CN212039853U - Ozone output tube structure for UV photocatalysis equipment - Google Patents

Abstract

The utility model relates to a UV photocatalysis technical field discloses an ozone output tube structure for UV photocatalysis equipment, including the output tube, the upper end fixed mounting of output tube has last cover, and the lower extreme fixed mounting of output tube has lower cover, and the top of going up the cover is provided with the delivery port, and the bottom of lower cover is provided with the water inlet, and the outside of lower cover is provided with the oxygen import, and the one end fixed mounting of oxygen import has the air exhauster. The utility model discloses a mutually supporting of cooling trough and radiating fin, can dispel a large amount of heats that the inner electrode pipe produced at catalytic reaction fast, drive the high-speed rotation of flabellum through micro motor, can inhale the air in external catalysis partition inslot in a large number, can hold back the dust of air through the filter screen air inlet cover, can improve the purity degree of catalysis partition inslot air to can make external oxygen enter into intraductal catalytic reaction that carries on rapidly, improve the work efficiency of ozone output tube.

Description

Ozone output tube structure for UV photocatalysis equipment

Technical Field

The utility model relates to a UV photocatalysis technical field specifically is an ozone output tube structure for UV photocatalysis equipment.

Background

Chinese patent discloses a photocatalytic ozone tube (No. CN100526228C), which improves the oxidation rate and efficiency of ozone through photocatalysis, promotes the ozone to decompose and generate active OH free radicals, oxidizes neutral, acidic and alkaline organic matters which are difficult to degrade by ozone alone, the oxidation rate is 10-104 times of the oxidation rate of O3 or UV, and can completely oxidize and degrade the organic matters into carbon dioxide and water, but the heat generated by the ozone tube in the working process can not be rapidly and timely dissipated, thereby the service life of the ozone tube is not high, and the external oxygen can not rapidly enter the tube for catalytic reaction. Accordingly, one skilled in the art provides an ozone outlet tube structure for a UV photocatalytic device to solve the problems set forth in the background art described above.

Disclosure of Invention

An object of the utility model is to provide an ozone output tube structure for UV photocatalysis equipment to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an ozone output tube structure for UV photocatalysis equipment, includes the output tube, the upper end fixed mounting of output tube has last cover, and the lower extreme fixed mounting of output tube has lower cover, the top of going up the cover is provided with the delivery port, and the outside of going up the cover is provided with the ozone export, the bottom of lower cover is provided with the water inlet, and the outside of lower cover is provided with the oxygen import, the one end fixed mounting of oxygen import has the air exhauster.

As a further aspect of the present invention: the output tube includes the stainless steel shell, the surface of stainless steel shell evenly is provided with radiating fin, and the inboard of stainless steel shell installs the outer electrode tube, quartz glass tube is installed to the inboard of outer electrode tube, the inner electrode tube is installed to the inboard of quartz glass tube, the handing-over department of quartz glass tube and inner electrode tube is provided with hollow catalysis spacer, the inboard of inner electrode tube is provided with hollow cooling trough.

As a further aspect of the present invention: the upper end and the lower end of the catalytic separation tank are respectively communicated with an ozone outlet and an oxygen inlet, and the upper end and the lower end of the cooling water tank are respectively communicated with a water outlet and a water inlet.

As a further aspect of the present invention: the exhaust fan comprises a fan shell, a filter screen air inlet cover is installed at one end of the fan shell, a micro motor is installed on the inner side of the other end of the fan shell, the output end of the micro motor is located inside the fan shell and fixedly connected with fan blades, and four second fixing pins are fixedly connected to the outer surface of the micro motor in an annular mode.

As a further aspect of the present invention: the fan shell comprises a shell barrel, an inner thread groove is formed in one end of the inner side of the shell barrel, the other end of the inner side of the shell barrel is fixedly connected with four first fixing pins in an annular mode, one side, close to the first fixing pins, of one end of the shell barrel is fixedly connected with a square flange piece, and a cable port communicated with the outer side of the shell barrel is fixedly connected with the outer side of the shell barrel.

As a further aspect of the present invention: the shell cylinder is meshed with the filter screen air inlet cover through the internal thread groove, and the square flange piece is fixedly connected with the oxygen inlet through the inner side of the mounting hole through a screw.

As a further aspect of the present invention: the first fixing feet correspond to the second fixing feet one to one, the shell cylinder and the micro motor sequentially penetrate through the second fixing feet and the inner sides of the first fixing feet through screws to be fixedly connected, and the output electric wire of the micro motor penetrates through the inner sides of the cable openings.

Compared with the prior art, the beneficial effects of the utility model are that:

through mutually supporting of cooling trough and radiating fin, can dispel the interior electrode pipe a large amount of heats of production at catalytic reaction fast, and then make the ozone output tube keep certain operating temperature, it is not high to have improved the working life of ozone output tube, it rotates at a high speed to drive the flabellum through micro motor, can inhale the catalysis in the separation groove in a large number to the air in the external world, can hold back the dust of air through the filter screen air inlet hood, can improve the purity degree of catalysis in the separation groove air, thereby can make external oxygen enter into intraductally fast and carry out catalytic reaction, improve the work efficiency of ozone output tube.

