JP2000146221A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a casing from being electrically charged even when no ground earth is ensured. SOLUTION: An electric discharge electrode 4 and a dust collection electrode 5 are provided in a easing 1 in which there are provided a heat exchanger 3 and an air fan 10, and a metal portion (the heat exchanger 3 and a supporting iron plate 7) connected with a ground level 26 in the casing 1 is connected with a commercial power supply line 25 through a resistor R1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner in which a discharge electrode and a dust collecting electrode are provided inside a housing provided with an indoor heat exchanger and a blower fan. The present invention relates to an air conditioner in which a metal part connected to a ground level inside a housing is connected to a commercial power supply line via a resistor.

[0002]

2. Description of the Related Art In an air conditioner equipped with an air purifying function for purifying indoor air, a high-voltage voltage is applied to electrodes, so that a casing made of plastic or the like is charged by lines of electric force generated from the electrodes. Easy to occur. Further, when the housing is charged, dust adheres to the charged portion. on the other hand,
The housing of an indoor unit of an air conditioner is often made of white plastic. For this reason, when the housing of the indoor unit is charged and dust adheres to the charged portion, the dirt is conspicuous and the external appearance becomes unsightly. Conventionally, in order to prevent such a situation, a metal terminal such as a heat exchanger is connected to a ground terminal for connecting to a ground. Accordingly, when the ground terminal is connected to the earth ground, the electric charge generated in the housing by the lines of electric force is discharged by the action of the metal part at the level of the earth ground, so that the housing is prevented from being charged and the generation of dirt is prevented. Is suppressed (referred to as a first related art).

In addition, commercial power lines of air conditioners include:
In order to reduce the common mode noise, a capacitor serving as a line filter is connected. A prior art in which a leakage current flowing through the capacitor can be switched between a cooling operation and a heating operation is disclosed in Japanese Patent Laid-Open No. 7-190466. No. has been proposed. That is, in this technique, when performing the cooling operation, a series capacitor is inserted between the connection point of the pair of common mode capacitors and the ground point, and when performing the heating operation, the connection point of the pair of common mode capacitors is directly connected. And a connection to a ground point. Therefore, during the cooling operation, the impedance to the ground increases, and the leakage current decreases. Further, during the heating operation, the impedance to the ground is reduced, and the common mode noise is efficiently suppressed (this is referred to as a second related art).

[0004]

However, in the case where the above configuration is used, the following problems have occurred. That is, in the first prior art, it is necessary to connect the ground terminal to the earth ground in order to prevent charging of the housing. On the other hand, since the outlet of the commercial power supply line is a two-wire type, it is necessary to separately provide a path for grounding when trying to ground. But,
When the installation position of the air conditioner is on a high floor of a high-rise apartment or the like, it is difficult to separately provide a path for earth ground, so that the ground terminal cannot be connected to earth ground. As a result, the case is likely to be charged, and the appearance is likely to be soiled.

In the second prior art, the path to the earth ground is a path via a common mode capacitor, so that a path to the earth ground is not formed in terms of DC. Also, when it is difficult to connect to earth ground,
The effect of suppressing noise cannot be obtained. Therefore, in the case where it is difficult to provide a path for grounding the ground, the effect of preventing the charging of the housing of the air conditioner cannot be expected even when the second conventional technique is used.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to connect a metal part connected to a ground level to a commercial power supply line via a resistor. Accordingly, it is an object of the present invention to provide an air purifying device that can prevent the housing from being charged even when earth ground cannot be obtained.

Another object of the present invention is to provide, in addition to the above object, a configuration in which the resistance value of the resistor is set to a value that does not activate the earth leakage breaker provided on the commercial power supply line.
It is an object of the present invention to provide an air cleaning device that can prevent the operation of the earth leakage breaker even when the ground terminal is connected to the earth ground.

