JPH08255669A - Ion generating device - Google Patents

Abstract

PURPOSE: To regulate and grasp the balanced quantity of the air ion generated and released by an ion generating device with a simple structure by connecting a rectifier and a variable resistance in parallel between an earth electrode provided adjacent to a discharge electrode and an external earth part, and performing a display according to the potential of the earth electrode. CONSTITUTION: When an AC high voltage power source 3 is started in an AC type ion generating device 1, corona discharge is generated between a discharge electrode 2 and earth electrodes 4, 4. Positive air ions are generated and released to the atmosphere in the front of the electrode in a half cycle for applying a positive high voltage to the electrode 2, and negative air ions to the atmosphere in a half cycle for applying a negative high voltage. The positive and negative ions are carried to the front of the electrode 2 by a blower-fan. At positive ion generation, the current is carried from the electrode 4 to an external earth part 11. Since the electrode 4 is short- circuited to the earth part 11 through a diode 9, the electrode 4 is kept in zero potential. At negative ion generation, on the other hand, the current is carried from the earth part 11 to the electrode 4 to make the potential of the electrode 4 negative, increasing the air ions to be generated and released. The balanced quantities of positive and negative air ions can be regulated by regulating the resistance value of a resistance 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ion generator for generating corona discharge in air to generate and release positive and negative air ions in the atmosphere.

[0002]

2. Description of the Related Art Conventionally, an AC type ion generator is generally known as this type of ion generator, and this ion generator is arranged between a discharge electrode and a ground electrode provided adjacent to the discharge electrode. Applying AC high voltage to generate corona discharge. At this time, positive air ions are generated and released in a half cycle in which a positive voltage is applied to the discharge electrode, and negative air ions are generated and released in a half cycle in which a negative voltage is applied.

In such an ion generator, since it is possible to neutralize the charge of the charged object by the positive and negative air ions generated and released in the atmosphere, generally, the charge of the charged body is removed. Used for. When performing such static elimination, the balance amount of positive and negative air ions (the amount of positive and negative air ions generated and released) depends on the required degree of static elimination, the property of the charged object to be eliminated, the environment, etc. Often it will be necessary to adjust the relative proportion of.

That is, in the case of destaticizing a charged body by using the AC ion generator, basically, if the amounts of positive and negative air ions generated and emitted alternately are substantially equal, the charged body is charged. Is discharged. However, for example, in removing the charge of a charged body that is easily charged to either positive or negative or in the environment where the positive or negative charge is likely to occur, in order to perform sufficient charge removal of the charged body, the balance amount of positive and negative air ions Need to be adjusted appropriately.

In particular, when static elimination is performed in a semiconductor product manufacturing line or the like, a slight charge of the charged body is likely to cause a trouble in manufacturing. Therefore, the ratio of the amount of positive and negative air ions generated and released. It is highly necessary to make an appropriate adjustment in accordance with the static elimination environment.

Furthermore, when manufacturing and shipping ion generators for static elimination, the amount of positive and negative air ions generated and released during the operation of each ion generator is different for each device even if they are of the same type. Since variations may occur, it is often necessary to adjust the proportion of positive and negative air ions for each device.

As an apparatus capable of easily adjusting the balance amount of such positive and negative air ions, the applicant of the present application has disclosed in Japanese Patent Application Laid-Open No. 4-206378 that the ground portion of the ground electrode and the ground electrode are described. We propose an ion generator with a grounding circuit between which a rectifier and a variable resistor are installed in parallel.

In this ion generator, for example, one diode (rectifier) and a variable resistor connected in parallel are provided between the ground electrode and the ground portion to adjust the resistance value of the variable resistor. Then, the amount of positive or negative polar air ions is increased or decreased to adjust the balance amount of positive or negative air ions.

Alternatively, for example, a series circuit in which a diode and a variable resistor are connected in series is connected in parallel, and the series circuit is interposed between the ground electrode and its ground portion, and the series circuit of each of those series circuits is connected. By adjusting the resistance values of the variable resistors so that the forward directions of the diodes are opposite to each other, the amount of air ions of both positive and negative polarities is increased or decreased to adjust the balance amount of positive and negative air ions.

According to such an ion generator, the balance amount of positive and negative air ions can be easily adjusted with a simple structure.

