The program control straight drink boiler of intelligence water purification
Technical field
The present invention relates to a kind of water purifying equipment, particularly a kind of water purifying plant of tap water.
Background technology
The domestic drinking water treating plant is more universal, but that existing installation exists is inconvenient and remove halfway problem to the contaminant removal that filters out, and provides the equipment of boiling water and warm water also to have complex structure simultaneously, not energy-conservation and uneconomic defective.
Summary of the invention
Intelligent water-saving type household water-purifying machine provided by the invention has solved existing installation and has had the not energy-conservation and uneconomic problem of complex structure.
The present invention solves above technical problem through following technical scheme:
The program control straight drink boiler of a kind of intelligent water purification comprises PLC, quartz sand filtration device, activated charcoal filter, Si-P crystal strainer, accurate filter, ultra filtration filter and heating water tank, and raw water inlet is communicated with the inlet of No. eight threeways through raw water pump, the water inlet vacuum breaker that has low hydraulic pressure protector successively; An outlet of No. eight threeways is communicated with an end of quartz sand filtration device suction culvert, and the other end of quartz sand filtration device suction culvert is communicated with the inlet of a threeway, and quartz sand filtration device suction culvert is provided with quartz sand filtration device entering water electromagnetic valve; An outlet of a threeway is communicated with the water inlet of quartz sand filtration device, and another outlet of a threeway is communicated with the blowdown main road through silica sand recoil blowdown SV, and another outlet of No. eight threeways is communicated with the inlet of No. nine threeways through recoil water main valve; An outlet of No. nine threeways is communicated with the inlet of No. two threeways through the silica sand backwashing intake valve; An outlet of No. two threeways is communicated with quartz sand filtration device water outlet, and another outlet of No. two threeways is communicated with an end of activated charcoal filter suction culvert, and the other end of activated charcoal filter suction culvert is communicated with the inlet of No. three threeways; An outlet of No. three threeways is communicated with the water inlet of activated charcoal filter; Another outlet of No. three threeways is communicated with the blowdown main road through gac recoil blowdown SV, and another outlet of No. nine threeways is communicated with the inlet of No. four threeways through the gac backwashing intake valve, and an outlet of No. four threeways is communicated with the water outlet of activated charcoal filter; Another outlet of No. four threeways is communicated with the suction culvert of Si-P crystal strainer; Between the water inlet of the water outlet of Si-P crystal strainer and accurate filter, be connected with accurate filter entry pipeline, the water outlet of accurate filter is communicated with the inlet of No. five threeways through the accurate filter outlet pipeline, and the accurate filter outlet pipeline is provided with tensimeter; An outlet of No. five threeways is communicated with through the inlet of ultrafiltration suction culvert with No. six threeways; The ultrafiltration suction culvert is provided with the ultrafiltration entering water electromagnetic valve, and an outlet of No. six threeways is communicated with the water inlet of ultra filtration filter, and another outlet of No. six threeways is communicated with the blowdown main road through ultrafiltration recoil blowdown SV; Another outlet of No. five threeways is communicated with through the inlet of ultrafiltration backflushing pipe with No. seven threeways; The ultrafiltration backflushing pipe is provided with ultrafiltration recoil SV, and an outlet of No. seven threeways is communicated with the outlet pipeline of ultra filtration filter, and another outlet of No. seven threeways is communicated with an end of ultrafiltration outlet pipeline; The other end of ultrafiltration outlet pipeline is communicated with the outer tube inlet of interchanger; The outer tube outlet of interchanger is communicated with heating water tank through outer water inlet tube vacuum breaker, and the water outlet of heating water tank is communicated with first mouthful of four-way, and second mouth of four-way is communicated with through the inlet of temperature equilibrium valve with No. nine threeways; The 3rd mouth of four-way is communicated with the interior tube inlet of interchanger through the pipeline of boiling water to the interior pipe of interchanger; The 4th mouth of four-way is communicated with the boiling water outlet, and the interior pipe outlet of interchanger is communicated with an outlet of No. nine threeways through the warm water pipeline, and another outlet of No. nine threeways is communicated with the warm water water inlet; Heating water tank is provided with electric heating tube, on heating water tank, is respectively arranged with fluid level controller and heating water tank tensimeter.
Described low hydraulic pressure protector, raw water pump, quartz sand filtration device entering water electromagnetic valve, silica sand recoil blowdown SV, recoil water main valve, silica sand backwashing intake valve, gac recoil blowdown SV, gac backwashing intake valve, ultrafiltration entering water electromagnetic valve, ultrafiltration recoil blowdown SV, ultrafiltration recoil SV, fluid level controller, temperature equilibrium valve and electric heating tube are electrically connected with PLC respectively.
The present invention is flow through through the outer tube of cold water at interchanger; Boiling water flows through from the interior pipe of interchanger; When boiling water is lowered the temperature into warm water, heated the temperature that flow into cold water in the water tank, practiced thrift and add the safety that thermoelectric power has realized drinking warm water again, simultaneously the intelligent and high-efficiency that cleans of water purifier; The purging method of layer-stepping had both been practiced thrift the energy, had improved cleaning performance again.
