JP2002122336A - Room air controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent abnormal discharge or interelectrode leakage from occurring in a room air controller and improve the safety thereof by removing foreign materials such as dust or moisture sticking to an ion generating element. SOLUTION: The room air controller comprises an ion generating element 7, a current detecting element 5 for detecting the value of current flowing in the electrodes of the ion generating element 7, a foreign material removing means for removing foreign materials sticking to the ion generating element 7 and a control means for operating the foreign material removing means when the value of current detected by the current detecting element 5 exceeds a predetermined one.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor air control device such as an air conditioner, an air purifier, a dehumidifier, and a humidifier provided with an ion generating element.

[0002]

2. Description of the Related Art In recent years, as the living environment has become more airtight, there has been an increasing demand for removing harmful airborne bacteria in the air and living a healthy and comfortable life. To meet this demand, air conditioners equipped with various filters have been developed.

[0003]

However, in such an air conditioner or the like, since the air in the space is sucked and the contaminants are adsorbed or decomposed by the filter, it is necessary to replace the filter for a long time. Maintenance is indispensable, and the characteristics of the filter are not sufficient, so that satisfactory performance has not been obtained.

[0004] On the other hand, air conditioners and air purifiers which increase the ion concentration in the air using an ion generator have been developed, but those currently on the market only generate negative ions. Therefore, although the effect of relaxing humans by negative ions can be expected to some extent,
Very little has been observed about the active removal of airborne bacteria.

In addition, such a conventional ion generator generates a negative ion from a discharge needle using a direct current high voltage method or a pulse high voltage method, and thus requires a high voltage of 5 kV or more. Therefore, there is a problem that a large amount of dust adheres to products and peripheral devices. Furthermore, if water adheres to the electrodes due to the use of a high voltage, a leak occurs, and there is a problem in the safety of the equipment.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and automatically removes foreign matters such as dust and moisture attached to an ion generating element to prevent abnormal discharge and leak between electrodes. And improve the safety of the equipment.

[0007]

An indoor air control apparatus according to the present invention is provided with an ion generating element, current value detecting means for detecting a current value flowing through an electrode of the ion generating element, and a current value detecting means disposed near the ion generating element. A foreign matter removing means for removing foreign matter adhered to the ion generating element, and a control means for operating the foreign matter removing means in response to the current value detected by the current value detecting means becoming a predetermined value or more. .

For example, when foreign matter adheres to the electrodes of the ion generating element, a leak or the like occurs between the electrodes, and the current flowing through the electrodes changes. Therefore, by detecting the value of the current flowing through the electrode of the ion generating element, it is possible to detect whether or not foreign matter such as water or dust has adhered to the ion generating element. As described above, since the foreign matter removing means can be operated by the control means in response to the detection of the foreign matter attached to the ion generating element, the foreign matter attached to the ion generating element can be removed.

The indoor air control device includes a high pressure circuit for generating ions, and the control means preferably activates the foreign matter removing means while turning off the high pressure circuit. By turning off the high voltage circuit by the control means in this way, electric shock and the like can be prevented, and safety can be improved.

The control means activates the foreign substance removing means in response to the current value detected by the current value detection means being equal to or greater than the first current value, and sets the foreign matter removal means to a second current value smaller than the first current value. The foreign matter removing means may be stopped in response to the change. In this case, it is possible to automatically return to the normal operation in response to the removal of the foreign matter.

The control means activates the foreign substance removing means in response to the current value detected by the current value detection means being equal to or greater than the first current value, and controls the second current value larger than the first current value. In response to the above, the high voltage circuit may be turned off. In this case, the high voltage circuit can be turned off when there is no effect of the foreign matter removing means, and safety can be ensured.

The ion generating element is rotatably provided, and the indoor air control device includes a rotating means for rotating the ion generating element, and the control means activates the rotating means to operate the foreign matter removing means while rotating the ion generating element. It may be the one that causes it. In this case, foreign matter can be uniformly removed without unevenness.

[0013] The foreign matter removing means includes a heating element, a blowing element and the like. Indoor air control devices include air conditioners, air purifiers,
Includes dehumidifier and humidifier.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS.

(Embodiment 1) FIG. 1 is a diagram showing an ion generating element 7 and a power supply control unit 8 according to Embodiment 1 of the present invention.

As shown in FIG. 1, the ion generating element 7
Cylindrical glass tube 1, ground electrode 2, voltage application electrode 3
And an AC high-voltage power supply 4. This ion generating element 7
Is provided with foreign matter removing means for removing foreign matter attached to the ion generating element 7.

The cylindrical glass tube 1 has an inner diameter of 10 m, for example.
m, a 1.3 mm thick, 150 mm long cylindrical Pyrex (registered trademark) glass tube. The ground electrode 2 has a wire diameter of 0.4 mm, an opening number of 16 mesh, and a length of 8
It has a mesh shape of 0 mm stainless steel 304 and is wound around the outside of the cylindrical glass tube 1. Voltage application electrode 3
Has a wire diameter of 0.18 mm, an opening number of 40 mesh, and a length of 8
It has a mesh shape of 0 mm stainless steel 304 and is installed inside the cylindrical glass tube 1. The AC high-voltage power supply 4 applies an AC voltage to the voltage application electrode 3.