[0008]

Means for Solving the Problems To solve the above problems, an air conditioner according to the first aspect of the present invention comprises at least:
The present invention is applied to an air conditioner in which a discharge electrode and a dust collection electrode are provided inside a housing provided with a heat exchanger that exchanges heat with indoor air and a blower fan that blows air into the room. A metal part connected to a ground level inside the housing,
It is configured to be connected to a commercial power supply line via a resistor.

That is, both the pair of commercial power lines are connected to the same coil such as a pole transformer. One of the commercial power lines is connected to ground. Therefore, in terms of direct current, it is equivalent to both commercial power lines being connected to ground. For this reason, the ground level is equivalent to a state in which the ground level is connected to the earth through a resistor.

An air conditioner according to a second aspect of the present invention is applied to an air conditioner having a ground terminal connected to the ground level, in addition to the above configuration, wherein the ground terminal is connected to the earth ground. Then, when the current flowing through the resistor is a leakage current, the resistance value of the resistor is set to a value such that the leakage current is smaller than the current for activating the leakage breaker provided on the commercial power supply line.

That is, even when the ground terminal is connected to the earth ground, the leakage current flowing through the resistor does not activate the earth leakage breaker. Therefore, commercial power is continuously supplied via the earth leakage breaker.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below.
This will be described with reference to the drawings. FIG. 1 is an explanatory diagram showing a schematic cross-section and an electrical configuration of an indoor unit of an embodiment of an air conditioner according to the present invention. FIG. 2 is a sectional view showing details of the indoor unit.

In FIG. 1, an air filter 11 for removing large dust contained in air taken in from a front grill is provided inside a casing 1 made of white plastic or the like. Further, the heat exchanger 3 is provided behind the air filter 11. Further, a blower fan 10 for blowing air passing through the heat exchanger 3 into the room is provided at a lower rear side of the heat exchanger 3.
Further, a shielding plate 6 formed by bending a metal plate is attached to the rear panel 2 of the housing 1.

The shield plate 6 attached to the back panel 2 is provided with a discharge electrode 4 as a metal wire via a support member 12 made of an insulating material.
A dust collecting electrode 5 made of a metal cylinder having a heater inside is provided. A bent portion 14 on the upper side of the supporting iron plate 7 attached to the wall is provided on the upper rear side of the back panel 2.
Is formed. For this reason,
The housing 1 is supported by the supporting iron plate 7 via the engaging member 15. Further, a contact 8 supported by a metal supporting member 9 and electrically connected to the supporting iron plate 7 is provided behind the central portion of the rear panel 2.

The indoor electric circuit section 3 provided in the indoor unit 31
5 is a control unit constituted by a microcomputer,
An input unit for receiving input from a remote controller,
It is a block provided with a temperature sensor, a drive circuit, and the like, and is provided with a drive mechanism (the blower fan 10
) To maintain the room temperature at the set temperature. Further, by applying a high voltage between the discharge electrode 4 and the dust collecting electrode 5, fine dust contained in the air passing through the heat exchanger 3 is attached to the dust collecting electrode 5. Further, by heating a heater provided inside the dust collecting electrode 5, the dust adhering to the surface of the dust collecting electrode 5 is oxidized.

An outdoor mechanism 42 provided in the outdoor unit 41
Is a block provided with a compressor, a heat exchanger, a fan motor, and the like, and circulates a refrigerant between the block and the heat exchanger 3. Further, the outdoor electric circuit section 43 connected to the indoor electric circuit section 35 via the communication line is a block for causing the outdoor mechanism section 42 to perform an operation according to an instruction from the indoor electric circuit section 35. .

The commercial power lines 24 and 25 led through the AC plug 33 are led to an indoor electric circuit section 35. Further, the commercial power supply line 25 is directly led to the outdoor electric circuit unit 43, and the commercial power supply line 24 is connected to the outdoor electric circuit unit 35 through a switch 32 whose connection is controlled by the indoor electric circuit unit 35.
It is led to the outdoor electric circuit section 43. Route 23
Indicates an electric path formed by a metal pipe constituting a refrigerant path, and electrically connects a metal part such as a compressor or a housing of the outdoor mechanism section 42 and the heat exchanger 3 on the indoor side. It is a path of the ground level to be connected.