Description of drawings
Fig. 1 is a structural representation of the present invention
Embodiment
The program control straight drink boiler of a kind of intelligent water purification comprises PLC, quartz sand filtration device 8, activated charcoal filter 12, Si-P crystal strainer 15, accurate filter 17, ultra filtration filter 24 and heating water tank 33, and raw water inlet 1 is communicated with the inlet of No. eight threeways 48 through raw water pump 3, the water inlet vacuum breaker 4 that has low hydraulic pressure protector 2 successively; An outlet of No. eight threeways 48 is communicated with an end of quartz sand filtration device suction culvert 6, and the other end of quartz sand filtration device suction culvert 6 is communicated with the inlet of a threeway 7, and quartz sand filtration device suction culvert 6 is provided with quartz sand filtration device entering water electromagnetic valve 5; An outlet of a threeway 7 is communicated with the water inlet of quartz sand filtration device 8, and another outlet of a threeway 7 is communicated with blowdown main road 56 through silica sand recoil blowdown SV 54, and another outlet of No. eight threeways 48 is communicated with the inlet of No. nine threeways 51 through recoil water main valve 49; An outlet of No. nine threeways 51 is communicated with the inlet of No. two threeways 9 through silica sand backwashing intake valve 52; An outlet of No. two threeways 9 is communicated with quartz sand filtration device water outlet, and another outlet of No. two threeways 9 is communicated with an end of activated charcoal filter suction culvert 10, and the other end of activated charcoal filter suction culvert 10 is communicated with the inlet of No. three threeways 11; An outlet of No. three threeways 11 is communicated with the water inlet of activated charcoal filter 12; Another outlet of No. three threeways 11 is communicated with blowdown main road 56 through gac recoil blowdown SV 55, and another outlet of No. nine threeways 51 is communicated with the inlet of No. four threeways 13 through gac backwashing intake valve 53, and an outlet of No. four threeways 13 is communicated with the water outlet of activated charcoal filter 12; Another outlet of No. four threeways 13 is communicated with the suction culvert 14 of Si-P crystal strainer 15; Between the water inlet of the water outlet of Si-P crystal strainer 15 and accurate filter 17, be connected with accurate filter entry pipeline 16, the water outlet of accurate filter 17 is communicated with the inlet of No. five threeways 20 through accurate filter outlet pipeline 18, and accurate filter outlet pipeline 18 is provided with tensimeter 19; An outlet of No. five threeways 20 is communicated with through the inlet of ultrafiltration suction culvert 22 with No. six threeways 23; The outlet that ultrafiltration suction culvert 22 is provided with 21, No. six threeways 23 of ultrafiltration entering water electromagnetic valve is communicated with the water inlet of ultra filtration filter 24, and another outlet of No. six threeways 23 is communicated with blowdown main road 56 through ultrafiltration recoil blowdown SV 57; Another outlet of No. five threeways 20 is communicated with through the inlet of ultrafiltration backflushing pipe 60 with No. seven threeways 26; The outlet that ultrafiltration backflushing pipe 60 is provided with 59, No. seven threeways 26 of ultrafiltration recoil SV is communicated with the outlet pipeline 25 of ultra filtration filter 24, and another outlet of No. seven threeways 26 is communicated with an end of ultrafiltration outlet pipeline 27; The other end of ultrafiltration outlet pipeline 27 is communicated with the outer tube inlet 28 of interchanger 29; The outer tube of interchanger 29 outlet 30 is communicated with heating water tank 33 through outer water inlet tube vacuum breaker 32, and the water outlet 38 of heating water tank 33 is communicated with first mouth of four-way 39, and second mouth of four-way 39 is communicated with through the inlet of temperature equilibrium valve 41 with No. nine threeways 42; The 3rd mouth of four-way 39 is communicated with the interior tube inlet 46 of interchanger 29 through the pipeline 45 of boiling water to the interior pipe of interchanger; The 4th mouth of four-way 39 is communicated with boiling water outlet 40, and the interior pipe outlet 47 of interchanger 29 is communicated with an outlet of No. nine threeways 42 through warm water pipeline 44, and another outlet of No. nine threeways 42 is communicated with warm water water inlet 43; Heating water tank 33 is provided with electric heating tube 34, on heating water tank 33, is respectively arranged with fluid level controller 35 and heating water tank tensimeter 36.
Described low hydraulic pressure protector 2, raw water pump 3, quartz sand filtration device entering water electromagnetic valve 6, silica sand recoil blowdown SV 54, recoil water main valve 49, silica sand backwashing intake valve 52, gac recoil blowdown SV 55, gac backwashing intake valve 53, ultrafiltration entering water electromagnetic valve 21, ultrafiltration recoil blowdown SV 57, ultrafiltration recoil SV 59, fluid level controller 35, temperature equilibrium valve 41 and electric heating tube 34 are electrically connected with PLC respectively.