SU600238A1 - Arrangement for regulating water level in reach of hydraulic engineering structure - Google Patents

Description

3 on which a counterweight 20 is installed. The internal cavity 2 of the diaphragm actuator 18 is connected by a pipe 22 to a pneumatic distributor 23 of a float sensor 24 installed) 5 upstream of the hydraulic structure 25. The compressed air is supplied from the source through pipelines 26 and 27. The device operates as follows. When the water level in the upstream 25 has not reached the float sensor 24, the lower chamber of the pneumatic distributor 3 is through pipe 22, the middle and upper chambers of the distributor 23 are atmospheric, and the upper chamber is through pipeline 17, the upper and middle chambers of the intermediate pneumatic distributor 16 and pipeline 27 connected by a compressed air source. When the water level in the downstream 15 decreases, the float sensor 14 acts on the pneumatic distributor 13, which through the upper and middle chambers, the pipe 12 and the nozzle 10 connects the internal cavity of the float 7 e with a source of compressed air. Compressed air displaces the liquid from the float 7 through the opening 9 into the float chamber 8. The float 7, acting through the rod 6 and the rod 5, raises the cylindrical plug 4. The flow of water through the outlet 1 increases, the water level in the downstream 15 rises. Zan in the set point, the float sensor 14 stops the supply of compressed air to the float 7. Prn increasing the water level in the lower buoy (1) e 15 float sensor 14, affecting the distributor 13, connects the intrinsic cavity of the float 7 through the pipe 10, pipelines 12 and 22, the middle and upper chambers of the pneumatic distributor 23 with the atmosphere, the air from the float 7 is released into the atmosphere. The fluid through the holes 9 nostunat into the internal cavity of the float 7. The lifting force of the float 7 decreases and it lowers to cover the bottom valve 4. The flow of water into the lower reach 15 decreases. if the maximum water level in the upstream 25 is reached, the float sensor 24, acting on the distributor 23, opens the access of compressed air through the pipe 22 to the internal cavity 21 of the diaphragm actuator 18. Membrane 19, acts on the intermediate flow distributor 16, allows access of the compressed air through the pipelines 27 and 1 into the internal cavity of the float 7, thereby opening the cylindrical valve 4. When the water level in the topcoat 25 decreases, the float sensor 24 by means of the hydraulic distributor 23 and the pipe The gangway 22 connects the inner pitch 21 of the diaphragm actuator 18 and the lower chamber of the pneumatic distributor 13 e atmosphere. The diaphragm 19 is lowered under the action of the counterweight 20, the upper chamber of the air distributor 13 is connected through pipelines 27 and 17 with a source of compressed air. arranges 5a. FORUMA AND 3 ABOUT AND 1. USTA | 1-15V for adjusting the level: li byconnecting armature, including the cylinder valve and evacuated by it, but.number But the camera, which is so that, in order to increase reliability by preventing silting of the floating chamber, it is pneumatically distributed by a drive and water level sensor, connected to a non-melted cavity and connected to a compressed air source air, and the float chamber of the isoliropona from the pool of hydraulic equipment. 2. A device of claim I, characterized in that the drive of the distributor is polypropylene in the form of a membrane with a counterweight. Sources of information taken into account in the case of an examination 1. The author's certificate of the USSR LL 403336, cl. E 02B 13/02, 1971. 2. Bobokhidze Sh. S. Hydraulic automation of water distribution on irrigation systems. M., Kolos Publishing House, 1973, e. 220.

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