Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate
The invention relates to a connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate. The gate comprises gate piers and a gate chamber. The gate further comprises double-deck bi-parting gate bodies, spatial tilting shafts and a vibration damping and traction device. Two sections of the upper spatial tilting shaft and the lower spatial tilting shaft are symmetrically arranged on the gate piers arranged on two sides. The vibration damping and traction device is arranged between the downstream face of the gate bodies and the gate piers. The vibration damping and traction device comprises connecting rods, sliding blocks, sliding rails and traction springs, wherein one end of each connecting rod is fixed in the middle, close to the inner side edge, of the corresponding gate body, and the other end of each connecting rod is connecting with the corresponding sliding block through a universal hinge. The sliding rails are arranged on the downstream sides of the gate piers. The sliding blocks are movably installed in the sliding rails. One end of each traction spring is fixed to the corresponding gate pier through a spring base, and the other end of each traction spring is connected with the corresponding sliding block. According to the connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate, the opening angle of the gate can be better reduced timely along with the falling of the water level, and the aims of automatic water storage and water drainage are better achieved.
Connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate
The invention relates to a connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate. The gate comprises gate piers and a gate chamber. The gate further comprises double-deck bi-parting gate bodies, spatial tilting shafts and a vibration damping and traction device. Two sections of the upper spatial tilting shaft and the lower spatial tilting shaft are symmetrically arranged on the gate piers arranged on two sides. The vibration damping and traction device is arranged between the downstream face of the gate bodies and the gate piers. The vibration damping and traction device comprises connecting rods, sliding blocks, sliding rails and traction springs, wherein one end of each connecting rod is fixed in the middle, close to the inner side edge, of the corresponding gate body, and the other end of each connecting rod is connecting with the corresponding sliding block through a universal hinge. The sliding rails are arranged on the downstream sides of the gate piers. The sliding blocks are movably installed in the sliding rails. One end of each traction spring is fixed to the corresponding gate pier through a spring base, and the other end of each traction spring is connected with the corresponding sliding block. According to the connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate, the opening angle of the gate can be better reduced timely along with the falling of the water level, and the aims of automatic water storage and water drainage are better achieved.
Connecting rod spring trail-type double-deck bi-parting spatial tilting shaft waterpower self-control gate
WANG CHUNTANG (Autor:in) / WANG SHIYAN (Autor:in)
23.12.2015
Patent
Elektronische Ressource
Englisch
IPC:
E02B
HYDRAULIC ENGINEERING
,
Wasserbau
Magnetometric split spatial tilting shaft waterpower self-control gate
| Europäisches Patentamt | 2015
Rotary gate automatically controlled by waterpower and provided with horizontal shaft
| Europäisches Patentamt | 2015
| Europäisches Patentamt | 2015