JP2001182965A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To cool a compressor efficiently without lowering the dehumidification efficiency of an evaporator. SOLUTION: A body case 5 is provided with an air inlet 6 and an air outlet 7 and a fan 20 for sucking air from the air inlet 6 and discharging the air from the air outlet 7 is disposed in an air duct 10 interconnecting the air inlet 6 and the air outlet 7 along with an evaporator 13 for cooling the air sucked by the fan 20 from the air inlet 6. The air passed through the evaporator 13 is guided to a compressor 15 for circulating refrigerant through the evaporator 13 and cooled.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for dehumidifying indoor air, such as a dehumidifier or a cooler.

[0002]

2. Description of the Related Art Conventionally, as an air conditioner of this type, as shown in Japanese Utility Model Application Laid-Open No. 4-68929 (F24F1 / 02), an intake port and an exhaust port are provided in a main body case, and the intake port and the exhaust port are connected. A blower that draws air from the intake port and exhausts it from the exhaust port, an evaporator that cools the air that is drawn in from the intake port, a condenser that warms the air cooled by the evaporator, and an evaporator It is known to provide a compressor and a compressor for circulating a refrigerant in a condenser, arrange a compressor between an intake port and an evaporator, and cool the compressor by a flow of air in an air passage. .

[0003] This is to cool the compressor and efficiently radiate heat from the compressor to prevent the compressor from being overloaded. However, air sucked from an intake port passes through the compressor. As a result, the temperature rises, and the heated air passes through the evaporator. The evaporator cools the passing air and dehumidifies the moisture contained in the air.
In the air conditioner having the above configuration, the air whose temperature has increased through the compressor passes through the evaporator, so that the cooling of the air in the evaporator is insufficient, and the temperature of the air does not sufficiently decrease. The amount to be removed was reduced, and the dehumidifying efficiency was reduced.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to provide an air conditioner capable of efficiently cooling a compressor without reducing the dehumidifying efficiency of an evaporator.

[0005]

Means for Solving the Problems A first method for solving the above problems is described below.
Means for providing an intake port and an exhaust port in the main body case, a blower for taking in air from the intake port and exhausting from the exhaust port in a ventilation path communicating between the intake port and the exhaust port; and In the air conditioner provided with an evaporator for cooling air taken in from an intake port, air passed through the evaporator is guided to a compressor that circulates refrigerant through the evaporator.

A second means for solving the above problem is to provide an intake port and an exhaust port in a main body case, and to inhale air from the intake port into an air passage communicating with the intake port and the exhaust port. In an air conditioner provided with a blower exhausting from an exhaust port, an evaporator for cooling air taken in from an intake port by the blower, and a condenser for warming the air cooled by the evaporator, the evaporator and the condenser Is guided to a compressor that circulates a refrigerant through the evaporator and the condenser.

A third means for solving the above problem is to provide an intake port and an exhaust port in a main body case, and to inhale air from the intake port into a ventilation path communicating with the intake port and the exhaust port. A blower that exhausts air from an exhaust port, an evaporator that cools air taken in from the intake port by the blower, a condenser that warms the air cooled by the evaporator, and circulates refrigerant through the evaporator and the condenser. In an air conditioner provided with a compressor, the compressor is disposed between an evaporator and a condenser in the air passage.

In the above configuration, it is preferable that the blower is disposed between the compressor and an exhaust port.

[0009]

1 and 2 show a first embodiment of the present invention, and a description will be given below with reference to these drawings.

Reference numeral 1 denotes an air conditioner main body (here, a dehumidifier, hereinafter referred to as a main body). The outer surface of the main body 1 has a main case 5 composed of a left case 2, a right case 3, and a bottom plate 4 made of synthetic resin. It is composed of The front face 5a of the main body case 5
An intake port 6 having an upper grill structure is formed, and an exhaust port 7 is formed behind the upper surface of the main body case 5.

Reference numeral 8 denotes a partition plate provided in the main body case 5, which divides the inside of the main body case 5 into an upper part and a lower part.
An elbow-shaped drain pipe 9 is provided on the lower surface of the partition plate 8.

Reference numeral 10 denotes an air passage formed in the upper part of the main body case 5 partitioned by the partition plate 8, and communicates the intake port 6 and the exhaust port 7. The air passage 10 is partitioned forward and rearward by a fan guide 11 erected on the partition plate 8, and an intake hole 12 formed in the fan guide 11 communicates a space between the front and rear partitioned by the fan guide 11.

