CVGV : Vented Pilot-to-open Check Valve - Cartridges - Sun Hydraulics

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Assembly Build Process

Sun's Assembly Build Process allows you to configure a cartridge and manifold, or main stage and pilot stage cartridge, and build a digital assembly in three dimensional space. The resulting output of this process is the assembly product page, including configuration-specific images, symbols, product information and CAD files for download.

The Assembly Build Process can be accessed from either a cartridge or manifold product page. Only valid choices are allowed.

From a manifold page, you must first choose your cartridge function. Once you choose your function, click on the BUILD ASSEMBLY button below the WHERE TO BUY BUTTON. Once clicked, you will be presented with valid cartridges for your manifold. Select the cartridge of your choice and follow the instructions at the top of the page. If your particular combination has been generated before, the resulting assembly page will be available immediately. If not, you will be asked to enter your email address. Once the page is complete, an email will be sent to you including a link to the assembly product page.

From a cartridge product page, click on BUILD ASSEMBLY and you will be presented with a listing of compatible manifolds. In the case of main stage and pilot stage cartridges, you can either build a cartridge to cartridge assembly or a cartridge to manifold assembly. Once your choice has been made, follow the instructions at the top of the page. If your particular combination has been generated before, the resulting assembly page will be available immediately. If not, you will be asked to enter your email address. Once the page is complete, an email will be sent to you including a link to the assembly product page.

Please note that the Assembly Build Process is an automated process. It can be utilized at any time. Pages are generated typically within minutes but delays can occasionally be expected. In the event of a delay, a team at Sun will work to resolve the issue to ensure you receive your information as quickly as possible.

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LoadHolding Selector Cut Sheet Full Data Sheet Email ✕ Vented pilot-to-open check valve Capacity: 60 gpm240 L/min. | Cavity: T-23A CVGV : Vented pilot-to-open check valve
  • Technical Features
  • Technical Data
  • Performance Curves
  • FAQs
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Expand All Technical Features [ + ]

This valve is a pilot to open check valve. It has a sealed pilot, a steel seat, and is vented. It allows free flow from the valve (port 2) to the load (port 1) and blocks flow in the opposite direction. Pressure at the pilot (port 3) will open the valve from port 1 to port 2. Pilot pressure needed to open the valve is directly proportional to the load pressure at port 1. The valve is insensitive to pressure at port 2 because the spring chamber is referenced to the vent (port 4).

  • Pilot pressure as low as 75 psi (5 bar) higher than the pressure at the vent can prevent the valve from closing.
  • Will accept pressure at port 4 (vent) but can not exceed 5000 psi (350 bar).
  • Pilot-to-open check cartridges are locking valves, not motion control valves. For motion control applications, use counterbalance valves.
  • Four-port pilot-to-open check cartridges and four-port counterbalance cartridges are physically interchangeable (i.e. same cavities, same flow path for a given frame size). However, cartridge extension dimensions from the mounting surface may vary.
  • Approximately 1 drop (0,07 cc) of fluid will pass from the pilot area to the vented spring chamber every 4000 cycles.
  • For models with manual load release control option, turn load release clockwise to release load.
  • Provides hose break protection, prevents loads from drifting and positively locks pressurized loads.
  • Extremely low leakage. The seat and poppet are heat treated for long life. If the load drifts due to the valve, the seat has probably been damaged by contamination and the valve should be replaced.
  • Sealed pilot for use in circuits where cross port leakage is undesirable.
  • Port 4 (vent) should never be blocked as seal weepage will eventually cause valve to malfunction.
  • Incorporates the Sun floating style construction to minimize the possibility of internal parts binding due to excessive installation torque and/or cavity/cartridge machining variations.
Back to Top Technical Data [ + ] Note: Data may vary by configuration. See CONFIGURATION section.
Cavity T-23A
Series 3
Capacity 60 gpm240 L/min.
Maximum Operating Pressure 5000 psi350 bar
Pilot Ratio 3:13:1
Maximum Valve Leakage at 110 SUS (24 cSt) 1 drops/min.0,07 cc/min.
Valve Hex Size 1 1/4 in.31,8 mm
Valve Installation Torque 150 - 160 lbf ft203 - 217 Nm
Adjustment Screw Internal Hex Size 1/8 in.3,2 mm
Locknut Hex Size 7/16 in.11,1 mm
Model Weight 1.20 lb0,55 kg
Seal kit - Cartridge Buna: 990023007
Seal kit - Cartridge Polyurethane: 990023002
Seal kit - Cartridge Viton: 990023006
Back to Top Performance Curves [ + ] Performance Curve for CVGV: Vented pilot-to-open check valve Performance Curve for CVGV: Vented pilot-to-open check valve Back to Top FAQs [ + ] What is the actual pilot ratio of Sun's pilot to open check valves?

