CN212356537U - Micro-intermittent discharge open type tubular ozone generating device - Google Patents

Abstract

The utility model discloses a micro-intermittent discharge open type tubular ozone generating device, which comprises a ceramic or quartz medium tube, a conductive metal tube and an external ozone driving power supply, wherein the conductive metal tube is arranged inside the ceramic or quartz medium tube, the left lower part of the conductive metal tube is connected with a first metal soldering lug wiring end, the outer side of the ceramic or quartz medium tube is provided with a hollowed-out metal cylinder or a spring-shaped metal wire, the ceramic or quartz medium tube, the first metal soldering lug wiring end, the conductive metal tube, the hollowed-out metal cylinder or the spring-shaped metal wire and a second metal soldering lug wiring end are connected and fixed by a ceramic bolt and a 304 stainless steel nut which are arranged inside the conductive metal tube, the utility model uses the corrosion-resistant and ozone oxidation-resistant spring-shaped metal wire or the hollowed-out cylinder-shaped metal tube as an ozone generating electrode, and the ready open type tubular gap discharge ozone generating device, and gas conveying equipment such as an additional gas pump and the like is not required.

Description

Micro-intermittent discharge open type tubular ozone generating device

Technical Field

The utility model relates to an ozone generation technical field specifically is a little intermittent type discharges open-type tubular ozone generating device.

Background

1. The ceramic chip type ozone generating device adopts a common high-temperature sintering technology, metal slurry is printed on a ceramic substrate, the metal slurry permeates into an induction electrode and a discharge electrode which are formed on the ceramic substrate through high-temperature sintering, a high-frequency high-voltage current medium is connected to block discharge along (around) the discharge electrode, oxygen is ionized to generate ozone, the service life of the ceramic ozone generating device is short, after the electrode is oxidized for a certain time in working, the cold machine state generating device needs larger current for starting, otherwise, the cold machine state generating device cannot be started.

2. A tubular ozone generator is characterized in that an induction electrode is formed on one surface of a medium tube (mostly a quartz tube and a ceramic tube), a metal tube (a non-spring-shaped hollow tube shape) is arranged at a certain interval from the other surface of the medium tube to serve as a discharge electrode, high-frequency high-voltage current is connected, oxygen is ionized in a cavity gap formed by the medium tube and the metal tube to generate ozone, sealing heads and air inlet and outlet ports are additionally arranged at two ends of the tubular ozone generator, pressure air or oxygen is input from an air inlet pipeline during working, the ozone is output from an air outlet pipeline, the ozone is generated in the cavity formed by the metal tube and the medium tube, an air pump and other auxiliary equipment are required to be additionally arranged, and otherwise, the.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a little intermittent type discharge open type tubular ozone generating device to solve current potsherd formula creeping discharge ozone generating device life weak point and cold quick-witted drive difficulty, the tubular ozone generating device cavity internal production ozone of electrode oxidation back and take the problem of difficulty.

In order to achieve the above object, the utility model provides a following technical scheme: a micro-intermittent discharge open-type tubular ozone generating device comprises a ceramic or quartz medium tube, a conductive metal tube, a first metal soldering lug wiring terminal, a conductive metal tube, a hollow metal cylinder, a second metal soldering lug wiring terminal, a ceramic bolt, a 304 stainless steel nut and an external ozone driving power supply, wherein the conductive metal tube is arranged inside the ceramic or quartz medium tube, the left lower part of the conductive metal tube is connected with the first metal soldering lug wiring terminal, the outer side of the ceramic or quartz medium tube is provided with the hollow metal cylinder or a spring-shaped metal wire, the right lower side of the hollow metal cylinder or the spring-shaped metal wire is connected with the second metal soldering lug wiring terminal, the ceramic or quartz medium tube, the first metal soldering lug wiring terminal, the conductive metal tube, the second metal soldering lug wiring terminal and the hollow metal cylinder or the spring-shaped metal wire are connected and fixed by the ceramic bolt and the 304 stainless steel nut arranged inside the conductive metal tube, and the first metal soldering lug wiring terminal and the second metal soldering lug wiring terminal are connected with an external ozone driving power supply through high-frequency high-voltage wires.

Preferably, the ceramic or quartz medium tube is hollow, the outer diameter of the ceramic or quartz medium tube is 4mm-9mm, the wall thickness of the ceramic or quartz medium tube is 0.5mm-2.5mm, and the length of the ceramic or quartz medium tube is 6mm-50mm, so that the ozone generation efficiency can be improved.

Preferably, the micro-intermittent distance between the hollow metal cylinder or the spring metal wire and the outer diameter of the ceramic or quartz medium tube is 0.00mm-0.3mm, and the small micro-intermittent distance can reduce the power and reduce the starting current.

