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Divisor de flujo hidráulico/combinador

Divisor de flujo hidráulico/combinador

Un divisor/combinador de flujo hidráulico es una válvula especializada que se utiliza en sistemas hidráulicos para dividir o combinar el flujo de fluido hidráulico. Está diseñado como una válvula tipo cartucho compacto que se puede instalar fácilmente dentro de un colector hidráulico o bloque de válvula. La función divisoria de flujo permite que el fluido hidráulico se divida en múltiples salidas, distribuyendo el flujo de manera uniforme entre las ramas. Esto es útil en aplicaciones donde la energía hidráulica debe suministrarse a múltiples actuadores o componentes simultáneamente.

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Divisor de flujo hidráulico/combinador para la venta

Divisor de flujo IFD50-45/Combinador
Divisor de flujo IFD50-45/Combinador
Este es un componente hidráulico versátil que permite una división precisa o una combinación de flujo de fluido en sistemas hidráulicos, lo que permite un control y distribución eficientes de la energía hidráulica.
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Divisor de flujo IFD52-45/Combinador
Divisor de flujo IFD52-45/Combinador
Es un componente hidráulico diseñado para proporcionar un control preciso sobre el flujo de fluidos en una variedad de aplicaciones.
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Divisor de flujo IFD56-45/Combinador
Divisor de flujo IFD56-45/Combinador
El componente proporciona un control preciso sobre el flujo de fluidos, lo que permite una división eficiente o una combinación de energía hidráulica en varias aplicaciones.
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Válvula de retención IFC10-20 restrictor
Válvula de retención IFC10-20 restrictor
Una Válvula de control de flujo hidráulica enroscada, estilo cartucho, orificio variable con control de flujo inverso.
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Válvula de retención IEC10-42 restrictor
Válvula de retención IEC10-42 restrictor
La válvula combina la funcionalidad de una válvula de retención y un restrictor, ofreciendo un control preciso del flujo y evitando el reflujo en los sistemas hidráulicos.
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¿Qué es un combinador divisor de flujo?

¿Qué es un combinador divisor de flujo?

Un combinador divisor de flujo, a menudo utilizado junto con unVálvula de control de flujo de cartucho, Es un dispositivo hidráulico que realiza la doble función de dividir o combinar el flujo de fluido hidráulico. Está diseñado para dividir un flujo entrante en múltiples flujos iguales o proporcionales o combinar múltiples flujos en una sola salida. El dispositivo consta de un puerto de entrada donde entra el fluido hidráulico y múltiples puertos de salida donde se dirigen los flujos divididos o combinados. Dentro del combinador divisor de flujo, se utilizan varios mecanismos como carretes, engranajes o pistones para regular la distribución o combinación de flujo. En el modo de divisor de flujo, el dispositivo divide uniformemente el flujo entrante en dos o más flujos de salida, asegurando que cada flujo reciba una proporción igual o predeterminada del flujo total. Esto es valioso en aplicaciones que requieren una distribución de flujo precisa, como la sincronización de cilindros hidráulicos paralelos. En el modo de combinador de flujo, el dispositivo fusiona múltiples flujos entrantes de diferentes fuentes en un solo flujo de salida, beneficioso para coordinar múltiples actuadores hidráulicos simultáneamente, como en operaciones de elevación o prensado. Con sus capacidades, el combinador divisor de flujo permite un control eficiente y el funcionamiento de sistemas hidráulicos con múltiples actuadores o ramas.

How Does Hydraulic Flow Splitter Work?


A hydraulic flow splitter, also known as a hydraulic flow divider, is a device used in hydraulic systems to divide a single input flow of hydraulic fluid into multiple output flows, while maintaining a consistent ratio between the outputs. This device is essential in various hydraulic applications where precise control of multiple hydraulic actuators or functions is required. Let's take a look how hydraulic flow dividers work.


Input Flow: The hydraulic flow splitter is connected to a single source of hydraulic fluid, usually a pump or another hydraulic power source. This input flow carries pressurized hydraulic fluid that needs to be distributed to multiple hydraulic circuits or components.


Internal Mechanism: Inside the hydraulic flow splitter, there are typically precision-engineered components such as gears, spools, or rotary valves. The specific design may vary depending on the types of hydraulic cartridge valves being used.


