JPH0891807A - Corona discharger - Google Patents

Abstract

PURPOSE: To provide a high voltage generator which is small in size and is decreased in radiation noise. CONSTITUTION: This corona discharger is formed by integrally arranging a high voltage generating section 5 having a piezoelectric transformer 23 and a corona discharger 7 driven by the high voltage generating section 5 on a base body 9. Since the high voltage generating section 5 is arranged on one base body 9 internally with the corona discharger 7, a packaging space can be made extremely small. Since the arrangement of both in extreme proximity is possible, the formation of a small loop area where high-frequency current flows is possible and, therefore, the radiation noises are decreased.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a corona discharge device used as an ozone generator (ozonizer) or the like.
In particular, it relates to a corona discharge device that is small in size and has reduced radiation noise.

[0002]

2. Description of the Related Art A corona discharge device comprises a discharger (element) and a high voltage generator for driving the element. Electrodes are arranged opposite to each other in the discharge element, and a high voltage is applied to this electrode from a high voltage generator to generate a discharge around the electrode. In the ozonizer, this discharge converts oxygen in the air into ozone. The generated ozone is used for deodorization and sterilization.

FIG. 2 is a perspective view showing the overall structure of a conventional corona discharge device. The corona discharge device of FIG. 2 is roughly divided into an ozone generating element 42, a high voltage generating section 43, and
It is composed of a high-voltage electric wire 45 connecting both. The high voltage generator 43 includes a winding transformer 47, an oscillator circuit 49,
It is composed of a casing 51. The high frequency voltage generated by the oscillation circuit 49 is boosted by the winding transformer 47 and sent to the ozone generating element 42 through the high voltage wire 45.

[0004]

The problems with the conventional corona discharge device of FIG. 2 are the following two problems. The device was large. In the step-up winding transformer in the corona discharge device, the number of turns on the secondary side is as large as 1000 or more, so that it is difficult to reduce the size of the entire high voltage generator. On the other hand, the ozone generator is installed at
For example, in the case of a deodorizing device, it is limited to the side surface of the air flow path or the like. Since it was difficult to integrally mount such an ozone generating element with a limited installation location and a fairly large high voltage generating section, it was eventually difficult to separate the high voltage generating section and the ozone generating element from different cases. Since it is attached to the (attachment member), the entire corona discharge device becomes more bulky.

Radiation noise from the high voltage electric wire has been a problem. As described above, since the ozone generating element and the high voltage generating portion had to be arranged apart from each other, the length of the high voltage electric wire connecting them was long. In the high voltage generator 41 of FIG. 2, if the area in the loop through which the high frequency discharge current I formed by the two high voltage electric wires 45, the ozone generating element 42, and the winding transformer 47 flows is S, The electric field E at a sufficient distance from this loop is expressed by the following equation: E = k · I · S (V / m) k: proportional constant.

Therefore, the longer the length of the high-voltage wire and the larger the area S of the loop, the greater the radiation noise emitted. In order to prevent malfunction of the equipment due to this radiation noise, we have been struggling with the shield of the electric wire and the shield of the equipment. In addition, the price of the device has increased because of shield measures.

It is an object of the present invention to provide a high voltage generator having a small size and reduced radiation noise. Another object of the present invention is to provide a high voltage generator that is reliable and durable against moisture and vibration.

[0008]

In order to solve the above-mentioned problems, the corona discharge device of the present invention comprises a high voltage generator having a piezoelectric transformer and a corona discharger driven by the high voltage generator. It is characterized in that it is integrally arranged on the substrate.

[0009]

[Operation] Since the high voltage generating part, which is miniaturized by making the winding transformer a piezoelectric transformer, is arranged on one substrate integrally with the corona discharger, the mounting space can be remarkably small. Become. Further, since the high voltage generator and the corona discharger can be arranged very close to each other, it is possible to reduce the loop area S through which the high frequency current flows, so that the radiation noise can be reduced. .

The corona discharger to which the present invention is applied includes an ozone generating element, a floating element, a withstand voltage element, a heater element and the like. The base includes a substrate and a casing.

[0011]

Embodiments of the present invention will be described below. Figure 1
It is a figure which shows the structure of the corona discharge device (ozonizer) which concerns on an example of this invention. (A) is a sectional view and (B) is a perspective view of the appearance. The corona discharge device 1 of FIG. 1 is roughly divided into a casing 3, a high voltage generator 5, an ozone generator 7, and a substrate 9. High voltage generator 5
Is composed of an oscillation circuit board 11, a piezoelectric transformer (element body) 23, and the like.

The casing 3 is a member on a box such as a plastic injection molded product whose upper surface is open. An opening 39 is formed on the right side surface of the casing 3 in the drawing, and a discharge surface 33 of the ozone generating element 7 described later is exposed to the outside of the casing 3 from here. Grooves 37 are provided on the casing side edges at both ends of the opening 39, the ends of the ozone generating element substrate 31 are fitted, and the ozone generating element 7 is positioned with respect to the casing 3. . As a result,
The substrate 9 and the high voltage generator 5 are also positioned with respect to the casing 3.

The oscillation circuit board 11 of the high voltage generating section 5 is a thin plate made of ceramics or the like, and an element 13 such as an IC, a resistor or a capacitor is mounted on the surface thereof. A printed wiring (not shown) is drawn on the surface of the oscillator circuit board. The oscillator circuit board 11 is attached to the board 9 by means of soldered terminals 17 in an upright state.

