CN103407968B - Ozonizer - Google Patents

Abstract

Ozonizer, primarily of housing, inlet pipe, escape pipe and the ozone excitation device composition being positioned at housing.By arranging the spiral air passage around ozone excitation device in housing, the gas entered in housing must be moved to escape pipe along air flue, adding the time that gas accepts the irradiation of ozone excitation device, thus making the increasing concentrations of ozone.When needing the ozone of greater concn, by the escape pipe on adjacent ozonizer and inlet pipe are connected in series the series connection realized between ozonizer, thus the ozone that ozonizer produces is sent in next ozonizer again, through the irradiation repeatedly of ozone excitation device, thus produce the ozone of greater concn.

Description

Ozonizer

Technical field

The present invention relates to the ozonizer of nonnitrogenous compound in its resultant a kind of, belong to the optimisation technique of ozonizer.

Background technology

The mode manufacturing ozone mainly contains three kinds, and one adopts quartz burner to irradiate air or pure oxygen, and one is electrolytic process, and one is creeping discharge method.First kind of way, due to the limited strength that quartz burner irradiates, and ozone is unstable, and the ozone concn of manufacture is relatively low, and, due in the local space of a part of gas prolonged stay around quartz burner, have impact on generation and the flowing of ozone; The output of second way ozone is also relatively low; If the third mode ionizes pure oxygen, easily produce blast, therefore can only ionize air, after ionization except generation ozone, also can produce harmful nitride, and current consumption is also larger.

Therefore, need to find the nonnitrogenous compound of a kind of output object, and the ozone producing apparatus of higher concentration ozone can be produced.

Summary of the invention

The object of this invention is to provide the nonnitrogenous compound of a kind of output object, and the ozonizer of higher concentration ozone can be produced.

Technical scheme of the present invention is: ozonizer, and form primarily of housing 1, inlet pipe 11, escape pipe 12 and the ozone excitation device 2 that is positioned at housing, described inlet pipe and escape pipe are separately positioned on the sidewall at housing two ends; In space between inner walls and ozone excitation device outer wall, around ozone excitation device 2, more than one gas storehouse 4 is set, described gas storehouse is sequentially arranged in around ozone excitation device by the direction from inlet pipe to escape pipe, is provided with passage and communicates between adjacent gas storehouse; Described gas storehouse is provided with through hole towards the end face of ozone excitation device, and the edge of through hole is connected with ozone excitation device outer wall; Source of the gas enters the gas storehouse being positioned at housing by inlet pipe, and flows along the passage between gas storehouse to the direction of escape pipe; Source of the gas is excited to produce ozone during the work of ozone excitation device; Described gas storehouse 4 is one, and the shape in gas storehouse is volution; The inlet end in gas storehouse 4 communicates with inlet pipe, and exit end communicates with escape pipe 12; Adjacent ozonizer is cascaded by being connected with the inlet pipe of another ozonizer by the escape pipe of an ozonizer; Or by the connection of pipeline, multiple ozonizer being connected in parallel, the ozone of generation converges and exports in a total output channel.

Described ozone excitation device 2 adopts quartz burner, and quartz burner two is provided with light cover 3, and light cover is provided with latch 31, and the electrode at quartz burner two ends inserts in the latch on light cover.

Described source of the gas is air or pure oxygen.

Described quartz burner adopts straight tube or ring pipe.

Housing adopts lighttight material to make.

Described gas Cang4Bi applies light reflecting material.

Described housing is arranged a transparent vision slit.

Beneficial effect

1, the spiral air passage by arranging in housing around ozone excitation device, makes the gas entered in housing must move along air flue to escape pipe, adds the time that gas accepts the irradiation of ozone excitation device, thus makes the increasing concentrations of ozone.

2, when needing the ozone of greater concn, by the escape pipe on adjacent ozonizer and inlet pipe are connected in series the series connection realized between ozonizer, thus the ozone that ozonizer produces is sent in next ozonizer again, through the irradiation repeatedly of ozone excitation device, thus produce the ozone of greater concn.

Accompanying drawing explanation

Fig. 1 is the schematic appearance of one embodiment of the present of invention;

Fig. 2 is the schematic appearance of an alternative embodiment of the invention;

Fig. 3 is the figure that pops of embodiment in Fig. 1;

Fig. 4 is that in Fig. 1, the partial cutaway schematic of embodiment does not establish spiral air passage;

Fig. 5 is that in Fig. 1, the partial cutaway schematic of embodiment is provided with spiral air passage;

Fig. 6 is the series connection schematic diagram of ultraviolet ozonizer of the present invention;

Fig. 7 is the series connection schematic diagram of ultraviolet ozonizer of the present invention.

