JPS58129121A - Air conditioner - Google Patents

Abstract

PURPOSE:To reduce the amount of water used, power consumption and noise to miniaturize the entire part of the air conditioner by connecting an air cooling type condenser and a water cooling type condenser to each other to constitute a condenser in a freezing cycle. CONSTITUTION:The air cooling type condenser 13 and the water cooling type condenser 14 are connected to each other to constitute a condenser during freezing cycle. When a room fan 19 is rotated and driven by means of a motor 20, indoor air is sucked up through a suction hole 22 formed in a case 11 into an upper chamber 17, and indoor air cooled by heat exchange with the coolant within an evaporator 15 is blown off as cooled air flow into the room through a blow-off port 23 formed in the case 11. Simultaneously therewith, first and second exhaust fans 25 and 26 are rotated and driven by means of the motor 20, and outdoor air is sucked up into a lower chamber 18 through a suction hose 33. The exhaust air heated by the heat exchange with the coolant within the air cooling type condenser 13 is introduced into an exhaust duct 29 by the first exchaust fan 25. The exhaust air of high humidity which has passed through the periphery of the outer cooling type condenser 14 is introduced into the exhaust duct 29 by the exhaust second fan 26, and is discharged out of the room through an exhaust hose 31.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] This invention relates to an improvement of an air conditioner installed in nine rooms, in which refrigeration cycle components are installed in a case.

[Technical background of the invention and its problems]

Conventionally, as shown in Fig. 1, a compressor 2 and a condenser 3 are housed in a case 1 of an air conditioner main body. There was one that had a built-in water-cooled condenser 3 that sucked up water with a sprinkler fan 7 and sprayed it onto the condenser 3 to cool the condenser 3. However, with such a configuration, the amount of water used is relatively large, and water must be replenished in a relatively short period of time during use, which is a hassle. Furthermore, water scale easily adhered to the surface of condenser 3, so
There was a membership fee to remove water scale every two seasons, which also had the drawback of not being able to reduce the frequency of water scale removal work. Furthermore, since the humidity of the exhaust air that passes around the condenser 3 and is discharged outside is 100 or more, dew condenses near the exit of the exhaust path, and the condensate drips outside and leaks into buildings, etc. There was a risk.

Ninth, there is a problem in that a drain accommodating part must be provided near the exit and mouth of the exhaust passage.

On the other hand, some models had a built-in air-cooled condenser that sucked in outdoor air into the case and cooled the condenser by blowing this outside air into the condenser. In order to suck in outside air, the suction path is thick (4 tons), and the fan's blowing force must be increased, which increases power consumption and noise. In this case, a large condenser must be used, which has the disadvantage that the overall size cannot be reduced.

Furthermore, as shown in Japanese Utility Model Application No. 11855-174528, there is a configuration in which part of the condenser is water-cooled and the rest is air-cooled; The high-humidity exhaust air is then discharged outside through an air-cooled condenser, so the exhaust air guided near the exit of the exhaust path is kept in a high-humidity state, and the exhaust air is There was a risk that condensation would occur near the outlet of the pipe.

[Purpose of the invention]

This invention can reduce the amount of water used compared to when a water-cooled condenser is used alone, requires less water replenishment, and reduces the amount of water scale deposited. The power consumption and noise are reduced compared to the case where the air-cooled condenser is used, the overall size is reduced, the heat dissipation capacity of the air-cooled condenser is improved, and in addition, the generation of condensate near the exit of the exhaust path is reliably prevented. The purpose is to provide an air conditioner that can

[Summary of the invention]

An air-cooled condenser and a water-cooled condenser are connected to form a condenser in the refrigeration cycle, and the air-cooled condenser is placed below the evaporator to drain condensate that adheres to the evaporator to the air-cooled condenser. The exhaust air that has passed around each condenser is introduced into the exhaust path formed between the air-cooled and water-cooled condensers to improve the cooling performance of the air-cooled condenser. The high-humidity exhaust air sent from the container side is mixed with the low-humidity exhaust air sent from the air-cooled condenser in the exhaust passage, and the mixture is discharged outside.