The element body 23 of the piezoelectric transformer is the main body of the piezoelectric transformer which is the boosting means of the high voltage generator 5. As is well known, an input electrode and an output electrode are provided on the surface of the piezoelectric transformer element body 23, and the piezoelectric phenomenon of the piezoelectric transformer element body 23 boosts the voltage. Piezoelectric transformer body 23
Is erected vertically to the longitudinal direction of the cross section and is attached to the substrate 9 by terminals 25 for input or the like. A cover (made of plastic or the like) 21 is covered on the upper and side portions of the piezoelectric transformer body 23. The cover 21 plays a role of sealing the piezoelectric transformer element body 23 and supporting it.

The ozone generating element 7, which is a kind of corona discharger, comprises a ceramic ozone generating element substrate 31 having a discharge surface 33 formed of a plurality of electrodes (not shown) on the surface thereof. An example of such an ozone generating element is
It is disclosed in Japanese Patent Laid-Open No. 4-370688 and the like. The ozone generating element 7 is erected vertically in the longitudinal direction of the cross section and is attached to the substrate 9 by the electrode connecting terminal 35. Further, as described above, the end portion of the ozone generating element 7 is fitted in the groove 37 of the casing 3. Ozone generator 7
The discharge surface 33 is exposed to the outside from the opening 39 of the casing 3. Therefore, ozone generated on the discharge surface 33 is supplied to the air flow path outside the casing.

The substrate 9 is a flat plate made of plastic or the like. Printed wiring (not shown) is drawn on the front and back surfaces. The printed wiring is for each terminal 17, 25, 35.
Soldered to. Various elements 1 are provided on the substrate 9.
5, 29 are also arranged.

In the casing 3, resin potting is provided so as to bury the substrate, the high voltage generating portion, and the connection terminals of the corona discharger and the substrate. For this reason, each wiring / terminal and the electrode portion of the piezoelectric transformer are hermetically sealed, so that failure due to moisture or vibration is prevented.

In the corona discharge device of FIG. 1, a low-voltage high-frequency voltage is generated in the oscillator circuit on the oscillator circuit board 11, and this is boosted by the piezoelectric transformer element body 23 of the high-voltage generator 5. The boosted high-frequency high-frequency voltage is applied to terminals and substrate 9
Is applied to the discharge electrode (not shown) of the discharge surface 33 of the ozone generating element 7 through the printed wiring (not shown) of
Discharge occurs on the discharge surface 33 and ozone is generated. The generated ozone is supplied to an air flow path outside the casing 3.

In summary, the high voltage generator of FIG. 1 includes a substrate, a high voltage generator having a piezoelectric transformer disposed on the substrate, and the high voltage generator also disposed on the substrate. A driven corona discharger, a casing that houses the substrate, the high-voltage generator and the corona discharger,
It is equipped with.

Therefore, the high voltage generator and the corona discharger can be arranged close to each other on the substrate, and the size of the corona discharger can be reduced and the radiation noise can be reduced.

In the high voltage generator shown in FIG. 1, the piezoelectric transformer and the corona discharger are formed on a flat plate.
It is arranged in parallel on the base body. Therefore, the mounting space can be further reduced and the wiring length can be further shortened.

In the high voltage generator of FIG. 1, the corona discharger is formed on a flat plate, and the corona discharger forms one side of the casing with the discharge surface facing outward. It is attached to the casing. Therefore, a compact integrated high-voltage generator can be attached to a part of a host device such as various deodorizing devices, and the size of such host device can be reduced.

[0023]

As is apparent from the above description, the high voltage generator of the present invention exhibits the following effects. Since the high voltage generator and the corona discharger are integrally arranged on one substrate, the mounting space of the high voltage generator can be reduced and the device can be downsized.

Since the high voltage generator and the corona discharger can be arranged very close to each other, it is possible to reduce the loop area S through which the high frequency current flows, so that the radiation noise can be reduced.

When the high voltage generator is housed in the casing and integrally resin potted, each wiring
Since the terminals and the electrodes of the piezoelectric transformer are hermetically sealed, failure due to moisture or vibration is prevented.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a corona discharge device (ozonizer) according to an embodiment of the present invention. (A) is a sectional view,
(B) is a perspective view of the appearance.

FIG. 2 is a perspective view showing an overall configuration of a conventional corona discharge device disclosed in Japanese Patent Laid-Open No. 4-45823.

[Explanation of symbols]

1 Corona Discharge Device 3 Casing 5 High Voltage Generation Section 7 Ozone Generation Element 9 Substrate 11 Oscillation Circuit Board 13 Element 15 Element 17 Terminal 21 Cover 23 Piezoelectric Transformer Element 25 Terminal 29 Element 31 Ozone Generation Element Substrate 33 Discharge Surface 35 Terminal 37 Groove 39 Opening 41 Corona Discharge Device 42 Ozone Generator 43 High Voltage Generator 45 High Voltage Electric Wire 47 Winding Transformer 49 Oscillation Circuit 51 Casing

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication H02N 2/00 A

Claims (5)

[Claims] 1. A high voltage generator having a piezoelectric transformer,
A corona discharge device characterized in that the corona discharger driven by the high voltage generator is integrally arranged on one base. 2. A substrate, a high voltage generator having a piezoelectric transformer arranged on the substrate, a corona discharger driven by the high voltage generator also arranged on the substrate, the substrate and the high voltage. A corona discharge device comprising: a casing accommodating the generator and the corona discharger. 3. The corona discharge device according to claim 1 or 2, wherein the piezoelectric transformer and the corona discharger are formed on a flat plate and are arranged upright on the base body in parallel. 4. The corona discharger is formed on a flat plate, and the corona discharger is attached to the casing so as to form one side of the casing with the discharge surface facing outward. The corona discharge device according to claim 2. 5. The resin potting is provided in the casing so as to bury the substrate, the high voltage generating portion and the connection terminal between the corona discharger and the substrate.
Alternatively, the corona discharge device according to item 4.