CN207016485U - Large-scale inside and outside double water coolings can ozonator cell in parallel - Google Patents
Large-scale inside and outside double water coolings can ozonator cell in parallel Download PDFInfo
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- CN207016485U CN207016485U CN201720966584.7U CN201720966584U CN207016485U CN 207016485 U CN207016485 U CN 207016485U CN 201720966584 U CN201720966584 U CN 201720966584U CN 207016485 U CN207016485 U CN 207016485U
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Abstract
Can ozonator cell in parallel the utility model discloses large-scale inside and outside double water coolings, including base, discharge chamber is welded with the top exterior walls of the base, hole is provided with the side outer wall of the discharge chamber, and it is welded with escape pipe on the inwall in hole, groove is provided with the side outer wall of the escape pipe, and the inside of groove is plugged with outlet electrically operated valve, reative cell cylinder is welded with the top of the discharge chamber, inlet plenum is welded with the top of the reative cell cylinder, air inlet pipe is welded with the side outer wall of the inlet plenum, air inlet electrically operated valve is provided with the inwall of the air inlet pipe, and air inlet pipe is welded with air cleaner close to the side of inlet plenum.The utility model high-volume and can continuously realize the acquisition to ozone using parallel reative cell cylinder, make ozone generator more convenient operation, discharge tube is bigger to the active area of gas, realizes yield and quality during ozone production, safe, economical, reliable.
Description
Technical field
Ozonator cell engineering device technique field is the utility model is related to, more particularly to large-scale inside and outside double water coolings can ozone in parallel
Generation room.
Background technology
Ozone generator is generally divided into tubular type and board-like according to the structure type of ozone generating unit, according to the type of cooling point
For water cooling and air-cooled, it is divided into air-source and source of oxygen according to source of the gas.At present, known vertical tank type multiple ozone generator is by discharging
Room, enter outlet pipe, on the spot inlet and outlet pipe, instrument, manually-operated gate, the straight barrel type knot of ozone concentration on-line detector composition
Structure, i.e. air chamber and the same diameter of hydroecium.After device power-up power transmission, the glass assembly with glass in arc chamber produces with external electrode gap discharge
Ozone, cool circulation water are cooled into inner barrel to arc chamber, and ozone output is controlled by frequent operation, are greatly increased
Add cost of labor, and the ozone generator of this structure is not easy to safeguard, once arc chamber is broken down by high-voltage, it is necessary to cut
Equipment bay can just repair, increased maintenance cost.
Utility model content
The purpose of this utility model is and the large-scale inside and outside double water coolings proposed in order to solve shortcoming present in prior art
Can ozonator cell in parallel.
To achieve these goals, the utility model employs following technical scheme:
Large-scale inside and outside double water coolings can ozonator cell in parallel, including base, be welded with out in the top exterior walls of the base
Air chamber, hole is provided with the side outer wall of the discharge chamber, and escape pipe is welded with the inwall in hole, outside the side of the escape pipe
Groove is provided with wall, and the inside of groove is plugged with outlet electrically operated valve, and reative cell cylinder is welded with the top of the discharge chamber, it is described
Inlet plenum is welded with the top of reative cell cylinder, air inlet pipe is welded with the side outer wall of the inlet plenum, the air inlet pipe
Air inlet electrically operated valve is provided with inwall, and air inlet pipe is welded with air cleaner, the inlet plenum close to the side of inlet plenum
Top be bolted top cover, the top side of the base is welded with water tank, welded in the bottom interior wall of the water tank
Water pump is connected to, the second inlet channel, and the one end of the second inlet channel away from water pump are welded with the top exterior walls of the water pump
First inlet channel is connected with by flange, first inlet channel is welded with freezing machine close to one end of reative cell cylinder.
Preferably, fixed plate is welded with the top inner wall of the reative cell cylinder, and the bottom of fixed plate is welded with and put
Fulgurite, the bottom of discharge tube extend to the inside of discharge chamber.
Preferably, the two bottom sides of the base have been bolted bottom plate, and are welded on the side outer wall of inlet plenum
The first connecting tube is connected to, the one end of the first connecting tube away from inlet plenum is linked together by bolt and air inlet pipe.
