CN201232026Y

CN201232026Y - Ozone generator with discharging unit modular structure

Info

Publication number: CN201232026Y
Application number: CNU2007201270520U
Authority: CN
Inventors: 陈健; 王涛
Original assignee: Fujian Newland EnTech Co Ltd
Current assignee: Fujian Newland EnTech Co Ltd
Priority date: 2007-01-16
Filing date: 2007-07-20
Publication date: 2009-05-06
Anticipated expiration: 2017-07-20
Also published as: CN101224872B; CN101224872A

Abstract

The utility model relates to an ozonizer with a modular structure of a discharge unit. The ozonizer comprises a discharge chamber, an oxygen chamber and an ozone chamber; the discharge chamber comprises at least one discharge module and two fixing discs for fixing the discharge module; the oxygen chamber and the ozone chamber are arranged at the outer side of the fixing disc of the two discharge modules; each discharge module comprises a plurality of discharge units and two fixing plates of the discharge units which are respectively arranged at the two ends of the discharge units; the discharge modules are arranged on the two fixing discs of the discharge modules by the discharge units arranged at the two ends of the discharge modules; each discharge unit comprises an inner electrode, an insulated sleeve and an outer electrode which are sheathed for installation in sequence from inside to outside, a clearance is arranged between the inner electrode and the outer electrode, electric connection is respectively formed between the inner electrodes and the outer electrodes in each discharge module; the ozonizer by adopting the structure contains a large amount of electrodes, the output of each ozonizer is high, the volume is small, the manufacturing, installation and maintenance is easy.

Description

A kind of ozonizer of modular structural discharging unit

Technical field:

The utility model belongs to the ozonizer field, particularly a kind of large-scale ozonizer with a large amount of electrodes.

Technical background:

Existing large-scale electric discharge prepares the equipment of ozone, air gap corona discharge type ozonizer generally be with tens so that cover up to a hundred or the medium tube of more installing by the concentric(al) circles mode and discharge rod (promptly interior electrode) be placed in the discharge chamber that a round metal column casing makes, high voltage electrode is as interior electrode, and the discharge chamber shell is as outer electrode.Connect respectively between the interior all interior electrodes of ozonizer; when the quantity of electrode is big; when being coupled together respectively, all interior electrodes need spend many times; and need the very careful connection of connectionist in order to avoid miss or same electrode repeats to connect; this problem was particularly outstanding when particularly number of electrodes reached hundreds of even thousands of; therefore it is big to have the ozonizer volume that comprises a large amount of electrodes now; the single device ozone output is little; be not easy again to produce; installation and maintenance; and all discharge cells are all unified the power supply oxygen supply; the output of ozone devices can not be regulated according to actual needs; and under discharge cell such as need change at the maintenance service situation, need to make ozonizer to shut down, therefore need a kind of a large amount of electrodes that comprise; volume is little; separate unit output is big; ozone output can be regulated; do not need when safeguarding to shut down; and produce easily; the ozonizer of installing and safeguarding.

The utility model content:

The purpose of this utility model is to provide a kind of a large amount of electrodes that comprise, and volume is little, separate unit output is big, ozone output can be regulated, do not need when safeguarding to shut down, produce easily again, the ozonizer of installation and maintenance.

The utility model is to realize like this, a kind of ozonizer of modular structural discharging unit, comprise discharge chamber, oxygen chamber and ozone chamber, described discharge chamber is made of at least one discharge module and two shaft collars that are used for fixing discharge module, each discharge module comprises several discharge cells and two discharge cell retaining plates that are installed in the discharge cell two ends respectively, and discharge module is installed on two discharge module shaft collars by the discharge cell retaining plate at its two ends; Described oxygen chamber and ozone chamber are located at two discharge module shaft collar outsides; Each discharge cell comprises interior electrode, insulation thimble and outer electrode each one and the installation that is nested, be followed successively by interior electrode, insulation thimble and outer electrode from inside to outside, between interior electrode and outer electrode air gap is arranged, each self-forming is electrically connected between the interior electrode in each discharge module and between the outer electrode.

