The vector stencils library "Fluid power valves" contains 93 symbols of pre-made hydraulic and pneumatic valves, including directional control valves, flow control valves, pressure control valves, and electrohydraulic and electropneumatic valves.
Use these shapes to design fluid power diagrams in the ConceptDraw PRO diagramming and vector drawing software extended with the Mechanical Engineering solution from the Engineering area of ConceptDraw Solution Park.
www.conceptdraw.com/ solution-park/ engineering-mechanical
Use these shapes to design fluid power diagrams in the ConceptDraw PRO diagramming and vector drawing software extended with the Mechanical Engineering solution from the Engineering area of ConceptDraw Solution Park.
www.conceptdraw.com/ solution-park/ engineering-mechanical
2/2 valve, pneum., finite positions
2/2 valve, pneum., infinite positions
2/2 valve, pneum., ext., fin. pos.
2/2 valve, pneum., ext., infin. pos.
2/2 valve, hydr., finite positions
2/2 valve, hydr., infinite positions
2/2 valve, hydr., ext., fin. pos.
2/2 valve, hydr., ext., infin. pos.
3/2 valve, pneum., finite positions
3/2 valve, pneum., infinite positions
3/2 valve, pneum., ext., fin. pos.
3/2 valve, pneum., ext., infin. pos.
3/2 valve, hydr., finite positions
3/2 valve, hydr., infinite positions
3/2 valve, hydr., ext., fin. pos.
3/2 valve, hydr., ext., infin. pos.
4/2 valve, pneum., finite positions
4/2 valve, pneum., infinite positions
4/2 valve, pneum., ext., fin. pos.
4/2 valve, pneum., ext., infin. pos.
4/2 valve, hydr., finite positions
4/2 valve, hydr., infinite positions
4/2 valve, hydr., ext., fin. pos.
4/2 valve, hydr., ext., infin. pos.
5/2 valve, pneum., finite positions
5/2 valve, pneum., infinite positions
5/2 valve, pneum., ext., fin. pos.
5/2 valve, pneum., ext., infin. pos.
5/2 valve, hydr., finite positions
5/2 valve, hydr., infinite positions
5/2 valve, hydr., ext., fin. pos.
5/2 valve, hydr., ext., infin. pos.
4/3 valve, pneum., finite positions
4/3 valve, pneum., infinite positions
4/3 valve, pneum., ext., fin. pos.
4/3 valve, pneum., ext., infin. pos.
4/3 valve, hydr., finite positions
4/3 valve, hydr., infinite positions
4/3 valve, hydr., ext., fin. pos.
4/3 valve, hydr., ext., infin. pos.
5/3 valve, pneum., finite positions
5/3 valve, pneum., infinite positions
5/3 valve, pneum., ext., fin. pos.
5/3 valve, pneum., ext., infin. pos.
5/3 valve, hydr., finite positions
5/3 valve, hydr., infinite positions
5/3 valve, hydr., ext., fin. pos.
5/3 valve, hydr., ext., infin. pos.
Restrictor valve
Restrictor valve, adjustable
Gate-valve, norm. open
Gate-valve, norm. open, adj.
Gate-valve, norm. closed
Gate-valve, norm. closed, adj.
One-way restrictor
One-way restrictor, enclosed
Flow control, series flow
Flow control, temperature compensated
Flow control, bypass flow
Flow divider
Non-return, pilot controlled
Non-return, pilot contr., spring
Non-return, free
Non-return, spring loaded
Coupling (connect.), 1 valve
,-1-valve-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (connect.), both valves
,-both-valves-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (connect.), no valves
,-no-valves-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (connect.), 1 valve, encl.
,-1-valve,-encl.-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (connect.), both valves, encl.
,-both-valves,-encl.-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (connect.), no valves, encl.
,-no-valves,-encl.-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (discon.), 1 valve
,-1-valve-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (discon.), both valves
,-both-valves-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (discon.), no valves
,-no-valves-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (discon.), 1 valve, encl.
,-1-valve,-encl.-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (discon.), both valves, encl.
,-both-valves,-encl.-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Coupling (discon.), no valves, encl.
,-no-valves,-encl.-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
Shuttle valve
Priority shuttle valve
Quick exhaust
Cartridge valve
Pressure relief
Pressure relief, drain
Pressure relief, vent port
Pressure relief, drain, vent port
Pressure relief, var.
Pressure relief, var., drain
Pressure relief, var., vent port
Pressure relief, var., drain, vent port
Pressure relief 2
Pressure reducing, 1 stage
Pressure reducing, 2 stage
Pressure reducing, relief
Pressure relief (E)
-fluid-power-valves---vector-stencils-library.png--diagram-flowchart-example.png)
The vector stencils library "Fluid power valves" contains 93 symbols of pre-made hydraulic and pneumatic valves, including directional control valves, flow control valves, pressure control valves, and electrohydraulic and electropneumatic valves.
