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A platform for research: civil engineering, architecture and urbanism
Energy-saving water supply system and working method thereof
The invention discloses an energy-saving water supply system and a working method thereof and belongs to the technical field of energy-saving water supply. A treatment mechanism, a purification mechanism and a sterilization mechanism are sequentially arranged in the water treatment direction; a drainage sensor, a water supplementing sensor, a water injection pump and a water supplementing pump areconnected with a control system. Domestic sewage is discharged into a treatment pipe, solid garbage is filtered through a first filter screen, particle garbage is filtered through a second filter screen, semi-fluid garbage is filtered through a third filter screen, and adsorption and purification are conducted through an activated carbon layer, and then the sewage is fed into a purification box and mixed with a disinfectant. After the drainage sensor senses the water level, the water injection pump discharges the disinfected sewage into a sterilization box; the disinfected sewage is sterilized in the sterilization box; when the water supplementing sensor senses that no water is stored in the sterilization box, the water supplementing pump injects water into the sterilization box through the purification box. The system and the method reduce waste of fresh water, and meet the current requirements on energy conservation and environment protection.
一种节能供水系统及其工作方法,属于节能供水技术领域。处理机构、净化机构及灭菌机构按照水处理方向依次设置,排水感应器、补水感应器、注水水泵及补水水泵与控制系统连接。生活污水排入至处理管中,经第一过滤网将固态垃圾过滤,经第二过滤网将颗粒垃圾过滤,经第三过滤网将半流体垃圾过滤,经活性炭层吸附净化,至净化箱与消毒液混合;排水感应器感应水位后,注水水泵将消毒后污水排入灭菌箱内;消毒后污水在灭菌箱内灭菌,补水感应器感应灭菌箱内没有存水时,补水水泵通过净水箱向灭菌箱内注入水量。本发明节约了淡水浪费,符合现今节能环保的要求。
Energy-saving water supply system and working method thereof
The invention discloses an energy-saving water supply system and a working method thereof and belongs to the technical field of energy-saving water supply. A treatment mechanism, a purification mechanism and a sterilization mechanism are sequentially arranged in the water treatment direction; a drainage sensor, a water supplementing sensor, a water injection pump and a water supplementing pump areconnected with a control system. Domestic sewage is discharged into a treatment pipe, solid garbage is filtered through a first filter screen, particle garbage is filtered through a second filter screen, semi-fluid garbage is filtered through a third filter screen, and adsorption and purification are conducted through an activated carbon layer, and then the sewage is fed into a purification box and mixed with a disinfectant. After the drainage sensor senses the water level, the water injection pump discharges the disinfected sewage into a sterilization box; the disinfected sewage is sterilized in the sterilization box; when the water supplementing sensor senses that no water is stored in the sterilization box, the water supplementing pump injects water into the sterilization box through the purification box. The system and the method reduce waste of fresh water, and meet the current requirements on energy conservation and environment protection.
一种节能供水系统及其工作方法,属于节能供水技术领域。处理机构、净化机构及灭菌机构按照水处理方向依次设置,排水感应器、补水感应器、注水水泵及补水水泵与控制系统连接。生活污水排入至处理管中,经第一过滤网将固态垃圾过滤,经第二过滤网将颗粒垃圾过滤,经第三过滤网将半流体垃圾过滤,经活性炭层吸附净化,至净化箱与消毒液混合;排水感应器感应水位后,注水水泵将消毒后污水排入灭菌箱内;消毒后污水在灭菌箱内灭菌,补水感应器感应灭菌箱内没有存水时,补水水泵通过净水箱向灭菌箱内注入水量。本发明节约了淡水浪费,符合现今节能环保的要求。
Energy-saving water supply system and working method thereof
一种节能供水系统及其工作方法
BIAN XILONG (author) / YU WENBO (author) / XING HUIYI (author)
2020-11-17
Patent
Electronic Resource
Chinese
| European Patent Office | 2020
| European Patent Office | 2022