AU2021273621A1 - Automatic filtering and circulating water quality monitoring system - Google Patents

Automatic filtering and circulating water quality monitoring system Download PDF

Info

Publication number
AU2021273621A1
AU2021273621A1 AU2021273621A AU2021273621A AU2021273621A1 AU 2021273621 A1 AU2021273621 A1 AU 2021273621A1 AU 2021273621 A AU2021273621 A AU 2021273621A AU 2021273621 A AU2021273621 A AU 2021273621A AU 2021273621 A1 AU2021273621 A1 AU 2021273621A1
Authority
AU
Australia
Prior art keywords
water
detection unit
controller
circulating water
pump
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
AU2021273621A
Inventor
Andrew Smith
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Af Water Systems Equipment Co Ltd
Original Assignee
Af Water Systems Equipment Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Af Water Systems Equipment Co Ltd filed Critical Af Water Systems Equipment Co Ltd
Publication of AU2021273621A1 publication Critical patent/AU2021273621A1/en
Pending legal-status Critical Current

Links

Landscapes

  • Physical Water Treatments (AREA)
  • Treatment Of Water By Oxidation Or Reduction (AREA)

Abstract

of Disclosures The present utility model discloses an automatic filtering and circulating water quality monitoring system, which includes a water flow pipeline for swimming pool water circulation, a circulating water pump, a filter, a water pressure detection unit, a water flow detection unit, and a controller; the circulating water pump, the filter, the water pressure detection unit and the water flow detection unit are all arranged on the water flow pipeline; the controller controls the working state of the circulating water pump according to signals of the water pressure detection unit and the water flow detection unit. The water pressure detection unit of the present utility model monitors the water pressure of the water flow pipeline in real time. When the water pressure is too high, the controller controls the circulating water pump to stop working to prevent the water pressure in the water flow pipeline from continuing to rise, which may cause the risk of water pipe or filter explosion. The water flow detection unit monitors the water flow in real time. When the water flow is too low, the controller controls the circulating water pump to stop working to prevent the circulating water pump from idling and causing equipment damage. The present utility model can automatically monitor the working conditions of the water flow pipeline, the circulating water pump and the filter to ensure the normal state of the swimming pool. 1/1 Water flow Water pump Circulating Water pressure detection unit speed water pump 1 detection unit 4 inverter 3 Air Filter 2 compressor Powder -UV lamp suction machine -- Controller 5 Agent loading m i nHeat pump PUMP Pneumatic Dehumidifier valve Lighting Water quality Water level Ooesse detection unit momitormng genetore Fig. I

