CN211078568U - Full-automatic ozone disinfection device - Google Patents
Full-automatic ozone disinfection device Download PDFInfo
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- CN211078568U CN211078568U CN201921436973.4U CN201921436973U CN211078568U CN 211078568 U CN211078568 U CN 211078568U CN 201921436973 U CN201921436973 U CN 201921436973U CN 211078568 U CN211078568 U CN 211078568U
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- booster pump
- retort
- ejector
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Abstract
The utility model discloses a full-automatic ozone disinfection device, which relates to the technical field of water treatment. It includes ozone generator, ozone booster pump, ejector, blender, ozone retort, tail gas processing apparatus and fourth teletransmission manometer, the end of intaking of ozone booster pump links to each other with the delivery port that filters heat exchange attemperator, the play water end of ozone booster pump loops through the ejector together with ozone generator, the blender is connected to the ozone retort, the ozone booster pump is connected to and installs fourth teletransmission manometer on the pipeline of ejector, the exit end of ozone retort passes through pipe connection to the swimming pool water inlet, install tail gas processing apparatus on the ozone retort, ozone generator, ozone booster pump, fourth teletransmission manometer all be connected to the control box. The utility model discloses convenient operation has realized the ozone disinfection sterilization system's of swimming pool water treatment modularization, has integrated, the installation of simplification, and operational reliability is high, and application prospect is wide.
Description
Technical Field
The utility model relates to the technical field of water treatment, in particular to a full-automatic ozone disinfection device.
Background
The ozone disinfection device generally comprises an ozone generator, an ejector, an ozone reaction tank, an ozone booster pump, a tail gas treatment device, a valve pipe fitting and the like, and is connected in series and parallel between water treatment such as swimming pool filtration and the like and a circulating water supply port of a swimming pool. At present, each part of the ozone disinfection device is produced by different manufacturers, needs to be purchased on the market respectively, and then is transported to the field for assembly and integration, so that the purchasing workload and the cargo transportation period are increased, the installation workload and the maintenance difficulty are also improved, and the construction period is prolonged. Often, the engineering project needs a plurality of sub-package units to be matched for construction together, and after a certain work is finished, the installation period possibly reserved for the next work is shorter. In order to complete the project according to the expected construction period with the quality and quantity guaranteed, the equipment installation modularization is needed, and the adaptability is high. In order to solve the problems, it is necessary to design a novel full-automatic ozone disinfection device.
Disclosure of Invention
The utility model aims to provide a full-automatic ozone disinfection device, structural design is reasonable, and convenient operation has realized the ozone disinfection system's of swimming pool water treatment modularization, has integrated, the installation of simplification, and operational reliability is high, easily uses widely.
In order to achieve the above purpose, the present invention is realized by the following technical solution: the full-automatic ozone disinfection device comprises an ozone generator, an ozone booster pump, an ejector, a mixer, an ozone reaction tank, a tail gas treatment device and a fourth remote pressure gauge, wherein the water inlet end of the ozone booster pump is connected with the water outlet of the filtering heat exchange temperature adjusting device, the water outlet end of the ozone booster pump and the ozone generator sequentially pass through the ejector, the mixer is connected to the ozone reaction tank, the fourth remote pressure gauge is installed on a pipeline connected to the ejector, the outlet end of the ozone reaction tank is connected to the water inlet of a swimming pool through a pipeline, the tail gas treatment device is installed on the ozone reaction tank, and the ozone generator, the ozone booster pump, the ozone reaction tank and the tail gas treatment device are all fixed on an equipment base; the ozone generator, the ozone booster pump and the fourth remote pressure gauge are all connected to the control box.
Preferably, the upper tank body of the ozone reaction tank is provided with a perspective mirror, and the lower tank body of the ozone reaction tank is provided with an access hole convenient for maintenance.
Preferably, the fourth remote pressure gauge can be replaced by a pressure sensor, and the working range of the pressure gauge is 0-1 MPa.
The utility model has the advantages that: this device is used for filtering, adds the pond water behind the water treatment facilities such as heating and carries out ozone disinfection operation, has realized the ozone disinfection sterilization system's of swimming pool water treatment modularization, has integrated, the installation of simplification, convenient operation, and the operation is reliable, and application prospect is wide.
Drawings
The present invention will be described in detail with reference to the accompanying drawings and specific embodiments;
fig. 1 is a front view of the present invention;
FIG. 2 is a left side view of FIG. 1;
FIG. 3 is a top view of FIG. 1;
FIG. 4 is a schematic diagram of the operation of the present invention applied to a filtration heat exchange temperature adjustment system;
fig. 5 is a control flow chart of the utility model applied to a filtration heat exchange temperature adjustment system.
Detailed Description
In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.
