KR100906465B1 - Minus ion generator - Google Patents

Abstract

An anion generator is provided, which obtains the performance effect that is visually fun and reduces the manufacturing cost. An anion generator comprises: a discharge electrode(1) in which the leading end is arranged in order to face downstream based on the ionic flow; an opposing electrode(2) arranged in the downstream side of the discharge electrode; a driving performance member(3) producing the visual impression; a receiving container(14) receiving the liquor for diffusing the active ingredient; a liquor transpiration part(15) emitting the active ingredient of liquor to the atmosphere; and an electrode for the liquor for authorizing the minus potential about the liquor within the receiving container.

Description

Negative ion generator {MINUS ION GENERATOR}

The present invention relates to an anion generator that generates anion and releases it in the air such as a room.

DESCRIPTION OF RELATED ART The ion generating apparatus which generate | occur | produces a cation or an anion and discharge | releases to a room etc. conventionally is proposed. Such an ion generating device includes a discharge ion generating device for generating ions from the tip of a needle by applying a high voltage to a needle-shaped electrode for ionization, and releasing the generated ions into a room by blowing with a fan or the like. It is done. It is disclosed that such an ion generating device is an air blowing mechanism that replaces a fan, and can be applied to an ion wind generating device that generates air by the kinetic energy of positive ions. Moreover, in order to give a relaxation effect and a refreshing effect, the provision of the mechanism which disperses aroma substance is also performed (for example, Japanese Patent Laid-Open No. 11-265780). report).

However, in the conventional ion generating device, since the discharge ion generating device and the blowing mechanism for dissipating the ions generated from the discharge ion generating device in the room are separately provided, the device becomes large and requires a lot of cost. It is supposed to be. It wasn't just generating ions, it wasn't creating a visually interesting effect.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and provides an anion generator that can be manufactured at a very compact and low cost by using a blowing mechanism and an anion generating mechanism, and also obtains a visually interesting directing effect. It is for that purpose.

In order to achieve the above object, the anion generator of the present invention is a discharge electrode having a tip disposed so as to be downstream of the ion wind flow to be generated, and the opposite side disposed to follow the flow of ion wind on the downstream side of the discharge electrode An electrode is provided, and a negative potential is applied to the discharge electrode to generate a corona discharge, and the negative ions generated at this time generate ionic wind, and move downstream from the counter electrode to the wind of the generated ionic wind. The summary is further provided with the movable direction member which produces | generates.

That is, the negative ion generator of the present invention applies a negative potential to the discharge electrode to corona discharge, generates ion wind of the anion, and diffuses the generated anion into the wind of the ion wind. In this way, since negative ions are generated and diffused into the room by the ion wind, mental stability and relaxation effects by the negative ions can be obtained. In addition, since the blower mechanism and the negative ion generating mechanism are used together by the discharge electrode and the counter electrode, the apparatus is miniaturized and the cost is reduced. Further, since the movable directing member is provided on the downstream side of the counter electrode further to produce visual effects by moving with the generated wind of the ion wind, not only negative ions are generated, but also visually interesting directing effects can be obtained.

In the present invention, the discharge electrode is formed of a plurality of carbon fibers cut to a predetermined length, and when the corona discharge is generated from the tip of each carbon fiber to generate the ion wind, the discharge electrode is dispersed and discharged from the tip of each carbon fiber to generate the ion wind. By generating, compared with the case of using the conventional needle-shaped discharge electrode, ion wind can generate | occur | produce strong wind with a little electric power, and the torque which moves a movable direction member is strong. In addition, the metal itself does not deteriorate like a needle-shaped discharge electrode made of metal, and it is possible to stably generate anions and ion winds over a long period of time, and thus it is greatly superior in terms of reliability and lifespan. In addition, since the discharging discharge is caused by the small electric power, the amount of ozone generation that causes the surrounding oxidation and the irritating odor is greatly reduced, and the adverse effect of the ozone on the surrounding environment is eliminated.

In the present invention, when the discharge electrode and the counter electrode are arranged in series in plural sets along the flow direction of the ion wind, since the ion wind is generated from the plurality of sets of discharge electrodes and the counter electrode arranged in series, more While generating negative ions, the torque for moving the movable directing member can generate stronger ion wind.

