A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
No-damage automatic siphoning system and device
The invention discloses a no-damage automatic siphoning system and a device. The system comprises a siphoning interlocked valve group, a liquid level control and transmission mechanism, a siphoning pressure pipe, a bottom valve, an automatic vent valve, a high level water tank, an adjusting water pool, a water supply pipe and a water feeding pipe, a water inlet end of the siphoning pressure pipe is connected to a bottom part of the adjusting water pool lower than the lowest water level, and the bottom valve is arranged at a pipe orifice; and the highest part of the siphoning pressure pipe is provided with the automatic vent valve, a water outlet end of the siphoning pressure pipe is connected with the interlocked valve group, the liquid level control and transmission mechanism is arrangedin the adjusting water pool, the high level water tank is arranged above the siphoning interlocked valve group, and scale height at tank bottom of the high level water tank is higher than that of a pipe top of the siphoning pressure pipe. With the system and the device provided by the technical scheme above, repeated water diversion processes are omitted for the reason of absence of siphoning damage in follow-up cycles, water supply is almost not needed, power for opening and closing a valve also comes from rising and falling of the liquid level of the adjusting water pool, so, additional consumption of power is not needed, and the system and the device can be green products with outstanding energy-saving feature.
本发明公开了一种无破坏自动虹吸系统及设备,包括虹吸联锁阀组、液位控制及传动机构、虹吸压力管、底阀、自动排气阀、高位水箱、调节水池,补水管及进水管,所述虹吸压力管的进水口一端接往低于最低水位的调节水池底部,并在管口设底阀,虹吸压力管的最高处设自动排气阀,所述虹吸压力管的出水口一端连接联锁阀组,所述液位控制及传动机构设置在调节水池内,所述高位水箱设置在虹吸联锁阀组的上方,所述高位水箱的箱底标高高于虹吸压力管管顶标高;采用上述技术方案,后续周期因为无虹吸破坏而省略了重复引水过程,几乎无需补水,阀门启闭的动力也仅来自于调节水池液面的升降,也就无需额外消耗动力,是节能突出的绿色产品。
No-damage automatic siphoning system and device
The invention discloses a no-damage automatic siphoning system and a device. The system comprises a siphoning interlocked valve group, a liquid level control and transmission mechanism, a siphoning pressure pipe, a bottom valve, an automatic vent valve, a high level water tank, an adjusting water pool, a water supply pipe and a water feeding pipe, a water inlet end of the siphoning pressure pipe is connected to a bottom part of the adjusting water pool lower than the lowest water level, and the bottom valve is arranged at a pipe orifice; and the highest part of the siphoning pressure pipe is provided with the automatic vent valve, a water outlet end of the siphoning pressure pipe is connected with the interlocked valve group, the liquid level control and transmission mechanism is arrangedin the adjusting water pool, the high level water tank is arranged above the siphoning interlocked valve group, and scale height at tank bottom of the high level water tank is higher than that of a pipe top of the siphoning pressure pipe. With the system and the device provided by the technical scheme above, repeated water diversion processes are omitted for the reason of absence of siphoning damage in follow-up cycles, water supply is almost not needed, power for opening and closing a valve also comes from rising and falling of the liquid level of the adjusting water pool, so, additional consumption of power is not needed, and the system and the device can be green products with outstanding energy-saving feature.
本发明公开了一种无破坏自动虹吸系统及设备,包括虹吸联锁阀组、液位控制及传动机构、虹吸压力管、底阀、自动排气阀、高位水箱、调节水池,补水管及进水管,所述虹吸压力管的进水口一端接往低于最低水位的调节水池底部,并在管口设底阀,虹吸压力管的最高处设自动排气阀,所述虹吸压力管的出水口一端连接联锁阀组,所述液位控制及传动机构设置在调节水池内,所述高位水箱设置在虹吸联锁阀组的上方,所述高位水箱的箱底标高高于虹吸压力管管顶标高;采用上述技术方案,后续周期因为无虹吸破坏而省略了重复引水过程,几乎无需补水,阀门启闭的动力也仅来自于调节水池液面的升降,也就无需额外消耗动力,是节能突出的绿色产品。
No-damage automatic siphoning system and device
一种无破坏自动虹吸系统及设备
TU CHENGGUANG (author)
2020-08-07
Patent
Electronic Resource
Chinese
IPC:
E03B
Anlagen oder Verfahren zum Gewinnen, Sammeln oder Verteilen von Wasser
,
INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
/
F04F
PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED
,
Pumpen von Arbeitsfluiden durch unmittelbare Berührung mit einem anderen Arbeitsfluid oder durch Ausnutzung der Trägheit des zu pumpenden Arbeitsfluids