port 102 protruding to the outside of the main body 100 is built in the upper part of the split case 101, and the lower one side of the split case 101 flows in from the outside of the main body 100. Air conditioner without an outdoor unit that combines cooling and heating, characterized in that each formed intake pipe (104). The method of claim 1, The first heat exchanger (20) is equipped with a separate auxiliary heater (23) is an air conditioner without an outdoor unit that combines cooling and heating, characterized in that to improve the heat efficiency during heating. The method of claim 1, Cooling and heating, characterized in that to form a separate air filter 24 on the upper side of the distribution plate (15) embedded in the split case 101 to filter foreign matter introduced into the intake pipe (104) Air conditioner without outdoor unit. The method of claim 1, The water tank 10 is provided with a water supplement pipe 17 connected to the external water pipe, and the water supply pipe 17 and the valve connected to the valve 18 is embedded in the water tank 10 to automatically Air conditioner without outdoor unit combined with cooling and heating, characterized in that the replenishment water is filled in the tank (10).