Drawings

FIG. 1 is a schematic structural diagram of an ozone output tube structure for a UV photocatalytic apparatus;

FIG. 2 is a schematic partial cross-sectional view of an ozone outlet tube arrangement for a UV photocatalytic device;

FIG. 3 is a schematic view of an exploded structure of an exhaust fan in an ozone outlet pipe structure for a UV photocatalytic apparatus;

FIG. 4 is a schematic diagram of a fan housing in an ozone outlet tube configuration for a UV photocatalytic device.

In the figure: 1. an output pipe; 11. a stainless steel housing; 12. a heat dissipating fin; 13. an outer electrode tube; 14. a quartz glass tube; 15. a catalytic cell; 16. an inner electrode tube; 17. a cooling water tank; 2. an ozone outlet; 3. an upper barrel cover; 4. a water outlet; 5. a lower cylinder cover; 6. a water inlet; 7. an exhaust fan; 71. a fan housing; 711. a housing tube; 712. a first fixing leg; 713. an internal thread groove; 714. mounting holes; 715. a square flange piece; 716. a cable port; 72. a fan blade; 73. a filter screen air inlet cover; 74. a micro motor; 75. a second fixing leg; 8. an oxygen inlet.

Detailed Description

Please refer to fig. 1-4, in the embodiment of the present invention, an ozone output tube structure for UV photocatalytic equipment, includes output tube 1, upper end fixed mounting of output tube 1 has upper cover 3, lower extreme fixed mounting of output tube 1 has lower cover 5, the top of upper cover 3 is provided with delivery port 4, the outside of upper cover 3 is provided with ozone outlet 2, the bottom of lower cover 5 is provided with water inlet 6, the outside of lower cover 5 is provided with oxygen inlet 8, the one end fixed mounting of oxygen inlet 8 has air exhauster 7.

In fig. 2: output tube 1 includes stainless steel shell 11, stainless steel shell 11's surface evenly is provided with radiating fin 12, outer electrode tube 13 is installed to stainless steel shell 11's inboard, quartz glass tube 14 is installed to outer electrode tube 13's inboard, interior electrode tube 16 is installed to quartz glass tube 14's inboard, quartz glass tube 14 and interior electrode tube 16's handing-over department is provided with hollow catalysis spacer 15, interior electrode tube 16's inboard is provided with hollow cooling trough 17, can carry out catalytic reaction through output tube 1, and the heat that can discharge ozone output tube fast and produce.

In fig. 1 and 2: the upper and lower end of catalysis compartment 15 respectively with ozone export 2 and 8 through connections of oxygen import, thereby can make oxygen enter into catalysis compartment 15 and react, and make the ozone of formation discharge from ozone export 2, the upper and lower end of cooling trough 17 respectively with delivery port 4 and water inlet 6 through connections, can connect delivery port 4 and water inlet 6 into a endless system with outside cooling circulation pump, thereby make the cooling water can flow into cooling trough 17 through water inlet 6 in, 4 discharge cooling water of rethread delivery port.

In fig. 3: the exhaust fan 7 comprises a fan shell 71, a filter screen air inlet cover 73 is installed at one end of the fan shell 71, a micro motor 74 is installed on the inner side of the other end of the fan shell 71, the output end of the micro motor 74 is located inside the fan shell 71 and fixedly connected with fan blades 72, four second fixing pins 75 are evenly and fixedly connected to the outer surface of the micro motor 74 in an annular mode, negative pressure is generated through the exhaust fan 7, outside air can be sucked into the catalytic separation groove 15 in large quantities to perform catalytic reaction, and working efficiency is improved.

In fig. 4: the fan shell 71 comprises an outer shell 711, an inner thread groove 713 is formed in one end of the inner side of the outer shell 711, four first fixing legs 712 are fixedly connected to the other end of the inner side of the outer shell 711 in an annular mode, a square flange piece 715 is fixedly connected to one side, close to the first fixing legs 712, of one end of the outer shell 711, a cable opening 716 communicated with the outer side of the outer shell 711 is fixedly connected to the outer side of the outer shell 711, and the filter screen air inlet cover 73 and the micro motor 74 can be fixed through the fan shell 71.

In fig. 3 and 4: the outer shell barrel 711 and the filter screen air inlet hood 73 are meshed and connected through the inner thread groove 713, so that the filter screen air inlet hood 73 can be conveniently opened, the fan blades 72 can be cleaned, the square flange plate 715 and the oxygen inlet 8 are fixedly connected with the inner side of the oxygen inlet 8 penetrating through the mounting hole 714 through screws, and the exhaust fan 7 can be detached from the oxygen inlet 8 and is conveniently maintained.