Referring to fig. 1 to 5, the following technical solutions are adopted in the present embodiment: full-automatic ozone disinfection device, including ozone generator 8, ozone booster pump 9, ejector 10, blender 11, ozone retort 12, tail gas processing apparatus 13 and fourth teletransmission manometer P4, the end of intaking of ozone booster pump 9 links to each other with the delivery port that filters heat exchange attemperator, the play water end of ozone booster pump 9 loops through ejector 10 together with ozone generator 8, blender 11 is connected to ozone retort 12, ozone booster pump 9 is connected to and installs fourth teletransmission manometer P4 on the pipeline of ejector 10, the exit end of ozone retort 12 passes through pipe connection to the swimming pool water inlet, install tail gas processing apparatus 13 on the ozone retort 12, ozone generator 8, ozone booster pump 9, fourth teletransmission manometer P4 all link to each other through control box 17 control.
It is worth noting that the ozone generator 8, the ozone booster pump 9, the ozone reaction tank 12 and the tail gas treatment device 13 are all fixed on the equipment base 14, the perspective mirror 15 is arranged on the upper tank body of the ozone reaction tank 12, and the lower tank body of the ozone reaction tank 12 is provided with an access hole 16 which is convenient to overhaul.
The parameters of the main components of the embodiment are (1) an ozone generator 8 with the ozone yield of 30g/h, the power of 600W, AC220V and the size of 500 × 390 × 1200)
(2) And 9, an ozone booster pump: q =3 m3/h,H=17m,N=0.37KW,380V)
(3) Ozone retort 12 with body structure phi 800 × 1600)
(4) Fourth remote pressure gauge P4: the working range is 0-1MPa, and the pressure sensor can be replaced.
The embodiment is based on a full-automatic filtering heat exchange temperature adjusting device, and is additionally provided with an ozone generator 8, an ozone booster pump 9, an ozone reaction tank 12 and other devices to realize filtering, backwashing and ozone disinfection, the full-automatic filtering heat exchange temperature adjusting device (figure 4) comprises a filtering tank 1, a circulating water pump 2, a plate heat exchanger 3, a first electric three-way valve 4, a second electric three-way valve 5, a first electric valve 6, a second electric valve 7, a first temperature sensor T1-a third temperature sensor T3, a first remote transmission pressure gauge P1-a third remote transmission pressure gauge P3 and a control box 17, the water inlet end of the circulating water pump 2 is connected to a swimming pool water return port through a pipeline, the water outlet end of the circulating water pump 2 is connected to the filtering tank 1 through the first electric three-way valve 4, the first remote transmission pressure gauge P1 is arranged on the pipeline connecting the circulating water pump 2 and the first, the port 2 of the first electric three-way valve 4 is connected with the upper port of the filter tank 1, the port 3 of the first electric three-way valve 4 is connected with the lower port of the filter tank 1, the upper port of the filter tank 1 is also connected with a back flush water outlet through a first electric valve 6, the lower port of the filter tank 1 is connected with the water inlet end of the plate heat exchanger 3 through a second electric valve 7, a second remote transmission pressure gauge P2 is installed on the connecting pipeline of the lower port of the filter tank 1 and the second electric valve 7, a first temperature sensor T1 is installed on the connecting pipeline of the second electric valve 7 and the plate heat exchanger 3, the ozone disinfection device is installed on the pipeline of the water inlet of the swimming pool from the water outlet end of the plate heat exchanger 3, a second temperature sensor T2 and a third remote transmission pressure gauge P3 are installed on the pipeline of the plate heat exchanger 3 communicated with the water inlet of the swimming pool, the plate heat exchanger 3, and a third temperature sensor T3 is installed at the end of the heating medium, and the circulating water pump 2, the first electric three-way valve 4, the second electric three-way valve 5, the first electric valve 6, the second electric valve 7, the first temperature sensor T1, the second temperature sensor T2, the third temperature sensor T3, the first remote transmission pressure gauge P1, the second remote transmission pressure gauge P2 and the third remote transmission pressure gauge P3 are all controlled by the control box 17.
The operation principle of the whole system is as follows:
① and (3) filtration:
the circulating water pump 2 is started, the openings 1 and 2 of the first electric three-way valve 4 are opened, the openings 1 and 3 are closed, namely the first electric three-way valve 4 at the upper port of the filter tank 1 is communicated with the filter tank and is closed with the lower port of the filter tank, the second electric valve 7 at the filter side is opened, and the first electric valve 6 at the backwashing drainage side is closed; the pool water of the swimming pool is pressurized by a water pump, pumped to the upper part of a filter tank 1 through a first electric three-way valve 4, filtered by a filter layer, discharged from the lower opening of the tank, enters a plate heat exchanger 3 through a second electric valve 7 to exchange heat, and then is sent back to the swimming pool; the water in the pool is repeatedly filtered and heated for circulation, so that the water quality and the water temperature are gradually improved.