In the present invention, when the discharge electrode and the counter electrode are arranged in plural sets in parallel with the flow direction of the ion wind, since the ion wind is generated from the plurality of sets of the discharge electrode and the counter electrode arranged in parallel, more While generating negative ions, the torque for moving the movable directing member can generate stronger ion wind.

In the present invention, an accommodating container for accommodating a liquid agent for diffusing the active ingredient, and a liquid-producing unit for dispersing the active ingredient of the liquid agent to the atmosphere, disposed upstream or downstream of the discharge electrode. When further provided, the active ingredient naturally evaporated from the liquid transpiration unit is diffused into the room together with the anion by the force of the ion wind, and the active ingredient diffuses into the room while attaining mental stability and relaxation effect by the anion. Effects can also be obtained at the same time.

In the present invention, in the case of further comprising a liquid electrode for applying a negative potential to the liquid in the container, in order to apply a negative potential to the liquid, the electrons are emitted to the liquid to prevent oxidation of the liquid. do. Therefore, it becomes possible to slow down the deterioration rate of a liquid liquid, to maintain freshness, and to make a liquid liquid long.

In the present invention, a positive or negative potential is applied in a state of facing the outer wall of the container, and further includes a polarization electrode for dielectric polarization of the container, and at least one electrode for polarization of the container; In the case where the facing portion is formed of a dielectric, the liquid is exposed in the electric field by dielectric polarization of the portion formed of the dielectric of the liquid container. As a result, an electric field acts on the electron orbits of the molecules constituting the liquid agent, and electrons are prevented from protruding from the electron orbits of the molecules. Therefore, the oxidation of the liquid molecules is prevented, the deterioration rate of the liquid agent is slowed down, freshness can be maintained, and the liquid agent can be made long.

In the present invention, a liquid liquefied portion is disposed on an upstream side of the discharge electrode, and a second discharge electrode whose tip is disposed so as to face the liquid liquefied portion between the discharge electrode and the liquid oxidized portion and the ion on the tip side of the second discharge electrode. When further provided with the 2nd counter electrode arrange | positioned so that the flow of wind may flow, since the ion wind generated by the 2nd discharge electrode and the 2nd counter electrode acts directly on a liquid vaporization part, the active component which naturally evaporates It is widely spread by ion wind.

In the present invention, the liquid product transpiration section includes a liquid surface of the liquid solution contained in the accommodating container, and when the second discharge electrode is applied with a negative potential to eject ion wind containing anions toward the liquid surface, the ion wind The anion transferred by the liquid is injected directly to the liquid level of the liquid, and the electrons are applied to the liquid to prevent oxidation of the liquid. Therefore, it becomes possible to slow down the deterioration rate of a liquid liquid, to maintain freshness, and to make a liquid liquid long.

Next, the best mode for implementing this invention is demonstrated.

1 and 2 are views showing one embodiment of an anion generator to which the present invention is applied and a discharge electrode of the embodiment.

This negative ion generator has a discharge electrode 1 having a tip disposed inside the cylindrical frame 18 so as to be directed downstream of the generated ion wind, and a counter disposed to follow the flow of the ion wind downstream from the discharge electrode 1. On the downstream side of the electrode 2, the counter electrode 2, the movable directing member 3 which moves by the wind power of the generated ion wind to produce a visual effect, and a container for a liquid agent disposed below the discharge electrode 1 (14) is accommodated and comprised.

In more detail, in this example, the discharge electrode 1 is arrange | positioned so that the front-end | tip may face toward an upper opening along the longitudinal direction of the cylindrical frame 18, and the cylindrical counter electrode 2 above the discharge electrode 1 will be described. ) Is arranged concentrically with the cylindrical frame 18. The discharge electrode 1 is located approximately at the center of the counter electrode 2 in plan view. The counter electrode 2 is supported by the cylindrical frame 18 by the support member 28, and the discharge electrode 1 is supported by the support member 29. As shown in FIG. Moreover, the air introduction port 20 is formed in the side surface of the height where the discharge electrode 1 of the cylindrical frame 18 was supported.