The power supply control unit 8 includes the current detection element 5
And a high-voltage circuit for generating ions including a power switch 6 and control means (not shown). The current detection element 5 is connected to the ground electrode 2 and detects a current value flowing through the ground electrode 2 when a voltage is applied. This current value is input to the control means, and the power switch 6 is turned on / off by the control means according to the current value. That is, the high voltage circuit for generating ions including the power switch 6 is on / off controlled. Also,
In accordance with the current value detected by the current detection element 5, the operation of the foreign matter removing means is also controlled by the control means.

By applying an AC voltage having an effective voltage of 1.6 kV and a frequency of 20 kHz to the ion generating element 7 having the above configuration, generation of ions is confirmed. At this time, the current flowing through the ground electrode 2 is about 1.2 mA. Met.

Here, the principle of removing floating bacteria along with the principle of generating ions will be described. By applying the above AC high voltage between the electrodes of the ion generating element 7,
Ionization phenomena such as discharge occur in any atmospheric state,
Positive and negative ions are generated. At this time, H ⁺ (H ₂ O) n is used as a positive ion, and O ₂ ⁻ (H ₂
O) n is most stably generated. These ions alone or positively have no special effect on airborne bacteria.

However, when these ions are generated simultaneously, hydrogen peroxide H ₂ O ₂ or radical OH, which is an active species, is generated by a chemical reaction. The H ₂ O ₂ or radical OH exhibits an extremely strong activity, so that airborne bacteria in the air can be removed.

However, a water droplet is made to adhere to the ground electrode 2,
When the same AC voltage as above was applied, no generation of ions from the element was observed, and at this time, the value of the current flowing through the ground electrode 2 was about 200 mA.

The reason why the current value was increased and no ions were generated as described above is that foreign matters such as water droplets were
Leaks at the ground electrode 2 by adhering to the
It is considered that the discharge did not occur. When ions are no longer generated, active species H ₂ O ₂ or radical OH due to the reaction between positive ions and negative ions is not generated, and it becomes impossible to remove airborne bacteria in the air. Further, the occurrence of a leak at the ground electrode 2 increases the risk of electric shock and the like, and causes a problem in safety.

If foreign matter such as dust adheres to the ground electrode 2, abnormal discharge may occur. In this case as well, not only no ions are generated, but also a problem occurs in safety.

The inventor of the present application has proposed a method for detecting that foreign matter has adhered to the ion generating element 7 including the ground electrode 2 in order to avoid the above-described leakage and abnormal discharge at the electrode portion. Was studied, and it was conceived to detect a current value flowing through the electrode portion.

The current detecting element 5 causes the ground electrode 2
In response to the detection that the value of the current flowing through the ion generator has become equal to or greater than a predetermined value (for example, 200 mA), the control means activates the foreign matter removing means to remove the foreign matter adhered to the ion generating element 7. The power switch 6 is automatically turned off by the means.

As a result, it is possible to prevent abnormal discharge or the like due to adhesion of leaks or dust which occurs when dew condensation occurs on the element during the operation of the air conditioner, thereby solving the problem of safety.

The current value detected by the current detecting element 5 by the control means is equal to the first current value (for example, 200 m).
A) In response to the above, the foreign matter removing means is activated,
A second current value smaller than the first current value (for example, 150 m
A) The foreign matter removing means may be stopped in the following cases. In this case, it is possible to automatically return to the normal operation in response to the removal of the foreign matter.

Further, the control means activates the foreign substance removing means in response to the current value detected by the current detecting element 5 being equal to or greater than the first current value, and sets the third current value larger than the first current value.
The power switch 6 may be turned off in response to the current value (for example, 300 mA) or more. In this case, the power switch 6 can be turned off when there is no effect of the foreign matter removing means, and safety can be ensured.

FIG. 2 is a cross-sectional view of an air conditioner provided with the above-mentioned ion generating element 7 and power supply control unit 8.

As shown in FIG. 2, the air conditioner includes an ion generating element 7, a power supply control unit 8, an air outlet 9, an air inlet 10, a heat exchanger 11, and a fan 12.
Note that the air conditioner includes foreign matter removing means (not shown).

The air in the room is sent from the air inlet 10 into the casing of the air conditioner according to the arrow shown in FIG.
After performing heat exchange when passing through the heat exchanger 11, the heat is sent into the room again by the fan 12. At this time, airborne bacteria in the air can be removed by utilizing the ions generated by the ion generating element 7.

(Embodiment 2) Next, Embodiment 2 of the present invention will be described with reference to FIG. FIG. 3 is a cross-sectional view illustrating the ion generating element 7 and the blowing element 14 according to Embodiment 2 of the present invention. In FIG. 3, the power supply control unit 8 is not shown.

In the second embodiment, the ion generating element 7 is rotatable, and the air conditioner includes a rotating shaft 13 for rotating the ion generating element 7 and a rotating means (not shown).
And a blower element 14 as foreign matter removing means. Other configurations are the same as those in the first embodiment.

