SUN HYDRAULICS
XRDCLNNE3
$449.30 USD
Tags:
- SUN HYDRAULICS
- Material:XRDCLNNE3
- Model:XRDC-LNN-E3
- Summary:Y-assembly
Quantity in stock: 0
***Disclaimer: The following summary contains information gathered from various sources such as product descriptions, technical specifications and catalogs. While efforts have been made to provide accurate details, inaccuracies may occur. It is advised to verify all information by contacting Sun Hydraulics directly.***
The Sun Hydraulics XRDCLNNE3 (Material Number: XRDCLNNE3) is a specialized valve assembly designed to provide a flushing circuit for hydrostatic transmissions. This component facilitates the removal of hot, dirty oil from the low-pressure side of the loop, replacing it with cool, filtered oil via a charge pump. This process not only helps maintain optimal operating temperatures but also extends the life of the transmission by ensuring that cleaner oil circulates through critical components like the pump and motor cases. A distinctive feature of this valve is its hot oil shuttle, which allows users to confirm or adjust the hot oil relief setting when the transmission is in neutral, enhancing maintenance flexibility and operational efficiency. The assembly includes two sets of common ports marked as 1 and 2, allowing it to be teed off rather than directly plumbed into the loop. The high-pressure relief on one side controls pressure on the opposite port, offering precise control over system pressures. In neutral transmission mode, charge pressure is managed by a charge pump relief; when activated, some or all of this flow redirects to the hot oil relief. The standard setting for this relief is 200 psi (14 bar) at a flow rate of 4 gpm (16 L/min), with overall capacity reaching up to 10 gpm (40 L/min). Constructed for line mounting with four mounting holes, this valve assembly does not feature anodized aluminum bodies due to concerns over cost, logistics, and reduced fatigue life associated with anodizing processes. It is recommended to use a mechanical brake in conjunction with hydraulic motors to secure any stopped live load effectively.
The Sun Hydraulics XRDCLNNE3 (Material Number: XRDCLNNE3) is a specialized valve assembly designed to provide a flushing circuit for hydrostatic transmissions. This component facilitates the removal of hot, dirty oil from the low-pressure side of the loop, replacing it with cool, filtered oil via a charge pump. This process not only helps maintain optimal operating temperatures but also extends the life of the transmission by ensuring that cleaner oil circulates through critical components like the pump and motor cases. A distinctive feature of this valve is its hot oil shuttle, which allows users to confirm or adjust the hot oil relief setting when the transmission is in neutral, enhancing maintenance flexibility and operational efficiency. The assembly includes two sets of common ports marked as 1 and 2, allowing it to be teed off rather than directly plumbed into the loop. The high-pressure relief on one side controls pressure on the opposite port, offering precise control over system pressures. In neutral transmission mode, charge pressure is managed by a charge pump relief; when activated, some or all of this flow redirects to the hot oil relief. The standard setting for this relief is 200 psi (14 bar) at a flow rate of 4 gpm (16 L/min), with overall capacity reaching up to 10 gpm (40 L/min). Constructed for line mounting with four mounting holes, this valve assembly does not feature anodized aluminum bodies due to concerns over cost, logistics, and reduced fatigue life associated with anodizing processes. It is recommended to use a mechanical brake in conjunction with hydraulic motors to secure any stopped live load effectively.
This valve assembly provides a flushing circuit for hydrostatic transmissions. The hot oil flushing circuit allows a discharge of oil from the low pressure side of the loop. The charge pump replaces the hot, dirty oil with cool, filtered oil. The hot oil discharge is often passed through the cases of the pump and the motor, flushing hot, dirty oil from them as well.
- A unique feature of the hot oil shuttle is that the setting of the hot oil relief can be confirmed or adjusted when the transmission is in neutral.
- The two ports marked 1 are common as are the two marked 2. Therefore the assembly can be teed off the loop rather than being plumbed into the loop.
- The two ports marked 1 are common as are the two marked 2. The high pressure relief that is physically on the same side as port 1 controls the pressure on port 2 and vice versa.
- When the transmission is in neutral the charge pressure is controlled by the charge pump relief. When the hot oil shuttle opens, some or all of the charge pump flow is redirected to the hot oil relief. The charge pump relief must be set higher than the hot oil relief to produce hot oil flow. The higher the differential pressure between the 2 reliefs, the higher the hot oil flow. The amount of hot oil flow is determined by the pressure vrs flow curves of the 2 reliefs and is difficult to quantify.
- The standard setting of the hot oil relief is 200 psi (14 bar) at a flow of 4 gpm (16 L/min).
- Hydraulic motors leak. Therefore a mechanical brake is recommended to positively lock any stopped live load.
| Capacity | 10 gpm40 L/min. |
| Body Type | Line mountLine mount |
| Mounting Hole Quantity | 44 |
Show FAQ
Additional Resources
- Protect Hydrostatic Transmission Circuits with Sun’s Delayed Shift Hot Oil Shuttle.
- Integrated Packages: Solutions That Grow Your Reputation
- Manufacturing Sun Cartridge Cavities
- Sun's Floating Style Screw-In Cartridge
- Sun Model Code Explanation; 999-901-334
- Custom Integrated Packages from Sun
- Fluid and Temperature Recommendations
Notes:
- Important: Carefully consider the maximum system pressure. The pressure rating of the manifold is dependent on the manifold material, with the port type/size a secondary consideration. Manifolds constructed of aluminum are not rated for pressures higher than 3000 psi (210 bar), regardless of the port type/size specified.