Description

1/1
Water flow Water pump Circulating Water pressure detection unit speed water pump 1 detection unit 4 inverter 3
Air Filter 2 compressor
Powder -UV lamp suction machine -- Controller 5
Agent loading m i nHeat pump PUMP
Pneumatic Dehumidifier valve
Lighting Water quality Water level Ooesse detection unit momitormng genetore
Fig. I
AUTOMATIC FILTERING AND CIRCULATING WATER QUALITY MONITORING SYSTEM
Technical Field
[0001] The present utility model belongs to the technical field of swimming pool water filtration and circulation, and specifically relates to an automatic filtering and circulating water quality monitoring system
Background Art
[0002] A water filtering and circulating system is necessary for swimming pools. In the swimming pool water filtering and circulating system, when the water flow pipeline is blocked, it will cause the water pressure to be too high, which can easily cause the pipeline or filter to explode. If the flow of the water pipeline is insufficient or cut off, it will cause the circulating water pump to run idly, which can easily damage the circulating water pump.
[0003] Although the existing technology can automatically operate and control the entire water filtering and circulating system, it cannot monitor and handle the above-mentioned situation in a timely manner. Therefore, there is an urgent need for a water filtering and circulating system that can effectively deal with the above-mentioned problems and situations.
Summary of the Utility Model
[0004] In order to solve the above-mentioned problems and deficiencies in the existing technology, one object of the present utility model is to provide an automatic filtering and circulating water quality monitoring system, which can automatically monitor the working conditions of the water flow pipeline, the circulating water pump and the filter to ensure the normal state of the swimming pool.
[0005] To achieve the above object, the present utility model provides an automatic filtering and circulating water quality monitoring system, the system comprises a water flow pipeline for swimming pool water circulation, a circulating water pump, a filter, a water pressure detection unit, a water flow detection unit, and a controller; the circulating water pump, the filter, the water pressure detection unit and the water flow detection unit are all arranged on the water flow pipeline; and the controller controls the working state of the circulating water pump according to signals of the water pressure detection unit and the water flow detection unit.
[0006] Further, the system further comprises an air compressor for injecting air into the filter, which is in communication with the controller.
[0007] Further, the system further comprises a powder suction machine for sucking a filter aid, which is in communication with the controller.
[0008] Further, the system further comprises an on-line water quality detection unit and an agent loading pump for automatically loading an agent into water in a swimming pool, the water quality detection unit and the agent loading pump are respectively in communication with the controller, and the controller controls the operation of the agent loading pump according to a detection signal of the water quality detection unit.
[0009] Further, the system further comprises a heat pump for circulating heating of the water in the swimming pool, which is in communication with the controller.
[0010] Further, the system further comprises a dehumidifier for dehumidification, which is in communication with the controller.
[0011] Further, the system further comprises pneumatic valves, which are respectively arranged at a water inlet of the filter, a water outlet, an exhaust port, an air injection port and a water inlet of the circulating water pump, and are simultaneously in communication with the controller.
[0012] Further, the system further comprises a water level detection unit, which is arranged in the swimming pool, and is in communication with the controller.
[0013] Further, the system further comprises a water pump speed inverter for controlling the working state of the circulating water pump, which is in communication with the controller.
[0014] Further, the system further comprises an ozone generator, a UV lamp, and a lighting system, and the ozone generator, the UV lamp and the lighting system are respectively in communication with the controller.
[0015] Compared with the existing technology, the present utility model has the following beneficial effects: the water pressure detection unit of the present utility model monitors the water pressure of the water flow pipeline in real time. When the water pressure is too high, the controller controls the circulating water pump to stop working to prevent the water pressure in the water flow pipeline from continuing to rise, which may cause the risk of water pipe or filter explosion. The water flow detection unit monitors the water flow in real time. When the water flow is too low, the controller controls the circulating water pump to stop working to prevent the circulating water pump from idling and causing equipment damage. The present utility model can monitor the water flow state of the water flow pipeline in real time. In the event of an abnormal situation, the circulating water pump and other devices can be automatically shut down in time to avoid further damage caused by continued work.
Brief Description of Drawings
[0016] Fig. 1 is a system structure connection view of embodiments of the present utility model.
Description of the Embodiments
[0017] In order to make the purpose, technical solutions, and advantages of the present utility model clearer, the following further describes the present utility model in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain the present utility model, and are not used to limit the present utility model.
[0018] An embodiment of the present utility model provides an automatic filtering and circulating water quality monitoring system, as shown in Fig. 1, the system comprises a water flow pipeline for swimming pool water circulation, a circulating water pump 1, a filter 2, a water pressure detection unit 3, a water flow detection unit 4, and a controller 5; the circulating water pump 1, the filter 2, the water pressure detection unit 3 and the water flow detection unit 4 are all arranged on the water flow pipeline; and the controller 5 controls the working state of the circulating water pump 1 according to signals of the water pressure detection unit 3 and the water flow detection unit 4.
[0019] According to the structure mentioned above, the water pressure detection unit 3 monitors the water pressure of the water flow pipeline in real time. When the water pressure is too high, the controller 5 controls the circulating water pump 1 to stop working to prevent the water pressure in the water flow pipeline from continuing to rise, which may cause the risk of water pipe or filter explosion. The water flow detection unit 4 monitors the water flow in real time. When the water flow is too low, the controller 5 controls the circulating water pump to stop working to prevent the circulating water pump 1 from idling and causing equipment damage. The present utility model can monitor the water flow state of the water flow pipeline in real time. In the event of an abnormal situation, the circulating water pump and other devices can be automatically shut down in time to avoid further damage caused by continued work.