Be that the interior interior electrode of same discharge module is electrically connected one by one, make electrodes formation electrical connection in all in this module, all discharge modules are connected with external power source after being electrically connected one by one more all interior electrodes all being electrically connected then; All outer electrodes are electrically connected one by one to make to form between all outer electrodes and are electrically connected back ground connection.

Each discharge module also can be made of experimental process discharge module and its shaft collar, and described electron discharge module is the discharge module described in the above-mentioned utility model technical scheme.

Similarly, ozone devices can comprise multistage discharge module, the shaft collar that each high one-level discharge module is installed low one-level electron discharge module by several low one-level electron discharge modules and being used to constitutes, and minimum one-level electron discharge module is the discharge module described in the above-mentioned utility model technical scheme.

All discharge modules are at shaft collar arranged outside unified oxygen chamber and ozone chamber.

Or all discharge modules divide oxygen chamber and the ozone chamber of group in a plurality of correspondences of shaft collar arranged outside.Or a plurality of oxygen chamber oxygen supplys are set, collect ozone by unified ozone chamber again.

All discharge modules can be unified power supply or grouping power supply.

Adopt the ozonizer of technical solutions of the utility model to have the following advantages:

1 discharge cell adopts modular construction, and making in the discharge chamber of onesize sectional area to increase a large amount of electrodes, increases machining area, improve single machine ozone output, reduce equipment volume;

2 discharge cells adopt modular construction, discharge module can be unified power supply, oxygen supply, also can divide into groups power supply, oxygen supply, so convenient output of regulating ozonizer, and do not cause the ozonizer shutdown in the partial discharge unit or during the discharge module maintenance;

3 discharge cells adopt modular construction, each module comprises some internal, outer electrodes, interior electrode, outer electrode in each module are electrically connected separately, discharge module is connected rather than each electrode is connected then, space between two adjacent electrodes of void ratio between two adjacent blocks is much bigger, so electrode adopts modular construction to make that all interelectrode electrical connections become very easy, equipment is produced easily, installation and maintenance;

4 discharge cells adopt modular construction, and the workload of link block significantly reduces than the workload of direct connection electrode, and the accuracy rate raising, avoid generating electrodes to miss and the reclosing phenomenon, are difficult for makeing mistakes;

Directly connect by interior electrode connecting plate between the electrode in 5, do not need line, reduce the workload of electrode in connecting, save time, and can make each discharge cell module comprise a large amount of electrodes;

6 discharge cells adopt modular construction, produce easily, make installation and replacing become very simple, reduce maintenance service and human cost, shorten because of changing the machine stopping time that electrode takes place, the security of raising system.

Description of drawings:

Fig. 1 is the schematic perspective view of the utility model embodiment one

Fig. 2 is the sectional view of the utility model embodiment one

Fig. 3 is the left view of the utility model embodiment one

Fig. 4 is the discharge module schematic perspective view of the utility model embodiment one

Fig. 5 is the discharge cell longitudinal sectional view of the utility model embodiment one

Fig. 6 is another embodiment one cross-sectional view of discharge cell of the present utility model

C1 is a discharge chamber among the figure, C2 is an oxygen chamber, C3 is the ozone chamber, 1 is cooling chamber, 101 and 102 is the input and output that two outlet passes are used for refrigerant, 103 is bearing, and 2 is discharge module, and 201 is discharge cell, 202 is the discharge cell retaining plate, 203 is interior electrode, and 204 is insulation thimble, and 205 is outer electrode, 206 is interior electrode connecting plate, 207 for being located at the discharge cell fixed orifices on the discharge

cell retaining plate

202, and 3 is the discharge module shaft collar, and through hole 301 is used to install and fix discharge module, 4 is end cap, 401 and 402 is that two ventilating pits are respectively applied for input oxygen and output ozone, and 403 are power supply introducing hole, and C4 is interior electrode and dispatch from foreign news agency interpolar air gap, 5 is hagioscope, and 6 are used to support discharge module 2 for stiffening plate.

Embodiment:

Below in conjunction with accompanying drawing the embodiment that the utility model provides is specifically described.

Be depicted as an embodiment of the ozonizer of modular structural discharging unit of the present utility model as Fig. 1～5.