The path 21 is connected to the ground level 2 in the housing 1.
6 shows an electric path connecting the heat exchanger 6 and the heat exchanger 3. That is, the heat exchanger 3 is connected to the ground level 26. Therefore, the metal part of the housing of the outdoor unit 41 and the compressor is also connected to the ground level 26. The path 22 indicates an electric path connecting the ground level 26 and the support member 9. For this reason, the supporting iron plate 7 includes the contact 8, the supporting member 9, and the path 22.
To the ground level 26.

The commercial power lines 24 and 25 are connected to a ground level 26 via capacitors C1 and C2 for suppressing common mode noise. Further, the ground level 26 is guided to a ground terminal 34 provided for connection to the earth ground. The ground level 26 is connected to the commercial power supply line 25 via the resistor R1. Note that the value of the resistor R1 is set to the following value.

That is, the AC plug 33 is connected to the outlet 6
1, the commercial power line 25 is connected to the commercial power line 64. In addition, the commercial power line 64
Is a line on the non-ground side. In such a state, when the ground terminal 34 is connected to the earth ground, a leakage current flows through the resistor R1. The leakage current flowing at this time depends on the commercial power line 63,
64 is detected by the earth leakage breaker 62 provided at
Therefore, when the value of the leakage current becomes larger than the value for operating the earth leakage breaker 62, a problem that the earth leakage breaker 62 operates is caused. Therefore, it is necessary to set the resistance value of the resistor R1 to a value at which the value of the leakage current does not cause the leakage breaker 62 to operate. From the above, the resistance value of the resistor R1 is desirably set to a value larger than several 100 KΩ. Therefore, in the present embodiment, the resistance value of the resistor R1 is set to 3.3 MΩ.

The operation of the embodiment having the above configuration will be described below.

Since the installation location of this embodiment is on the high floor of a high-rise apartment building, it is difficult to provide a connection path for grounding the ground, and it is necessary to operate without connecting the ground terminal 34 to the grounding ground. I don't get it. on the other hand,
The commercial power lines 63 and 64 are both connected to the same coil such as a pole transformer. In addition, commercial power line 6
Nos. 3 and 64 have one line connected to ground. Therefore, when the commercial power supply lines 63 and 64 are viewed from the AC plug 33 side, in terms of direct current, the commercial power supply lines 63 and 64 are both equivalent to being connected to ground. Therefore, the ground level 26 is
In terms of direct current, it is equivalent to a state where it is connected to ground via a 3.3 MΩ resistor R1.

On the other hand, when a high voltage is applied between the discharge electrode 4 and the dust collecting electrode 5 for air cleaning, lines of electric force are generated between the discharge electrode 4 and the dust collecting electrode 5. These lines of electric force
An electric charge is generated on the rear panel 2 to attempt to charge the rear panel 2. In addition, the charges generated on the back panel 2 try to generate corresponding charges on the supporting iron plate 7 side. However, the supporting iron plate 7 includes the contact 8, the supporting member 9,
Further, since the connection is made to the ground through the resistor R1, the electric charge generated in the supporting iron plate 7 is immediately discharged to the ground. As a result, the charge generated on the rear panel 2 is also extinguished, so that the charging of the rear panel 2 is prevented.

The heat exchanger 3 also has a resistor R1
Is connected to the earth through the
The line of electric force generated between the electrode and the dust collecting electrode 5 is cut off. For this reason, the upper part and the front grill of the housing 1, and
Since the lines of electric force do not reach the portions near the outlet, charging of these portions is prevented.