Preferably, the second connecting tube is welded with the side outer wall of the discharge chamber, and the second connecting tube is away from discharge chamber
One end linked together by bolt and escape pipe.
Preferably, water inlet pipe is welded with the side outer wall of the water pump, and the one end of water inlet pipe away from water pump is welded with
Screen pack.
Preferably, the top both sides of the base are welded with support frame, and center is welded with the top of support frame as circle
The fixed plate of shape, reative cell cylinder is plugged with the inwall of fixed plate.
The beneficial effects of the utility model are:The utility model uses vertical reative cell tube structure, can be preferably
The inflow of gas is guided, the direction of gas can be better controled over, while the laying structure of cold water pipes also becomes simple and cooled down
Effect is good, saves material cost, and cooling water amount is reduced, and operating cost is low, while can using parallel reative cell cylinder
The acquisition to ozone is realized in high volume and continuously, make ozone generator more convenient operation, effect of the discharge tube to gas
Area is bigger, realizes yield and quality during ozone production, safe, economical, reliable.
Brief description of the drawings
Fig. 1 be the utility model proposes large-scale inside and outside double water coolings can ozonator cell in parallel structural representation;
Fig. 2 be the utility model proposes large-scale inside and outside double water coolings can ozonator cell in parallel parallel-connection structure schematic diagram.
In figure:1 base, 2 discharge chambers, 3 inlet plenums, 4 top covers, 5 air inlet pipe, 6 air inlet electrically operated valves, 7 air cleaners, 8
Escape pipe, 9 outlet electrically operated valves, 10 support frames, 11 first inlet channels, 12 freezing machines, 13 reative cell cylinders, 14 second water inlets
Pipeline, 15 discharge tubes, 16 water tanks, 17 water pumps, 18 bottom plates, 19 first connecting tubes, 20 second connecting tubes.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.
Reference picture 1-2, large-scale inside and outside double water coolings can ozonator cell in parallel, including base 1, in the top exterior walls of base 1
Discharge chamber 2 is welded with, hole is provided with the side outer wall of discharge chamber 2, and escape pipe 8 is welded with the inwall in hole, the one of escape pipe 8
Groove is provided with the outer wall of side, and the inside of groove is plugged with outlet electrically operated valve 9, the top of discharge chamber 2 is welded with reative cell cylinder 13,
The top of reative cell cylinder 13 is welded with inlet plenum 3, is welded with air inlet pipe 5 on the side outer wall of inlet plenum 3, air inlet pipe 5 it is interior
Air inlet electrically operated valve 6 is provided with wall, and air inlet pipe 5 is welded with air cleaner 7 close to the side of inlet plenum 3, inlet plenum 3
Top has been bolted top cover 4, and the top side of base 1 is welded with water tank 16, is welded with the bottom interior wall of water tank 16
Water pump 17, is welded with the second inlet channel 14 in the top exterior walls of water pump 17, and the second inlet channel 14 away from water pump 17 one
End is connected with the first inlet channel 11 by flange, and the first inlet channel 11 is welded with condensation close to one end of reative cell cylinder 13
Machine 12.
In the utility model, fixed plate, and the bottom welding of fixed plate are welded with the top inner wall of reative cell cylinder 13
There is discharge tube 15, the bottom of discharge tube 15 extends to the inside of discharge chamber 2, and the two bottom sides of base 1 have been bolted
Bottom plate 18, and the first connecting tube 19 is welded with the side outer wall of inlet plenum 3, first one end of connecting tube 19 away from inlet plenum 3
Linked together by bolt and air inlet pipe 5, the second connecting tube 20, and the second connection are welded with the side outer wall of discharge chamber 2
The one end of pipe 20 away from discharge chamber 2 is linked together by bolt and escape pipe 8, is welded with the side outer wall of water pump 17 into water
Pipe, and the one end of water inlet pipe away from water pump 17 is welded with screen pack, the top both sides of base 1 are welded with support frame 10, and prop up
The top of support 10 is welded with center as circular fixed plate, and reative cell cylinder 13 is plugged with the inwall of fixed plate.