Ozonizer comprises discharge chamber C1, the oxygen chamber C2 at discharge chamber C1 two ends, ozone cavity C 3 in the present embodiment.Described discharge chamber C1 comprises the outside that at least one discharge module 2 and two are used for fixing 3, two discharge module shaft collars 3 of discharge module shaft collar of discharge module and forms two cavity C 2 and C3 respectively as oxygen chamber and ozone chamber by separately end cap 4 sealings.Discharge chamber C1 is formed by outer wall sealing to have on the correspondence position of cavity as 1, two discharge module shaft collar 3 of cooling chamber of a sealing and some through hole 301 is used to install discharge module 2.Discharge module 2 is installed on the through hole 301 of two discharge module shaft collars 3 by the discharge cell retaining plate 202 at its two ends, in the sealing of through hole 301 places, the two ends of discharge module 2 extend to beyond the discharge module shaft collar 3 between discharge module shaft collar 3 and the discharge module 2.

Described discharge cell adopts modular construction, each discharge module 2 comprises several discharge cells 201 and two discharge cell retaining plates 202 that are installed in discharge cell 201 two ends respectively, each discharge cell 201 comprises interior electrode 203, insulation thimble 204 and outer electrode 205 each one and installations that are nested, electrode 203, insulation thimble 204 and outer electrode 205 in being followed successively by from inside to outside, the air gap C4 that interior electrode 203 and outer electrode are 205, air gap C4 is located between interior electrode 203 and the insulation thimble 204 in the present embodiment.It also can be located between insulation thimble 204 and the outer electrode 205, as shown in Figure 6.

Correspondence position has the discharge cell fixed orifices 207 identical with inside and outside number of electrodes on the described discharge cell retaining plate 202, discharge cell 201 of each discharge cell fixed orifices 207 installing, each discharge cell 201 is installed on the discharge cell fixed orifices 207 by outer electrode 205, form between the two ends of described outer electrode 205 and the discharge cell fixed orifices 207 and be tightly connected, discharge cell fixed orifices 207 is in outer electrode and retaining plate 202 are sealed in the contact position.

As shown in Figure 4, in the present embodiment in all in the same discharge module 2 electrodes 203 at one end connect or form with interior electrode connecting plate 206 and be electrically connected by being connected and fixed device 208 by interior electrode connecting plate 206.All interior electrode two ends in the same discharge module 2 are connected simultaneously.

Electrode group and outer electrode group in interior electrode 203 in the same discharge module 2 and outer electrode 205 are electrically connected one by one separately and are connected into make between all the interior electrodes 203 in this module and each self-forming electrical connection between the outer electrode 205; Interior all the interior electrode groups of equipment are electrically connected one by one separately with the outer electrode group again all interior electrodes 203 all are connected with external power source the electrical connection back then, all outer electrodes 205 whole electrical connections back ground connection.

Position near discharge module shaft collar 3 on the wall of discharge chamber C1 and cooling chamber 1 is provided with the input and output that at least two outlet passes 101 and 102 are respectively applied for refrigerant, respectively be provided with ventilating

pit

401 and 402 on the wall of oxygen chamber C2 and ozone cavity C 3, be used separately as the inlet mouth of oxygen and the delivery port of ozone, the ozonizer bottom is provided with bearing 103 and is used to support entire equipment, and end cap is provided with hagioscope 5 and is used for scope running condition.

During the equipment operation, oxygen is in oxygen input aperture 401 input oxygen chamber C2 and flow among the air gap C4, energising back is owing to exist voltage difference to discharge between inside and outside electrode to make oxygen be subjected to action of high voltage produce ozone in air gap C4, exported by the delivery port of the ozone cavity C 3 of the discharge chamber C1 the other end.

For reaching good effect, sleeve pipe described in the present embodiment, interior electrode, outer electrode become concentric(al) circles to distribute, and simultaneously stiffening plate 6 are set in discharge chamber C1 and are used to support outer electrode.

Cooling system in the present embodiment adopts water-cooled, discharge cell module shaft collar 3 be embedded in cooling chamber 1 inner near cooling chamber 1 two ends the position and and cooling chamber between block water by measures such as welding formation and to be tightly connected, also can be arranged on the end of cooling chamber 1, form the sealing that blocks water by measures such as welding, flange are connected between one end and the cooling chamber 1, the other end is connected with end cap 4.Cooling system in the present embodiment adopts water-cooled, also can adopt air-cooled or naturally cooling.