Good question. We have never published this data. If you compare the area of the pilot piston to the "as manufactured" area of the seat, the ratio of series 0 is a true 3:1, the series 1, 3, and 4 are 4:1 and the series 2 is 4.4:1.In the beginning, the valve of choice was the Delrin seated valve and because of the compliance of the seat, the ratio went down as the pressure went higher and the poppet sank into the seat. Eventually the seat will take a set and the ratio will also be less at lower pressures. Everything lowers the ratio, even wear and tear on the steel seat. The springs in the valve lower the ratio by a large amount at low operating pressures (see the answer on piloting with air).The effective pilot ratio is always less than the area ratio. Understating the pilot ratio of our pilot-to-open checks leads to more robust circuits.

I want to use your pilot-to-open checks on air. Will they work?

Yes, but….. Our valves are meant to work with hydraulic fluids; they are not protected against the water that is in compressed air. Corrosion is a real possibility. Valves that have 30 psi (2 bar) cracking pressures or lower (Z, A, B, and C spring ranges) have 2 springs in them--one to close the poppet and one to return the pilot piston. The spring that returns the pilot piston is worth about 30 to 35 psi (2 to 2,5 bar) of pilot pressure. The minimum pressure to pilot open a CKCB XCN, which is a 30 psi (2 bar) cracking pressure, is about 45 psi (3 bar).To open a pilot-to-open check valve with 3000 psi (210 bar) at port 1, 1045 psi (72 bar) of pilot pressure is required at port 3; this equates to a 2.9:1 effective pilot ratio. To open a pilot-to-open check valve with 30 psi (2 bar) at port 1, 55 psi (3.8 bar) of pilot pressure is required at port 3; this equates to a 0.5:1 effective pilot ratio.

Direct acting or pilot operated - what do I use?

Direct-acting valves are used to prevent over pressure, and pilot-operated valves are used to regulate pressure. If you are unsure, use a direct-acting valve. Sun's direct acting valves are very fast, dirt tolerant, stable, and robust. Sun's pilot-operated valves are moderately fast, they have a low pressure rise vs. flow curve, and they are easy to adjust.

What about intensification?

Pilot-to-open check valves on the rod side of a cylinder may be a problem because intensification could increase rod side pressure above design limits. Cylinders with large rods may intensify rod end pressure past the point where blind end pressure is enough to pilot the valve open. Use the equations below. For example, the application is a retract-to-clamp cylinder with a blind end area to rod end area ratio of 2:1. Clamping pressure is 2000 psi (140 bar). If the pilot to open check has a pilot ratio of 3:1 it will take more than 2000 psi (140 bar) to pilot the check open and at that point the rod end pressure will have climbed to 6000 psi (420 bar).

How big is a drop of hydraulic oil?  

There are exactly 250 Sun drops in a cubic inch or 15 in a cc.

What is the difference between pilot-to-open check valves with sealed pilots compared to standard bleed through versions?