In this state, when a negative potential is applied to the discharge electrode 1 and a positive potential is applied to the counter electrode 2, corona discharge occurs at the tip of the discharge electrode 1, and is opposed from the tip of the discharge electrode 1. Electrons are emitted toward the inner surface of the electrode 2. The flow of emitted electrons is accelerated by the high electric field and collides with gas molecules, imparting kinetic energy to the gas molecules and becoming an electromagnetic induced wind of air to create airflow. At this time, some of the electrons are trapped in the outer shell of the bond activation of the gas molecules to become negatively charged negative ion molecules. Therefore, the electromagnetic induction wind is a stream of the ion wind containing anion molecules.

In this way, the ion wind generated by applying a direct current potential to the discharge electrode 1 and the counter electrode 2 becomes an air flow from the bottom of the cylindrical frame 18 upwards, and the ion wind containing anion molecules is formed in the upper opening ( 19 is discharged into the room, and outside air is taken in from the air inlet 20.

On the downstream side of the counter electrode 2, that is, in the vicinity of the upper opening 19 of the cylindrical frame 18, a movable directing member 3 which moves by wind power of the generated ion wind to produce a visual effect is arranged. The movable direction member 3 is attached to the cylindrical frame 18 by the support member 30. In the example shown in figure, the example which applied the propeller which rotates by the ion wind of an upward airflow as the movable direction member 3 is shown. The movable directing member 3 is not a seed limited to this, but receives ion winds such as fibers, landscapes, dolls, and the like, in which LEDs are attached to a root and formed in a resin form. Various things can be applied as long as visual effect is obtained by movement.

On the other hand, in the upstream side of the discharge electrode 1, in this example, the accommodating container 14 which accommodates the liquid agent 13 for spreading an active component is arrange | positioned at the bottom part of the cylindrical frame 18. As shown in FIG. In addition, an absorber such as a felt or a sponge for sucking up and evaporating the liquid agent 13 is disposed so that the lower part is immersed in the liquid agent and the upper part protrudes from the upper opening of the accommodation container 14. The protruding portion of the absorber functions as the liquid product transpiration section 15 for evaporating the liquid solution 13 to the atmosphere. The liquid vaporizer 15 is disposed on the upstream side of the discharge electrode 1, and when the outside air received from the air inlet 20 becomes ion wind to dissipate into the room from the upper opening 19, The active ingredient evaporated from 15 is received and dissipated from the upper opening 19 into the room.

As the liquid agent 13, for example, a fragrance agent can be applied to disperse the fragrance components in the room together with anion molecules by ion wind. As the liquid agent 13, it is not limited to a fragrance | flavor, For example, various things, such as an odor remover, an insect repellent, an insecticide, a repellent, and a fungicide, can be applied.

2 is a view showing details of the discharge electrode 1. The discharge electrode 1 is formed of a plurality of carbon fibers 6 cut to a predetermined length, and generates corona discharge from the tip of each carbon fiber 6 to generate ion wind.

In this example, a large number of carbon fibers 6 are bundled, and an insulating rubber member 7 formed in an annular shape is wound, and the outer side thereof is caulked with a binding member 8 of a metal ring to bind it. The terminal member 9 made of metal is wound up again to form the base part. A portion of the rubber member 7 or the binding member 8 is supported by the support member 29, and a negative potential is applied to the terminal member 9. Further, the bundled carbon fibers 6 are cut off in a straight line in a direction orthogonal to the longitudinal direction X according to the generated airflow.

By applying a negative potential to the discharge electrode 1 comprised as mentioned above, corona discharge is produced from the tip of each carbon fiber 6, and strong ion wind can generate | occur | produce strong wind with a weak electric power. In addition, since the corona discharge is generated by the weak electric power, the amount of ozone generated decreases.