Discharge cell module shaft collar 3 in the present embodiment, discharge cell retaining plate 202 and cooling chamber 1 adopt the material manufacturing with electroconductibility, the outer wall ground connection of cooling chamber 1, because outer electrode and discharge cell retaining plate 202 weld or are integrated, discharge cell retaining plate 202 is idiostatic with outer electrode 205, and contact between discharge module shaft collar 3 and the discharge cell retaining plate 202, discharge module shaft collar 3 is idiostatic with outer electrode 205, and discharge module shaft collar 3 contacts with cooling chamber 1 or is integrated, therefore cooling chamber 1 also is idiostatic with outer electrode 205, so the outer electrode in the present embodiment 205 is by the outer wall ground connection of cooling chamber 1.

The power supply leading-out end of the interior electrode 203 in the present embodiment is located at end cap one end with oxygen inlet mouth, power supply introducing hole 403 promptly is set on oxygen chamber C2 is used for the power supply introducing is connected with interior electrode 203, and power supply is introduced sealing of 403 places, hole and insulation.

The power supply leading-out end of interior electrode 203 can also be located at end cap one end with ozone delivery port, power supply introducing hole 403 promptly is set on the wall of ozone cavity C 3 is used for the power supply introducing is connected with interior electrode 203, and power supply is introduced the sealing of 403 places, hole.

In the present embodiment at the arranged outside of all discharge module shaft collars 3 unified oxygen chamber or ozone chamber.

Also all discharge cell modules can be divided oxygen chamber or the ozone chamber of group in a plurality of correspondences of shaft collar 3 arranged outside.

The unified ozone of collecting of oxygen supply that discharge module can also be divided into groups also can be unified oxygen supply, and ozone is collected in grouping.

The unified power supply of all discharge modules in the present embodiment, the power supply of also can dividing into groups, convenient output of regulating ozonizer, and do not cause ozonizer to be shut down in the partial discharge unit or during the module maintenance.

Claims

1. the ozonizer of a modular structural discharging unit, comprise discharge chamber, oxygen chamber and ozone chamber, it is characterized in that: described discharge chamber comprises at least one discharge module (2) and two shaft collars (3) that are used for fixing discharge module, and described oxygen chamber (C2) and ozone chamber (C3) are located at two discharge module shaft collars (3) outside; Each discharge module (2) comprises several discharge cells (201) and two discharge cell retaining plates (202) that are installed in discharge cell (201) two ends respectively, and discharge module (2) is installed on two discharge module shaft collars (3) by the discharge cell retaining plate (202) at its two ends; Each discharge cell (201) comprises interior electrode (203), insulation thimble (204) and outer electrode (205) each one and the installation that is nested, be followed successively by interior electrode (203), insulation thimble (204) and outer electrode (205) from inside to outside, between interior electrode (203) and outer electrode (205) air gap (C4) is arranged, between the interior electrode (203) in each discharge module (2) and each self-forming electrical connection between the outer electrode (205).

2. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

Electrode (203), insulation thimble (204), outer electrode (205) become concentric(al) circles to distribute in described.

3. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

Each discharge module is powered separately.

4. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

All discharge module grouping power supplies.

5. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

All discharge modules connect the unified power supply in back.

6. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

All discharge modules are at shaft collar (3) arranged outside unified oxygen chamber and ozone chamber.

7. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

All discharge modules divide oxygen chamber and the ozone chamber of group in a plurality of correspondences of shaft collar (3) arranged outside.

8. the ozonizer of modular structural discharging unit as claimed in claim 1 is characterized in that:

Be provided with a cooling chamber (1) between described two discharge module shaft collars (3).

9. the ozonizer of a modular structural discharging unit, comprise discharge chamber, oxygen chamber and ozone chamber, it is characterized in that: discharge chamber is made of several discharge modules and two discharge module shaft collars, each discharge module is made of experimental process discharge module and its shaft collar, and described electron discharge module is a discharge module as claimed in claim 1.