The standard, or bleed through, versions allow a small amount of leakage between port 3 (pilot) and port 2 (inlet), which aids in purging air that can be trapped in the pilot circuit. Versions with sealed pilots may be sluggish to close because of trapped air.All four-port vented valves have a sealed pilot. On 4-port vented valves, port 4 (vent) should never be blocked as seal weepage will eventually cause the valve to malfunction. 1 to 2 drops of oil pass into the vented spring chamber every 4000 cycles; this equates to 1 cubic inch (16 cc) every 1 million cycles.

My load keeps drifting, and every time I take your valves out, the nose seals have been blown out of their grooves.

There are four explanations that we know of:

  • Many cycles to high pressures. Back-up rings serve a sacrificial purpose. Their job is to fill the clearance gap we need to fit our cartridge into the cavity and protect the primary seal—the O-ring. If the gap is too large or the pressure is too high, they extrude into the gap and wear away. When a breach in the back-up ring occurs, the O-ring starts to nibble away and fails rather quickly. Below 3000 psi (210 bar), this should not happen. At 5000 psi (350 bar), the seals may need to be replaced after 1,000,000 cycles. Oversized cavities and rough surface finishes can greatly accelerate the wear.
  • Incorrectly machined cavities. One common problem is not taking the reamer deep enough to create a good O-ring lead. Another is a side connection that violates the O-ring lead. The symptom is a slice missing from the seal.
  • Undertorqued cartridges. If cartridges are not torqued to a high enough level, they may start to back out. When they back out far enough, they expose the seals, causing abrupt seal failure. The symptom is that there is a section missing from the seal. See the related "cartridge back out" FAQ.
  • Oil-filled cavity. The first time the cartridge is pulled is to check a load drift problem. When the cartridge is replaced, the drift is worse. Every time the cartridge is checked, the seals are displaced. This is an interesting phenomenon that is explainable and demonstrable. It starts with a cavity that is full of oil. Sun load-holding cartridges block flow from the nose of the cartridge, port 1, to the side, port 2. When you insert a cartridge into an oil-filled cavity, the oil is displaced either into port 2 or outside the manifold. As the nose seals start into their bore they try to seal. If oil cannot be displaced, pressure builds in port 1. As the pressure builds, the seals are lifted out of their grooves and shoved up onto the port 2 area. The symptom is the seals are sometimes intact; other times they are severely pinched.

The solution is easy. Stick your finger in the cavity (before you screw in the cartridge). If you create a small air pocket ahead of the cartridge, the seals can fully engage their bore before enough pressure builds to displace the seals.

How do I know how much pilot pressure is required to open a pilot-to-open check valve?

Pilot pressure (port 3) for a pilot-to-open check valve is directly proportional to the load pressure (port 1) . . . the higher the load pressure the more pressure it takes to pilot it open. To calculate the pressure required to release a load, use the following equations

These equations are under ideal conditions and do not consider any backpressure in the circuit.Pressure required to open pilot-to-open check valve.

What does pilot ratio refer to in a pilot-to-open check valve?

The pilot ratio is the ratio of the pilot piston area to the check poppet seat area, e.g. in a 3:1 pilot ratio valve, the pilot piston area is 3 times the check poppet seat area.

Can I control the motion of a load with a pilot-to-open check valve?

A pilot-to-open check valve is a load holding valve, not a motion or over-running load control valve. It is not capable of dissipating energy in a controlled fashion. A pilot-to-open check valve is either open or closed; it does not modulate. If you try to use a pilot-to-open check valve to control an over-running load, a severe ratcheting movement of the actuator is likely to occur.

What should I do if I need load holding on the rod of a high ratio cylinder?

Use a counterbalance valve. In the above example the pressure needed to extend the cylinder would be less than 200 psi.

Other companies make high ratio PO checks. Why doesn't Sun?

Our configuration does not lend itself to high ratios. We can't make the pilot piston bigger so the only way would be to make the seat smaller. A smaller seat closes the flow path around the poppet stem and capacity is quickly lost. Besides, we have a solution……use a counterbalance valve.

I need to discharge a large accumulator. How can I increase the capacity of my discharge circuit?