Embodiment

As shown in Fig. 1 to Fig. 5, ozonizer, form primarily of housing 1, inlet pipe 11, escape pipe 12 and the ozone excitation device 2 that is positioned at housing, described inlet pipe and escape pipe are separately positioned on the sidewall at housing two ends; In space between inner walls and ozone excitation device outer wall, around ozone excitation device 2, more than one gas storehouse 4 is set, described gas storehouse is sequentially arranged in around ozone excitation device by the direction from inlet pipe to escape pipe, is provided with passage and communicates between adjacent gas storehouse; Described gas storehouse is provided with through hole towards the end face of ozone excitation device, and the edge of through hole is connected with ozone excitation device outer wall; Source of the gas enters the gas storehouse being positioned at housing by inlet pipe, and flows along the passage between gas storehouse to the direction of escape pipe; Source of the gas is excited to produce ozone during the work of ozone excitation device.

Described ozone excitation device 2 adopts quartz burner, and quartz burner two is provided with light cover 3, and light cover is provided with latch 31, and the electrode at quartz burner two ends inserts in the latch on light cover.

Described source of the gas is air or pure oxygen.

Described gas storehouse 4 is one, and the shape in gas storehouse is volution; The inlet end in gas storehouse 4 communicates with inlet pipe, and exit end communicates with escape pipe 12, and ozone excitation device irradiates the gas flow through in gas storehouse, makes it produce ozone.By arranging the spiral air passage around ozone excitation device in housing, the gas entered in housing must be moved to escape pipe along air flue, adding the time that gas accepts the irradiation of ozone excitation device, thus making the increasing concentrations of ozone.

Described quartz burner adopts straight tube or ring pipe, and when a gas storehouse only established by an ozonizer, gas storehouse is identical with UV-lamp tube shape, and quartz burner is nested in gas storehouse endoporus.

Housing adopts lighttight material to make, impact environment around when preventing ozone excitation device from working

Described gas Cang4Bi applies light reflecting material, is irradiated in ultraviolet on wall or other ray diffraction return-air storehouses, air/oxygen is irradiated further, makes it produce more ozone.

As shown in Figure 6, Figure 7, adjacent ozonizer is cascaded by being connected with the inlet pipe of another ozonizer by the escape pipe of an ozonizer.When needing the ozone of greater concn, by the series connection realized between ozonizer that the escape pipe on adjacent ozonizer and inlet pipe are connected, thus the ozone produced by ozonizer and remaining air/oxygen are sent in next ozonizer again, through the irradiation repeatedly of quartz burner or electrolysis ozone generator, thus produce the ozone of greater concn.

Or by the connection of pipeline, make multiple ozonizer be connected in parallel, the ozone of generation converges and exports in a total output channel.

Described housing is arranged a transparent vision slit.For whether observing ozone excitation device in work.

Quartz burner is utilized to manufacture ozone, if select air as source of the gas, the impact of oxygen level in air can be subject to, because the oxygen level of different areas has difference, cause different areas, the ozone concn of same device fabrication has difference, particularly in high altitude localities or be oxidized thin area, produces high-concentrated ozone just more difficult; Therefore, adopt quartz burner to manufacture the mode of ozone, more satisfactory with pure oxygen, not by such environmental effects.

Ozonizer of the present invention, can be used in the fields such as tap water purifying, sewage disposal, Treated sewage reusing, perfume synthesis and chemical industry oxidation.

Above-described embodiment is only used to interpretation purposes of the present invention, and is not limitation of the present invention, those skilled in the art, in essential scope of the present invention, makes a variety of changes or substitutes, also should belong to protection category of the present invention.

Claims (5)

1. ozonizer, primarily of housing (1), inlet pipe (11), escape pipe (12) and ozone excitation device (2) composition being positioned at housing, described inlet pipe and escape pipe are separately positioned on the sidewall at housing two ends; It is characterized in that: in the space between inner walls and ozone excitation device outer wall, around ozone excitation device (2), more than one gas storehouse (4) is set, described gas storehouse is sequentially arranged in around ozone excitation device by the direction from inlet pipe to escape pipe, is provided with passage and communicates between adjacent gas storehouse; Described gas storehouse is provided with through hole towards the end face of ozone excitation device, and the edge of through hole is connected with ozone excitation device outer wall; Source of the gas enters the gas storehouse being positioned at housing by inlet pipe, and flows along the passage between gas storehouse to the direction of escape pipe; Source of the gas is excited to produce ozone during the work of ozone excitation device; Described gas storehouse (4) is one, and the shape in gas storehouse is volution; The inlet end in gas storehouse (4) communicates with inlet pipe, and exit end communicates with escape pipe (12); Described ozone excitation device (2) adopts quartz burner, and quartz burner two is provided with light cover (3), and light cover is provided with latch (31), and the electrode at quartz burner two ends inserts in the latch on light cover; Described quartz burner adopts straight tube; Adjacent ozonizer is cascaded by being connected with the inlet pipe of another ozonizer by the escape pipe of an ozonizer; Or by the connection of pipeline, multiple ozonizer being connected in parallel, the ozone of generation converges and exports in a total output channel.

2. ozonizer according to claim 1, is characterized in that: described source of the gas is air or pure oxygen.

3. ozonizer according to claim 1, is characterized in that: housing adopts lighttight material to make.

4. ozonizer according to claim 1, is characterized in that: described gas storehouse (4) wall applies light reflecting material.

5. ozonizer according to claim 1, is characterized in that: described housing is arranged a transparent vision slit.