High Pressure Solenoid Sectional Diverter Control Electric Spool Valve SVV06

High Pressure Solenoid Sectional Diverter Control Electric Spool Valve SVV06

 

 

Functionality: The SVV06 is a 6-way valve with an alternating spool, which allows for sectional configurations to achieve 8-way or 10-way circuits. This versatility enables the valve to control multiple hydraulic functions with a single directional control valve.

Mounting Options: The valve can be flange-mounted, which provides a secure and stable connection in a hydraulic system.

Coil Voltage: The SVV06 is available with coils that support various feeding voltages, including 12V DC or 24V DC, making it adaptable to different power supply systems.

Applications: This valve is used in a variety of applications, including agriculture machines, construction machines, forestry machines, and drilling machines, where precise control of hydraulic flow is essential.

 

 

Maximum Flow Rate: 50 LPM

Maximum Operating Pressure: 315 bar with load, 210 bar without load

Oil Temperature Range: -20°C to +70°C

Viscosity: 15-380 mm2/s, compliant with NAS 1638 standards

Ambient Temperature Range: Up to 50°C

Coil Temperature: Up to 180°C

Filtration: NAS1638, 9

Duty Cycle: 100%

Connections: The valve offers various thread sizes for connections, including G3/8, M18x1.5, and SAE8, with corresponding lengths (L) of G1/4, M14x1.5, and SAE4, respectively.

 

 

1.The 6-way alternating spool adopts a sectional structure, which can be expanded into 8-way or 10-way oil circuits, adapting to various hydraulic system layouts. It is compatible with both medium and small flow circuits matched with the electric piston pump and high-pressure large flow scenarios adapted to the vt6ed pump.

2.The valve block integrated with cross return anti-shock valves can be flange-mounted, which can effectively buffer system pressure fluctuations, protect core components such as the veljan vt6ed pump, and is also suitable for precision control circuits driven by the electric piston pump.

3.Coil options with multiple supply voltages are available, which not only meet the electric control needs of the electric piston pump but also adapt to the auxiliary electronic control system of the vt6ed pump, enhancing the versatility of the equipment.

4.When it is necessary to alternately control two actuators through a basic directional control valve, it can serve as a connecting component between the actuators and the basic directional control valve. It is especially suitable for dual-actuator systems driven by the veljan vt6ed pump and can also cooperate with the electric piston pump to achieve precise alternating action control.

5.The diverter valve is used to add extra functions when the directional control valve needs to realize sequential operations such as safety operations and selected hydraulic cylinder control. It can optimize the flow distribution efficiency of the vt6ed pump and improve the action coordination of the electric piston pump-driven system.

6.The stackable circuit selector valve supports single-drive control of 6 user terminals, realized through the series connection of 5 diverter valves. It is not only adapted to the large flow output characteristics of the veljan vt6ed pump but also can form an efficient cooperation with the stable pressure output of the electric piston pump.

7. Please note that the drain line must always be connected to the oil tank. This is the basis for ensuring the long-term stable operation of the veljan vt6ed pump and the electric piston pump, and can avoid pump damage caused by poor oil return.

 

 

In general, cross-return anti-shock valves from different brands are not interchangeable, but there may be conditional interchangeability in some cases. The specific analysis is as follows:

Mounting dimensions and interface standards: Although some hydraulic valves have ISO international standards for mounting surface dimensions and port positions, cross-return anti-shock valves from different brands may differ in specific structural designs, mounting hole layouts, and port connection methods. For example, valves of some brands may adopt special flange interfaces or threaded interfaces that are incompatible with those of other brands, making installation impossible.

Pressure and flow parameters: The rated pressure, flow range, and other performance parameters of anti-shock valves from different brands may vary. If the working pressure and flow of a system exceed the rated range of an anti-shock valve from a certain brand, forced interchangeability may cause the valve to fail to work normally, fail to effectively buffer pressure shocks, and even lead to valve damage or system failure.

Internal structure and working principle: Even if they have the same function, cross-return anti-shock valves from different brands may differ in internal structure and working principle. For example, the shape of the spool, the stiffness of the spring, and the size of the damping hole will all affect the working performance of the valve. These differences may result in different buffering effects on pressure shocks under the same system conditions when using valves from different brands, making them irreplaceable.

Control methods and compatibility: If the anti-shock valve adopts electric or hydraulic control methods, the control signal interfaces, control voltage or current requirements of different brands may be inconsistent, which may be incompatible with the system's control circuit or hydraulic control oil circuit, making it impossible to achieve normal control functions.

However, if cross-return anti-shock valves from different brands are completely consistent in terms of mounting dimensions, pressure and flow parameters, working principles, and control methods, or can meet the minimum requirements of the system without significantly affecting system performance, they may be interchangeable after rigorous testing and verification.

 

 

max P	with L	bar	315	Supply voltage	V	12; 24 DC
max P	without L	bar	210	Power	W	36, 29
Flow rate	max	l/min	50	Switching frequency	1/h	15 000
Oil temperature		℃	-20+70	Ambient temperature		to 50℃
viscosity		mm/s	15-380	Coil temperature		to 180℃
filtration	NAS1638		9	Duty cycle		100%

 

Supply voltage 12VDC or 24VDC
code	Threaded connections
G38	P1, P2, A, B, C, D - G3/8 ; L = G1/4
M18	P1, P2, A, B, C, D - M18x1.5 ; L = M14x1.5
SAE	P1, P2, A, B, C, D -SAE8 ; L = SAE4

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