JP2005183290A - Corona generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a corona generator which can be promptly removed and convenient in washing and heat radiation. <P>SOLUTION: A first and a second positioning sleeves 7, 8 are fixed at opposed ends of an insulating sleeve 2, and a protrusion 42 of a cover 4 is passed through a positioning hole 76 at the first sleeve 7 to protrude and expose it outward the hole 76. Thereby, a connecting plate 31 of an earth tube 3 is exposed outward the first sleeve 7 and a conductive plate 64 of a high voltage polar plate 6 is passed through a receiving hole 75 of the first sleeve 7 and also exposed outward the first sleeve 7. The, opposed ends of the plate 6 are held by the first and second sleeves 7, 8, respectively and calmly positioned on the surface of the sleeve 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to a corona generator (corona discharge generator), and more particularly to a corona generator that can be quickly removed and is convenient for cleaning and heat dissipation.

  FIG. 1A and FIG. 1B are explanatory views showing a conventional corona generator, which mainly includes a casing 1, and a slot 11 is formed in a central portion of the casing 1. The earth plate 12 and the high voltage polar plate 13 are disposed on the surface of the earth plate 12 and an insulating layer 14 is applied to the surface of the earth plate 12, and then the earth plate 12 is sealed. The short circuit between the plate 12 and the high voltage polar plate 13 is prevented. A plurality of holes 131 are formed in the high voltage polar plate 13, positioning columns 15 are coupled to the holes 131, and end portions 151 of the positioning columns 15 are formed in the holes 131. And a gap 16 having a uniform height is formed between the high voltage polar plate 13 and the insulating layer 14. The gas flow can be smoothly guided through the gap 16.

  However, the above-described conventional corona generator seals the ground plate 12 and the high voltage polar plate 13 in the casing, so that the high voltage polar plate 13 in the casing 1 is kept for a long period of time. If used for a long time, it adheres to and contaminates dirt, oil, nicotine, and other unclean substances, and the corona cannot be uniformly distributed on the high voltage polar plate 13. Moreover, since the casing 1 is formed in a sealed shape, it cannot be removed. Also, the size of the slot is quite small and the user cannot wash the high voltage polar plate 13 and will easily damage the corona generator if used for a long period of time. Further, when the high voltage polar plate 13 is sealed in the casing 1, the heat dissipation speed of the high voltage polar plate 13 is slowed and its service life is shortened, so there is room for improvement.

  As can be seen from the above description, the conventional corona generator described above still has many challenges and is not a preferred design and needs to be improved.

The present invention has been made in view of the drawbacks of the conventional corona generator described above, and it is an object of the present invention to provide a corona generator capable of solving the above-mentioned problems reasonably and effectively.

  The main object of the present invention is to provide a corona generator that can be quickly removed, and the user can individually clean the dirty material adhering to each member so that the corona is a high voltage polar plate. Can be distributed normally and uniformly.

According to another aspect of the present invention, a corona generator is characterized in that the high voltage polar plate is exposed on the surface of the insulating sleeve, and the insulating sleeve is covered so that the heat dissipation rate can be quickly achieved. The next purpose is to provide

In order to achieve the above object, a corona generator according to the present invention includes an earth tube, an insulating sleeve, a cover, a high voltage polar plate, a plurality of sheets, and a positioning sleeve. Wherein the ground tube is passed through the interior of the insulating sleeve, and the lower bar is fitted into one end of the ground tube, tightly fixed to the end of the ground tube, and At least one high voltage polar plate is disposed on the insulating sleeve, and a plurality of holes and exhaust holes are uniformly formed on the insulating sleeve, and a sheet is engaged inside the holes. A sheet having a uniform height on the insulating sleeve and the area of the yes / voltage / polar plate by the plurality of sheets. And, when energized, the corona is evenly distributed between the high voltage polar plate and the insulating sleeve, and two positioning sleeves respectively cause the high voltage polar plate and the Secure the high voltage polar plate to the insulation sleeve by sticking both ends to the insulation sleeve.