Preferably, the outer wall of the ceramic or quartz medium tube is provided with a conductive metal tube which can discharge electricity to generate ozone.

Preferably, the conductive metal tube on the inner wall of the ceramic or quartz medium tube can achieve the effect of inducing ozone.

Preferably, the inner walls of the conductive metal tube and the ceramic or quartz medium tube form interference fit, a safe electricity isolation distance of 5mm is formed between the conductive metal tube and the second welding terminal on the right side of the ceramic or quartz medium tube, and a gap between the conductive metal tube and the second welding terminal is filled with 704 silica gel, so that the condition that the induction electrode and the discharge electrode are burnt due to arc discharge can be avoided.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a little intermittent type distance is 0.00mm-0.3mm, less little intermittent type can make the consumption reduce, and starting current is little, use corrosion resistant, ozone oxidation resistant spring form wire or fretwork section of thick bamboo form tubular metal pipe as ozone generating electrode, form open tubular clearance discharge ozone generating device, need not gas conveying equipment such as plus air pump, oxygen produces ozone in the direct ionization air, increase more than ceramic ozone piece life more than 50%, the consumption is reduced, overcome the shortcoming of cold machine start-up difficulty behind the oxidation of ceramic ozone piece electrode.

Drawings

Fig. 1 is a schematic structural view of the ceramic or quartz medium tube of the present invention.

Fig. 2 is a schematic view of the structure of the conductive metal tube of the present invention.

Fig. 3 is a schematic structural view of the hollow metal cylinder of the present invention.

Fig. 4 is the mounting structure schematic diagram of the assembly nut of the present invention.

Fig. 5 is a schematic view of the overall assembly structure of the present invention.

In the figure: 1-ceramic or quartz medium tube, 2-conductive metal tube, 3-ceramic bolt, 4-first metal soldering lug terminal, 5-304 stainless steel nut, 6-external ozone driving power supply, 7-second metal soldering lug terminal, 8-hollowed metal cylinder or spring metal wire and 9-high frequency high voltage wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, a micro-intermittent discharge open-type tubular ozone generating device includes a ceramic or quartz medium tube 1, a conductive metal tube 2, a first metal tab terminal 4 and an external ozone driving power supply 6, the conductive metal tube 2 is disposed inside the ceramic or quartz medium tube 1, so that the conductive metal tube 2 is in interference fit with the ceramic or quartz medium tube 1, the lower portion of the conductive metal tube 2 is connected with the first metal tab terminal 4, the outer side of the ceramic or quartz medium tube 1 is provided with a hollowed metal cylinder or a spring-shaped metal wire 8, the hollowed metal cylinder or the spring-shaped metal wire 8 can form a micro-intermittent device with a diameter of 0.00mm-0.3mm, the right lower side of the hollowed metal cylinder or the spring-shaped metal wire 8 is connected with a second metal tab terminal 7, and the ceramic or quartz medium tube 1, First metal lug wiring terminal 4, conductive metal pipe 2, discharge electrode 6, second metal lug wiring terminal 7 and fretwork form metal drum or spring form wire 8 by conductive metal pipe 2's inside is equipped with ceramic bolt 3 and 304 stainless steel nuts 5 and connects fixedly, and ceramic bolt 3 and 304 stainless steel nuts 5 have the effect of fixed discharge electrode 6, first metal lug wiring terminal 4 and second metal lug wiring terminal 7 are connected with external ozone drive power supply 6 through high frequency high voltage line 9, can provide high frequency high voltage current for ozone generating device.

The inside of the ceramic or quartz medium tube 1 is hollow, the outer diameter of the ceramic or quartz medium tube 1 is 4mm-9mm, the wall thickness of the ceramic or quartz medium tube 1 is 0.5mm-2.5mm, and the length of the ceramic or quartz medium tube 1 is 6mm-50mm, so that the ozone generation efficiency can be improved.

The micro-intermittent distance between the hollow metal cylinder or the spring metal wire 8 and the outer diameter of the ceramic or quartz medium tube 1 is 0.00mm-0.3mm, and the small micro-intermittent distance can reduce the power and reduce the starting current.

The inner wall of the ceramic or quartz medium tube 1 is provided with a conductive metal tube 2 which can discharge electricity to generate ozone.

The conductive metal tube 2 is an ozone induction layer, and can achieve the effect of inducing ozone.