As described above, according to the negative ion generator of this embodiment, a negative potential is applied to the discharge electrode 1 to cause corona discharge to generate negative ion wind, and the generated negative air is blown by the wind of the ion wind. As described above, since negative ions are generated and diffused into the room by ion wind, mental stability and relaxation effects by the negative ions can be obtained. In addition, since the blower mechanism and the negative ion generating mechanism are used together by the discharge electrode 1 and the counter electrode 2, the apparatus is miniaturized and the cost is reduced. Moreover, since the movable directing member 3 which moves downstream with the counter electrode 2 by the generated wind of the ion wind and produces a visual effect, not only negative ions generate | occur | produce but also the visually interesting directing effect is provided. You can also get

In addition, the discharge electrode 1 is formed of a plurality of carbon fibers 6 cut to a predetermined length, and in order to generate an ion wind by corona discharge from the tip of each carbon fiber 6, By generating the ion wind by discharging the discharge from the tip, the ion wind can be generated with a strong wind power and a strong torque for moving the movable directing member 3 as compared with the case of using a conventional needle-shaped discharge electrode. In addition, the metal itself does not deteriorate like a needle-shaped discharge electrode made of metal, and it is possible to stably generate anions and ion winds over a long period of time, resulting in significantly superior reliability and lifespan. In addition, since the discharging discharge is caused by the small electric power, the amount of ozone that causes the surrounding oxidation and the irritating odor is greatly reduced, and the adverse effect of the ozone on the surrounding environment is eliminated.

In addition, there is further provided an accommodation container 14 for accommodating the liquid agent for diffusing the active ingredient, and a liquid vaporizer 15 for dispersing the active ingredient of the liquid agent to the atmosphere, which is disposed upstream of the discharge electrode 1. As a result, the active ingredient naturally evaporated from the liquid evaporating unit 15 diffuses into the room together with the negative ions by the force of the ion wind, thereby obtaining mental stability and relaxation effect due to the negative ions, and the active ingredient diffuses into the room. The effect can be obtained at the same time.

3 is a view for explaining the negative ion generator of the second embodiment of the present invention.

In this embodiment, the liquid vaporizer 15 is disposed on the upstream side of the discharge electrode 1, and the tip is disposed between the discharge electrode 1 and the liquid vaporizer 15 to face the liquid vaporizer 15. 2nd discharge electrode 23 and the 2nd counter electrode 24 arrange | positioned at the front end side of the 2nd discharge electrode 23 are further provided.

In more detail, the second discharge electrode 23 is formed by being bundled with carbon fibers 6 similarly to the discharge electrode 1, and faces the side opposite to the discharge electrode 1 below the discharge electrode 1. The tip is placed downward so that the tip is downward. The second counter electrode 24 is formed in a ring shape in this example, and is arranged concentrically with the cylindrical frame 18, and the second discharge electrode 23 is located at a substantially center position in a plan view of the second counter electrode 24. ) Is arranged.

And the air inlet 20 is formed in the high position where the discharge electrode 1 and the 2nd discharge electrode 23 are arrange | positioned at the side surface of the cylindrical frame 18, and is below the 2nd counter electrode 24. The active ingredient dissipation opening 25 is opened.

A negative potential is applied to the second discharge electrode 23, and a positive potential is applied to the second counter electrode 24. In this way, ion wind is generated from the second discharge electrode 23 toward the second counter electrode 24, that is, from the top to the bottom, in the same manner as described above. Then, the ion wind generated in the second discharge electrode 23 and the second counter electrode 24 receives the active component evaporated from the liquid-based evaporation unit 15 and is dissipated to the outside from the active component dispersing port 25. Outside air is taken in from the air inlet 20.

According to this embodiment, since the ion wind generated by the second discharge electrode 23 and the second counter electrode 24 acts directly on the liquid vaporization section 15, the active ingredient naturally evaporated is caused by the ion wind. It is widely spread. In addition, since anion molecules are also generated by the second discharge electrode 23 and the second counter electrode 24, the mental stability and relaxation effect by the anion are doubled.

In addition, the liquid liquid transpiration section 15 includes a liquid level 16 of the liquid contained in the container 14, and a part of the ion wind flowing downward acts directly on the liquid level 16. As described above, since the negative potential is applied to the second discharge electrode 23 and the ion wind containing the anion is injected toward the liquid surface 16, the anion transferred by the ion wind is applied to the liquid surface 16 of the liquid agent 13. Direct injection is carried out, and electrons are applied to the liquid agent 13 to prevent oxidation of the liquid agent 13. Therefore, it becomes possible to slow the deterioration rate of the liquid agent 13, to maintain freshness, and to make the liquid agent 13 last longer.