Flow Division: As the hydraulic fluid enters the flow splitter, the internal mechanism divides the flow into multiple separate paths, leading to the output ports. The key feature of a hydraulic flow splitter is that it distributes the flow in a consistent ratio among the output ports. For example, if you have a 50/50 hydraulic flow splitter, it will ensure that each output port receives half of the input flow.


Proportional Control: Hydraulic flow splitters often allow for adjustment of the flow distribution ratio. This can be achieved by changing the position of the internal mechanism or by using flow control valves in each output line. This feature provides flexibility in controlling the speed or force of hydraulic actuators connected to the output ports.


Pressure Compensation: Many hydraulic flow splitters incorporate pressure compensation mechanisms to ensure that each output port receives the same pressure, even if the load on the hydraulic system varies. This helps maintain consistent performance of hydraulic components connected to the splitter.


Applications: Hydraulic flow splitters are used in a wide range of applications, including agriculture (to control multiple hydraulic cylinders on farming equipment), construction machinery (to synchronize the movement of multiple hydraulic actuators), and industrial automation (to control multiple functions in manufacturing processes).


2 Way, 3 Way, 4 Way Flow Divider


2-Way Flow Divider:


Number of Output Ports: A 2-way flow divider has two output ports.

Flow Distribution: In a 2-way flow divider, the input flow is divided into two equal output flows. Each output port receives half of the input flow. This is often referred to as a 50/50 flow distribution.

Common applications for 2-way flow dividers include scenarios where you need to control two hydraulic cylinders or actuators with equal force or speed, such as in some agricultural equipment or industrial machinery.


3-Way Flow Divider:


Number of Output Ports: A 3-way flow divider has three output ports.

Flow Distribution: In a 3-way flow divider, the input flow is divided into three output flows. The flow distribution is typically equal, with each output port receiving one-third of the input flow, resulting in a 33/33/33 distribution.

3-way flow dividers are commonly used in applications where you need to control three hydraulic cylinders or actuators with equal flow, such as in some material handling equipment or hydraulic presses.


4-Way Flow Divider:


Number of Output Ports: A 4-way flow divider has four output ports.

Flow Distribution: In a 4-way flow divider, the input flow is divided into four equal output flows. Each output port receives one-fourth of the input flow, resulting in a 25/25/25/25 distribution. Components for these precise flow dividers are often sourced from a specialized hydraulic valve factory, ensuring high-quality and consistent performance.

4-way flow dividers are used when you need to control four hydraulic cylinders or actuators with equal flow, often seen in applications like certain types of construction machinery, where synchronization of multiple functions is required.


Hydraulic Flow Divider Gear Type VS Cartridge-type


Gear-Type Hydraulic Flow Divider:


Design: Gear-type hydraulic flow dividers use precision-engineered gears to divide the input flow into multiple output flows. The gear sizes and arrangement determine the flow distribution ratio.


Flow Distribution: Gear-type dividers typically provide fixed flow distribution ratios that are set during manufacturing. These ratios can be adjusted by changing the gear sizes or positions, but this often requires disassembling the unit.


Flexibility: They offer limited flexibility in changing the flow distribution ratio on the fly and may require manual adjustments.


Applications: Gear-type flow dividers are commonly used in applications where a consistent and fixed flow ratio is sufficient, such as in some industrial machinery and construction equipment.


Maintenance: Maintenance of gear-type flow dividers involves regular inspection, lubrication, and possible replacement of gears or components if wear occurs.


Cartridge-Type Hydraulic Flow Divider:


Design: Cartridge-type hydraulic flow dividers use modular cartridges that can be easily inserted or removed from a manifold block. Each cartridge typically contains flow control elements, such as spools or orifices.


Flow Distribution: Cartridge-type dividers offer greater flexibility in adjusting the flow distribution ratio because cartridges with different flow control elements can be swapped in and out of the manifold block.


Flexibility: They allow for on-the-fly adjustments of flow distribution ratios without the need for disassembly. This makes them suitable for applications where dynamic control is required.


Applications: Cartridge-type flow dividers are often used in applications where the flow distribution needs to be adaptable, such as in mobile hydraulic systems, forestry equipment, and agricultural machinery.


Maintenance: Maintenance of cartridge-type flow dividers mainly involves inspecting and replacing cartridges as needed. This can be done without disassembling the entire unit.


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Contacto
0086-553-8812880 salesinno@innohydra.com
No. 03, 03rd Kechuang Road, Xinwu Economic Development Zone, Wanzhi District, Wuhu City, Anhui Province, China
Síguenos