In the space in front of the fan guide 11, a filter (not shown) for removing dust in the air sucked from the air inlet 6 is provided near the air inlet 6, and the air removed from the air is cooled. Evaporator 13 for removing and dehumidifying, and evaporator 1
A condenser 14 for warming the air dehumidified in 3 and a condenser 14
And a compressor 15 for circulating the refrigerant through the evaporator 13 are sequentially arranged from the intake port 6 side to the fan guide 11. The evaporator 13 and the condenser 14 are sandwiched between a support portion 16 formed on the partition plate 8 and a claw 17 formed on the main body case 5.

A motor 18 is mounted on the fan guide 11, and a motor 18 is mounted on a rotating shaft 18 a of the motor 18 behind the fan guide 11.
A sirocco fan 19 driven by 8 is provided. The motor 20 and the sirocco fan 19 constitute a blower 20.

Reference numeral 21 denotes a storage chamber formed below the partition plate 8, which is located below the drain pipe 9 and provided with a box-shaped drain tank 22 having an open top. A handle 23 is formed substantially at the center of the lower part of the front surface 22a of the drainage tank 22, and the handle 23 allows the drainage tank 22 to be attached and detached from the opening on the front surface 5a side of the storage room 21.

Reference numeral 24 denotes an operation unit provided on an inclined surface descending to the front surface 5a side of the upper surface of the main body case 5, and a switch 25 for driving and stopping the main body 1 is provided.

Next, the operation of the main body 1 configured as described above will be described.

Switch 25 on operation panel of operation unit 24
Is turned on, the operation is started, and by driving the compressor 15, the refrigerant circulates through the refrigerant circulation path returning to the compressor 15 via the condenser 14, the evaporator 13, and the like. At 14, a heat releasing operation is performed. Motor 1 at the same time
8 drives the indoor air into the front face 5a of the main body case 5.
After being taken into the main body 1 through an air inlet 6 provided in the evaporator 1 and having dust removed by a filter (not shown),
3 and is cooled and dehumidified. After the dehumidified cold air is warmed by the condenser 14 (in the embodiment of the present invention, about 10 degrees higher than the state of normal temperature taken from the intake port), the temperature is higher than that of the air warmed by the condenser 14. The compressor 15 is cooled by contacting the compressor 15 in the state of FIG.
The air that has passed through the compressor 15 contacts the motor 18 and the motor 18 that is hotter than the air that has passed through the compressor 15.
Is cooled to prevent the motor 18 from becoming hot, and then returned to the room through the exhaust port 7.

On the other hand, the water condensed in the evaporator 13 drops as water droplets on the partition plate 8, drops along the drain pipe 9 formed at the bottom of the partition plate 8, and is stored in the drain tank 22. .

As described above, the air cooled by the evaporator 13 by the operation of the blower 20 and heated by the condenser 14 is brought into contact with the compressor 15 which is at a higher temperature than the air, so that the compressor 15 is cooled. It can be cooled efficiently. At this time, the air that has been dehumidified and dried by the evaporator 13 comes into contact with the compressor 15, so that the possibility that moisture in the air is condensed in the compressor 15 can be reduced, and the possibility that the compressor 15 breaks down can be reduced. Also,
Even if the compressor 15 is disposed in the air passage 10, the air heated through the compressor 15 as in the prior art is heated by the evaporator 13.
, And the normal-temperature air sucked from the intake port 6 passes through the evaporator 13, so that a decrease in the amount of moisture in the air dehumidified by the evaporator 13 can be prevented, and a decrease in the dehumidifying efficiency can be prevented. Can be prevented.

The blower 20 is connected to the compressor 1 in the blower passage.
5, the air before passing through the compressor 15 is not heated by the blower 20, so that the compressor 15 can be cooled and the cooling efficiency of the compressor 15 can be prevented from lowering.

In the first embodiment, the condenser 14 is disposed closer to the intake port 6 than the compressor 15, and the air passing through the evaporator 13 and the condenser 14 is brought into contact with the compressor 15. As in the second embodiment of the present invention shown in FIG. 3, the condenser 14 is disposed downstream of the compressor 15 so that the air passing through the evaporator 13 is brought into contact with the compressor 15. Good.

In this case, the air that has passed through the evaporator 13 by driving the blower 20 is brought into contact with the compressor 15,
The compressor 15 can be more efficiently cooled by the air cooled by the evaporator 13. Also, as in the first embodiment,
Since the compressor 15 is disposed downstream of the evaporator 13 in the air passage 10, the air warmed by passing through the compressor 15 does not pass through the evaporator 13, Since the extracted normal-temperature air passes through the evaporator 13, the evaporator 1
3, it is possible to prevent a decrease in the amount of moisture in the air to be dehumidified, and to prevent a decrease in the dehumidifying efficiency of the evaporator 13.