[0020] In this embodiment, the system further comprises an air compressor for introducing air to the filter 2, a powder suction machine for sucking a filter aid, an agent loading pump for loading an agent to the swimming pool water, a water quality detection unit, and a heating pump for heating the circulation water in the swimming pool, a dehumidifier for dehumidification, pneumatic valves, a water level detection unit, a water pump speed inverter for controlling the working state of the circulating water pump, an ozone generator, a UV lamp, and a lighting system. The above-mentioned devices and units are all in communication with the controller 5 through the Modbus communication protocol.
[0021] In this embodiment, the controller 5 is provided with a touch screen, through which the working status and detected data of each device and unit can be displayed.
[0022] In this embodiment, the filter 2 adopts a circulation regeneration medium filter and uses the perlite powder filter aid. The perlite powder is coated on the filter element in the regeneration medium filter to block impurities in the water from entering the filter element so as to achieve the effect of filtration and purification.
[0023] In order to improve the effect of filtration and purification, the perlite powder needs to be regularly coated for the circulation medium filter. The controller 5 periodically controls the air compressor to inject air into the circulation regeneration medium filter. Under the impact of air, the perlite powder and impurities on the filter element fall off together. Next, the perlite powder and impurities are regrouped together to form a layer of powder film to continue filtering the impurities out of water.
[0024] The controller 5 controls the operation of the powder suction machine, the perlite powder filter aid can be sucked into an empty filter 2 to provide the filter 2 with new filter powder.
[0025] The controller 5 can periodically open a drain valve of the filter to drain the water and impurities together with the old perlite powder filter aid from the filter so as to prepare for the replacement of the new perlite powder filter aid.
[0026] When the water quality detection unit detects that the water quality of the swimming pool does not meet the standard, the controller 5 controls the agent loading pump to loading a corresponding agent to the swimming pool water, so that the water quality of the swimming pool remains stable and meets the standards.
[0027] The controller 5 controls the operation of the heat pump. When the water temperature is not up to the standard, the heat pump is automatically started, and when the water temperature is up to the standard, the heat pump is stopped to keep the water temperature of the swimming pool in line with the standard temperature.
[0028] The controller 5 controls the operation of the dehumidifier to keep normal air humidity for an indoor swimming pool.
[0029] The opening or closing of the pneumatic valves is controlled by the controller 5 to start or stop the water flow in the water flow pipeline 1.
[0030] The water level detection unit detects the water level of the swimming pool. When the water level is not high enough, the controller 5 activates an external water replenishing device to automatically replenish water for the swimming pool.
[0031] The controller 5 controls the water pump speed inverter. According to the needs of the entire filtration process, the water pump speed inverter adjusts the speed of the circulating water pump 1 to meet different speed requirements of the circulating water pump 1 in different filtration processes.
[0032] The controller 5 controls the ozone generator and the UV lamp to operate regularly to sterilize the swimming pool water.
[0033] The controller 5 controls the lighting system to turn on or turn off according to the needs of the swimming pool.
[0034] The working process of the present utility model is as follows:
[0035] The water pressure detection unit 3 monitors the water pressure of the water flow pipeline in real time. When the water pressure is too high, the controller 5 controls the circulating water pump 1 to stop working to prevent the water pressure in the water flow pipeline from continuing to rise, which may cause the risk of water pipe orfilter explosion. The water flow detection unit 4 monitors the water flow in real time. When the water flow is too low, the controller 5 controls the circulating water pump to stop working to prevent the circulating water pump 1 from idling and causing equipment damage.
[0036] As the film needs to be maintained regularly, the controller 5 controls the air compressor to start operating, air is injected into the filter 2 to complete the regular re-coating of the perlite powder to recycle the perlite powder filter aid to filter and purify the water. The controller 5 controls the agent loading pump to load the agent to the swimming pool according to the detection value of the water quality detection unit in order to stabilize the water quality. The controller 5 controls the operation of the heat pump, so that the heat pump automatically turns on and off according to the temperature set by the system, and keeps the water temperature of the swimming pool stable. The opening or closing of the pneumatic valves is controlled by the controller 5 to start or stop the water flow in the water flow pipeline. The operation of the dehumidifier is controlled by the controller 5 to maintain the air humidity of an indoor swimming pool. The water level detection unit detects the water level of the swimming pool and automatically turns on external water replenishment when the water level is not high enough. The controller 5 controls the water pump speed inverter according to the water flow detection unit 4 to adjust the working power of the circulating water pump to meet different process requirements in a filtration process. The controller 5 controls the ozone generator and the UV lamp to operate regularly to sterilize the swimming pool water. The controller 5 controls the lighting system to turn on and off according to the needs of the swimming pool.
[0037] The above are merely some preferred specific embodiments of the present utility model, but the scope of protection the present utility model is not limited thereto. A person skilled in the art can easily think of changes or substitutions within the technical scope disclosed in the present utility model, and all of these changes or substitutions are within the scope of protection of the present utility model. Therefore, the scope of protection of the present utility model is determined by the scope of protection of the claims.

