CN210855272U

CN210855272U - Novel ozone generator

Info

Publication number: CN210855272U
Application number: CN201921828434.5U
Authority: CN
Inventors: 程敬伟
Original assignee: Qingdao Liancheng Aquatic Technology Co ltd
Current assignee: Qingdao Liancheng Aquatic Technology Co ltd
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2020-06-26
Anticipated expiration: 2029-10-29

Abstract

The utility model discloses a novel ozone generator, including ozone pipe, circular telegram line, intake pipe and outlet duct, the surface mounting of ozone pipe has the cooling jacket, both ends are provided with outlet pipe and inlet tube respectively about the terminal surface under the cooling jacket, and both all are linked together with the hollow intermediate layer between cooling jacket and the ozone pipe, the mid-mounting of water supply chamber has horizontal distribution's pivot, and the pivot is connected through the motor of belt pulley mechanism and water supply chamber bottom to install the auger that is located water supply chamber inside in the pivot, the below of cooling jacket is provided with the riser, and the riser symmetric distribution has 2 to be connected through the capillary between the riser. This novel ozone generator utilizes the hydrologic cycle structure from the area, has effectively reduced the use cost of ozone pipe to can carry out high-efficient forced air cooling at the in-process that the circulation flows to the cooling water, it is more reasonable to design.

Description

Novel ozone generator

Technical Field

The utility model relates to an ozone generator technical field specifically is a novel ozone generator.

Background

The ozone generator is a device which generates ozone gas in introduced oxygen or air by utilizing an ionization mode, the produced ozone can play a good role in disinfection and purification in a plurality of fields, the ozone generator is also called as an ozone tube, but the prior ozone generator has the following problems in actual use:

in the process of ozone is produced in the ionization, ozone pipe itself can produce a large amount of heats, consequently need use the water-cooling structure to come to cool off the ozone pipe, avoids ozonolysis, but current water-cooling structure needs to be connected with outside plus equipment, and the cooling arrangement cost that uses is higher, and water cooling efficiency is relatively poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel ozone generator to propose in solving above-mentioned background art producing the in-process of ozone at the ionization, ozone pipe itself can produce a large amount of heats, consequently need use the water-cooling structure to come to cool off the ozone pipe, avoids ozonolysis, but current water-cooling structure needs to be connected with outside plus equipment, and the cooling arrangement cost that uses is higher, and the relatively poor problem of water cooling efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a novel ozone generator, includes ozone pipe, circular telegram line, intake pipe and outlet duct, the surface mounting of ozone pipe has the cooling jacket, and the left end of ozone pipe is provided with the circular telegram line, and the right-hand member installs the intake pipe to the left side of ozone pipe is provided with the outlet duct, both ends are provided with outlet pipe and inlet tube respectively about the terminal surface under the cooling jacket, and both are linked together with the hollow intermediate layer between cooling jacket and the ozone pipe, and the bottom and the supply chamber of outlet pipe are linked together, the mid-mounting of supply chamber has horizontal distribution's pivot, and the pivot is connected through the motor of belt pulley mechanism and supply chamber bottom to install the auger that is located the supply chamber inside in the pivot, the below of cooling jacket is provided with the riser, and riser symmetric distribution has 2 to be connected through the capillary.

Preferably, the surface of the rotating shaft is provided with a first opening and a second opening which are respectively communicated with the channel from two ends, and the channel is horizontally arranged in the rotating shaft.

Preferably, the first and second openings are located inside the water supply chamber and the cavity, respectively, and the cavity is opened inside the riser.

Preferably, the center of the vertical plate is penetrated by the rotating shaft, the vertical plate and the rotating shaft are in rotating connection, and a cavity in the vertical plate on the left side is communicated with the water inlet pipe.

Preferably, the capillary is horizontally arranged, the capillary is distributed at equal angles relative to the centers of the vertical plates, two ends of the capillary are respectively communicated with the cavities in the 2 vertical plates, and fan blades are arranged between the capillaries.

Preferably, the flabellum is vertical distribution, and it is located between 2 risers, and flabellum fixed mounting is in the left end department of pivot.