[Embodiments of the invention]

Figure 11112 shows an embodiment of this invention.
is the case of an indoor air conditioner. Inside this case 11 is a compressor 11. An air-cooled condenser 13 and a water-cooled condenser 14 are arranged side by side, and the heat dissipation ratio of the two is set to, for example, 6:4. It is equipped with various refrigeration cycle components such as pressure reducing mechanisms and 15 evaporators.

Additionally, the inside of the case 11 is partitioned into an upper chamber 11 and a lower chamber 11 by a partition plate 1#. The evaporator III and the indoor fan 19 are arranged in the lower chamber 11. This indoor fan 19 has a motor 20 with a rotating shaft of 20 mK.
It is attached and covered by the indoor fan cinder 21. When the indoor fan 19 is rotated by the motor 2o, the indoor air flows into the upper chamber 17! from the suction holes 21 formed in the case 11! Indoor air that is sucked into the evaporator 15 and cooled by heat exchange with the refrigerant in the evaporator 15 is blown out into the room as cold air from the blow-off holes 23 formed in the case 11.

On the other hand, the air-cooled condenser 13 is disposed below the evaporator 15 at the upper part of the lower heel 411g.

This air-cooled condenser 13 is integrated with the evaporator 15, and the condensate condensed on the surface of the evaporator 150 is transferred to the air-cooled condenser 1.
It is designed to be dripped at 3. Furthermore, the fin surface of this air-cooled condenser 13 is subjected to hydrophilic treatment,
Drain adhering to the fin surface of the air-cooled condenser IJ is uniformly dispersed. Furthermore, an exhaust fan casing 24a is provided approximately in the middle of the lower chamber 18.

24b is attached. Each exhaust fan casing 2
4m, 1st and 2nd exhaust fans 25.26 in 24b
are arranged respectively.