Further, a compressor 15 is disposed in the air passage 10, and the air passing through the evaporator 13 and the condenser 14 is used in the first embodiment, and the evaporator 13 is used in the second embodiment.
The air passing through the compressor 15 is brought into contact with the compressor 15, but instead of disposing the compressor 15 in the air passage 10, the air passing through the evaporator 13 is supplied to the compressor 15,
Alternatively, the air may be guided through a passage or the like such that the air that has passed through the evaporator 13 and the condenser 14 comes into contact with each other.

[0025]

According to the first aspect of the present invention, the compressor can be cooled efficiently by bringing the air cooled through the evaporator into contact with the compressor by driving the blower. Also,
Since the warmed air that has passed through the compressor does not pass through the evaporator, the normal-temperature air that has been drawn in from the intake port passes through the evaporator, the amount of moisture in the air that is dehumidified by the evaporator is reduced. A decrease in the dehumidification efficiency of the evaporator can be prevented.

According to the second aspect of the present invention, the air cooled by the evaporator by the driving of the blower and heated by the condenser is
By bringing the compressor into contact with the compressor which is at a higher temperature than the air, the compressor can be efficiently cooled. In addition, since the air warmed by the compressor does not pass through the evaporator and the normal-temperature air sucked from the intake port passes through the evaporator, the amount of moisture in the air dehumidified by the evaporator is reduced. Can be prevented,
A decrease in the dehumidifying efficiency of the evaporator can be prevented.

According to the third aspect of the present invention, the air cooled by passing through the evaporator by driving the blower is brought into contact with the compressor, whereby the compressor can be efficiently cooled. Further, by disposing the condenser downstream of the compressor, air cooled by passing through the evaporator by driving the blower is not heated by the condenser before passing through the compressor. , The compressor can be cooled more efficiently. Also, the air warmed by passing through the compressor does not pass through the evaporator, and the normal-temperature air taken in from the intake port passes through the evaporator. A decrease in the amount can be prevented, and a decrease in the dehumidifying efficiency of the evaporator can be prevented.

According to the fourth aspect of the present invention, since the blower is disposed downstream of the compressor in the air passage, the air before passing through the compressor is not heated by the blower.
The compressor can be efficiently cooled, and a decrease in the cooling efficiency of the compressor can be prevented.

[Brief description of the drawings]

FIG. 1 is a front view of an air conditioner according to a first embodiment of the present invention.

FIG. 2 is a side sectional view of the air conditioner.

FIG. 3 is a side sectional view of an air conditioner showing a second embodiment of the present invention.

[Explanation of symbols]

 Reference Signs List 5 Body case 6 Intake port 7 Exhaust port 10 Blow path 13 Evaporator 14 Condenser 15 Compressor 20 Blower

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Toshiro Uedozono 2-5-5 Keihanhondori, Moriguchi-shi, Osaka Sanyo Electric Co., Ltd. (72) Yoshiaki Matsumoto 2-chome Keihanhondori, Moriguchi-shi, Osaka No. 5-5 Sanyo Electric Co., Ltd. (72) Inventor Shinichi Akiyama 2-5-5 Keihanhondori, Moriguchi-shi, Osaka F-term in Sanyo Electric Co., Ltd. 3L049 BB08 BB20 BC01 BD01

Claims (4)

[Claims] 1. An air inlet and an air outlet are provided in a main body case,
A blower for taking in air from the intake port and exhausting it from the exhaust port, and an evaporator for cooling the air taken in from the intake port by the blower were provided in a ventilation path communicating the intake port and the exhaust port. In the air conditioner, the air that has passed through the evaporator is guided to a compressor that circulates a refrigerant through the evaporator. 2. An air inlet and an air outlet are provided in a main body case,
A blower that sucks air from the intake port and exhausts air from the exhaust port, an evaporator that cools the air sucked from the intake port by the blower, and an evaporator, in an air passage that communicates with the intake port and the exhaust port. In the air conditioner provided with a condenser for warming the air cooled by the condenser, the air that has passed through the evaporator and the condenser is guided to a compressor that circulates the refrigerant through the evaporator and the condenser. A characteristic air conditioner. 3. An intake port and an exhaust port are provided in a main body case,
A blower that sucks air from the intake port and exhausts air from the exhaust port, an evaporator that cools the air sucked from the intake port by the blower, and an evaporator, in an air passage that communicates with the intake port and the exhaust port. An air conditioner provided with a condenser for warming air cooled by a condenser and a compressor for circulating a refrigerant through the evaporator and the condenser, wherein the compressor is provided with an evaporator and a condenser in the air passage. An air conditioner characterized by being disposed between the air conditioner. 4. The air conditioner according to claim 1, wherein the blower is disposed between the compressor and an exhaust port.