Operation principle:During work, operator by control the air of air inlet electrically operated valve 6 from air inlet pipe 5 be flowed into
In air chamber 3, during which pass through the catharsis of air cleaner 7 so that air is more pure, and then air enters reative cell
The inside of cylinder 13, pass through the discharge process of discharge tube 15 so that the oxygen contained in air becomes smelly in the presence of cold water
Oxygen, then ozone enter discharge chamber 2, last ozone flows out from escape pipe 8, while water tank 16, water pump 17, the first inlet channel
11. the second inlet channel 14 and freezing machine 12 collectively constitute double cooling water circulations of device inside and outside, whole device is simple in construction,
Can continuous and large batch of production ozone, can also reach the effect that people want.
It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not
This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality
New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model
Within enclosing.
Claims (6)
1. large-scale inside and outside double water coolings can ozonator cell in parallel, including base(1), it is characterised in that the base(1)Top
Discharge chamber is welded with outer wall(2), the discharge chamber(2)Side outer wall on be provided with hole, and outlet is welded with the inwall in hole
Pipe(8), the escape pipe(8)Side outer wall on be provided with groove, and the inside of groove is plugged with outlet electrically operated valve(9), it is described go out
Air chamber(2)Top be welded with reative cell cylinder(13), the reative cell cylinder(13)Top be welded with inlet plenum(3), institute
State inlet plenum(3)Side outer wall on be welded with air inlet pipe(5), the air inlet pipe(5)Inwall on be provided with air inlet motor-driven valve
Door(6), and air inlet pipe(5)Close to inlet plenum(3)Side be welded with air cleaner(7), the inlet plenum(3)Top lead to
Crossing bolt connection has top cover(4), the base(1)Top side be welded with water tank(16), the water tank(16)Bottom in
Water pump is welded with wall(17), the water pump(17)Top exterior walls on be welded with the second inlet channel(14), and the second water inlet
Pipeline(14)Away from water pump(17)One end the first inlet channel is connected with by flange(11), first inlet channel(11)
Close to reative cell cylinder(13)One end be welded with freezing machine(12).
2. large-scale inside and outside double water coolings according to claim 1 can ozonator cell in parallel, it is characterised in that the reative cell
Cylinder(13)Top inner wall on be welded with fixed plate, and the bottom of fixed plate is welded with discharge tube(15), discharge tube(15)'s
Bottom extends to discharge chamber(2)Inside.
3. large-scale inside and outside double water coolings according to claim 1 can ozonator cell in parallel, it is characterised in that the base
(1)Two bottom sides be bolted bottom plate(18), and inlet plenum(3)Side outer wall on be welded with the first connecting tube
(19), the first connecting tube(19)Away from inlet plenum(3)One end pass through bolt and air inlet pipe(5)Link together.
4. large-scale inside and outside double water coolings according to claim 1 can ozonator cell in parallel, it is characterised in that the discharge chamber
(2)Side outer wall on be welded with the second connecting tube(20), and the second connecting tube(20)Away from discharge chamber(2)One end pass through spiral shell
Bolt and escape pipe(8)Link together.
5. large-scale inside and outside double water coolings according to claim 1 can ozonator cell in parallel, it is characterised in that the water pump
(17)Side outer wall on be welded with water inlet pipe, and water inlet pipe is away from water pump(17)One end be welded with screen pack.
6. large-scale inside and outside double water coolings according to claim 1 can ozonator cell in parallel, it is characterised in that the base
(1)Top both sides be welded with support frame(10), and support frame(10)Top be welded with center as circular fixed plate, Gu
Reative cell cylinder is plugged with the inwall of fixed board(13).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108375651A (en) * | 2018-02-24 | 2018-08-07 | 曹祚 | The detection method and detection device of gas reaction concentration |
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2017
- 2017-08-04 CN CN201720966584.7U patent/CN207016485U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108375651A (en) * | 2018-02-24 | 2018-08-07 | 曹祚 | The detection method and detection device of gas reaction concentration |
CN108375651B (en) * | 2018-02-24 | 2019-10-11 | 恒天摩尔科技(山东)有限公司 | The detection method and detection device of gas reaction concentration |
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