In this embodiment, since the counter electrode 2 for moving the movable directing member 3 is disposed so that the electrode surface conforms to the air flow of the ion wind, the flow of electrons for generating the ion wind is accelerated. The wind power of the ion wind for moving the movable direction member 3 becomes strong. On the other hand, since the ion wind for diffusing the active ingredient may be weaker than the ion wind for moving the movable directing member 3, the second counter electrode for generating the ion wind for diffusing the active ingredient of the liquid agent 13 Since the length of the direction of the airflow direction was shortened by making 24 into a ring shape, the size of an apparatus can be made small and the installation efficiency can be improved.

Other than that is the same as that of 1st Example, The same code | symbol is attached | subjected to the same part. Also in this embodiment, the same effects as in the first embodiment can be obtained except for the above-described effects.

4 is a view for explaining the negative ion generator of the third embodiment of the present invention.

In this embodiment, a plurality of sets of discharge electrodes 1 and counter electrodes 2 are arranged in series in the flow direction of the ion wind. That is, the set of the discharge electrode 1 and the counter electrode 2 is arrange | positioned up and down two stages. In addition, the air inlet 20 is formed in each of the height positions of the two upper and lower discharge electrodes 1 in the cylindrical frame 18.

In this example, ion wind is generated from the upper and lower discharge electrodes 1 and the counter electrode 2, respectively. The ion wind generated at the lower discharge electrode 1 and the counter electrode 2 passes through the counter electrode 2 at the upper end. At this time, the ion wind generated at the discharge electrode 1 and the counter electrode 2 generated at the lower end is given kinetic energy by electrons emitted from the discharge electrode 1 at the upper end, and the ion wind is accelerated, and the ion wind of stronger wind power And acts on the movable directing member 3.

As a result, ion wind is generated from the plurality of sets of discharge electrodes 1 and the counter electrode 2 arranged in series, thereby generating more negative ions and generating a stronger ion wind for the torque moving the movable directing member 3. Can be generated.

On the other hand, under the discharge electrode 1 at the lower side, the second discharge electrode 23 and the second counter electrode 24 are disposed similarly to the second embodiment, and the lower portion generates ion wind, thereby producing a liquid liquefied part ( 15) and the active ingredient evaporated from the liquid level 16 as a part of the liquid brewing unit 15 is carried in ion wind to dissipate from the active ingredient discharging port 25.

In this aspect, the second discharge electrode 23 and the second counter electrode 24 may not be provided as in the first embodiment. Moreover, although the example which provided the set of the discharge electrode 1 and the counter electrode 2 in two stages was shown in the figure, it is not limited to this, It can also arrange | position three or more stages.

Other than that is the same as that of 1st and 2nd Example, The same code | symbol is attached | subjected to the same part. Also in this embodiment, the same effects as those of the first and second embodiments can be obtained except for the above-described effects.

Fig. 5 is a diagram for explaining the negative ion generator of the fourth embodiment of the present invention.

In this embodiment, the discharge electrode 1 and the counter electrode 2 are arranged in plural sets in parallel with the flow direction of the ion wind.

In this example, the three cylindrical counter electrodes 2 are arranged to form an equilateral triangle in plan view, and the three discharge electrodes 1 are arranged at approximately the center position of the corresponding counter electrode 2. And the rotation center of the propeller as the movable direction member 3 is arrange | positioned so that it may be located in the center of the said equilateral triangle.

In this manner, ion wind is generated from the plurality of sets of discharge electrodes 1 and the counter electrode 2 arranged in parallel, thereby generating more negative ions and having a stronger torque for moving the movable directing member 3. Ion wind can be generated.

In the drawings, an example in which the three sets of discharge electrodes 1 and the counter electrode 2 are arranged in parallel has been shown. However, the present invention is not limited thereto, and two sets may be arranged in parallel, and four or more sets may be arranged in parallel. You can also place it.

In addition, in this aspect, the plurality of sets of discharge electrodes 1 and the counter electrodes 2 arranged in parallel may be further arranged in series in the direction along the flow of the ion wind. In this case, the sets of the discharge electrodes 1 and the counter electrodes 2 arranged above and below may be the same number, or may be different numbers. For example, one set of the discharge electrodes 1 and the counter electrode 2 is disposed above or below the three sets of the discharge electrodes 1 and the counter electrode 2, or the three sets of the discharge electrodes 1 are opposed to each other. Three sets of discharge electrodes 1 and counter electrodes 2 may be disposed above or below electrodes 2 in the same manner.