However, in the ion generator of the above publication, it is not known how much the balance amount of positive and negative air ions is actually adjusted when the variable resistance of the ground circuit is adjusted. The actual potential of the charged body is measured, and the resistance value of the variable resistor is adjusted according to the potential of the charged body.

For this reason, a device for measuring the potential of the charged body is required, which complicates the structure of the device and makes it expensive.

[0013]

SUMMARY OF THE INVENTION The present invention solves this inconvenience and adjusts the balance amount of positive and negative air ions generated and released into the atmosphere by an AC ion generator with an extremely simple structure and at a low cost. It is an object of the present invention to provide an ion generator which can be grasped while being grasped.

[0014]

As a result of various investigations, the inventors of the present invention have found that in an AC ion generating apparatus in which a ground electrode is grounded via a ground circuit in which a rectifier and a variable resistor are provided in parallel. Adjusts the resistance value of the variable resistor to change the balance amount of the positive and negative air ions generated and released, and at the same time, changes the potential of the ground electrode. It was found that there is a certain correlation with the potential of the ground electrode.

Therefore, in order to achieve the above-mentioned object, the first aspect of the present invention provides a discharge electrode, a ground electrode provided adjacent to the discharge electrode, and an AC high voltage between the discharge electrode and the ground electrode. An AC high-voltage power supply that applies a voltage to generate an AC corona discharge, a rectifier and a variable resistor that are interposed in parallel with each other between a ground portion that grounds the ground electrode and the ground electrode, and the discharge Positive and negative air ions are generated and released into the atmosphere by AC corona discharge between the electrode and the ground electrode, and the generation state of the positive and negative air ions can be adjusted by adjusting the resistance value of the variable resistor. The device is characterized by comprising a potential detection means for detecting the potential of the ground electrode and a display means for performing a display according to the detected potential of the ground electrode obtained by the potential detection means.

The second aspect of the present invention is to provide an AC corona discharge by applying a high AC voltage between the discharge electrode, a ground electrode provided adjacent to the discharge electrode, the discharge electrode and the ground electrode. And an AC high voltage power supply for generating a ground voltage, a grounding part for grounding the ground electrode, and a rectifier and a variable resistor interposed in parallel between the ground electrode and the AC corona between the discharge electrode and the ground electrode. In the ion generating device capable of generating and releasing positive and negative air ions into the atmosphere by discharge and adjusting the generation state of the positive and negative air ions by adjusting the resistance value of the variable resistor, the potential of the ground electrode Based on a predetermined correlation between the potential of the ground electrode and the potential of the ground electrode and the generation states of positive and negative air ions, the detection voltage of the ground electrode obtained by the potential detection unit. Characterized by comprising a display means for displaying seeking generation state of the corresponding positive and negative air ions.

[0017]

According to the first aspect of the present invention, the display according to the detected potential of the ground electrode is made by the display means when the ion generator is in operation. At this time, the detection potential of the ground electrode corresponds to the balance amount of positive and negative air ions, so if the correlation between the detection potential and the balance amount of positive and negative air ions is prepared in advance as data. The amount of balance of positive and negative air ions can be grasped from the detection potential of the ground electrode, whereby the generation state of positive and negative air ions can be grasped. Therefore, it is possible to adjust the resistance value of the variable resistor to adjust the generation state of positive and negative air ions to a desired state while grasping the generation state of positive and negative air ions.

Further, according to the second aspect of the present invention, when the ion generator is in operation, the generation state of positive and negative air ions is displayed by the display means based on the above correlation from the detected potential of the ground electrode. When asked, it is displayed directly. Therefore, the production state of positive and negative air ions is directly grasped by the display, and while grasping the state, the resistance value of the variable resistor is adjusted to adjust the production state of positive and negative air ions to a desired state. Is possible.

[0019]

EXAMPLE An example of the first aspect of the present invention will be described with reference to FIGS. FIG. 1 is an explanatory configuration diagram of an ion generator of the present embodiment and a charged plate monitor device for observing the generation state of positive and negative air ions by the ion generator, and FIG. 2 is positive and negative air by the ion generator of FIG. It is a diagram showing the generation state of ions.