Because of the very high ratio, the COFO has limited capacity. The discharge path is across a .050 inch (1,3 mm) diameter orifice. If you have large accumulators combined with low precharge pressures, this may not discharge the energy quickly enough. Using the COFO XDN cartridge in conjunction with an LODA XDN will provide capacity for larger applications.

What ever happened to the Delrin seated valves?

Nothing, they are still available, we just stopped cataloging and promoting them. After years of experience, testing, and engineering we came to the conclusion that they are best suited for moderate pressures, 2000 - 3000 psi (140 - 210 bar). If the seat is soft enough to conform at low pressures, it is too soft to stand up to todays higher operating pressures and flows. If you have a dirty, medium pressure system that does not experience high flows or temperatures and you require very low leakage rates, you may want to consider the soft-seated valves. One piece of hard debris can make a steel seat leak. A soft seat is able to ingest a lot of contamination before it starts to leak. However, one piece of debris can cause the soft seat to leak at low pressures. Originally, Sun had a tighter leakage specification on soft-seated valves. However, when we made the decision to promote the steel seated valves instead of soft seats, we tightened the leakage specifications of the steel seat valves to match.

Can I use a three-port vented pilot-to-open check valve instead of the four-port version to save on plumbing?

Three-port vented pilot-to-open, or atmospherically referenced, check valves are considered problem solvers for existing circuits that used a non-vented valve. If a vented valve is required in a new design, four-port valves are recommended. Atmospherically referenced valves may leak externally and pose a threat for intrusion of moisture (and resulting corrosion) in the spring chamber even though the spring chamber is sealed.

Where should a vented valve be vented?

It should be vented immediately downstream of the reason a vented valve is needed. Vented PO checks need the same amount of pilot pressure to open as a non-vented valve but once open they require less than 100 psi of pilot pressure to stay open.Study the two circuits below.

  • In the one on the right, the load is free to move, the check is being held open by normal tank line pressure that is seen as pilot pressure. The circuit on the right may work correctly on start up and then fail when temperatures drop or return line filters get full.
  • In the circuit on the left the vent connection nullifies the tank line pressure seen at the pilot connection. The result is zero effective pilot pressure.

FAQ good and bad vent illustration

Should I replace the pilot-to-open check valve if my cylinder is drifting or moving?

Sun's pilot-to-open check valves with a metal-to-metal seat, when new, provide near zero leakage. If the actuator is drifting, and you have determined it is a result of the valve, the metal seat in the valve may have been damaged and it is recommended that a new valve be installed.

What happens to the pilot-to-open check valve if I have back pressure in my system?

Backpressure at the inlet (port 2) directly opposes pilot pressure, effectively increasing the amount of pressure required to open the valve. If the backpressure is flow related (as in a meter-out flow control) the result could be a severe ratcheting movement of the actuator. Using vented load holding valves will prevent this problem.

Can I use pilot-to-open check valves with paired cylinders?

Pilot-to-open check valves should not be used in paired cylinder circuits. The pilot pressure needed to open a pilot-to-open check is proportional to the load it is holding. The valve with the least load will open first, transferring the combined load to the second valve at more than double the pressure. Use counterbalance valves instead. The pilot pressure to open a counterbalance valve is inversely proportional to the load pressure. When one of the counterbalances opens first the load is transferred to the other counterbalance and lowers the pilot pressure required. The valves cooperate and lower the load with a minimum of load shift.

Where should I mount pilot-to-open check valves in my system?

Generally, pilot-to-open check valves should be mounted as close to the actuator as possible to provide maximum protection in the event of hydraulic hose or line failure. Sun offers many mounting configurations that will accomplish this. Additionally, these cartridges can be installed directly in the actuator by machining a cavity in the actuator housing.

Vented pilot-to-open check valves are insensitive to pressure on the valve port (port 2), aren't they?

