CN114394576A - Double-pole cooling combined plate type ozone generator - Google Patents

Abstract

The invention relates to the technical field of ozone generators, in particular to a bipolar cooling combined plate type ozone generator which comprises a plasma discharge unit, wherein the plasma discharge unit consists of a first ground electrode plate, a high-voltage electrode cooling plate, a second ground electrode plate and a connecting plate, a groove is formed in the upper end surface of the first ground electrode plate, an ozone air outlet hole is formed in the middle of the first ground electrode plate, a water inlet and a water outlet are respectively formed in two sides of the first ground electrode plate and the high-voltage electrode cooling plate, cooling water channel holes are respectively formed in two sides of the upper end of the first ground electrode plate and two sides of the upper end of the high-voltage electrode cooling plate, a sealing ring is arranged on the upper end surfaces of the first ground electrode plate and the high-voltage electrode cooling plate, four oxygen inlet holes are formed in the side end of the first ground electrode plate, placing grooves are respectively formed in the upper end surface and the lower end surface of the high-voltage electrode cooling plate, and four oxygen circulation holes are formed in the side ends of the placing grooves, increase plate body quantity according to the volume of ozone production, it is more nimble, convenient subsequent maintenance simultaneously.

Description

Double-pole cooling combined plate type ozone generator

Technical Field

The invention relates to the technical field of ozone generators, in particular to a bipolar cooling combined plate type ozone generator.

Background

Ozone can be used for purifying air, bleaching drinking water, sterilizing, treating industrial waste and as a bleaching agent, and an ozone generator is a device for producing ozone. Early ozone generator devices all adopt tubular structures, and plate-type structures have appeared in recent years, but all have defects of different degrees. The existing plate-type ozone generator mainly adopts monopole cooling, so that the concentration and the yield of the produced ozone are lower; and the integrated structure is adopted, so that the maintenance and the repair are very inconvenient.

Disclosure of Invention

The invention aims to provide a bipolar cooling combined plate type ozone generator which adopts a combined mode and can be combined according to production requirements, and different numbers of electrode plates are added. To solve the problems set forth in the background art described above.

In order to achieve the purpose, the invention provides the following technical scheme: the bipolar cooling combined plate type ozone generator comprises a plasma discharge unit, wherein the plasma discharge unit consists of a first ground electrode plate, a high-voltage electrode cooling plate, a second ground electrode plate and a connecting plate, a groove is formed in the upper end face of the first ground electrode plate, an ozone air outlet hole is formed in the middle of the first ground electrode plate, a water inlet and a water outlet are respectively formed in two sides of the first ground electrode plate and two sides of the high-voltage electrode cooling plate, cooling water channel holes are respectively formed in two sides of the upper end of the first ground electrode plate and two sides of the upper end of the high-voltage electrode cooling plate, sealing rings are arranged on the upper end faces of the first ground electrode plate and the high-voltage electrode cooling plate, four oxygen inlet holes are formed in the side end of the first ground electrode plate, placing grooves are respectively formed in the upper end face and the lower end face of the high-voltage electrode cooling plate, four oxygen circulation holes are formed in the side ends of the placing grooves, connecting holes are formed in the middle of the placing grooves, plasma discharge unit's both sides all fixedly connected with fixed connection mechanism, the both sides of first ground plate electrode, high-voltage electrode cooling plate, second ground plate electrode and connecting plate all fixedly connected with locating part, the centre of locating part is equipped with connects the chamber, and the inside both sides of connecting the chamber all articulate and are connected with the limiting plate, and fixedly connected with blocks the piece on the inside wall in connection chamber, the top fixedly connected with spring leaf that blocks the piece, the both sides of locating part all sliding connection have the control panel.

Preferably, fixed connection comprises fixed plate, mounting panel, joint board, fixed slot and joint piece, mounting panel and locating part one-to-one, fixed plate fixed connection is in fixed connection's both sides, the fixed plate supports respectively and leans on the side at connecting plate and first ground electrode board, the both sides of mounting panel and the tail end of fixed plate all are equipped with the fixed slot, the mounting panel top supports each other and leans on together.

Preferably, the fixed slot is T-shaped structure, the joint block is I-shaped structure, and both ends of the joint block are inserted into the fixed slot.

Preferably, the clamping plate is inserted in the connecting cavity, hooks are fixedly connected to two sides of the top end of the clamping plate, locking heads are fixedly connected to the middle of the side ends of the limiting plate, the locking heads are of arc-shaped structures, and the hooks and the locking heads are arranged oppositely.

Preferably, the both sides of locating part all are equipped with the connector, the connector runs through the locating part, the connector is the cruciform structure, the control panel is the cruciform structure, control panel and connector sliding connection.

