CN111232930A

CN111232930A - Miniature ozone generator

Info

Publication number: CN111232930A
Application number: CN202010124442.2A
Authority: CN
Inventors: 聂开飞; 蒙万鹏; 张天宝; 黄锦新; 朱明友
Original assignee: Foshan Sunboss Photoelectric Technology Co ltd
Current assignee: Foshan Sunboss Photoelectric Technology Co ltd
Priority date: 2020-02-27
Filing date: 2020-02-27
Publication date: 2020-06-05

Abstract

The invention belongs to the technical field of ozone production equipment, and particularly relates to a miniature ozone generator which comprises a front mounting plate and a rear mounting plate, wherein a matrix radiator is clamped between the front mounting plate and the rear mounting plate, an ozone generating pipe penetrating through the front mounting plate and the rear mounting plate is arranged in the middle of the matrix radiator, the front end and the rear end of the ozone generating pipe are respectively provided with an air inlet end seat and an air outlet end seat, and one side of the matrix radiator is provided with an auxiliary radiating fan erected on the front mounting plate and the rear mounting plate. The ozone generator ensures that air is ionized and decomposed through multiple sections when passing through the ozone generating tube, greatly improves the flow rate of ozone generation, has higher heat exchange efficiency with air while generating ozone, can improve the energy-saving effect and use safety during production, and has novel integral structure, light volume and high ozone generation efficiency, thereby being beneficial to improving the development of ozone preparation technology.

Description

Miniature ozone generator

Technical Field

The invention belongs to the technical field of ozone production equipment, and particularly relates to a miniature ozone generator.

Background

Ozone is easy to decompose and cannot be stored, the ozone needs to be prepared on site for use, and the ozone can be stored for a short time under special conditions, so that an ozone generator is needed to be used in all places where the ozone can be used. The ozone generator is widely applied to the fields of drinking water, sewage, industrial oxidation, food processing and fresh keeping, medicine synthesis, space sterilization and the like. The classification of ozone generators is divided according to the mode of ozone generation, and the ozone generators mainly have three types: the first is a high-voltage discharge type, the second is an ultraviolet irradiation type, and the third is an electrolysis type. In the industrial and medical fields, ozone has been widely used for sterilization, deodorization, detoxification, beauty treatment, medical care, and the like. The existing ozone output device has the defects of complex internal structure, high power consumption, large heat generation, large volume and the like, and brings great inconvenience to users.

The utility model discloses a be "a miniature ozone generation module" in chinese utility model patent number CN201821412218.8 name and disclose one kind through being equipped with ozone generation pipe and ozone generation circuit board bottom the casing, the casing both sides are equipped with air inlet and gas outlet, air inlet and gas outlet communicate ozone generation pipe both ends respectively, ozone generation circuit board sets up in ozone generation pipe one side, and ozone generation pipe is connected to ozone generation circuit board electricity, the embedment has epoxy in the casing. The safety in the use is improved, the noise is reduced, the heat dissipation performance is enhanced, and the waterproof effect is realized. However, in the above technical solutions and the existing ozone generators, there are problems that the use of an integral aluminum alloy profile has a heavy weight, the ozone generation process is not uniform, the high and low voltages are in a free state during discharging, and the heat dissipation effect is not good, and in the discharging process, the discharging body only discharges at the position where the size distance between the high and low voltage electrodes is shortest, so that the other parts of the circular cross section cannot discharge, and therefore, the ozone generation rate is very low under the same power condition, and it is difficult to meet the use requirements, and therefore, it is necessary to improve the counterweight structure.

Disclosure of Invention

One of the objectives of the present invention is to provide a miniature ozone generator with novel structure, light weight, high ozone generation efficiency and good heat dissipation effect, in order to overcome the defects and shortcomings of the prior art.

The technical scheme of the invention is as follows:

this miniature ozone generator, including preceding mounting panel and rear mounting panel, preceding mounting panel and rear mounting panel between the clamping have the matrix radiator, matrix radiator middle part is equipped with the ozone that runs through preceding mounting panel and rear mounting panel and takes place the pipe, both ends are equipped with the inlet end seat respectively around the ozone takes place the pipe and give vent to anger the end seat, matrix radiator one side be equipped with and erect the supplementary radiator fan on preceding mounting panel and rear mounting panel.