In this aspect, the second discharge electrode 23 and the second counter electrode 24 may be provided as in the second embodiment.

Other than that is the same as that of the said 1st-3rd embodiment, The same code | symbol is attached | subjected to the same part. Also in this embodiment, the same effects as those of the first to third embodiments can be obtained except for the above-described effects.

6 is a view for explaining the negative ion generator of the fifth embodiment of the present invention.

This embodiment further includes an electrode 33 for liquid preparation for applying a negative potential to the liquid agent 13 in the container 14.

In this example, the needle-shaped liquid 33 is dripped at the lower end of the discharge electrode 1, and the liquid 33 is formed on the liquid 13 so that its tip reaches the bottom face. It is immersed. A negative potential is applied to the liquid electrode 33 similarly to the discharge electrode 1.

In this way, in order to apply a negative potential to the liquid agent 13 in the container 14, the oxidation of the liquid agent 13 is prevented by emitting electrons to the liquid agent 13. Therefore, it becomes possible to slow the deterioration rate of the liquid agent 13, to maintain freshness, and to make the liquid agent 13 last longer. In particular, when the liquid agent 13 containing the component derived from nature is used, deterioration by oxidation of the component derived from the natural component is prevented, and it is effective for extending the life of the liquid agent 13 itself.

In this embodiment, as in the second embodiment, the second discharge electrode 23 and the second counter electrode 24 may be provided, and as in the third embodiment, the discharge electrode 1 and the counter electrode ( It is also possible to arrange a plurality of sets 2) in series or to arrange a plurality of sets of the discharge electrodes 1 and the counter electrodes 2 in parallel as in the fourth embodiment.

Other than that is the same as that of 1st-4th embodiment, The same code | symbol is attached | subjected to the same part. Also in this embodiment, the same effects as in the first to fourth embodiments can be obtained except for the above-described effects.

7 is a view for explaining the negative ion generator of the sixth embodiment of the present invention.

This embodiment further includes a polarization electrode 34 for applying a positive or negative potential in the state facing the outer wall of the container 14 so as to dielectrically polarize the container 14, and At least a portion of 14) facing the polarization electrode 34 is formed of a dielectric material.

In this example, as shown in FIG. 7A, the accommodating container 14 is formed of a resin that is a ferroelectric, and a plate-shaped polarizing electrode 34 is disposed on the bottom of the accommodating container 14. A negative potential is applied to the polarization electrode 34. As a result, as shown in FIG. 7B, the polarization electrode 34 is at a negative potential, and as a result, the bottom of the receiving container 14 formed of a ferroelectric material has a positive potential at the side facing the polarization electrode 34. The side in contact with the liquid agent 13 is dielectrically polarized at a negative potential.

As described above, the dielectric formed in the dielectric of the liquid container 13 accommodating container 14 is polarized so that the liquid material 13 is exposed in the electric field. As a result, an electric field acts on the electron orbit of the molecule which comprises the liquid agent 13, and an electron sticks out from the electron orbit of a molecule | numerator. Therefore, oxidation of the liquid agent molecule is prevented, the deterioration rate of the liquid agent 13 is slowed down, freshness can be maintained, and the liquid agent 13 can be made long. In particular, when the liquid agent 13 containing the component derived from nature is used, deterioration by oxidation of the component derived from the natural component is prevented, and it is effective for extending the life of the liquid agent 13 itself.

In the illustrated example, a negative potential is applied to the polarization electrode 34, but a positive potential is applied to the polarization electrode 34 so that the bottom of the receiving container 14 formed of a ferroelectric material is formed with the polarization electrode 34. You may make it dielectric-polarize so that the side which faced may be a negative electric potential, and the side which contacts the liquid agent 13 will be a positive electric potential. In this case, the same effect can be obtained. In addition, the polarization electrode 34 may be a polarized electrode, and the other electrode may be grounded to apply an alternating current. In these cases, the same effect can be obtained.

