Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Water resource allocation device
The invention discloses a water resource allocation device which comprises a water receiving tank, a middle water tank and a diverter valve structure. A water outlet of the water receiving tank is connected with a water supply pipe; a water wheel is further arranged in the middle water tank, and transmission rods are connected to the two ends of the water wheel; the diverter valve structure comprises a valve sleeve arranged on one side of the middle water tank, three connecting holes are formed in the side wall of the valve sleeve, one connecting hole is communicated with a water outlet of the middle water tank, the second connecting hole is communicated with a sewage channel, the third connecting hole is connected with a filter tank, a valve element is further arranged in the valve sleeve, and the valve element is a hollow cylinder with a water feeding opening in the side wall. A connecting rod capable of penetrating out of the valve sleeve is arranged on the upper end face of the valve element, a first transmission assembly is arranged between the transmission rod and the connecting rod, and therefore when the transmission rod drives the valve element to rotate, the water feeding opening can be communicated with the sewage channel or the filter tank. In conclusion, the blending device can automatically complete operation when it rains, so that rainwater with poor water quality is prevented from entering the filter tank.
本发明公开了一种水资源调配装置,包括:接水槽、中间水箱以及分流阀结构;接水槽的出水口连接有送水管;送水管的出水端深入中间水箱内,中间水箱内还设置有水轮,水轮的两端均连接有传动杆;分流阀结构包括设置在中间水箱一侧的阀套,阀套的侧壁上设置有三个接孔,其中一个接孔与中间水箱的出水口连通,第二个接孔污水通道连通,第三个接孔连接有滤池,阀套内还设置有阀芯,阀芯为侧壁上设置有送水口的空心圆柱,阀芯的上端面设置有能穿出阀套的连杆,传动杆和连杆之间设置有第一传动组件,因此随着传动杆带动阀芯转动时送水口能分别与污水通道或滤池保持连通;综上本发明的调配装置能在下雨时自动完成操作从而避免水质较差的雨水进入滤池。
Water resource allocation device
The invention discloses a water resource allocation device which comprises a water receiving tank, a middle water tank and a diverter valve structure. A water outlet of the water receiving tank is connected with a water supply pipe; a water wheel is further arranged in the middle water tank, and transmission rods are connected to the two ends of the water wheel; the diverter valve structure comprises a valve sleeve arranged on one side of the middle water tank, three connecting holes are formed in the side wall of the valve sleeve, one connecting hole is communicated with a water outlet of the middle water tank, the second connecting hole is communicated with a sewage channel, the third connecting hole is connected with a filter tank, a valve element is further arranged in the valve sleeve, and the valve element is a hollow cylinder with a water feeding opening in the side wall. A connecting rod capable of penetrating out of the valve sleeve is arranged on the upper end face of the valve element, a first transmission assembly is arranged between the transmission rod and the connecting rod, and therefore when the transmission rod drives the valve element to rotate, the water feeding opening can be communicated with the sewage channel or the filter tank. In conclusion, the blending device can automatically complete operation when it rains, so that rainwater with poor water quality is prevented from entering the filter tank.
本发明公开了一种水资源调配装置,包括:接水槽、中间水箱以及分流阀结构;接水槽的出水口连接有送水管;送水管的出水端深入中间水箱内,中间水箱内还设置有水轮,水轮的两端均连接有传动杆;分流阀结构包括设置在中间水箱一侧的阀套,阀套的侧壁上设置有三个接孔,其中一个接孔与中间水箱的出水口连通,第二个接孔污水通道连通,第三个接孔连接有滤池,阀套内还设置有阀芯,阀芯为侧壁上设置有送水口的空心圆柱,阀芯的上端面设置有能穿出阀套的连杆,传动杆和连杆之间设置有第一传动组件,因此随着传动杆带动阀芯转动时送水口能分别与污水通道或滤池保持连通;综上本发明的调配装置能在下雨时自动完成操作从而避免水质较差的雨水进入滤池。
Water resource allocation device
一种水资源调配装置
WANG FEI (Autor:in) / ZANG DONGWEI (Autor:in) / FEI LINGLING (Autor:in) / WANG XUMING (Autor:in) / CHEN XIAOXIN (Autor:in)
02.01.2024
Patent
Elektronische Ressource
Chinesisch
Water resource allocation device of water transfer system
| Europäisches Patentamt | 2023
Water resource autonomous allocation device for water conservancy project
| Europäisches Patentamt | 2022
| Europäisches Patentamt | 2024
Optimality versus stability in water resource allocation
| Online Contents | 2014