The rotating means and the blowing element 14 are connected to control means (not shown), and the control means controls the operation of the rotating means and the blowing element 14. Specifically, the current value detected by the current detection element 5 is a predetermined value (for example, 2
The rotation means and the air blowing element 14 are actuated in response to the current being equal to or more than 00 mA) to rotate the ion generating element 7 and blow air to the ground electrode 2.

Accordingly, dust adhering to the ground electrode 2 can be blown off evenly over the entire ion generating element 7 and water adhering to the ground electrode 2 can be evaporated.
As a result, it is possible to prevent abnormal discharge caused by leakage due to dew condensation and dust adhesion, and to keep the ion generating element 7 clean without maintenance.

(Third Embodiment) Next, a third embodiment of the present invention will be described with reference to FIG. FIG. 4 is a sectional view showing the ion generating element 7 and the heating element 15 according to Embodiment 3 of the present invention. In FIG. 4, the power supply control unit 8 is not shown.

Also in the present embodiment, the ion generating element 7 is rotatable, and the air conditioner has a rotating shaft 1.
3 and rotating means (not shown), and a heating element 15 as foreign matter removing means. Other configurations are the same as those in the first embodiment.

The rotating means and the heating element 15 are connected to control means (not shown), and the control means controls the operation of the rotating means and the heating element 15. Specifically, the current value detected by the current detection element 5 is a predetermined value (for example, 2
The rotation means and the heating element 15 are actuated in response to the pressure of not less than 00 mA) to rotate the ion generating element 7 and heat the electrodes of the ion generating element 7.

As a result, water adhering to the electrodes of the ion generating element 7 can be entirely evaporated, and leakage due to condensation can be prevented. In addition, ions can be generated without causing a leak while operating the ion generating element 7.

The above-described concept of the present invention can be applied to other indoor air control devices such as an air purifier, a dehumidifier, and a humidifier. In this case, the same effect can be expected. Further, the characteristic configurations described in each embodiment can be combined with each other.

Although the embodiments of the present invention have been described above, it should be understood that the embodiments disclosed herein are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the terms of the claims, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

[0043]

As described above, according to the present invention,
Detecting that foreign matter such as dust or moisture has adhered to the electrode of the ion generating element and removing the foreign matter, it is possible to avoid abnormal discharge, leak between electrodes, etc., and to ensure the safety of equipment. Can be improved.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an ion generating element and a control unit according to a first embodiment of the present invention.

FIG. 2 is a sectional view of the air conditioner according to Embodiment 1 of the present invention.

FIG. 3 is a cross-sectional view showing an ion generating element and a blowing element according to Embodiment 2 of the present invention.

FIG. 4 is a sectional view showing an ion generating element and a heating element according to a third embodiment of the present invention.

[Explanation of symbols]

1 cylindrical glass tube, 2 ground electrode, 3 voltage application electrode, 4 AC high voltage power supply, 5 current detection element, 6 power switch, 7 ion generation element, 8 power control unit,
9 air outlet, 10 air inlet, 11 heat exchanger, 12 fan, 13 rotation axis, 14 blower element, 15 heating element.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B03C 3/74 B03C 3/74 Z 3/80 3/80 F24F 1/00 371B F-term (Reference) 3L051 BC02 4C080 AA09 BB02 CC01 KK02 QQ17 4D054 AA13 BA19 BB30 CA19 EA11 EA24 EA30

Claims (8)

[Claims] An ion generating element; a current value detecting means for detecting a value of a current flowing to an electrode of the ion generating element; and a foreign substance attached to the ion generating element and disposed near the ion generating element. And a control means for operating the foreign matter removing means in response to the current value detected by the current value detecting means being equal to or greater than a predetermined value. 2. The indoor air control device according to claim 1, further comprising a high-pressure circuit for generating ions, wherein the control unit activates the foreign matter removing unit while turning off the high-pressure circuit. 3. The control means activates the foreign matter removing means in response to the current value detected by the current value detecting means being equal to or greater than a first current value, and is smaller than the first current value. The indoor air control device according to claim 1, wherein the foreign matter removing unit is stopped when the current value becomes equal to or less than the second current value. 4. The control means activates the foreign matter removing means in response to the current value detected by the current value detecting means being equal to or greater than a first current value, and is larger than the first current value. The indoor air control device according to claim 2, wherein the high-pressure circuit is turned off in response to the current value being equal to or more than the second current value. 5. The method according to claim 1, wherein the ion generating element is rotatably provided.
2. The indoor air control device according to claim 1, further comprising a rotating unit configured to rotate the ion generating element, wherein the control unit operates the foreign substance removing unit while operating the rotating unit to rotate the ion generating element. 3. . 6. The foreign matter removing means includes a heating element.
The indoor air control device according to any one of claims 1 to 5. 7. The foreign matter removing means includes a blower element.
The indoor air control device according to any one of claims 1 to 5. 8. The indoor air control device includes: an air conditioner;
The indoor air control device according to any one of claims 1 to 7, including an air purifier, a dehumidifier, and a humidifier.