In this embodiment, as in the second embodiment, the second discharge electrode 23 and the second counter electrode 24 may be provided, and as in the third embodiment, the discharge electrode 1 and the counter electrode ( A plurality of sets 2) may be arranged in series, or a plurality of sets of the discharge electrodes 1 and the counter electrodes 2 may be arranged in parallel as in the fourth embodiment. Moreover, it is also possible to use together the liquid electrode 33 of 5th Example.

Other than that is the same as that of 1st-5th Example, The same code | symbol is attached | subjected to the same part. Also in this embodiment, the same effects as those of the first to fifth embodiments can be obtained except for the above-described effects.

8 is a view for explaining the negative ion generator of the seventh embodiment of the present invention.

This embodiment further includes an accommodating container 14 for accommodating the liquid agent 13 for diffusing the active ingredient, and a liquid vaporizer 15 for evaporating the active ingredient of the liquid agent 13 to the atmosphere, The liquid vapor deposition unit 15 is disposed downstream of the discharge electrode 1.

That is, the accommodating container 14 is arrange | positioned at the bottom of the cylindrical frame 18, and the discharge electrode 1 is provided so that the front end may face downward, ie, the liquid vaporizer 15, near the upper opening 19 of the cylindrical frame 18. ), And the counter electrode 2 is disposed below it. And the movable direction member 3 is arrange | positioned further downstream of the counter electrode 2. In this example, the movable directing member 3 is disposed between the counter electrode 2 and the liquid transpiration unit 15. And the active ingredient dissipation sphere 25 is formed in the position downstream, ie, a little lower than the height where the movable direction member 3 is arrange | positioned.

As a result, the ion wind generated by the discharge electrode 1 and the counter electrode 2 becomes the wind falling from the top to the bottom, and acts on the movable directing member 3, and at the same time, the liquid agent (e.g. The active ingredient of 13) is loaded and dissipated around from the active ingredient discharging port 25. With such a configuration, the ion wind generated in one direction can be caused to act on both the movable directing member 3 and the liquid product transpiration section 15, resulting in good equipment efficiency.

In this aspect, as in the third embodiment, a plurality of sets of the discharge electrode 1 and the counter electrode 2 are arranged in series, or the discharge electrode 1 and the counter electrode 2 as in the fourth embodiment. It is also possible to arrange a plurality of sets in parallel. In addition, the liquid electrode 33 of the fifth embodiment may be provided, or the polarization electrode 34 of the sixth embodiment may be provided.

Other than that is the same as that of the said 1st, 3rd-6th Example, The same code | symbol is attached | subjected to the same part. Also in this embodiment, the same effects as those of the first, third to sixth embodiments can be obtained except for the above-described effects.

9 shows a modification of the discharge electrode 1. (A) is a single needle discharge electrode 1a having one tip portion 36, (B) is a plurality of needle electrode discharge electrodes 1b having a plurality of tip portions 36, and (C) is a plate-shaped object. The plate-shaped discharge electrodes 1c and (D) having one end cut in a zigzag form and forming a plurality of tip portions 36 are rounded to form a cylindrical shape, and a plurality of tip portions 36 are formed at one end portion. It is a cylindrical discharge electrode 1d. As discharge electrode 1, although it is preferable to bundle carbon fiber 6 as mentioned above, it can also use the same thing as the above instead of such discharge electrode 1. As shown in FIG. Moreover, the same thing as the above can also be used as the 2nd discharge electrode 23. FIG.

10 shows a modification of the counter electrode 2. (A) is a rectangular cylindrical counter electrode (2a), (B) is a rectangular cylindrical tube, the end electrode 2b is wide open, (C) is a tubular counter electrode (2c), (D) is It is the counter electrode 2d arrange | positioned facing two plate-shaped electrodes. Although it is preferable to use a cylindrical thing as the counter electrode 2, a thing similar to the above can also be used instead of such a counter electrode 2. As shown in FIG. Moreover, the same thing as the above can also be used as the 2nd counter electrode 24. As shown in FIG.

This invention is not limited to each said Example, It is the meaning including each following modified example.

In each of the above embodiments, the absorber such as felt or sponge is immersed in the liquid agent 13 contained in the container 14 so that the liquid vaporizer 15 is projected from the opening of the container 14, but the absorber is used. Instead, only the liquid level 16 of the liquid agent 13 can be used as the liquid product transpiration section 15. Moreover, it is also possible to arrange | position the liquid liquid dilator 15 just a little distance from the accommodating container 14 through the flow path which guides the liquid liquid 13.

