CN212076416U - Corona tube of ozone generator - Google Patents

Abstract

The utility model discloses an ozone generator corona tube, which comprises a quartz main tube, wherein an anode cell is arranged in the quartz main tube, an ionization clearance cavity is left between the quartz main tube and the anode cell, a cathode electrode is arranged on the outer layer of the quartz main tube, and a sheath is arranged outside the cathode electrode; an ozone output nozzle extends from the left side of the anode cell; an air inlet is formed in the right side of the quartz main pipe; and air holes are formed in a connecting body between the anode cell and the ozone output nozzle. The anode conductive foil and the lead-out wire of the cathode electrode together constitute a drive cable. The utility model has the advantages that: the cathode electrode and the anode cell are sleeved together in a cylindrical shape, so that the ionization area is large, and the efficiency is high; constant voltage can be used for generating constant ozone gas, and the concentration of the generated ozone is high; compared with the prior art, the utility model has the advantages of reduced cost, optimized subsequent product design, small interference of electromagnetic wave and noise, small temperature rise and long service life.

Description

Corona tube of ozone generator

Technical Field

The utility model relates to a washing device, in particular to an ozone generator corona tube in a detergent-free washing device.

Background

In the prior art, an ozone generator in a detergent-free washing device applies high-voltage alternating current to a high-voltage electrode which is separated by an insulator and has a certain gap, so that dried and purified air or oxygen passes through the ozone generator. When the high voltage reaches 10-15KV, blue glow discharge is generated, and free high-energy ions in the corona dissociate O2 molecules and are polymerized into O3 molecules through collision.

The ozone generator in the prior art has the advantages of large volume, complex structure, low efficiency and higher cost.

Therefore, a simple method for obtaining ozone has been desired.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cylindrical ozone generator corona tube for solving the problems of complicated structure, low efficiency and higher cost of the prior art ozone generator.

The utility model discloses with the columniform ozone generator corotron of constant voltage drive, stable ozone gas that obtains.

The utility model discloses a realize like this: designing and implementing an ozone generator corotron, comprising:

the corona tube comprises a quartz main tube, an anode cell is arranged in the quartz main tube, an ionization gap cavity is reserved between the quartz main tube and the anode cell, a cathode electrode is arranged on the outer layer of the quartz main tube, and a sheath is arranged outside the cathode electrode;

an ozone output nozzle extends from the left side of the anode cell;

an air inlet is formed in the right side of the quartz main pipe;

and air holes are formed in a connecting body between the anode cell and the ozone output nozzle.

The ozone output nozzle is connected with an anode conductive foil, and the anode conductive foil and the lead-out wire of the cathode electrode form a driving cable together.

And the left end and the right end of the quartz main pipe are both provided with a sealing rubber ring.

The utility model has the advantages that: the cathode electrode and the anode cell are sleeved together in a cylindrical shape, so that the ionization area is large, and the efficiency is high; constant voltage can be used for generating constant ozone gas, and the concentration of the generated ozone is high; compared with the prior art, the utility model has the advantages of reduced cost, optimized subsequent product design, small interference of electromagnetic wave and noise, small temperature rise and long service life.

The utility model discloses it is sturdy and durable, be fit for various occasions and install and use.

Drawings

FIG. 1 is a general schematic view of the assembly of the corona tube of the ozone generator of the present invention for use in a detergent-free clothes washing apparatus;

fig. 2 is a schematic structural diagram of the corona tube of the ozone generator of the present invention.

Detailed Description

The present invention will be described in further detail with reference to preferred embodiments.

Referring to fig. 1-2, the design and manufacture of the corona tube of the ozone generator comprises:

the corotron 3 comprises a quartz main tube 33, an anode cell 31 is arranged in the quartz main tube 33, an ionization gap cavity 36 is reserved between the quartz main tube 33 and the anode cell 31, a cathode electrode 32 is arranged on the outer layer of the quartz main tube 33, and a sheath 34 is arranged outside the cathode electrode 32;

an ozone output nozzle 38 extends from the left side of the anode cell 31;

an air inlet 37 is formed on the right side of the quartz main pipe 33;

an air hole 312 is formed on the connecting body between the anode cell 31 and the ozone output nozzle 38.

The ozone output nozzle 38 is connected with an anode conductive foil 311, and the anode conductive foil 311 and the lead-out wire of the cathode electrode 32 form a driving cable 21 together.

And the left end and the right end of the quartz main pipe 33 are both provided with a sealing rubber ring 35.

As shown in fig. 1, the utility model discloses an application of an ozone generator corotron 3 in a detergent-free washing device 1;

in fig. 1, a driving cable 21 is led out from a controller 2 to an ozone generator corotron 3, and an ozone output end of the corotron is connected with a gas input end of an ejector 9 through a hose;

a silver ion generator 7 is connected behind a water inlet 5 of the detergent-free washing device 1, and water from the silver ion generator 7 is connected into an ejector 9;

the water flowing out of the ejector 9 enters the mixer 4, and the water flowing out of the mixer 4 flows out through the washing machine receiving opening 6 for people to wash clothes.

As shown in fig. 2, air enters from the air inlet 37 and passes through the ionization gap 36 between the quartz main tube 33 and the anode cell 31, where it is ionized to generate ozone; the ozone moves forward, enters the ozone output channel through the air holes 312 and is finally output through the ozone output nozzle 38.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there may be variations in the specific implementation and application range according to the spirit of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (3)

1. The corona tube of the ozone generator is characterized in that the corona tube (3) comprises a quartz main tube (33), an anode cell (31) is arranged in the quartz main tube (33), an ionization gap cavity (36) is reserved between the quartz main tube (33) and the anode cell (31), a cathode electrode (32) is arranged on the outer layer of the quartz main tube (33), and a sheath (34) is arranged outside the cathode electrode (32);

an ozone output nozzle (38) extends towards the left side of the anode cell (31);

an air inlet (37) is formed in the right side of the quartz main pipe (33);

and air holes (312) are formed in a connecting body between the anode cell (31) and the ozone output nozzle (38).

2. The ozone generator corotron of claim 1 wherein said ozone delivery nozzle (38) is connected to an anode conductive foil (311), said anode conductive foil (311) and said cathode electrode (32) lead-out forming a drive cable (21).

3. The ozone generator corotron of claim 1, wherein said quartz main tube (33) is provided with a sealing rubber ring (35) at both left and right ends.

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