Referring to FIG. 1, an AC ion generator 1 of the present embodiment has a discharge electrode 2, an AC high-voltage power supply 3 connected to the discharge electrode 2, and the discharge electrode 2 on both sides of the discharge electrode 2. Is provided with a pair of ground electrodes 4 and 4 arranged adjacent to each other and a housing 5 accommodating them. The AC high-voltage power supply 3 generates an AC high voltage when the ion generator 1 is operating, and applies the AC high voltage between the discharge electrode 2 and the ground electrodes 4 and 4. In this embodiment, the applied high AC voltage is, for example, ± 6 kV. The discharge electrode 2 is connected to an AC high-voltage power supply 3 via a capacitor 6, and this capacitor 6 is a protective capacitor for limiting the current when an object is short-circuited with the discharge electrode 2. The ground electrodes 4 and 4 are short-circuited to each other in the housing 5 via lead wires.

An opening 7 is formed in the housing 5 so as to face the tip end side of the discharge electrode 2, and a blower fan 8 is provided behind the discharge electrode 2. The blower fan 8 is rotationally driven by the fan motor 8a when the ion generator 1 is operating, and blows air toward the opening 7.

The ground electrodes 4 and 4 are grounded to an appropriate external ground section 11 via a circuit in which a diode 9 (rectifier) and a variable resistor 10 are connected in parallel, and the variable resistor 10 is an operator not shown. It is said that the resistance value can be adjusted by the operation of. In the present embodiment, the variable resistor 10 is, for example, 0-2.
The resistance value is variable within the range of MΩ. The diode 9 is provided with its forward direction directed from the ground electrodes 4 and 4 toward the external ground portion 11 side.

An external grounding portion 11 is provided between the grounding electrodes 4 and 4 and the parallel circuit of the diode 9 and the variable resistor 10.
An electrometer 12 is connected to detect the potential of the ground electrodes 4 and 4 with respect to and display the potential. The electrometer 12 serves both as a potential detecting means for detecting the potentials of the ground electrodes 4 and 4 and a display means for displaying the detected potential.

In such an ion generator 1, when the AC high voltage power supply 3 is activated, the discharge electrode 2 and the ground electrodes 4, 4 are
AC high voltage is applied between the electrodes and, and a corona discharge is generated between the electrodes 2 and 4. At this time, in the half cycle in which the positive high voltage is applied to the discharge electrode 2, positive air ions are generated and released into the atmosphere in front of the discharge electrode 2, and in the half cycle in which the negative high voltage is applied, negative air ions are generated. Air ions are generated and released into the atmosphere. Then, at this time, by driving the blower fan 8, positive and negative air ions generated alternately flow toward the front of the discharge electrode 2.

In this case, when positive air ions are generated, a current flows from the ground electrodes 4, 4 toward the external ground portion 11. At this time, since the ground electrodes 4, 4 are substantially short-circuited to the external ground portion 11 via the diode 9 with respect to the current, the ground electrodes 4, 4 are irrespective of the resistance value of the variable resistor 10. Potential is maintained at approximately 0 potential.
Therefore, the amount of positive air ions generated and released when a positive high voltage is applied to the discharge electrode 2 basically does not change.

On the other hand, when negative air ions are being generated, a current flows from the external ground portion 11 to the ground electrodes 4, 4. At this time, the diode 9
Is cut off, the current flows to the ground electrodes 4 and 4 through the variable resistor 10, and the potential of the ground electrodes 4 and 4 becomes a negative potential. Then, in this state, when the resistance value of the variable resistor 10 is adjusted, the potentials of the ground electrodes 4 and 4 increase / decrease on the negative side in accordance with the adjustment, thereby generating / generating.
The amount of negative air ions emitted changes, and the ratio (balance amount) of the amount of positive and negative air ions changes.

Test data showing the state of such a balance amount of positive and negative air ions will be described below.

In FIG. 1, reference numeral 13 denotes a charged plate monitor device for observing the generation state of positive and negative air ions by the ion generator 1, and the charged plate monitor device 13 has a plurality of insulators in its body portion 14. A metal plate 16 of 150 mm square mounted through 15, 15 is provided, and the potential of the metal plate 16 is measured.

The plate 16 of the charged plate monitor device 13 is arranged so as to face the discharge electrode 2 of the ion generator 1, and in this state, the resistance value of the variable resistor 10 is changed while operating the ion generator 1 as described above. Adjust to various values,
At this time, the potential generated on the plate 16 of the charging plate monitor device 13 was measured, and the potential generated on the ground electrode 4 was measured by the electrometer 12. In this case, the potential generated on the plate 16 becomes a positive potential when the amount of positive air ions among the positive and negative air ions generated and released by the ion generator 1 is larger than that of the negative air ions. In the opposite case, the potential becomes negative.

