Multi-online divergent tubes
1. Introduction of divergent tubes.
A multi-split pipe, also known as a multi-split or multi-pass diverger, is a pipe connection device used to divert fluids or gases from one pipe to multiple different pipes. It usually has an input port from which the fluid or gas enters, and multiple outlets that direct the fluid or gas to different target locations.
2. Common characteristics and uses of divergent tubes.
Divert function: The main function of the multi-line divergent tube is to divert a fluid or gas from one source to multiple targets. This is useful for some industrial and process applications where raw fluids or gases need to be distributed to multiple workstations or equipment.
Design Variety: These divergent tubes can be available in different designs, including T-shaped, Y-shaped, and X-shaped, depending on the specific application needs. They can have multiple outputs, the number of which usually depends on the degree of shunt.
Materials: Multi-split tubes can be made of different types of materials, such as metal, plastic, stainless steel, etc., according to the nature of the fluid being transferred and the environmental conditions to choose the appropriate material.
Flow Control: Some multi-line divergent tubes have built-in valves, pistons, or other flow controls to allow the user to precisely control the flow of each output channel.
Applications: Multi-split tubes are widely used in the chemical, process engineering, laboratory, medical equipment and other industries to achieve the distribution and control of liquids or gases.
3. Selection criteria for divergent tubes.
Fluid properties: The first thing to consider is the nature of the fluid or gas being handled, including pressure, temperature, corrosiveness, and viscosity. Choose materials that are compatible with fluids to prevent corrosion or damage.
Divert Demand: Determine how many output channels the fluid needs to be shunted and the flow requirements for each channel. This will help in the selection of the appropriate number of outputs and possibly flow control devices.
Material selection: Depending on the nature of the fluid and environmental conditions, select the appropriate material, such as metal, plastic, or stainless steel. Ensure that the materials selected are sufficiently durable and chemically stable.
Fluid temperature: Consider the temperature range of the fluid and select a divergent tube that can withstand the desired temperature range. Insulation or heating measures may be required in high or low temperature environments.
Pressure Requirements: Determine the required pressure range to select the appropriate multi-line divergent tube. Different designs and materials can withstand different pressures.
Fluid control: If precise flow control is required, consider choosing a split tube with built-in flow control such as valves or pistons.
Fourth, the installation of divergent pipes.
Location selection: Choose the right location to install the multi-line split tube to ensure easy access and maintenance. Consider the installation height and support structure.
Piping preparation: Prepare the input and output pipes, ensuring they are clean, clog-free, and properly prepared to ensure that the fluid or gas can flow smoothly.
Multi-Split Tube Connection: Connects the multi-online divergence tube with the input and output pipes. Use appropriate pipe fittings, seals, and fixtures to ensure the connection is secure and air-tight.
Flow control: If the divergent tubes have built-in flow controls, make sure they are set up correctly and adjusted as needed.
Support Structure: Where required, provide a suitable support structure to support the divergent tube and reduce vibration and stress.
Insulation and Heating: If required by the application, provide insulation or heating measures for multi-line divergence pipes to prevent fluids from solidifying or freezing in the pipes.
Test and check: Before starting, test and check the system. Make sure there are no leaks, air leaks, or other issues to ensure that the system is functioning properly.