"Control valves are valves used to control conditions such as flow, pressure, temperature, and liquid level by fully or partially opening or closing in response to signals received from controllers that compare a "setpoint" to a "process variable" whose value is provided by sensors that monitor changes in such conditions.
The opening or closing of control valves is usually done automatically by electrical, hydraulic or pneumatic actuators. Positioners are used to control the opening or closing of the actuator based on electric, or pneumatic signals.
A control valve consists of three main parts in which each part exist in several types and designs: Valve's actuator, Valve's positioner, Valve's body.
" [Control valves. Wikipedia]
The shapes example "Design elements - Fluid power valves" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Mechanical Engineering solution from the Engineering area of ConceptDraw Solution Park.
"Control valves are valves used to control conditions such as flow, pressure, temperature, and liquid level by fully or partially opening or closing in response to signals received from controllers that compare a "setpoint" to a "process variable" whose value is provided by sensors that monitor changes in such conditions.
The opening or closing of control valves is usually done automatically by electrical, hydraulic or pneumatic actuators. Positioners are used to control the opening or closing of the actuator based on electric, or pneumatic signals.
A control valve consists of three main parts in which each part exist in several types and designs: Valve's actuator, Valve's positioner, Valve's body.
" [Control valves. Wikipedia]
The shapes example "Design elements - Fluid power valves" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Mechanical Engineering solution from the Engineering area of ConceptDraw Solution Park.
Fluid power valve symbols
Retract resistor check valve application: pneumatic cylinder, piston driven by Compressed air through 2 Retract resistor check valves.
"A check valve, clack valve, non-return valve or one-way valve is a valve that normally allows fluid (liquid or gas) to flow through it in only one direction.
Check valves are two-port valves, meaning they have two openings in the body, one for fluid to enter and the other for fluid to leave. There are various types of check valves used in a wide variety of applications. Check valves are often part of common household items. Although they are available in a wide range of sizes and costs, check valves generally are very small, simple, or inexpensive. Check valves work automatically and most are not controlled by a person or any external control; accordingly, most do not have any valve handle or stem. The bodies (external shells) of most check valves are made of plastic or metal.
An important concept in check valves is the cracking pressure which is the minimum upstream pressure at which the valve will operate. Typically the check valve is designed for and can therefore be specified for a specific cracking pressure.
Heart valves are essentially inlet and outlet check valves for the heart ventricles, since the ventricles act as pumps." [Check valve. Wikipedia]
This hydraulic schematic example was redrawn using ConceptDraw PRO diagramming and vector drawing software from the Wikimedia Commons file: Retract resistor check valve application.png.
[commons.wikimedia.org/ wiki/ File:Retract_ resistor_ check_ valve_ application.png]
The hydraulic engineering drawing example "Retract resistor check valve application" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Mechanical Engineering solution from the Engineering area of ConceptDraw Solution Park.
"A check valve, clack valve, non-return valve or one-way valve is a valve that normally allows fluid (liquid or gas) to flow through it in only one direction.
Check valves are two-port valves, meaning they have two openings in the body, one for fluid to enter and the other for fluid to leave. There are various types of check valves used in a wide variety of applications. Check valves are often part of common household items. Although they are available in a wide range of sizes and costs, check valves generally are very small, simple, or inexpensive. Check valves work automatically and most are not controlled by a person or any external control; accordingly, most do not have any valve handle or stem. The bodies (external shells) of most check valves are made of plastic or metal.
An important concept in check valves is the cracking pressure which is the minimum upstream pressure at which the valve will operate. Typically the check valve is designed for and can therefore be specified for a specific cracking pressure.
Heart valves are essentially inlet and outlet check valves for the heart ventricles, since the ventricles act as pumps." [Check valve. Wikipedia]
This hydraulic schematic example was redrawn using ConceptDraw PRO diagramming and vector drawing software from the Wikimedia Commons file: Retract resistor check valve application.png.
[commons.wikimedia.org/ wiki/ File:Retract_ resistor_ check_ valve_ application.png]
The hydraulic engineering drawing example "Retract resistor check valve application" was created using the ConceptDraw PRO diagramming and vector drawing software extended with the Mechanical Engineering solution from the Engineering area of ConceptDraw Solution Park.
Hydraulic schematic
Mechanical Engineering
This solution extends ConceptDraw PRO v.9 mechanical drawing software (or later) with samples of mechanical drawing symbols, templates and libraries of design elements, for help when drafting mechanical engineering drawings, or parts, assembly, pneumatic,
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