The measured data is shown in Table 1 and also shown in graph form in FIG. The "offset voltage" in Table 1 and FIG. 2 is the potential generated on the plate 16 of the charging plate monitor device 13, and indicates the balance amount of positive and negative air ions. The potential generated on the ground electrode 4 is the potential when the negative high voltage is applied to the discharge electrode 2.

[0031]

[Table 1]

As is apparent from Table 1 and FIG.
As the resistance value of the variable resistor 10 is increased, the potential of the ground electrode 4 when the negative high voltage is applied to the discharge electrode 2 gradually increases on the negative side. In addition, as in the case of the ion generator 1, the offset voltage gradually decreases in magnitude from the positive side and then gradually increases to the negative side, which is negative due to the increase in the resistance value of the variable resistor 10. As the potential of the ground electrode 4 at the time of air ion generation increases to the negative side, the amount of negative air ions generated / released increases relative to the amount of positive air ions. Is shown. This is because when the potential of the ground electrode 4 is increased to the negative side, the negative air ions generated at that time are generated.
It is considered that the amount of the negative air ions generated and released is substantially increased while the amount of the positive air ions is hardly changed, as described above, while the amount of the negative air ions is substantially not changed.

From the above test data, according to the ion generator 1 of the present embodiment, by adjusting the resistance value of the variable resistor 10, it is possible to adjust the balance amount of positive and negative air ions generated and released. I know what I can do.

As can be seen from FIG. 2, the offset voltage indicating the balance amount of positive and negative air ions has a correlation with the potential of the ground electrode 4 when negative air ions are generated. . Therefore, if the correlation is prepared as data, based on the potential of the ground electrode 4 at the time of generation of negative air ions displayed by the electrometer 12, positive / negative generated / emitted corresponding to the potential. It is possible to grasp the amount of air ion balance. Specifically, the potential of the ground electrode 4 grasped by the electrometer 12 is about -55V.
If it is, it is found that the amount of positive and negative air ions is balanced, and if the potential of the ground electrode 4 is higher than -55V, the balanced amount of positive and negative air ions is biased to the positive side, and In the case of, it can be seen that the balance amount of positive and negative air ions is biased to the negative side. In this way, the balance amount of positive and negative air ions can be known from the potential of the ground electrode 4 displayed by the electrometer 12, so that the resistance value of the variable resistor 10 can be adjusted while observing the detected potential of the ground electrode 4. Thus, the balance amount of positive and negative air ions can be easily adjusted appropriately.

In this embodiment, the potential of the ground electrode 4 itself is displayed by the electrometer 12, but
For example, a display in which a large number of LEDs are arranged in a bar shape may be provided, and the LEDs may be lit and displayed in a bar graph shape according to the potential of the ground electrode 4.

Next, an example of the second aspect of the present invention will be described with reference to FIG. In this embodiment, the basic configuration is the same as that of the ion generator 1, and the potential of the ground electrode 4 when a negative high voltage is applied to the discharge electrode 2 is detected as shown by the broken line in FIG. The potential detector 17 (potential detection means) and the display device 18 (display means) are provided, and the display device 18 has a potential of the ground electrode 4 at the time of generation of negative air ions and a balance amount of positive and negative air ions. The data indicating the correlation with the offset voltage indicating the above is stored and held in a memory (not shown). Then, in operating the ion generator 1, the display device is based on the potential of the ground electrode 4 detected by the potential detector 17 during negative ion generation (when a negative high voltage is applied to the discharge electrode 2). The offset voltage corresponding to the detected potential is obtained by using the above data according to 18, and is displayed as indicating the generation state of air ions. By doing so, the generation state of positive and negative air ions can be directly and easily grasped by the display of the display device 18. Then, the resistance value of the variable resistor 10 can be arbitrarily adjusted while grasping the generation state of the positive and negative air ions to adjust the balance amount of the positive and negative air ions to a desired state.

