Altitude valve manufacturer and supplier 2024: Altitude valves play a crucial role in maintaining water levels and preventing overflows in various applications. These valves are designed to automatically control the filling and draining of tanks or reservoirs based on preset altitude settings. By understanding the main components and working principle of altitude valves, you can ensure their proper operation and optimize their usage. In this article, we explored the key aspects of altitude valves, including their components, functionality, types, applications, setting procedures, and maintenance requirements. Whether it’s for water distribution systems, irrigation networks, or industrial processes requiring precise level control, altitude valves offer an effective solution to avoid potential issues caused by fluctuating water levels. Discover additional details on altitude valve.
Float control valve is a modulating valve that accurately controls the liquid level in tanks. This valve is designed to open fully when the liquid level reaches a preset low point, and close drip-tight when the level reaches a preset high point. The float pilot is remotely installed Inside of reservoir, or Integrally installed with main valve for size less than 4 Inch. Our hydraulic float valve can stop overflow or overfilling while the valve connector connects the valve to the incoming liquid. When the float rises to a selected level, the float level control valve is then opened or closed by the lever attached to the float.
FBGD is a double eccentric flange butterfly valve, with soft seal on the body, it has the lowest operational torque, much less wearing, the dovetail seal design has been proven over half century service with reliability. Features: The butterfly valve is made of DI body and DI disc; Advanced newly design with dovetail seal design and captured by epoxy on the back, with multiple raised ring to have more contact with disc but less friction during closure; The double eccentric design provides less contact area of seal with disc, and less stress at the open position of the disc; The disc design with arch shape and thru disc can provide better flow capacity, stronger and less weight . The shaft and disc connection with tangential pin which can be exchangeable and provide rigid connection. The DN 100-500MM use flat disc, and DN 600-1200MM use arch shape disc; Epoxy coated interior and exterior. Valve design meets or exceeds EN 593; Top flange connection meets ISO 5211-1982, and F/F meets EN 558-1 series 13 & 14.
NSCV- Non Slam Check Valve is used as protection against reverse flow when power failure in areas where noise pollution or water hammering is a critical issue. It can provide not only quiet performance but also low head loss. Features: High strength ductile iron body used for durability and less weight; Advanced dynamic design of single body with diffuser provides streamline flow and assures lower head loss; One of the lowest head loss check valve, big save in pumping power cost, valve disc with shorter stroker and spring reverse faster than most of check valve; Coated with powder epoxy both inside & outside for corrosion resistance; Bronze bushing reduce wearing problem during operation; Hydrodynamic design with spring ensures non slamming and water hammerless; Stainless steel spring hidden in the diffuser under protection while valve in operation; Disc will positively close before reverse flow, and maximize the closing speed up to 0.2 Sec; Installation can be vertical/horizontal/ inclined. For size DN800 and up preferred vertical installation. ·Comply with EN 558-1, ISO 5752 and EN 1092-2, ISO 7005-2 flange dimension. Read additional info on shsuotevalve.com.
What are the Main Components of an Altitude Valve? Altitude valves are essential devices that help regulate the water level in storage tanks, ensuring a consistent and reliable water supply. To understand how altitude valves work, it’s important to familiarize yourself with their main components. The main components of an altitude valve include: Valve Body: This is the outer casing of the valve, which houses all the internal components and provides structural support. Float Assembly: The float assembly consists of a buoyant float connected to a rod or lever mechanism. As water levels rise or fall, the float moves accordingly, activating or deactivating the valve. Control Mechanism: The control mechanism is responsible for opening and closing the valve based on the position of the float assembly. It ensures that only enough water enters or leaves the tank to maintain a specific desired level. Pressure Differential Sensor: Some altitude valves also feature pressure differential sensors that detect changes in pressure between incoming and outgoing pipes. This helps optimize valve performance and prevent excessive flow rates.
Surge anticipating valve is indispensable for protecting pumps, pumping equipment and all applicable pipelines from dangerous pressure surges caused by rapid changes of flow velocity within a pipeline. When a power failure take place, the abrupt stopping the pump can cause dangerous surges in the system which could result in severe equipment damage. Power failure to a pump will usually result in a down surge in pressure, followed by an up surge in pressure. The surge anticipating control valve opens on the initial low pressure wave, diverting the returning high pressure wave from the system. In effect, the valve has anticipated the returning high pressure wave and is open to dissipate the damage causing surge. The surge anticipator valve will then close slowly without generating any shock. Looking for quality surge anticipating control valve, visit here today!