Preferably, matrix radiator middle part be equipped with about two ozone generating pipe that the interval set up, inlet end seat with give vent to anger and be equipped with the port that corresponds about two ozone generating pipe on the end seat respectively.

Preferably, the matrix radiator is formed by overlapping a plurality of radiating blades made of metal materials, the distance between every two adjacent radiating blades is kept at 2 mm, and the radiating blades are discharging negative ends.

Preferably, the ozone generating tube is formed by sleeving an insulating isolation tube of the outer tube on a metal electrode tube of the inner tube, two ends of the metal electrode tube are longer than the insulating isolation tube and are exposed, an air flow channel is arranged between the insulating isolation tube and the metal electrode tube, the metal electrode tube is a discharge positive electrode end, and air holes communicated with the air flow channel are respectively arranged on the air inlet end seat and the air outlet end seat.

Preferably, the insulating isolation tube is made of quartz glass, the metal electrode tube is made of stainless steel, the radiating blades are made of aluminum alloy, and the auxiliary radiating fan is of a waterproof structure.

Preferably, preceding mounting panel and back mounting panel inwards stretch out for the top respectively and be equipped with the installation position, supplementary radiator fan set up on the installation position, preceding mounting panel and back mounting panel outwards stretch out for the bottom respectively and are equipped with the negative power supply terminal, the end socket of admitting air and giving vent to anger on the end socket be equipped with positive power supply terminal.

Preferably, the gas inlet end seat and the gas outlet end seat are respectively provided with a first-stage limiting structure and a second-stage limiting structure from outside to inside, the first-stage limiting structure is in contact with the end part of the metal electrode tube, an electrode sealing rubber ring is arranged between the first-stage limiting structure and the end part of the metal electrode tube, and the second-stage limiting structure is in contact with the end part of the insulating isolation tube.

Preferably, the binding surfaces of the air inlet end seat and the front mounting plate and the air outlet end seat and the rear mounting plate are provided with isolation sealing rubber rings which are sleeved on the insulation isolation pipes.

Preferably, preceding mounting panel, back mounting panel, inlet end seat, preceding mounting panel, matrix radiator on be equipped with the connecting hole of counterpointing respectively, correspond the connecting hole use connecting piece fixed connection.

The invention has the beneficial effects that: the utility model provides a miniature ozone generator is through using matrix radiator cooperation to run through ozone in its middle part and take place the pipe and form many cross sections and discharge, thereby ensure that the air carries out the ionization through many cross sections when taking place the pipe through ozone and decompose, the flow that ozone produced has been promoted greatly, make ozone generator can do the volume under the ozone that produces the same flow littleer, light and handy structure is convenient for use on different equipment, in addition, just can form many heat dissipation channel between its many cross sections of matrix radiator, the radiator fan is assisted in the cooperation, make ozone generator when producing ozone and the heat exchange efficiency between the air higher, can improve energy-conserving effect and safe in utilization when ozone production, its overall structure is novel, and small and handy, ozone produces efficient development that helps promoting ozone preparation technique.

Drawings

FIG. 1 is an exploded view of a miniature ozone generator according to the present invention;

FIG. 2 is a top view of a miniature ozone generator of the present invention;

FIG. 3 is a front view of a miniature ozone generator of the present invention;

FIG. 4 is a left side view of a miniature ozone generator of the present invention;

FIG. 5 is a sectional view of the internal structure of a miniature ozone generator according to the present invention;

FIG. 6 is a schematic diagram of the ozone generation of a miniature ozone generator according to the present invention;

FIG. 7 is a cross-sectional view of a miniature ozone generator of the present invention in one orientation;

fig. 8 is a schematic cross-sectional view of another embodiment of a miniature ozone generator according to the present invention.