Compared with the prior art, the beneficial effects of the utility model are that: the novel ozone generator utilizes the self-contained water circulation structure, effectively reduces the use cost of the ozone tube, can perform high-efficiency air cooling on cooling water in the circulating flow process, and is more reasonable in design;

1. through the use of the rotating shaft structure, the circulating flow of cooling water can be realized by utilizing the rotation of the packing auger, and meanwhile, the use of the hole opening and channel structure ensures that the rotating shaft can play a role of water passing when rotating;

2. the capillary tube is used, so that the cooling water can be efficiently cooled by increasing the contact area with air and combining the use of the fan blades.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the front cross-section structure of the vertical plate of the present invention;

FIG. 3 is a schematic view of the front view structure of the water inlet pipe of the present invention;

fig. 4 is a schematic side view of the fan blade of the present invention.

In the figure: 1. an ozone tube; 2. a cooling jacket; 3. electrifying the wire; 4. an air inlet pipe; 5. an air outlet pipe; 6. a water outlet pipe; 7. a water inlet pipe; 8. a water supply chamber; 9. a rotating shaft; 91. a first opening; 92. a channel; 93. a second opening; 10. an electric motor; 11. a belt pulley mechanism; 12. a packing auger; 13. a vertical plate; 131. a cavity; 14. a capillary tube; 15. a fan blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a novel ozone generator comprises an ozone pipe 1, a cooling jacket 2, an electrified wire 3, an air inlet pipe 4, an air outlet pipe 5, an air outlet pipe 6, an air inlet pipe 7, a water supply chamber 8, a rotating shaft 9, a first opening 91, a channel 92, a second opening 93, a motor 10, a belt pulley mechanism 11, an auger 12, a vertical plate 13, a cavity 131, a capillary 14 and a fan blade 15, wherein the surface of the ozone pipe 1 is provided with the cooling jacket 2, the left end of the ozone pipe 1 is provided with the electrified wire 3, the right end of the ozone pipe 1 is provided with the air inlet pipe 4, the left side of the ozone pipe 1 is provided with the air outlet pipe 5, the left end and the right end of the lower end surface of the cooling jacket 2 are respectively provided with the water outlet pipe 6 and the water inlet pipe 7 which are communicated with a hollow interlayer between the cooling jacket 2 and the ozone pipe 1, the bottom end of the water outlet pipe 6 is communicated with the water supply chamber 8, and the rotating shaft 9 is provided with an auger 12 positioned in the water supply chamber 8, the lower part of the cooling jacket 2 is provided with

vertical plates

13, 2 vertical plates 13 are symmetrically distributed, and the vertical plates 13 are connected through capillary tubes 14.

The surface of the rotating shaft 9 is provided with a first opening 91 and a second opening 93 which are respectively communicated with the channel 92 from two ends, the channel 92 is horizontally arranged inside the rotating shaft 9, the first opening 91 and the second opening 93 are respectively positioned inside the water supply chamber 8 and the cavity 131, the cavity 131 is arranged inside the vertical plate 13, and when cooling water flows to the left side of the water supply chamber 8, the cooling water can enter the channel 92 through the first opening 91 and enter the vertical plate 13 on the right side through the second opening 93.

The center department of riser 13 is run through by pivot 9, and both are the rotation connection, and be located inside cavity 131 of left riser 13 and inlet tube 7 and be linked together, capillary 14 is the level setting, it is about the equal angular distribution of center of riser 13, and the both ends of capillary 14 are linked together with the inside cavity 131 of 2 riser 13 respectively, and be provided with flabellum 15 between the capillary 14, because be linked together through capillary 14 between two riser 13, so water in the cavity 131 of right side can shunt to each capillary 14 in, the in-process that the heat energy can flow in capillary 14 in the cooling water of this moment, with the outside air contact heat dissipation, behind left riser 13 and inlet tube 7 in via figure 1, enter into cooling jacket 2, thereby accomplish the radiating purpose of circulation flow.

