CN2920970Y - Air-cooling pipe type ozone generator - Google Patents

Abstract

Disclosed is an air-cooling pipe ozonizer, which comprises a stainless steel shell, a glass pipe, iron powders, a aluminium pipe and a cover. The utility model is characterized in that the glass pipe is filled with the hyperfine iron powders; the column hollow aluminium pipe is in the center of the glass pipe; a high-voltage down-lead is fixed on the aluminium pipe with the screws and is enduced from the center of aluminium pipe; and the upper cover is movably communicated with the lower cover. The utility model improves the generation efficiency, the concentration and the output of ozone per unit area, reduces the volume of the ozonizer, and can conveniently use the gas pump to cool the high voltage electrode, thereby improving the cooling effect and prolonging the service life of the ozonizer; compared with the conventional connection with stickiness, the utility model takes the movable connection to make the assembly more simply, the structure more firm and the repair more easy.

Description

A kind of air-cooled tubular ozone generator

Technical field

The utility model relates to a kind of ozonizer device, particularly a kind of air-cooled tubular ozone generator structure-design technique field.

Background technology

Ozone is the strong oxidizer of sterilization, decolouring, taste removal, it as one of most important advantage of strong oxidizer be exactly at short notice voluntarily decomposition-reduction become oxygen.To not residual harmful secondary pollution material behind the sterilization and disinfection such as environment, water, air, utensil and food.Therefore ozone also become the strong oxidation medicament of the omnipotent green of ideal, the huge irreplaceable effect of performance aspect environmental problems such as atmosphere, water treatment.

Artificial ozoniferous method has by the principle branch: photochemical method, electrochemical process, atomic radiation method and corona discharge method etc. are several, and industrial application oxygen adopts corona discharge process to produce ozone as the raw material source of the gas mostly.By the ozoniferous device of corona discharge tubular type, flat and some other different structure mode are arranged structurally at present, principle of work is basic identical separately.The tubular type corona discharge assembly is to be with one deck dielectric substance at interior electrode skin, it between dielectric substance skin and outer electrode the geseous discharge gap, unstripped gas with certain oxygen composition flows through from air gap, adds voltage of alternating current on internal and external electrode, makes and forms corona discharge between discharge air-gap.The unstripped gas that flows through air gap is ionized under the effect of corona discharge, and oxonium ion wherein causes oxygen molecule to form ozone with producing reaction between oxygen molecule and the oxonium ion, and meanwhile, ozone molecule also can generate oxygen molecule with the reaction of the Sauerstoffatom in the gas.Be ionized to the certain heat of whole process need absorption of oxonium ion and oxygen molecule reaction generation ozone from normal temperature oxygen molecule or Sauerstoffatom.But temperature is high more, and the speed that ozone decomposes is also fast more, and the productive rate of ozone is reduced.So ozone generation also is a very low thermal process reactor of efficient, discharge electrode needs good cooling, and the type of cooling has liquid cooling and air-cooled dual mode.Appropriate design ozonizer system architecture and electrode structure and to improve the system radiating effect be the main path that improves the ozoniferous productive rate of corona discharge type ozonizer and efficient and prolong its work-ing life.

The utility model content

Technical problem to be solved in the utility model is to design a kind ofly can improve ozone output, reduces the volume of ozonizer, assembles simpler, structure is more firm, for ease of maintenaince, and help the high voltage electrode heat radiation, prolong the device ozonizer in work-ing life.

The technical problem that the utility model solved can be achieved through the following technical solutions:

A kind of air-cooled tubular ozone generator, comprise devices such as stainless steel casing 4, Glass tubing 5, iron powder 2, aluminum pipe 3, end cap 8, discharge chamber is between stainless steel 4 and pipe Glass tubing 5 outer walls, and stainless steel casing 4 is a discharge electrode, dielectric layer adopts cylindrical glass tube 5, filling ferrous powder 2 in the Glass tubing 5, Glass tubing 5 centers stud with aluminum pipe 3, and the two ends of Glass tubing 5 are the silica gel sealing material, high-voltage connection 9 usefulness screws 1 are fixed on the aluminum pipe 3, drawn by aluminum pipe 3 centers, end cap 8 is for flexibly connecting up and down

Edge cylindrical hollow aluminum pipe 3 in the described high voltage electrode iron powder 2.