Preferably, the upper end of limiting plate is equipped with the spread groove, the top fixedly connected with control post of control panel, control post sliding connection is in the spread groove, the side of limiting plate is for connecting fixedly connected with reset spring between the intracavity wall.

Preferably, the limiting plate is of an arc-shaped structure, the top end of the limiting plate abuts against the side end of the blocking block, the middle of the spring piece is of an arc-shaped structure, and the top end of the spring piece abuts against the top end of the clamping plate.

Preferably, the first ground electrode plate, the high-voltage electrode cooling plate, the second ground electrode plate and the connecting plate are respectively provided with positioning holes at two sides, and positioning columns are inserted in the positioning holes.

Compared with the prior art, the invention has the beneficial effects that:

the first earth electrode plate is provided with a groove, a sealed space is formed between the first earth electrode plate and the high-voltage electrode cooling plate, a high-precision narrow discharge gap is formed, the narrow discharge gap is used as a plasma discharge working area and is also an ozone generating area, and the ozone concentration and the ozone yield are greatly improved and the power consumption is reduced through a double-electrode cooling technology with a special structure and a unique discharge tube design;

the first ground electrode and the second ground electrode are both high-precision aluminum alloy flat plates processed by a precision lathe, and the aluminum alloy flat plates are processed by a micro-arc oxidation process, so that the corrosion resistance is improved, the design of a non-pressure container is reasonable, the materials are good, and potential safety hazards do not exist;

and thirdly, a plurality of ozone generating devices can be mutually overlapped by adopting a combined mode to form a high-yield ozone generating device, and meanwhile, the ozone generating device is convenient to maintain and repair.

Drawings

FIG. 1 is a schematic view of the connection structure of an ozone generator;

fig. 2 is a schematic view of a first ground electrode plate connection structure;

FIG. 3 is a schematic view of a connection structure of a high voltage electrode cooling plate;

FIG. 4 is a schematic view of the connection structure of the fixed connection mechanism;

fig. 5 is a schematic view of an internal connection structure of the limiting member.

In the figure: 1 plasma discharge unit, 101 first ground electrode plate, 102 high voltage electrode cooling plate, 103 second ground electrode plate, 104 connecting plate, 2 locating holes, 3 locating columns, 4 cooling water channel holes, 5 grooves, 51 placing grooves, 6 oxygen inlet holes, 7 ozone outlet holes, 8 oxygen circulation holes, 9 connecting holes, 10 mounting plates, 11 fixing plates, 12 fixing grooves, 13 clamping blocks, 14 limiting parts, 15 clamping plates, 16 blocking blocks, 17 spring pieces, 18 limiting plates, 19 locking heads, 20 hooks, 21 connecting ports, 22 control plates, 23 connecting grooves and 24 control columns.

Detailed Description

In order to further understand and appreciate the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described and illustrated in the drawings in the embodiments of the present invention, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, rather than all of the embodiments, and do not limit the embodiments in any way. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a bipolar cooling combined plate type ozone generator comprises a plasma discharge unit 1, wherein the plasma discharge unit 1 comprises a first ground electrode plate 101, a high-voltage electrode cooling plate 102, a second ground electrode plate 103 and a connecting plate 104, the first ground electrode plate and the second ground electrode plate are both high-precision aluminum alloy flat plates processed by a precision lathe, the aluminum alloy flat plates are processed by a micro-arc oxidation process to improve the corrosion resistance, a groove 5 is formed in the upper end face of the first ground electrode plate, a sealed space is formed between the groove 5 and the high-voltage electrode cooling plate 102 to form a high-precision narrow discharge gap which is used as a plasma discharge working area and an ozone generation area, an ozone outlet hole 7 is formed in the middle of the first ground electrode plate 101, a water inlet and a water outlet are respectively formed in two sides of the first ground electrode plate 101 and the high-voltage electrode cooling plate 102, cooling water passage holes 4 are respectively formed in two sides of the upper end of the first ground electrode plate 101 and the high-voltage electrode cooling plate 102, the plasma discharge unit can take away heat generated by plasma discharge, sealing rings are arranged on the upper end faces of a first ground electrode plate 101 and a high-voltage electrode cooling plate 102, four oxygen gas inlet holes 6 are formed in the side end of the first ground electrode plate 101, placing grooves 51 are formed in the upper end face and the lower end face of the high-voltage electrode cooling plate 102, high-heat-conduction insulating media are placed in the two placing grooves 51 and are seamlessly adhered with the high-voltage electrode cooling plate 102, four oxygen gas circulation holes 8 are formed in the side end of each placing groove 51, a connecting hole 9 is formed in the middle of each placing groove 51, double high-voltage electrode connecting pieces are arranged in each connecting hole 9, high-voltage wires are connected and led out from each connecting hole 9 and are connected to an explosion-proof fuse, fixed connecting mechanisms are fixedly connected to two sides of the plasma discharge unit 1, and limiting pieces 14 are fixedly connected to two sides of the first ground electrode plate 101, the high-voltage electrode cooling plate 102, the second ground electrode plate 103 and the connecting plate 104, the middle of the limiting part 14 is provided with a connecting cavity, both sides of the inside of the connecting cavity are hinged with limiting plates 18, the inner side wall of the connecting cavity is fixedly connected with a blocking block 16, the top end of the blocking block 16 is fixedly connected with a spring piece 17, both sides of the limiting part 14 are connected with control plates 22 in a sliding way, high voltage is applied to the high-voltage electrode cooling plate 102, the first ground electrode plate 101 and the second ground electrode plate 103, meanwhile, oxygen-containing gas flows through a discharge gap, when the high voltage reaches a certain degree, oxygen molecules are punctured and become oxygen atoms, and the oxygen atoms are extremely unstable, have high activity and can be quickly combined with oxygen to form ozone with three atoms.

