Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a waterpower gate structure capable of sensing the water level and automatically opening. A floater chamber is arranged in an underground storage pond, a water flowing hole is formed in the lower portion of the floater chamber, and the water flowing hole is communicated with the underground storage pond. A floater is arranged in the floater chamber. The two side edges and the bottom edge of a gate are matched with the two side surfaces and the bottom of a flood discharging channel in a sealing mode respectively. A buoyant box chamber water inlet is formed in the lower middle portion of the side wall of the side, facing the water flowing direction, of a buoyant box chamber, and a buoyant box chamber water outlet hole is formed in the bottom of the side wall of the side, opposite to the water flowing direction, of the buoyant box chamber. A plugging device for plugging the buoyant box chamber water inlet is arranged at the buoyant box chamber water inlet, and a linkage device is connected between the plugging device and the floater. The ascending and descending of the plugging device are controlled through the floating and descending of the floater; when the liquid level of the storage pond is high, water enters the buoyant box chamber, the gate is automatically opened to discharge flood under the action of a buoyant box, and the water level in the storage pond is reduced; when the water level in the storage pond is very low, the buoyant box chamber water inlet is plugged by the plugging device, the gate is closed, the water level is maintained in the storage pond, and water is continuously stored.
The invention discloses a waterpower gate structure capable of sensing the water level and automatically opening. A floater chamber is arranged in an underground storage pond, a water flowing hole is formed in the lower portion of the floater chamber, and the water flowing hole is communicated with the underground storage pond. A floater is arranged in the floater chamber. The two side edges and the bottom edge of a gate are matched with the two side surfaces and the bottom of a flood discharging channel in a sealing mode respectively. A buoyant box chamber water inlet is formed in the lower middle portion of the side wall of the side, facing the water flowing direction, of a buoyant box chamber, and a buoyant box chamber water outlet hole is formed in the bottom of the side wall of the side, opposite to the water flowing direction, of the buoyant box chamber. A plugging device for plugging the buoyant box chamber water inlet is arranged at the buoyant box chamber water inlet, and a linkage device is connected between the plugging device and the floater. The ascending and descending of the plugging device are controlled through the floating and descending of the floater; when the liquid level of the storage pond is high, water enters the buoyant box chamber, the gate is automatically opened to discharge flood under the action of a buoyant box, and the water level in the storage pond is reduced; when the water level in the storage pond is very low, the buoyant box chamber water inlet is plugged by the plugging device, the gate is closed, the water level is maintained in the storage pond, and water is continuously stored.
| Europäisches Patentamt | 2015
Rotary gate automatically controlled by waterpower and provided with horizontal shaft
| Europäisches Patentamt | 2015
Waterpower XV Conference Information
British Library Online Contents | 2007