For this reason, all the above-mentioned members are coupled together by an engagement method, and no locking member is used, so that the assembly and removal are quite convenient and the operation is quick, and each member is oil-free. Users can quickly remove and disassemble each component when dirty materials such as air and dust adhere to it, and perform individual cleaning so that the corona is always on the high voltage polar plate. In addition, since the high voltage polar plate is exposed to the outside of the insulating sleeve, the effect of accelerating heat dissipation can be obtained.

  2A and 2B and FIG. 3 are an exploded perspective view and an assembly explanatory view showing the structure of the corona generator provided by the present invention. For this purpose, the insulating sleeve 2 mainly has an insulating function and can employ a glass sleeve, a plastic sleeve, other insulating sleeves, and the like, and is formed in a hollow tubular shape, and a connecting plate 31 is formed at one end. And an earth tube 3 that is fitted in the insulating sleeve 2 and designed so that the connecting plate 31 on the insulating sleeve 2 protrudes outward from the insulating sleeve 2, and a concave tub in the side portion thereof. 41, and a convex lump 42 is formed to protrude at the edge of the upper surface of the concave tank 41. The convex hole 42 is formed with a receiving hole 421, and the receiving hole 421 is connected to the concave tank 41. And a cover 4 designed to be correspondingly formed.

  Among them, the cover 4 is coupled to the insulating sleeve 2, which is coupled to the end of the earth tube 3, thereby connecting the connecting plate 31 of the earth tube 3 to the outside of the receiving hole 421 of the convex mass 42. And the cover 4 seals the open end of the earth tube 3, and the upper surface of the ground tube 3 forms a uniform plane with the upper surface of the insulating sleeve 2. The cover 4 and the earth tube 3 are sealed in the insulating sleeve 2 by applying an insulating layer 5 to the upper surface of the insulating sleeve 2.

  Further, the component of the present invention further includes two high voltage polar plates 6, which are formed in a concave arc shape, on which a plurality of high voltage polar plates 6 are formed. The holes 61 and the plurality of exhaust holes 62 are uniformly distributed, and the sheet 63 is engaged with the inside of the holes 61, and the conductive plate 64 extends to one end of the high voltage polar plate 6. The high voltage polar plate 6 is formed on the outer surface of the insulating sleeve 2, and the conductive plate 64 is exposed to the outside of the insulating sleeve 2. Thereby forming a gap having a uniform height in the respective areas of the high voltage polar plate 6 and the insulating sleeve 2, thereby energizing, Rona is can be uniformly distributed in the high-voltage Polar plate 6, can and reduce noise during corona generation.

  Further, the present invention further includes first and second positioning sleeves 7 and 8, and concave portions 71, 72, 81 and 82 corresponding to both sides of the first and second positioning sleeves 7 and 8, respectively. In addition, fixed columns 73 and 83 are formed to extend in the respective recesses 71 and 81, and connecting holes 731 and 831 are formed in the fixed columns 73 and 83. Two corresponding window guide channels 74 and 84 are formed at the peripheral edge portions of the side portions of the positioning sleeves 7 and 8, respectively, and two corresponding receiving holes 75 and 85 are formed thereon. In addition, a positioning hole 76 is formed at an appropriate position on the side portion of the first positioning sleeve 7.

  The two positioning sleeves 7 and 8 are hung on both ends of the insulating sleeve 2 so that the convex mass 42 of the cover 4 is inserted into the positioning hole 76 of the first positioning sleeve 7 and the outer side of the positioning hole 76. The connecting plate 31 of the earth tube 3 protrudes to the outside of the first positioning sleeve 7 and is exposed, and the conductive plate 64 of the high voltage polar plate 6 is exposed. Protrudes from the receiving hole 75 of the first positioning sleeve 7 and is exposed to the outside of the first positioning sleeve 7, so that both end portions of the high voltage polar plate 6 are positioned at the first and second positioning positions. It can be sandwiched between the sleeves 7 and 8 and can be stably positioned on the surface of the insulating sleeve 2.

  Assembling each of the above-described components forms the corona generator of the present invention.

