Shuttle valves are valves that utilize gates to control the fluid’s flow. Their gates are flat plates that move down and up in the pipelines. When the gates of these valves open, they allow the liquid to flow freely through them. When the gate of the gate valves gets closed, the fluid gets blocked.
Plumbing professionals use gate valves in different applications, encompassing sewerage plants, industrial plants, and water distribution systems. Shuttle valves are also known as gate valves. This blog section discusses some benefits of shuttle valves, encouraging you to buy them from one of their well-reputed suppliers.
Manufacturers have designed shuttle valves to be closed smoothly without slamming themselves to close. This averts damage to the pipelines and the valves. This is because manufacturers use resilient materials like plastic or rubber to make those gates that ensure the absorption of the shock of closure. Here are some reasons which explain why shuttle valves shut or close smoothly.
Slow Closing Speed
The gate of the shuttle valves gets closed slowly, which plays a crucial role in ensuring that it does not slam shut. This is attained after the handwheel or motor slowly turns.
Manufacturers use a smooth substance like stainless steel to make the stem that does not develop friction with its movement through the body of the gate valve. This helps ensure the smooth closure of their gates.
Lubricated Moving Components
Plumbing professionals lubricate the gate valve’s moving components, like the gate and stem, with oil or grease. This plays a crucial role in decreasing friction and ensuring the smooth closure of the valve.
The movement of the shuttle valves takes place in a linear option, which helps make them simple to upkeep and operate. This is because their makers have developed them to do so. The gate of the shuttle valves is connected to a stem that the motor or handwheel turns.
After the turning of the stem, the gate movement takes place down and up in the body of the shuttle valve. This permits the gate to close or open the fluid’s flow through the valve. Here are some reasons that explain why the movement of the shuttle vales takes place in a linear motion.
The linear motion design of shuttle valves is easy to understand. This helps make it a cost-efficient and reliable method to control the fluid’s flow.
The linear motion design lasts a long time as it can tolerate a lot of tear and wear. This makes plumbing professionals use it when the gate valve is often utilized.
Simple to Operate
The linear motion design is simple to operate. This helps make it an excellent choice for do-it-yourself projects.
Overall, the movement of shuttle valves takes place in a linear motion as it features a durable and simple design that allows plumbing professionals to utilize them in a broad range of applications.
Simple to Install
Shuttle valves are easy to install because they feature a simple design. Manufacturers use metals to make their bodies. Plumbing professionals need to cut a hole in the pipeline, insert the valve, and then tighten the bolts to install the shuttle valves. Here are some reasons which explain why shuttle valves are simple to install.
Shuttle valves feature a simple design that allows their installation professionals to install them simply.
Manufacturers have made shuttle valves available in standard sizes, which allows plumbing professionals to find the proper valve for their application needs.
A Broad Range of Materials
Manufacturers make shuttle valves available in a broad range of materials, which helps make them compatible with different fluids and pipelines.
Simple to Access
The stem and gate are usually simple to access, which makes shuttle valves simple to upkeep and service the valve.
Steps to follow for the installation of shuttle valves
Cutting the Hole
The first measure is to cut a hole inside the pipeline with the same magnitude as the body of the gate valve. The hole must be centered on the pipeline and should be huge enough to permit the valve to fit tightly.
Insert the Valve
After cutting the hole, the installation professional should insert the valve in the pipeline. Then, the installation professional should follow this by aligning the valve to ensure that the gate is perpendicular to the fluid’s flow.
Tighten the Bolts
Then, the installation professional should tighten the bolts to secure the gate valve in place. They should remember to tighten the bolts to prevent the valve from leaking.
Applications of Shuttle Valves
Water Distribution Systems
Plumbing professionals can use shuttle valves to isolate the water distribution systems’ sections for repair or maintenance. For instance, if they are interested in replacing a pipeline then they can use a shuttle valve to isolate a pipe’s section that must be worked on. This ensures that the water does not flow through the pipeline and causes damage.
Sewage Treatment Plants
Plumbing professionals can use shuttle valves to isolate the sewage treatment plant’s sections for repair or upkeeping. For instance, if a plumbing professional needs to replace a pump they can use a shuttle valve to isolate the plant’s section that must be worked on. This ensures that sewage does not flow through its treatment facility and causes damage.
Industrial plumbing professionals use shuttle valves to isolate the industrial plant’s section for repair or maintenance and to regulate the flow of liquids into and out of vessels and tanks. For instance, if they are interested in replacing a tank they can employ a shuttle valve to isolate the tank to ensure the safe drainage of the fluid.
Plumbing professionals can use shuttle valves to isolate petroleum pipelines’ sections for repair or maintenance and to regulate the flow of gas and oil out and into petroleum storage tanks. For example, if they detect a leakage they can employ a shuttle valve to isolate the pipeline’s section that is leaking. This ensures that the leakage does not spread and cause damage.
Medical professionals can use shuttle valves to regulate the flow of liquids from and to their patients. For instance, they can employ the shuttle valves to regulate the blood’s flow to a man-made heart. This will let them ensure that the heart receives the right amount of blood.