Detailed Description

As shown in fig. 1-8, the micro ozone generator according to the present invention comprises a front mounting plate 1 and a rear mounting plate 2, wherein the front mounting plate 1 and the rear mounting plate 2 are respectively provided with a mounting position 30 extending from the top inwards, the auxiliary heat dissipation fan 3 is arranged on the mounting position 30, the front mounting plate 1 and the rear mounting plate 2 are respectively provided with a negative power terminal 31 extending from the bottom outwards, a matrix type heat sink 4 is clamped between the front mounting plate 1 and the rear mounting plate 2, the matrix type heat sink 4 is formed by stacking a plurality of heat dissipation blades 40 made of metal material, the distance between adjacent heat dissipation blades 40 is kept at 2 mm, the heat dissipation blades 40 are discharge cathode ends, the middle part of the matrix type heat sink 4 is provided with an ozone generation tube 5 penetrating through the front mounting plate 1 and the rear mounting plate 2, the front end and the rear end of the ozone generation tube 5 are respectively provided with an inlet end seat 6 and an, the air inlet end seat 6 and the air outlet end seat 7 are provided with positive power terminals 32, the ozone generating tube 5 is formed by sleeving an insulating isolation tube 50 of an outer tube on a metal electrode tube 51 of an inner tube, two ends of the metal electrode tube 51 are longer than the insulating isolation tube 50 and are exposed, an air flow channel 52 is arranged between the insulating isolation tube 50 and the metal electrode tube 51, the metal electrode tube 51 is a discharge positive end, the air inlet end seat 6 and the air outlet end seat 7 are respectively provided with air holes 33 communicated with the air flow channel 52, one side of the matrix radiator 4 is provided with an auxiliary radiating fan 3 erected on the front mounting plate 1 and the rear mounting plate 2, the front mounting plate 1, the rear mounting plate 2, the air inlet end seat 3, the front mounting plate 7 and the matrix radiator 4 are respectively provided with aligning connecting holes 34, the connecting holes 34 are fixedly connected by using connecting pieces, due to the adoption of the matrix radiator 4, its radiator fin 40 has adopted the lamination formula structure for the negative pole, produces an annular ionization electric field between every negative pole and the metal electrode pipe 51 positive pole to this stack, the air is passed through the ionization more than 20 times when passing through annular electric field space, energy-conserving effect and safe in utilization when can improving ozone production, its overall structure is novel, the volume is light and handy, ozone produces efficient development that helps promoting ozone preparation technique well.

Preferably, the matrix radiator 4 is provided with a left ozone generating tube 5 and a right ozone generating tube 5 at intervals in the middle, the inlet end seat 6 and the outlet end seat 7 are respectively provided with ports corresponding to the left ozone generating tube 5 and the right ozone generating tube 5, the inlet and the outlet of ozone generated by the two ozone generating tubes 5 share and are communicated with each other, the two ozone generating tubes 5 in the matrix radiator 4 can generate ozone at the same time, and the ozone generating tubes 5 do not influence each other, so that the structure is simple.

Further, in order to improve the flow that ozone produced, matrix radiator 4 on ozone take place tub 5 can adjust as required according to the structure, inlet end seat 6 also carries out corresponding adjustment with the business turn over air channel on the end seat 7 of giving vent to anger simultaneously for promote ozone flow when and the heat exchange efficiency between the air higher.

Preferably, the insulating isolation tube 50 is made of quartz glass, the metal electrode tube 51 is made of stainless steel, the heat dissipation blades 40 are made of aluminum alloy, and the auxiliary heat dissipation fan 3 is a waterproof fan or a common electronic fan.

Specifically, inlet end seat 6 and the spacing 9 structure of one-level 8 and second grade are equipped with respectively to the outside-in of outlet end seat 7, the spacing 8 of one-level and the contact of metal electrode pipe 51 tip, be equipped with electrode seal rubber ring 80 between the tip of the spacing 8 of one-level and metal electrode pipe 51, the spacing 9 of second grade and the contact of insulating spacer tube 50 tip, inlet end seat 6 and preceding mounting panel 1, outlet end seat 7 and back mounting panel 2 the binding face on be equipped with the sealed rubber ring 90 of isolation that cup joints on insulating spacer tube 50, the sealed rubber ring 90 of isolation and electrode seal rubber ring 80's use effectively promotes the leakproofness, avoids scurrying of admitting air and giving vent to anger messy, guarantees the pure of the ozone quality of production.