FIG. 4 is an explanatory view showing an embodiment of the corona generator of the present invention. When the ozone device 9 is taken as an example, the fixing columns 73 and 83 of the first and second positioning sleeves 7 and 8 are shown. The fixed base 10 may be coupled to the inside of the ozone device 9 by the fixed base 10. When the fan 91 inside the ozone device 9 rotates to generate a window, the window can be blown to the high voltage polar plate 6 through the window guide channels 74 and 84 of the positioning sleeve. The high voltage polar plate 6 can be exhausted from the exhaust hole 62 of the high voltage polar plate 6, and the gas is transmitted to all the parts of the high voltage polar plate 6. The passed gas forms ozone having a sterilizing effect, and can purify the air. In addition, since the high voltage polar plate 6 is exposed on the outer surface of the insulating sleeve 2, the heat release rate is considerably increased, and the effect of improving the amount of ozone generated can be obtained.

It is explanatory drawing which shows the structure of the conventional corona generator, and is a perspective view of a corona generator. It is explanatory drawing which shows the structure of the conventional corona generator, and is sectional drawing of a corona generator. It is explanatory drawing of the corona generator of this invention, and is an exploded perspective view of a corona generator. It is explanatory drawing of the corona generator of this invention, and is an assembly drawing of a corona generator. It is a perspective view of the corona generator of the present invention. It is explanatory drawing which applied the corona generator of this invention to the ozone generator.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Casing 2 Insulation sleeve 3 Ground tube 4 Cover 5 Insulation layer 6 High voltage polar plate 7 First positioning sleeve 8 Second positioning sleeve 9 Ozone device 10 Fixed base 11 Slot 12 Earth plate 13 High Voltage polar plate 14 Insulating layer 15 Positioning column 16 Gap 31 Connecting plate 42 Convex lump 61 Hole portion 62 Exhaust hole 63 Sheet 64 Conductive plate 71 Recess 72 Recess 73 Fixing column 74 Window guide channel 75 Receiving hole 76 Positioning hole 81 Recessed portion Recessed portion 83 Fixed column 84 Window guide channel 85 Receiving hole 91 Fan 421 Receiving hole 731 Connecting hole 831 Connecting hole

Claims (3)

An insulating sleeve having an insulating function;
A grounding tube extending from one end, housed in the insulating sleeve, and set so that the connecting plate protrudes from the insulating sleeve;
A protrusion is formed on the edge of the upper surface, and a receiving hole is formed in the protrusion. The protrusion is connected to the insulating three part, and is connected to the end of the earth tube. The connecting plate is passed through, protruded and exposed from the receiving hole in the convex block, and an insulating layer is applied to the upper surface portion of the insulating sleeve, so that the insulating sleeve is sealed together with the earth tube. Set to the cover,
It itself has a plurality of holes and exhaust holes, and a sheet is engaged inside each hole, and a conductive plate extends from one end and is covered by the outer surface of the insulating sleeve. And at least one high voltage polar plate that is set so as to project and expose the conductive plate above the insulating sleeve;
Two corresponding window guide channels are formed at the peripheral edge of the side edge, two corresponding receiving holes are formed, and a positioning hole is formed at an appropriate position on the side of the first party. The both ends are fixed to both ends of the insulating sleeve, the convex mass of the cover is allowed to pass through the positioning hole in the first party, and is projected and exposed to the outside of the positioning hole. Correspondingly, it is exposed to the outside of the first party, and in addition, the conductive plate of the high voltage polar plate penetrates the receiving hole of the first party and is exposed to the outside of the first party. The first and second positions are set so that the ends of the high voltage polar plate are sandwiched by their first and second parties and gently positioned on the surface of the insulating sleeve. Characterized in that it comprises a sleeve defined, and
Corona generator.
A concave tank is formed on the side of the cover, the concave tank corresponds to the receiving hole of the convex block, and the connecting plate of the earth tube is inserted into the receiving hole in the convex block through the concave tank. In addition, when the insulating sleeve is coupled by the cover, the upper surface portion thereof is positioned in the same plane as the opening portion of the insulating sleeve, and is set so as to be useful for application of the insulating layer. Characterized by the
The corona generator according to claim 1.
The high voltage polar plate is formed in a concave arc shape, and a sheet that is uniformly engaged therewith is uniform with each area of the high voltage polar plate and the insulating sleeve. A gap having a height is formed, and when energized, the corona can be uniformly distributed on the high voltage polar plate, and noise during corona generation can be reduced.
The corona generator according to claim 1.

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