Also, the water-cooled condenser 14 is disposed below the exhaust casing 24b. This water-cooled fuzzy dose 14 is water spray 7
The water in the water tank 2# is pumped up from the tank 2# and cooled by being blown onto it. Furthermore, this sprinkler fan 21 is attached to a rotating shaft 5obK of a motor 2o together with the first and second exhaust gases 7amps zs and zg, and is rotated by the motor 2tlK.
It has become. In addition, air-cooled condenser IJ and water-cooled condenser 11
An exhaust duct 29 is formed between the exhaust duct 74 and the exhaust duct 74 . This exhaust! The exhaust port 3o formed in the case 11 is installed in the exhaust port 2#.
An exhaust hose s1 is connected through the exhaust hose s1, thereby forming an exhaust path. In addition, the case 11 includes an air-cooled condenser 13.
A suction port 32 is formed in a portion facing the , and this suction port 31KFi intake hose 3S is connected. Then, by the motor 10, 5 Te'M 1 , M 2 (D
Exhaust air 77
The high-humidity exhaust air that is drawn into the air-cooled condenser 8 and heated by heat exchange with the refrigerant in the air-cooled condenser 13 is passed around the exhaust fan 26 by the first exhaust fan 26. The exhaust fan 26 blows the exhaust air into the exhaust duct 2, and the relatively low humidity exhaust air introduced from the air-cooled condenser 11A'all in the exhaust passage and the water-cooled condenser 514.
It is mixed with high-humidity exhaust air introduced from @, and is discharged to the outside through an exhaust hose 31. Note that 34 air filters are installed between the suction holes 22 of the upper chamber 17 and the evaporator 15;
It is a tank that supplies water to the water tank 28 in 1.
In the above configuration, the air-cooled condenser 1) 13 and the water-cooled forge 614 are connected to form a condenser in the refrigeration cycle, and the air-cooled condenser 13 and the water-cooled condenser 14
The heat radiation ratio is rumored to be 601 for air-cooled condensing A13 and 40 for water-cooled condensing [114]. Therefore, the water-cooled condenser 14 has a heat dissipation capacity of 40 - compared to the conventional case where a water-cooled condenser is used alone, and can be used on the pipe side, so the amount of water used can be reduced. If a tank 35 with the same capacity as the conventional one is used, the water replenishment interval can be increased to approximately 2.5 times Sm compared to the conventional one.
Il& of water replenishment can be reduced. moreover,
The amount of water scale adhering to the water-cooled condenser 14 has been reduced to 4
Since it can be reduced to 0-, the troublesome work such as removing water scale can be reduced.・Case, air-cooled condensation @11 is 9. Since a refrigerated condenser with a heat dissipation capacity of 6011 can be used compared to when a refrigerated condenser is used alone, the amount of air intake or condenser capacity can be reduced by about 40 mm compared to the conventional one. By rounding the shape, power consumption and noise can be reduced, and the overall size can be reduced. The air-cooled condenser 13 is installed below the reactor 15, and the condensed condensate from the evaporator 1511C drips into the air-cooled condenser IJfC. It can increase the effect. in this case,
Since the air-cooled condenser 13 has been subjected to hydrophilic treatment,
It is possible to uniformly disperse the condensate that has fallen on the air-cooled condenser 11, further increasing the heat dissipation effect of the air-cooled condenser IJ.In addition, the relatively low humidity that has passed around the air-cooled condenser 13 [Evacuation air and water-cooled condenser 1]
The exhaust air with a high humidity of 1oos or more that has passed around the surroundings of the exhaust hose S) is sent into the exhaust duct 29 and mixed, so that the exhaust air is discharged outside through the exhaust hose S). The relative humidity of the air is 7096-8
It can be suppressed to about 0-. Therefore, the relative humidity of the exhaust air guided by the exhaust path is reduced to the water-cooled condenser 14.
Since the exhaust air can be reliably lowered than the exhaust air sent from @, it is possible to reliably prevent drainage from occurring near the exit of the exhaust path. In addition, when water is not replenished into the water tank 1g, the refrigeration cycle can be driven by the air-cooled condenser 13 alone, and it can also be used without water.

Further, the present invention is not limited to the above embodiments, and it is of course possible to make various modifications without departing from the gist of the present invention. For example, the intake hose JJ is not necessarily necessary, and the intake hose 11 When not in use, it can be used as a cooler that does not require drainage treatment.

〔Effect of the invention〕

According to this invention, since the air-cooled condenser and the water-cooled condenser are connected to form the condenser in the refrigeration cycle, the amount of water used is lower than when the water-cooled condenser is used alone. Water replenishment St and the amount of scale adhesion can be reduced, and the power consumption and noise can be reduced compared to the case where one air-cooled condenser is used alone, and the overall size can be reduced. Furthermore, since an air-cooled condenser is placed below the evaporator, the FPV condensation that condenses on the evaporator can be condensed using an air-cooled condenser! ) to improve the heat dissipation capacity of an air-cooled condenser. In addition, since the exhaust air that has passed around each of the air-cooled and water-cooled condensers is sent into the exhaust passage and collected, it is ensured that drainage occurs near the outlet of the exhaust passage. You can prevent this yourself.

[Brief explanation of the drawing]

FIG. 1 is a vertical sectional view showing a schematic configuration of a conventional example, and FIG. 2 is a vertical sectional view showing a schematic overall configuration of an embodiment of the present invention. 13...Air-cooled condenser, 14...Water-cooled condenser,
15... Evaporator, 29... Exhaust duct (exhaust path) 3
No...Exhaust hose (exhaust path).

Claims (1)

[Claims] The condenser in the refrigeration cycle is configured by connecting an air-cooled condenser and a water-cooled condenser, and the air-cooled condenser is placed below the evaporator, and the llffff type water cooler is placed below the air-cooled condenser. The air is characterized in that the exhaust air that has passed around each of the condensers is mixed in an exhaust path formed in both the air-cooled type and the water-cooled type condensation volume connection, and is discharged to the outside. harmonizer.