Through the technical scheme, a miniature ozone generator forms many sections through using the cooperation of matrix radiator 4 to run through ozone generator 5 at its middle part and discharges, thereby ensure that the air carries out the ionization through many sections when taking place pipe 5 through ozone and decompose, the flow that ozone produced has been promoted greatly, make ozone generator can be with the volume do littleer under the ozone that produces the same flow, light and handy structure is convenient for use on different equipment, in addition, just can form many radiating channels between its many sections of matrix radiator 4, supplementary radiator fan 3 of cooperation, make ozone generator when producing ozone and the heat exchange efficiency between the air higher.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. It is therefore intended that the invention not be limited to the exact details and illustrations described and illustrated herein, but fall within the scope of the appended claims and equivalents thereof.

Claims

1. The utility model provides a miniature ozone generator, includes preceding mounting panel and back mounting panel, its characterized in that: preceding mounting panel and back mounting panel between the clamping have a matrix radiator, matrix radiator middle part is equipped with the ozone that runs through preceding mounting panel and back mounting panel and takes place the pipe, both ends are equipped with the inlet end seat respectively around the ozone takes place the pipe and give vent to anger the end seat, matrix radiator one side be equipped with erect the supplementary radiator fan on preceding mounting panel and back mounting panel.

2. The miniature ozone generator of claim 1, wherein: matrix radiator middle part be equipped with about two ozone generating tube that the interval set up, inlet end seat with give vent to anger and be equipped with the port that corresponds about two ozone generating tube on the end seat respectively.

3. The miniature ozone generator of claim 1, wherein: the matrix radiator is formed by overlapping a plurality of radiating blades made of metal materials, the distance between every two adjacent radiating blades is kept at 2 mm, and the radiating blades are discharging cathode ends.

4. The miniature ozone generator of claim 1, wherein: the ozone generating tube is formed by sleeving an insulating isolation tube of an outer tube on a metal electrode tube of an inner tube, two ends of the metal electrode tube are longer than the insulating isolation tube and exposed, an air flow channel is arranged between the insulating isolation tube and the metal electrode tube, the metal electrode tube is a discharging positive electrode end, and air holes communicated with the air flow channel are respectively arranged on the air inlet end seat and the air outlet end seat.

5. The miniature ozone generator of claim 4, wherein: the insulating isolation tube is made of quartz glass, the metal electrode tube is made of stainless steel, the radiating blades are made of aluminum alloy, and the auxiliary radiating fan is of a waterproof structure.

6. The miniature ozone generator of claim 1, wherein: preceding mounting panel and back mounting panel inwards stretch out for the top respectively and be equipped with the installation position, supplementary radiator fan set up on the installation position, preceding mounting panel and back mounting panel outwards stretch out for the bottom respectively and are equipped with the negative power supply terminal, inlet end seat and the end seat of giving vent to anger on be equipped with positive power supply terminal.

7. The miniature ozone generator of claim 4, wherein: the gas inlet end seat and the gas outlet end seat are respectively provided with a first-stage limiting structure and a second-stage limiting structure from outside to inside, the first-stage limiting structure is in contact with the end part of the metal electrode tube, an electrode sealing rubber ring is arranged between the first-stage limiting structure and the end part of the metal electrode tube, and the second-stage limiting structure is in contact with the end part of the insulating isolation tube.

8. The miniature ozone generator of claim 7, wherein: the binding surfaces of the air inlet end seat and the front mounting plate as well as the air outlet end seat and the rear mounting plate are provided with isolation sealing rubber rings which are sleeved on the insulation isolation pipes.

9. The miniature ozone generator of claim 1, wherein: preceding mounting panel, back mounting panel, inlet end seat, preceding mounting panel, matrix radiator on be equipped with the connecting hole of counterpointing respectively, correspond the connecting hole use connecting piece fixed connection.