Claims (10)

  1. Claims 1. An automatic filtering and circulating water quality monitoring system, characterized in that the system comprises a water flow pipeline for swimming pool water circulation, a circulating water pump, a filter, a water pressure detection unit, a water flow detection unit, and a controller; the circulating water pump, the filter, the water pressure detection unit and the water flow detection unit are all arranged on the water flow pipeline; and the controller controls the working state of the circulating water pump according to signals of the water pressure detection unit and the water flow detection unit.
  2. 2. The automatic filtering and circulating water quality monitoring system according to claim 1, characterized in that the system further comprises an air compressor for injecting air into the filter, which is in communication with the controller.
  3. 3. The automatic filtering and circulating water quality monitoring system according to claim 2, characterized in that the system further comprises a powder suction machine for sucking a filter aid, which is in communication with the controller.
  4. 4. The automatic filtering and circulating water quality monitoring system according to any one of claims I to 3, characterized in that the system further comprises an on-line water quality detection unit and as agent loading pump for automatically loading an agent into water in a swimming pool, the water quality detection unit and the agent loading pump are respectively in communication with the controller, and the controller controls the operation of the agent loading pump according to a detection signal of the water quality detection unit.
  5. 5. The automatic filtering and circulating water quality monitoring system according to claim 4, characterized in that the system further comprises a heat pump for circulating heating of the water in the swimming pool, which is in communication with the controller.
  6. 6. The automatic filtering and circulating water quality monitoring system according to claim 4, characterized in that the system further comprises a dehumidifier for dehumidification, which is in communication with the controller.
  7. 7. The automatic filtering and circulating water quality monitoring system according to claim 4, characterized in that the system further comprises pneumatic valves, which are respectively arranged at a water inlet of the filter, a water outlet, an exhaust port, an air injection port and a water inlet of the circulating water pump, and are simultaneously in communication with the controller.
  8. 8. The automatic filtering and circulating water quality monitoring system according to claim 4, characterized in that the system further comprises a water level detection unit, which is arranged in the swimming pool, and is in communication with the controller.
  9. 9. The automatic filtering and circulating water quality monitoring system according to claim 4, characterized in that the system further comprises a water pump speed inverter for controlling the working state of the circulating water pump, which is in communication with the controller.
  10. 10. The automatic filtering and circulating water quality monitoring system according to claim 4, characterized in that the system further comprises an ozone generator, a UV lamp, and a lighting system, and the ozone generator, the UV lamp and the lighting system are respectively in communication with the controller.
AU2021273621A 2020-12-01 2021-11-25 Automatic filtering and circulating water quality monitoring system Pending AU2021273621A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN202022837807.4 2020-12-01
CN202022837807.4U CN213834604U (en) 2020-12-01 2020-12-01 Automatic filtration cycle monitored control system of quality of water

Publications (1)

Publication Number Publication Date
AU2021273621A1 true AU2021273621A1 (en) 2022-06-16

Family

ID=76995220

Family Applications (1)

Application Number Title Priority Date Filing Date
AU2021273621A Pending AU2021273621A1 (en) 2020-12-01 2021-11-25 Automatic filtering and circulating water quality monitoring system

Country Status (2)

Country Link
CN (1) CN213834604U (en)
AU (1) AU2021273621A1 (en)

Also Published As

Publication number Publication date
CN213834604U (en) 2021-07-30

Similar Documents

Publication Publication Date Title
CN104820413B (en) A kind of energy-conservation cluster control system of pneumatics station
CN104180563A (en) Method for returning oil during heating of multi-online system
CN208309676U (en) A kind of intelligent frequency-conversion water system
CN112526868B (en) Control method of secondary pressurization domestic water supply system
CN107050597B (en) Medical compressed air supply device and control method thereof
CN202013500U (en) Full automatic control system of medical PSA oxygen generator
CN104819141A (en) Control method and system for air compression station
CN111561440A (en) High efficiency air compressor machine unit control system
CN210597447U (en) Emergency cooling water supply system
CN205783571U (en) A kind of central air conditioner cooling system energy-saving control apparatus
CN106120950B (en) Closed circulating water full-automatic switching rapid emergency pressure stabilizing device
AU2021273621A1 (en) Automatic filtering and circulating water quality monitoring system
CN104846881A (en) Non-negative pressure pipe network pressure-superposed water supply control device
CN113274803A (en) Oil filtering system and method based on transformer on-load switch
CN205530482U (en) Variable frequency speed governing(VFSG) constant voltage water supply system
CN204677409U (en) A kind of control system of air compressor plant
CN212001370U (en) Non-negative pressure water supply equipment
CN208996133U (en) A kind of energy consumption monitoring management platform
CN111258359A (en) Automatic air supplement and exhaust system of hydraulic power plant high-pressure oil tank based on PLC control
CN218843245U (en) Interlocking device for automatically supplementing water to process water tank of reaction tower atomizer
CN216342648U (en) Vacuum negative pressure station
CN219701549U (en) Spray tower for aluminum melting furnace
CN109667313A (en) A kind of drainage equipment with facility of regulating and storing
CN117145836A (en) Energy-saving hydraulic pump station and application method thereof
CN210460108U (en) Auxiliary system for factory building