On the other hand, since the installation location of this embodiment is a low house such as a one-story house, it is easy to provide a path for earth ground, and it is assumed that the ground terminal 34 is connected to earth ground. Thus, the ground level 26 will be directly connected to ground. As a result, the same operation as described above occurs, and the charging of the housing 1 is prevented. At this time, a leakage current flows through the resistor R1, and the leakage current is detected by the leakage breaker 62.
However, the resistance value of the resistor R1 is 3.3 MΩ, and the value of the leakage current is limited to a value that does not operate the leakage breaker 62. For this reason, the commercial power is supplied to the outlet 61 without operating the earth leakage breaker 62, so that the indoor unit 31 and the outdoor unit 41 continue the predetermined operation.

As is clear from the above description, when the ground terminal 34 is open, the current flowing through the resistor R1 is a current for flowing the charge generated by the influence of the electric flux lines to the ground. , And the current value is extremely small. On the other hand, when the ground terminal 34 is connected to the earth ground, the earth leakage breaker 62 may be operated.
It is desirable that the resistance value of the resistor R1 be high. From the above, the resistance value of the resistor R1 is several hundred KΩ to
With a range of several tens of MΩ, a predetermined effect can be obtained.

Note that the present invention is not limited to the above embodiment, and the case where the shield plate 6 is not connected to the ground level 26 has been described. However, the shield plate 6 is connected to the ground level 26. It has become possible. Further, the case where the resistor R1 is provided on the side of the indoor unit 31 has been described, but the resistor R1 may be provided on the side of the outdoor unit 41.

[0028]

According to the air conditioner of the present invention, a heat exchanger for exchanging heat with indoor air and a blower fan for blowing air into the room are provided inside a housing. ,
The present invention is applied to an air conditioner provided with a discharge electrode and a dust collecting electrode, and has a configuration in which a metal part connected to a ground level inside the housing is connected to a commercial power supply line via a resistor. That is, the pair of commercial power lines are connected to the same coil of the transformer. One line is connected to earth ground. Therefore, in terms of DC,
Both commercial power lines are equivalent to being connected to earth ground. For this reason, the ground level is equivalent to a state in which the ground level is connected to the earth through a resistor.
Even when the earth cannot be grounded, it is possible to prevent the housing from being charged.

An air conditioner according to a second aspect of the present invention is applied to an air conditioner provided with a ground terminal connected to the ground level, and when the ground terminal is connected to a ground, the resistance of the air conditioner is reduced. When the current flowing through the circuit is a leakage current, the resistance value of the resistor is set to a value such that the leakage current is smaller than the current for operating the leakage breaker provided in the commercial power supply line. For this reason, even when the ground terminal is connected to the earth ground, the leakage current value flowing through the resistor remains smaller than the current value for activating the earth leakage breaker, so that even when the ground terminal is connected to the earth ground. Thus, the operation of the earth leakage breaker can be prevented.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a schematic cross-sectional view and an electrical configuration of an indoor unit of an embodiment of an air conditioner according to the present invention.

FIG. 2 is a sectional view showing details of an indoor unit.

[Description of Signs] 1 housing 2 back panel 3 heat exchanger 4 discharge electrode 5 dust collecting electrode 7 supporting iron plate 10 blower fan 21, 22 path for connection to ground level 23 ground level of indoor unit and outdoor unit 24, 25 Commercial power line 26 Ground level 34 Ground terminal 62 Earth leakage breaker R1 Resistor

Claims (2)

[Claims] At least a discharge electrode and a dust collection electrode are provided inside a housing provided with a heat exchanger for exchanging heat with indoor air and a blower fan for blowing air into the room. An air conditioner, wherein a metal part connected to a ground level inside the housing is connected to a commercial power line via a resistor. 2. An air conditioner provided with a ground terminal connected to the ground level, wherein when the ground terminal is connected to the earth ground, a current flowing through the resistor is a leakage current. 2. The air conditioner according to claim 1, wherein the resistance value of the air conditioner is such that the leakage current is smaller than a current for activating a leakage breaker provided in the commercial power supply line.