In fig. 3 and 4: the first fixing legs 712 correspond to the second fixing legs 75 one by one, the outer shell 711 and the micro motor 74 sequentially penetrate through the inner sides of the second fixing legs 75 and the first fixing legs 712 through screws to be fixedly connected, so that the fan shell 71 and the micro motor 74 can be quickly installed together, and the output wire of the micro motor 74 penetrates through the inner side of the cable port 716, so that the micro motor 74 can be electrically connected with an external power supply.

The utility model discloses a theory of operation: firstly, the water outlet 4 and the water inlet 6 are connected with an external cooling circulating pump to form a circulating system, so that cooling water can flow into the cooling water tank 17 through the water inlet 6 and then is discharged through the water outlet 4, then the internal electrode tube 16 and the micro motor 74 are electrified, the micro motor 74 drives the fan blades 72 to rotate at a high speed to form negative pressure, thereby external air filtered by the filter screen air inlet cover 73 is sucked into the oxygen inlet 8, the air enters the catalytic separation tank 15 through the oxygen inlet 8, at the moment, the internal electrode tube 16 generates a photoelectric effect to catalyze oxygen in the air into ozone, the ozone and unreacted carbon dioxide in the air are discharged from the ozone outlet 2 together, the ozone reacts with external industrial waste gas, and the organic matters in the industrial waste gas are subjected to a synergistic decomposition oxidation reaction, so that the industrial waste gas substances are degraded and converted into low molecular compounds, Water and carbon dioxide.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides an ozone output tube structure for UV photocatalysis equipment, includes output tube (1), its characterized in that, the upper end fixed mounting of output tube (1) has upper cover (3), and the lower extreme fixed mounting of output tube (1) has lower cover (5), the top of upper cover (3) is provided with delivery port (4), and the outside of upper cover (3) is provided with ozone outlet (2), the bottom of lower cover (5) is provided with water inlet (6), and the outside of lower cover (5) is provided with oxygen import (8), the one end fixed mounting of oxygen import (8) has air exhauster (7).

2. The ozone output tube structure for the UV photocatalysis equipment according to claim 1, wherein the output tube (1) comprises a stainless steel shell (11), the outer surface of the stainless steel shell (11) is uniformly provided with heat radiating fins (12), an outer electrode tube (13) is installed on the inner side of the stainless steel shell (11), a quartz glass tube (14) is installed on the inner side of the outer electrode tube (13), an inner electrode tube (16) is installed on the inner side of the quartz glass tube (14), a hollow catalytic separation groove (15) is arranged at the joint of the quartz glass tube (14) and the inner electrode tube (16), and a hollow cooling water groove (17) is arranged on the inner side of the inner electrode tube (16).

3. The ozone output pipe structure for the UV photocatalysis equipment as claimed in claim 2, wherein the upper and lower ends of the catalytic separation tank (15) are respectively connected with the ozone outlet (2) and the oxygen inlet (8) in a through manner, and the upper and lower ends of the cooling water tank (17) are respectively connected with the water outlet (4) and the water inlet (6) in a through manner.

4. The ozone output pipe structure for the UV photocatalysis equipment is characterized in that the exhaust fan (7) comprises a fan shell (71), a filter screen air inlet cover (73) is installed at one end of the fan shell (71), a micro motor (74) is installed on the inner side of the other end of the fan shell (71), the output end of the micro motor (74) is located inside the fan shell (71) and fixedly connected with fan blades (72), and four second fixing pins (75) are annularly and uniformly fixedly connected to the outer surface of the micro motor (74).

5. The ozone output pipe structure for the UV photocatalysis equipment is characterized in that the fan shell (71) comprises a shell cylinder (711), one end of the inner side of the shell cylinder (711) is provided with an internal thread groove (713), the other end of the inner side of the shell cylinder (711) is fixedly connected with four first fixing legs (712) in a ring shape, one side of one end of the shell cylinder (711) close to the first fixing legs (712) is fixedly connected with a square flange piece (715), and the outer side of the shell cylinder (711) is fixedly connected with a communicated cable port (716).

6. The ozone output pipe structure for the UV photocatalysis apparatus as claimed in claim 5, wherein the housing cylinder (711) is engaged with the filter screen inlet hood (73) through an internal thread groove (713), and the square flange plate (715) is fixedly connected with the oxygen inlet (8) through the inner side of the mounting hole (714) through a screw.

7. The ozone output pipe structure for the UV photocatalysis apparatus according to claim 5, wherein the first fixing feet (712) and the second fixing feet (75) correspond to each other one by one, and the outer casing (711) and the micro motor (74) are fixedly connected by a screw passing through the inner sides of the second fixing feet (75) and the first fixing feet (712) in sequence, and the output wire of the micro motor (74) passes through the inner side of the cable port (716).

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