The fan blades 15 are vertically distributed and located between the 2 vertical plates 13, the fan blades 15 are fixedly installed at the left end of the rotating shaft 9, and the rotating shaft 9 can drive the fan blades 15 in fig. 1 and fig. 2 to rotate synchronously while rotating, so that the cooling efficiency of cooling water in the capillary tube 14 is improved in a fan mode.

The working principle is as follows: external air is pumped into the ozone tube 1 under the action of the air pump, ozone is correspondingly generated under the action of electrifying and ionizing coatings of the internal metal tube and the ceramic tube, and is discharged from the air outlet tube 5, the motor 10 can correspondingly operate when the ozone tube 1 actually operates, the rotating shaft 9 synchronously rotates under the drive of the belt pulley mechanism 11, the packing auger 12 in the figure 2 synchronously rotates at the moment, correspondingly, water in the cooling jacket 2 flows into the water outlet tube 6 after absorbing heat, and flows in the water supply chamber 8 from right to left under the conveying action of the packing auger 12;

as shown in fig. 2, when the cooling water flows to the left side of the water supply chamber 8, the cooling water enters the channel 92 through the first opening 91 and enters the inside of the riser 13 on the right side through the second opening 93, because the two risers 13 are communicated through the capillary 14, the water in the cavity 131 on the right side is divided into the capillary 14, the heat in the cooling water which absorbs heat at this time can be in contact with the outside air to dissipate heat in the process of flowing in the capillary 14, and then enters the cooling jacket 2 after passing through the riser 13 on the left side in fig. 1 and the water inlet pipe 7, so as to complete the purpose of circularly flowing heat dissipation, and the rotating shaft 9 drives the fan blades 15 in fig. 1 and fig. 2 to synchronously rotate while rotating, so as to improve the cooling efficiency of the cooling water in the capillary 14 in a fan manner.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that 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

1. The utility model provides a novel ozone generator, includes ozone pipe (1), circular telegram line (3), intake pipe (4) and outlet duct (5), its characterized in that: the surface mounting of ozone pipe (1) has cooling jacket (2), and the left end of ozone pipe (1) is provided with circular telegram line (3), and the right-hand member installs intake pipe (4), and the left side of ozone pipe (1) is provided with outlet duct (5), both ends are provided with outlet pipe (6) and inlet tube (7) respectively about the terminal surface under cooling jacket (2), and both all are linked together with the hollow intermediate layer between cooling jacket (2) and ozone pipe (1), and the bottom and the water supply chamber (8) of outlet pipe (6) are linked together, the mid-mounting of water supply chamber (8) has horizontally distributed's pivot (9), and pivot (9) are connected through motor (10) of belt pulley mechanism (11) and water supply chamber (8) bottom to install on pivot (9) and be located the inside auger (12) of water supply chamber (8), the below of cooling jacket (2) is provided with riser (13), and the vertical plates (13) are symmetrically distributed with 2, and the vertical plates (13) are connected through capillary tubes (14).

2. The novel ozone generator of claim 1, wherein: the surface of the rotating shaft (9) is provided with a first opening (91) and a second opening (93), the first opening and the second opening are respectively communicated with the channel (92) from two ends, and the channel (92) is horizontally arranged in the rotating shaft (9).

3. The novel ozone generator of claim 2, wherein: the first opening (91) and the second opening (93) are respectively located inside the water supply chamber (8) and the cavity (131), and the cavity (131) is opened inside the vertical plate (13).

4. The novel ozone generator as claimed in claim 3, wherein: the center of the vertical plate (13) is penetrated by the rotating shaft (9) and is in rotating connection with the vertical plate, and a cavity (131) in the vertical plate (13) on the left side is communicated with the water inlet pipe (7).

5. The novel ozone generator as claimed in claim 3, wherein: the capillary tubes (14) are horizontally arranged and distributed at equal angles relative to the centers of the vertical plates (13), two ends of each capillary tube (14) are respectively communicated with cavities (131) in the 2 vertical plates (13), and fan blades (15) are arranged between the capillary tubes (14).

6. The novel ozone generator of claim 5, wherein: flabellum (15) are vertical distribution, and it is located between 2 riser (13), and flabellum (15) fixed mounting is in the left end department of pivot (9).