Fixed connection is by fixed plate 11, mounting panel 10, joint board 15, fixed slot 12 and joint piece 13 are constituteed, mounting panel 10 and locating part 14 one-to-one, fixed plate 11 fixed connection is in fixed connection's both sides, fixed plate 11 supports the side that leans on respectively at connecting plate 104 and first ground plate electrode 101, the both sides of mounting panel 10 and the tail end of fixed plate 11 all are equipped with fixed slot 12, mounting panel 10 top supports each other and leans on together, the mounting panel is all connected at the side of locating part, again will install all interconnect assembly, all plate body all fixed connection together, carry out the built-up connection, can make up according to required ozone amount.

The fixing groove 12 is of a T-shaped structure, the clamping block 13 is of an I-shaped structure, and two ends of the clamping block 13 are inserted into the fixing groove 12 to fixedly connect the fixing and connecting mechanism together.

Clamping plate 15 pegs graft in connecting the intracavity, clamping plate 15's top both sides all fixedly connected with couple 20, fixedly connected with locking head 19 in the middle of limiting plate 18's the side, locking head 19 is the arc structure, couple 20 and locking head 19 set up relatively, clamping plate 15 is after the installation advances connecting the chamber, clamping plate 15 backs down limiting plate 18, until couple 20 through locking head 19, limiting plate 18 restores to the original position under reset spring's effect, with locking head 19 and couple 20 joint together, it is spacing fixed to carry out clamping plate 15, avoid clamping plate 15 to break away from locating part 14.

Both sides of locating part 14 all are equipped with connector 21, and connector 21 runs through locating part 14, and connector 21 is the cruciform structure, and control panel 22 is the cruciform structure, control panel 22 and connector 21 sliding connection, and the cruciform structure can restrict the direction that control panel 22 removed, can make control panel 22 slide along vertical direction.

The upper end of limiting plate 18 is equipped with spread groove 23, the top fixedly connected with control post 24 of control panel 22, control post 24 sliding connection is in spread groove 23, the side of limiting plate 18 is for connecting fixedly connected with reset spring between the intracavity wall, drive control post 24 when control panel 22 removes and remove together, control post 24 slides in spread groove 23 simultaneously, control post 24 drives the limiting plate 18 rotatory, can separate locking head 19 and couple 20, make things convenient for joint board 15 to take out.

The limiting plate 18 is of an arc-shaped structure, the top end of the limiting plate 18 abuts against the side end of the blocking block 16, the middle of the spring piece 17 is of an arc-shaped structure, the top end of the spring piece 17 abuts against the top end of the clamping plate 15, the clamping plate 15 is clamped into the connecting cavity and then extrudes the spring piece 17, the spring piece 17 can abut against the clamping plate 15, the locking head 19 and the hook 20 are clamped together, and the limiting fixing mechanism is prevented from shaking.

The two sides of the first ground electrode plate 101, the high-voltage electrode cooling plate 102, the second ground electrode plate 103 and the connecting plate 104 are respectively provided with a positioning hole 2, a positioning column 3 is inserted into the positioning hole 2, and the positioning column 3 is inserted into the positioning hole 2, so that the plate bodies are mutually positioned and connected.