In each of the embodiments described above, the forward direction of the diode 9 is set to face the ground electrode 4 toward the external ground portion 11, but it may be set in the opposite direction.
In this case, when a negative high voltage is applied to the discharge electrode 2 and negative air ions are generated / released, the potential of the ground electrode 4 is maintained at substantially 0 potential, while the positive air ion is maintained. While ions are being generated and released, the potential of the ground electrode 4 changes by adjusting the resistance value of the variable resistor 10, thereby changing the amount of positive air ions and changing the positive and negative air ions. The balance amount of is adjusted. And in this case,
The potential of the ground electrode 4 when a positive high voltage is applied to the discharge electrode 2 has a correlation with the balance amount of positive and negative air ions.

[0038]

As is apparent from the above description, according to the first aspect of the present invention, the ground portion of the ground electrode provided adjacent to the discharge electrode and the ground electrode are arranged in parallel with each other. In the ion generator having the rectifier and the variable resistance interposed, the balance of positive and negative air ions having a correlation with the potential of the ground electrode is provided by providing the display means for displaying according to the potential of the ground electrode. The balance amount can be grasped by the display of the display means while adjusting the amount by the variable resistance, and the adjustment and grasp of the balance amount can be easily performed with an extremely simple configuration.

Further, according to the second aspect of the present invention, a rectifier and a variable resistor interposed in parallel with each other between the grounding portion of the grounding electrode provided adjacent to the discharge electrode and the grounding electrode. In the provided ion generator, the potential of the ground electrode is detected by the potential detecting means, and based on the correlation between the detected potential and the generation state of positive and negative air ions, the generation state of positive and negative air ions corresponding to the detected potential. By providing the display means for obtaining and displaying, the balance quantity can be directly grasped by the display of the display means while adjusting the balance quantity of the positive and negative air ions by the variable resistance. Can be adjusted and grasped more easily with a simple structure.

[Brief description of drawings]

FIG. 1 is an explanatory configuration diagram of an ion generator according to an example of the present invention and a charged plate monitor device for observing a generation state of positive and negative air ions by the ion generator.

2 is a diagram showing a generation state of positive and negative air ions by the ion generator of FIG. 1. FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Ion generator, 2 ... Discharge electrode, 3 ... AC high voltage power supply, 4 ... Ground electrode, 9 ... Diode (rectifier), 10 ...
Variable resistance, 12 ... Electrometer (display means), 17 ... Potential detector (potential detection means), 18 ... Display device (display means).

 ─────────────────────────────────────────────────── --- Continuation of the front page (72) Inventor Isao Sugano 1-10-8 Motomiya, Tsurumi Ward, Yokohama City, Kanagawa Prefecture Cyside Static Electricity Co., Ltd.Yokohama factory (72) Inventor Kenkichi Izumi 1-Hinomiya, Tsurumi Ward, Yokohama City, Kanagawa Prefecture 10-8 Shishido Static Electricity Co., Ltd. Yokohama Plant

Claims (2)

[Claims] 1. A discharge electrode, a ground electrode provided adjacent to the discharge electrode, an AC high voltage power supply for applying an AC high voltage between the discharge electrode and the ground electrode to generate an AC corona discharge, A grounding part for grounding the grounding electrode and a rectifier and a variable resistor interposed in parallel between the grounding electrode and the grounding electrode are provided, and positive and negative air ions are introduced into the atmosphere by AC corona discharge between the discharging electrode and the grounding electrode An ion generating device capable of adjusting the resistance value of the variable resistor to adjust the generation state of the positive and negative air ions, and a potential detecting means for detecting the potential of the ground electrode; An ion generating device, comprising: a display unit that displays according to the detected potential of the ground electrode obtained by the potential detection unit. 2. A discharge electrode, a ground electrode provided adjacent to the discharge electrode, an AC high voltage power supply for applying an AC high voltage between the discharge electrode and the ground electrode to generate an AC corona discharge, A grounding part for grounding the grounding electrode and a rectifier and a variable resistor interposed in parallel between the grounding electrode and the grounding electrode are provided, and positive and negative air ions are introduced into the atmosphere by AC corona discharge between the discharging electrode and the grounding electrode. An ion generating device capable of adjusting the resistance value of the variable resistor to adjust the generation state of the positive and negative air ions, and a potential detecting means for detecting the potential of the ground electrode; Positive and negative air ions corresponding to the detected potential of the ground electrode obtained by the potential detection means based on a predetermined correlation between the potential of the ground electrode and the generation state of positive and negative air ions Ion generation apparatus characterized by comprising a display means for displaying seeking generation state.