Described end cap up and down 8 adopts dismountable thread connecting mode.

Ozonizer adopts the corona discharge mode, dielectric layer adopts the high strength quartz glass tube, fill hyperfine iron powder in the Glass tubing as high voltage electrode, the homogeneity and the consistence of discharge face have effectively been guaranteed, ozone production efficiency, ozone concn and unit surface ozone output have been improved greatly, reduce the volume of ozonizer, prevented because of discharging obnoxious flavoures such as irregular, generation oxynitrides.

Edge hollow aluminum pipe can use air pump that high voltage electrode is cooled off easily in the high voltage electrode of described ozonizer, has improved cooling performance widely, prolongs the work-ing life of ozonizer.

The end cap up and down of described ozonizer changes movable connection method into by original fixedly connected mode, and for example end cap adopts thread connecting mode up and down, can also fill up sheet rubber between the end cap up and down, adopt gluing mode of connection to compare with tradition, assemble simplyr, structure is more firm, and for ease of maintenaince.

Description of drawings

Fig. 1 is the positive view of the utility model ozonizer

The number in the figure explanation

1 screw, 2 metal iron powders, 3 cylindrical hollow aluminum pipes, 4 stainless steel casings, 5 Glass tubings, 6 silica gel sealing sheets, 7 silica gel plugs, 8 end caps, 9 high-voltage connections.

Embodiment

Details are as follows below in conjunction with accompanying drawing and preferred embodiment:

The structure of the utility model ozonizer as shown in Figure 1, discharge chamber is between stainless steel casing 4 and Glass tubing 5 outer walls, stainless steel casing 4 is discharge electrode ground, and dielectric adopts cylindrical glass tube 5, fills hyperfine iron powder 2 in the Glass tubing 5, Glass tubing 5 centers are cylindrical hollow aluminum pipe 3, the two ends of Glass tubing 5 are the silica gel sealing material, silica gel sealing sheet 6, silica gel plug 7, high-voltage connection 9 usefulness screws 1 are fixed on the aluminum pipe 3, are drawn by aluminum pipe 3 centers.

High voltage electrode adopts superfine metal iron powder 2 filling modes.Effectively guaranteed the homogeneity and the consistence of discharge face, improved ozone production efficiency, ozone concn and unit surface ozone output greatly, reduced the volume of ozonizer, it is irregular to prevent to discharge.

Edge cylindrical hollow aluminum pipe 3 can use air pump that high voltage electrode is cooled off easily in the high voltage electrode, has improved cooling performance widely, prolongs the work-ing life of ozonizer.

End cap 8 changes movable connection method into by original fixedly connected mode up and down, in the present embodiment up and down end cap adopt dismountable thread connecting mode, adopt gluing mode of connection to compare with tradition, assemble simplyr, structure is more firm, and for ease of maintenaince.

Claims (3)

1, a kind of air-cooled tubular ozone generator, comprise stainless steel casing (4), Glass tubing (5), iron powder (2), aluminum pipe (3), end cap devices such as (8), discharge chamber is between stainless steel (4) and pipe Glass tubing (5) outer wall, stainless steel casing (4) is a discharge electrode, dielectric layer adopts cylindrical glass tube (5), it is characterized in that: the interior filling ferrous powder of Glass tubing (5) (2), Glass tubing (5) center studs with aluminum pipe (3), the two ends of Glass tubing (5) are the silica gel sealing material, high-voltage connection (9) is fixed on the aluminum pipe (3) with screw (1), drawn by aluminum pipe (3) center, end cap (8) is for flexibly connecting up and down.

2, a kind of air-cooled tubular ozone generator according to claim 1 is characterized in that: edge cylindrical hollow aluminum pipe (3) in the high voltage electrode iron powder (2).

3, a kind of air-cooled tubular ozone generator according to claim 1 is characterized in that end cap (8) adopts dismountable thread connecting mode up and down.

Images