Not exactly. The old style vented check that had the pilot port in the end of the hex body, and vented out port 3, had what we call a proportional pressure reducing feature. The poppet stem was exposed to the vented area and the stem area was about ¼ of the area of the poppet seat. The result was that you could only develop 75% of the pressure at the actuator. If system pressure was 3000 psi (210 bar), the highest pressure at the actuator was about 2250 psi (155 bar). The part numbers for the old style valves are CKCE CKEE CKGE CKIE CKCF CKEF CKGF CKIF CKCG CKEG CKGG CKIG CKCH CKEH CKGH CKIHIn our 1992 catalog we introduced a new design of vented pilot-to-open check valves, eliminating the proportional pressure reducing feature to allow full system pressure at the actuator. The pilot is now at port 3. This allows the vented counterbalances and the vented checks to share the same manifolds. The new design incorporates more spring force to lessen the chance of false piloting (see the FAQ on where to vent). The new design allows us to offer valves that are vented out of a port in the hex body. We do have new design valves that replace the old style (pilot in 3 and vent out the hex body). These should be used with caution. If you are replacing the old style that had the pressure reducing feature you will realize a 33% increase in actuator force. The part numbers for these are CKCI, CKEI, CKGI, and CKII.The venting of the new design is not entirely pure. There is an area exposed to the vent area that opposes the poppet spring. Piloting a valve open is a very remote possibility but 450 psi (30 bar) in the vent area could hold the poppet open.

What parts of the Sun cartridge valve are field serviceable? Only external seals are serviceable. Sun offers replacement seal kits for all cartridge models. The applicable kit part number can be found in the product page's Technical Data table or by using our Cartridge Seal Kit search function located under Accessories. Please note: Converting the external seals from one material to another does not ensure fluid compatibility with that material due to the existence of internal seals within the cartridge. Back to Top Additional Resources [ + ] Highlights
  • Counterbalance/Pilot-to-Open Cartridge Valve Technical Tips
  • New QuickSelect LoadHolding Selector Tool
  • Sun Expands Corrosion-Resistant Solutions
  • Sun Offers Zinc-Nickel Plating for Corrosion Resistance
  • Sun's New FLeX Series Solenoid Valves & Coils
  • Series 4 PLUS Cartridges Offer Higher Flows with Lower Pressure Losses
  • Sun Cartridges with EPDM Seals
  • New FLeX Series Solenoid-Operated Directional Valves
  • Pilot Controlled Directional Cartridges Technical Tips
  • CavitySaver multi-function valves deliver single-cartridge solutions
  • Check Valves, Flow Control and Priority Flow Control Valves Technical Tips
  • QuickDesign with SmartConnect Offers Drag-and-Drop Schematic Tool
Technical Tips
  • Manufacturing Sun Cartridge Cavities (522.27 KB)
  • Counterbalance and Pilot-to-Open Check Valves (1.19 MB)
  • LoadAdaptive™ & LoadMatch™ Cartridges (713.18 KB)
Technical Information
  • Cartridges: Materials of Construction
  • Fluid Recommendations: Oil Viscosity, Cleanliness & Temperature
  • Units of Measure, Settings, and Conversions
  • Sun's Floating Style Screw-In Cartridge (1.06 MB)
  • Performance Data
  • Sun Model Code Explanation; 999-901-334 (343.9 KB)
  • Cavity Information (S-171) and Tooling
Back to Top Model reset to default

CVGVXCN

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Symbols for CVGV

CVGV CVGV Configuration Rules CONTROL [X]{Standard Pilot } [L]{Manual Load Release } CRACKING PRESSURE [C]{30 psi (2 bar)} [A]{4 psi (0,3 bar)} [B]{15 psi (1 bar)} [D]{50 psi (3,5 bar)} [E]{75 psi (5 bar)} [F]{100 psi (7 bar)} SEAL MATERIAL [N]{Buna-N } [V]{Viton } [E]{EPDM } MATERIAL/COATING [/AP]{Stainless Steel, Passivated} [/LH]{Mild Steel, Zinc-Nickel} [ ]{Standard Material/Coating} Where To Buy
  • If the modifier is /AP, the control must be X
  • If the modifier is /LH, the control must be X
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