The conductive metal tube 2 and the inner wall of the ceramic or quartz medium tube 1 form interference fit, a safe electricity isolation distance of 5mm is formed between the conductive metal tube 2 and the right side of the ceramic or quartz medium tube 1 and between the conductive metal tube 2 and the right side of the ceramic or quartz medium tube 7 of the second metal soldering lug, and gaps between the conductive metal tube and the ceramic or quartz medium tube are filled and sealed with 704 silicon rubber, so that the condition that the induction electrode and the discharge electrode are burnt due to arc discharge can be avoided.

The utility model discloses a theory of operation is: using a ceramic or quartz medium tube 1 or a quartz medium body with the wall thickness of 0.5-2.5mm and the outer diameter of less than 6mm as a blocking medium of an ozone generating device, fixing a conductive metal tube 2 in the ceramic or quartz medium tube 1, forming a sensing layer of the ozone generating device on the inner wall of the ceramic or quartz medium tube 1 by adopting an ozone tube sensing electrode method, fixing the conductive metal tube 2, a first metal soldering lug wiring terminal 4 and a second metal soldering lug wiring terminal 7 on the upper part of the ceramic or quartz medium tube 1 by using ceramic bolts 3 and 304 stainless steel nuts 5, forming interference fit between the conductive metal tube 2 and the inner wall of the ceramic or quartz medium tube 1, assembling a hollow-out metal cylinder or a spring-shaped metal wire 8 on the outer surface of the ceramic or quartz medium tube 1, and forming a micro gap of 0.00mm-0.3mm between the ceramic or quartz medium tube 1 and the hollow-out metal cylinder 8, the external ozone driving power supply 6 supplies power, the first metal soldering lug wiring terminal 4 and the second metal soldering lug wiring terminal 7 supply high-frequency high-voltage current to the hollow metal cylinder or the spring-shaped metal wire 8, discharge is carried out in a micro gap of 0.00mm-0.3mm, light blue electric arcs are generated, oxygen in air is ionized, ozone is generated, the service life can be prolonged by more than 50% by adopting a micro-intermittent discharge open-type tubular ozone generating device, and the power consumption can be reduced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a little intermittent discharge open type tubular ozone generating device, includes pottery or quartz medium pipe (1), electrically conductive metal pipe (2), first metal soldering lug wiring end (4) and external ozone drive power supply (6), its characterized in that: the ozone generator is characterized in that a conductive metal tube (2) is arranged inside the ceramic or quartz medium tube (1), the lower portion of the conductive metal tube (2) is connected with a first metal soldering lug wiring terminal (4), a hollowed-out metal cylinder or a spring-shaped metal wire (8) is arranged on the outer side of the ceramic or quartz medium tube (1), a second metal soldering lug wiring terminal (7) is connected to the lower right side of the hollowed-out metal cylinder or the spring-shaped metal wire (8), a ceramic or quartz medium tube (1), the first metal soldering lug wiring terminal (4), the conductive metal tube (2), the hollowed-out metal cylinder or the spring-shaped metal wire (8) and the second metal soldering lug wiring terminal (7) are all connected and fixed through a ceramic bolt (3) and a 304 stainless steel nut (5) arranged inside the conductive metal tube (2), and the first metal soldering lug wiring terminal (4) and the second metal soldering lug wiring terminal (7) are connected with an external ozone driving power supply (6) through a high-frequency line (9).

2. The micro-intermittent discharge open-type tubular ozone generator according to claim 1, characterized in that: the interior of the ceramic or quartz medium tube (1) is hollow, the outer diameter of the ceramic or quartz medium tube (1) is 4mm-9mm, the wall thickness of the ceramic or quartz medium tube (1) is 0.5mm-2.5mm, and the length of the ceramic or quartz medium tube (1) is 6mm-50 mm.

3. The micro-intermittent discharge open-type tubular ozone generator according to claim 1, characterized in that: the micro intermittent distance between the hollow metal cylinder or the spring metal wire (8) and the outer diameter of the ceramic or quartz medium tube (1) is 0.00mm-0.3 mm.

4. The micro-intermittent discharge open-type tubular ozone generator according to claim 1, characterized in that: the inner wall of the ceramic or quartz medium tube (1) is provided with a conductive metal tube (2).

5. The micro-intermittent discharge open-type tubular ozone generator according to claim 1, characterized in that: the conductive metal tube (2) is an ozone induction layer.

6. The micro-intermittent discharge open-type tubular ozone generator according to claim 1, characterized in that: the conductive metal tube (2) and the inner wall of the ceramic or quartz medium tube (1) form interference fit, a safe electricity isolation distance of 5mm is formed between the conductive metal tube (2) and the right side of the ceramic or quartz medium tube (1) and the second metal soldering lug terminal (7), and a gap between the conductive metal tube and the ceramic or quartz medium tube is filled and sealed by 704 silicon rubber.

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