What is a hydraulic flow divider?

As a specialist in the field of fluid dynamics and hydraulic systems, I can provide you with a comprehensive understanding of what a hydraulic flow divider is.

A hydraulic flow divider, also known as a flow splitting device, is a component used in hydraulic systems to distribute a single flow of fluid into multiple streams with precise control over the flow rate in each stream. The primary purpose of a hydraulic flow divider is to ensure that the flow is divided in a manner that is independent of the pressure in the system, allowing for a consistent and reliable distribution of fluid to various components of the hydraulic system.

The design of a hydraulic flow divider can vary, but it typically consists of a central body with multiple ports connected to a series of flow paths. These flow paths are engineered to provide an equal or predetermined ratio of flow to each output port. The flow divider can be designed to split the flow into two, three, or more streams, depending on the requirements of the system.

One of the key advantages of a hydraulic flow divider is its ability to maintain a constant flow rate to each output port, regardless of changes in the system pressure. This is achieved through the use of a control mechanism that adjusts the flow paths to compensate for any pressure fluctuations. This feature is particularly important in applications where precise flow control is critical, such as in aerospace, automotive, and industrial machinery.

The spool-type flow divider mentioned in the reference material is a specific type of flow divider that utilizes a spool valve to control the flow distribution. The spool valve is a cylindrical component with ports and lands that can be adjusted to change the flow paths. When the spool is positioned in one direction, it divides the incoming flow into two equal parts. Conversely, when flow passes through the valve in the opposite direction, the two part-flows are combined back into one total flow.

The operation of a spool-type flow divider can be further explained with the following steps:


1. Flow Entry: Fluid enters the flow divider through an inlet port.

2. Spool Positioning: The position of the spool within the valve body determines the flow paths and thus the division of the flow.

3. Flow Division: Depending on the spool's position, the flow is split into two or more streams with equal or pre-set ratios.

4. Pressure Compensation: The flow divider includes mechanisms to adjust the flow paths in response to pressure changes, ensuring a constant flow rate at each output.

5. Flow Recombination: In some designs, the flow divider can also recombine the split flows back into a single stream when the spool is moved to the opposite position.

In summary, a hydraulic flow divider is a crucial component in hydraulic systems that ensures the precise and reliable distribution of fluid flow to various system components. It is particularly useful in applications where maintaining a constant flow rate is essential for the performance and safety of the machinery.

MTDA. This spool-type flow divider provides pressure-independent division of a flow of oil into two equal parts. When flow passes through a valve in the opposite direction, the two part-flows are combined into one total flow.