In each of the above embodiments, the active ingredient of the liquid formulation 13 is naturally evaporated. However, an ultrasonic atomizing device may be used to forcibly atomize the active ingredient to actively increase the active ingredient. In addition, the active ingredient can be actively increased by heating the liquid agent 13 with a heating device or the like.

In each of the above embodiments, anion molecules are generated by the discharge electrode 1 whose tip is generating the ion wind toward the counter electrode 2 side, but in addition, only the anion molecules do not contribute to the generation of the ion wind. You may make it produce the negative ion generation electrode to produce | generate.

In addition, in each said embodiment, although the exterior was made into the cylindrical frame, it is not limited to a cylindrical thing and various exterior shapes can be applied.

1 is a view showing an anion generator of one embodiment of the present invention, (A) is a perspective view, (B) is a sectional view.

2 is a view showing an example of a discharge electrode, (A) is a perspective view, (B) is a side view.

3 is a cross-sectional view showing an anion generator of a second embodiment of the present invention.

4 is a cross-sectional view showing an anion generator of a third embodiment of the present invention.

5 is a perspective view showing an anion generator of a fourth embodiment of the present invention.

6 is a cross-sectional view showing an anion generator of a fifth embodiment of the present invention.

Fig. 7 is a view showing the negative ion generator of the sixth embodiment of the present invention, (A) is a sectional view and (B) is an enlarged sectional view of the main portion.

8 is a perspective view showing an anion generator of a seventh embodiment of the present invention.

9 is a view showing modified examples of the discharge electrode.

10 is a view showing modified examples of the counter electrode.

[Explanation of symbols on the main parts of the drawings]

1: discharge electrode 1a-1d: discharge electrode

2: counter electrode 2a-2d: counter electrode

3: movable rendering member 6: carbon fiber

7: rubber member 8: binding member

9: terminal member 13: liquid

14: accommodating container 15: liquid product increasing unit

16: face level 18: cylindrical frame

19: upper opening 20: air inlet

23: second discharge electrode 24: second counter electrode

25: active ingredient discharge port 28: support member

29: support member 30: support member

33: liquid electrode 34: polarization electrode

36: tip

Claims (8)

delete delete delete delete delete A discharge electrode having a distal end disposed so as to be directed downstream based on the generated ion wind flow, and an opposite electrode disposed downstream of the discharge electrode, wherein the discharge electrode has a negative potential applied thereto to corona discharge; When this happens, the ion wind of the anion is generated, A movable directing member, which is further downstream from the counter electrode, moves by the wind power of the generated ion wind to produce a visual effect; A receiving container containing a liquid agent for diffusing the active ingredient; A liquid liquefiing unit disposed on an upstream side or a downstream side of the discharge electrode on the basis of the ion wind flow so as to increase the active component of the liquid agent to the atmosphere; And A negative electrode generator, further comprising a liquid electrode for applying a negative potential to the liquid in the container. The method of claim 6, A polarization electrode for applying a positive or negative potential in the state facing the outer wall surface of the container to permit dielectric polarization of the container, and at least part of the container facing the electrode for polarization; Anion generator characterized in that formed of a dielectric. A discharge electrode having a distal end disposed so as to be directed downstream based on the generated ion wind flow, and an opposite electrode disposed downstream of the discharge electrode, wherein the discharge electrode has a negative potential applied thereto to corona discharge; When this happens, the ion wind of the anion is generated, A movable directing member, which is further downstream from the counter electrode, moves by the wind power of the generated ion wind to produce a visual effect; A receiving container containing a liquid agent for diffusing the active ingredient; It is provided on the upstream side or the downstream side of the said discharge electrode based on an ion wind flow, Comprising: It is equipped with the liquid product transpiration part which makes an active component of the said liquid agent vaporate with respect to air | atmosphere, On the upstream side of the discharge electrode, the liquid-liquid dilator is disposed, and between the discharge electrode and the liquid-liquid dilator, a second discharge electrode having a tip disposed so as to face the liquid-liquid dilator, and a tip side of the second discharge electrode. And an additional second counter electrode arranged.

Images