② Heat media side operation:
when the control system detects that the temperature of the water temperature of the swimming pool (temperature sensor T1) is lower than the temperature required by swimming design and the temperature of the heating medium (temperature sensor T3) -the water temperature of the swimming pool is more than or equal to 10 ℃ (adjustable), the second electric three-way valve 5 of the heating medium end is switched to the plate-type end, the openings of '1' and '3' are opened, the openings of '1' and '2' are closed, a heat source is provided for the plate-type heat exchanger, the water temperature of the swimming pool is increased, and. Conversely, the second electric three-way valve 5 is switched to open the ports "1" and "2", and close the ports "1" and "3".
③ backwashing:
controlling conditions: and when the pressure value of the first remote transmission pressure gauge P1 at the filtering water inlet and the pressure value of the second remote transmission pressure gauge P2 at the filtering water outlet are more than 0.055Mpa and less than 0.069Mpa, backwashing is required. Firstly, the circulating water pump 2 is stopped, after the time delay of 30S-60S, the openings 1 and 3 of the first electric three-way valve 4 are opened, and the openings 1 and 2 are closed, namely, the first electric three-way valve 4 at the upper port of the filter tank 1 is communicated with the lower port of the filter tank, the second electric valve 7 at the filter side is closed, and the first electric valve 6 at the backwashing drainage side is opened. The water pump is started, the pool water is pumped to the lower opening of the filter tank through the openings 1 and 3 of the first electric three-way valve 4, the water flows out from the upper opening of the filter tank through the filter layer, and the water is discharged to a water discharge point through the first electric valve 6 to perform the operation of cleaning the filter tank. And (3) cleaning for 2-3 minutes once, stopping the water pump, switching the opening of the first electric three-way valve 4 to 1 or 2 after 30 seconds, opening the second electric valve 7, closing the first electric valve 6, and recovering to a normal filtering mode. And when the cleaning of the filter tank does not meet the requirement, the steps are repeatedly started again until the cleaning meets the requirement.
④ ozone disinfection, wherein the ozone generator 8 and the ozone booster pump 9 are manually started as required to perform ozone disinfection operation, the swimming pool water is filtered by the filter tank 1, heated by the plate heat exchanger 3, and then sent to the ozone booster pump 9 to be pressurized, meanwhile, the ozone generator 8 is electrified to automatically generate ozone, the pressurized swimming pool water and the ozone of the ozone generator 8 pass through the ejector 10 and the mixer 11, the ejector 10 sends the ozone into the ozone reaction 12 tank by using negative pressure, finally, the ozone is sent into the swimming pool through a pipeline to be disinfected, and the tail gas of the ozone is discharged after being treated by the tail gas treatment device 13.
The ozone disinfection and sterilization system for the swimming pool water treatment is used for ozone disinfection operation of pool water after water treatment devices such as filtering and heating, modularization and integration of the ozone disinfection and sterilization system for the swimming pool water treatment are achieved, the ozone disinfection and sterilization system is simple and convenient to install, convenient to operate and reliable in operation, and has wide market application prospects.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (4)
1. Full-automatic ozone disinfection device, a serial communication port, including ozone generator (8), ozone booster pump (9), ejector (10), blender (11), ozone retort (12), tail gas processing apparatus (13) and fourth teletransmission manometer (P4), the end of intaking of ozone booster pump (9) links to each other with the delivery port that filters heat exchange attemperator, the play water end and ozone generator (8) of ozone booster pump (9) loop through ejector (10) in the lump, blender (11) are connected to ozone retort (12), install fourth teletransmission manometer (P4) on ozone booster pump (9) are connected to the pipeline of ejector (10), the exit end of ozone retort (12) passes through pipe connection to the swimming pool, install tail gas processing apparatus (13) on ozone retort (12), ozone generator (8), The ozone booster pump (9), the ozone reaction tank (12) and the tail gas treatment device (13) are all fixed on the equipment base (14).
2. The full-automatic ozone disinfection device according to claim 1, wherein a perspective mirror (15) is arranged on the upper tank body of the ozone reaction tank (12), and an access hole (16) convenient for maintenance is arranged on the lower tank body of the ozone reaction tank (12).
3. The full-automatic ozone disinfection device according to claim 1, wherein the ozone generator (8), the ozone booster pump (9) and the fourth remote pressure gauge (P4) are all connected to the control box (17).
4. The fully automatic ozone disinfection apparatus of claim 1, wherein said fourth remote pressure gauge (P4) is replaced by a pressure sensor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921436973.4U CN211078568U (en) | 2019-08-30 | 2019-08-30 | Full-automatic ozone disinfection device |
Applications Claiming Priority (1)
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CN201921436973.4U CN211078568U (en) | 2019-08-30 | 2019-08-30 | Full-automatic ozone disinfection device |
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CN211078568U true CN211078568U (en) | 2020-07-24 |
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CN201921436973.4U Active CN211078568U (en) | 2019-08-30 | 2019-08-30 | Full-automatic ozone disinfection device |
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2019
- 2019-08-30 CN CN201921436973.4U patent/CN211078568U/en active Active
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