JP2523369Y2 - Ozone generator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial application field) The present invention relates to a device for generating ozone by corona discharge.

(Prior Art) Japanese Patent Application Laid-Open No. 64-33003 discloses a general structure of an ozone generator.
Are disclosed in US Pat.

In this ozone generator, as shown in FIG. 4, a discharge electrode 101 is formed on a surface of a dielectric substrate 100 such as a ceramic, and an electrode 102 facing the discharge electrode 101 is embedded in the dielectric substrate 100. The electrodes 101 and 102 are connected to an AC power supply 104 via a transformer 103, and a high voltage is applied between the electrodes to generate a corona discharge between the dielectric substrate 100 and the discharge electrode 101. Is excited to generate ozone. The amount of generated ozone is greatly reduced when the atmospheric humidity is high or when dew is formed on the substrate surface.
It is buried inside.

(Problem to be Solved by the Invention) The above-mentioned heater wire 105 is baked to form a paste by kneading a high-melting metal together with a binder and a solvent on the surface of a ceramic green sheet serving as a dielectric substrate. The heater wire 105 is formed by printing on a screen etc. and then firing together. However, it is difficult to accurately form a resistor (heater) with a uniform thickness on the ceramic green sheet that is the substrate at the time of printing In addition, a uniform resistance value cannot be obtained. Therefore, an error occurs in the setting of the heating temperature, and it becomes difficult to keep the amount of generated ozone constant. As a method of making the resistance constant, a method of trimming the resistor can be considered, but the number of steps is increased and the cost is increased. In addition, JP-A-1-15
Some products use ruthenium oxide as a resistor, as in 3503.However, when using ruthenium oxide, the firing temperature is around 850 ° C. become.

(Means for Solving the Problems) In order to solve the above problems, the present invention forms a discharge electrode on the surface of a dielectric substrate, attaches a chip resistor to the back surface of the dielectric substrate, A pair of electrodes facing the discharge electrode was embedded therein, and a voltage was applied between the pair of electrodes.

(Operation) When electrodes connected to a pair of AC power supplies are buried in the dielectric substrate, a high voltage is applied between the electrodes to generate a potential difference between the dielectric substrate and the discharge electrode. Corona discharge occurs, and ozone is generated by the corona discharge.

(Embodiment) An embodiment of the present invention will be described below with reference to the accompanying drawings.

1 is a sectional view of the ozone generator according to the present invention, FIG. 2 is a plan view of the ozone generator, and FIG. 3 is a sectional view of a chip resistor.

The ozone generator comprises a dielectric substrate 1 comprising a lower substrate 1a made of a Si-based material and an upper substrate 1b made of Al ₂ O _3, and a discharge electrode 2 formed by firing a tungsten paste on the surface of the upper substrate 1b. The discharge electrode 2 is protected by an Al ₂ O ₃ layer 3.
And a pair of electrodes 4 facing each other. The electrodes 4 are also obtained by, for example, printing tungsten paste by screen printing and then firing. Then, the electrodes 4, 4 are connected to the substrate lower part 1a.
The lead wire 5 and the terminal portion 6 in the through hole formed in the AC power supply 8 are connected via a lead wire 7.

A chip resistor 10 is mounted on the back surface of the dielectric substrate 1. The chip resistor 10 is made of Al ₂ O ₃ as shown in FIG.
Ag, Pd or Ag / Pd electrodes 12, 12 are provided at both ends of a ceramic support 11, etc., and a resistor layer 13 made of ruthenium oxide is formed on the upper surface, and the surface of the resistor layer 13 is covered with a glass layer 14. The glass layer 14 is fixed with solder 15 so that the upper surface of the glass layer 14 contacts the lower surface of the substrate 1.

As described above, when a high voltage is applied between the pair of electrodes 4, 4, an electric field is generated between the electrodes 4, 4, and this electric field concentrates on the discharge electrode 2, causing a large potential difference between the discharge electrode 2 and the substrate 1. The potential difference causes a corona discharge, and the corona discharge excites oxygen atoms to generate ozone.

In the illustrated example, only one chip resistor is mounted. However, two or more chip resistors may be mounted, and the discharge electrode is connected to neither the AC power source nor the ground. However, those connected to these may be used.

(Effects) As described above, according to the present invention, since the chip resistor is mounted on the back surface of the dielectric substrate constituting the ozone generator, the heater wire printed by firing different from the firing of the substrate. It is not necessary to bake the paste for
Further, since the chip resistor can set various resistance values with high accuracy, the temperature of the ozone generator can be used under optimum temperature conditions.

Further, if the chip resistor is made replaceable, it is possible to easily cope with environmental changes.

In addition, a discharge electrode is formed on the surface of the dielectric substrate, and a pair of electrodes facing the discharge electrode is embedded inside the dielectric substrate, and a voltage is applied between the pair of electrodes. Corona discharge occurs between the substrate and the discharge electrode, and ozone can be generated efficiently.

In addition, since a voltage is applied between the pair of electrodes, it is not necessary to dispose a lead wire connecting the pair of electrodes and the AC power supply in an ozone generation region between the dielectric substrate and the discharge electrode. Corrosion of the lead wire due to ozone can be prevented.

[Brief description of the drawings]

1 is a sectional view of the ozone generator according to the present invention, FIG. 2 is a plan view of the ozone generator, FIG. 3 is a sectional view of a chip resistor, and FIG. 4 is a sectional view showing a conventional example. . In the drawings, 1 is a dielectric substrate, 2 is a discharge electrode, 4 is an electrode facing the discharge electrode, and 10 is a chip resistor.

Claims (1)

(57) [Scope of request for utility model registration] 1. A discharge electrode is formed on a front surface of a dielectric substrate, a chip resistor is mounted on a back surface of the dielectric substrate, and a pair of electrodes facing the discharge electrode are buried inside the dielectric substrate. An ozone generator characterized in that a voltage is applied between the pair of electrodes.