The combined mode is adopted, a plurality of plates can be mutually overlapped according to the production requirement of ozone, the clamping plate 15 is inserted into the limiting part 14, the mounting plate 10 and the limiting part 14 are connected into a whole, all the plates are limited and fixed through the fixing plate 11, the increase of the number of the plates is adapted, the high voltage is applied to the high voltage electrode cooling plate 102, the first ground electrode plate 101 and the second ground electrode plate 103, meanwhile, the oxygen-containing gas flows through the discharge gap, when the high voltage reaches a certain degree, oxygen molecules are punctured and changed into oxygen atoms, and the oxygen atoms are extremely unstable, have high activity and can be quickly combined with the oxygen to form the ozone with three atoms.

While embodiments of the invention have been shown and described, it is emphasized that: the above description is presented only by way of example of use of an embodiment of the invention and is not intended to limit the invention in any way. It will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Bipolar cooling can make up plate-type ozone generator, including plasma discharge unit (1), its characterized in that: the plasma discharge unit (1) comprises a first ground electrode plate (101), a high-voltage electrode cooling plate (102), a second ground electrode plate (103) and a connecting plate (104), wherein a groove (5) is formed in the upper end face of the first ground electrode plate, an ozone air outlet hole (7) is formed in the middle of the first ground electrode plate (101), a water inlet and a water outlet are formed in two sides of the first ground electrode plate (101) and the high-voltage electrode cooling plate (102), cooling water channel holes (4) are formed in two sides of the upper end of the first ground electrode plate (101) and two sides of the upper end of the high-voltage electrode cooling plate (102), sealing rings are arranged on the upper end faces of the first ground electrode plate (101) and the high-voltage electrode cooling plate (102), four oxygen air inlet holes (6) are formed in the side end of the first ground electrode plate (101), and placing grooves (51) are formed in the upper end face and the lower end face of the high-voltage electrode cooling plate (102), the side of standing groove (51) is equipped with four oxygen circulation holes (8), the centre of standing groove (51) is equipped with connecting hole (9), the both sides of plasma discharge unit (1) all fixedly connected with fixed connection mechanism, the both sides of first ground electrode board (101), high voltage electrode cooling plate (102), second ground electrode board (103) and connecting plate (104) all fixedly connected with locating part (14), the centre of locating part (14) is equipped with the connection chamber, and the inside both sides of connecting the chamber all articulate and are connected with limiting plate (18), and fixedly connected with blocks piece (16) on the inside wall in connection chamber, block top fixedly connected with spring leaf (17) of piece (16), the both sides of locating part (14) all sliding connection have control panel (22).

2. The bipolar cooling sectional plate ozone generator of claim 1, wherein: fixed connection comprises fixed plate (11), mounting panel (10), joint board (15), fixed slot (12) and joint piece (13), mounting panel (10) and locating part (14) one-to-one, fixed plate (11) fixed connection is in fixed connection's both sides, fixed plate (11) support respectively at the side of connecting plate (104) and first ground electrode board (101), the both sides of mounting panel (10) and the tail end of fixed plate (11) all are equipped with fixed slot (12), mounting panel (10) top supports each other and leans on together.

3. The bipolar cooling sectional plate ozone generator of claim 2, wherein: the fixing groove (12) is of a T-shaped structure, the clamping block (13) is of an I-shaped structure, and two ends of the clamping block (13) are inserted into the fixing groove (12).

4. The bipolar cooling sectional plate ozone generator of claim 2, wherein: the clamping plate (15) is inserted into the connecting cavity, hooks (20) are fixedly connected to two sides of the top end of the clamping plate (15), locking heads (19) are fixedly connected to the middle of the side ends of the limiting plate (18), the locking heads (19) are of arc-shaped structures, and the hooks (20) and the locking heads (19) are arranged oppositely.

5. The bipolar cooling sectional plate ozone generator of claim 1, wherein: the both sides of locating part (14) all are equipped with connector (21), connector (21) run through locating part (14), connector (21) are the cruciform structure, control panel (22) and connector (21) sliding connection.

6. The bipolar cooling sectional plate ozone generator of claim 1, wherein: the upper end of limiting plate (18) is equipped with spread groove (23), the top fixedly connected with control post (24) of control panel (22), control post (24) sliding connection is in spread groove (23), the side of limiting plate (18) is for connecting fixedly connected with reset spring between the intracavity wall.

7. The bipolar cooling sectional plate ozone generator of claim 1, wherein: the limiting plate (18) is of an arc-shaped structure, the top end of the limiting plate (18) abuts against the side end of the blocking block (16), the middle of the spring piece (17) is of an arc-shaped structure, and the top end of the spring piece (17) abuts against the top end of the clamping plate (15).

8. The bipolar cooling sectional plate ozone generator of claim 1, wherein: positioning holes (2) are respectively formed in two sides of the first ground electrode plate (101), the high-voltage electrode cooling plate (102), the second ground electrode plate (103) and the connecting plate (104), and positioning columns (3) are inserted into the positioning holes (2).

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