Product Description
SongQiao LSQ-FF Series couplings are widely used in the public utility market where hydraulic oil spillage can constitute a serious safety hazard, particularly in overhead bucket hoists that are used for maintenance of high-voltage power transmission lines.These couplings are also used for quick change of hydraulic Tools in construction, railway maintenance and mining industries. The ease of cleaning makes them ideal for use in these types of hostile environments.
New valve design. it can resistance damage from high flow and the pressure of impulse that providing advanced performance.
Sleeve locking mechanism is engaged by rotating sleeve after connection. It prevents accidental disconnection when, The coupling is dragged along the ground.
Sleeve mechanism is designed to prevent dirt from entering the internal the internal mechanism and thus causing faulty operation when connecting or disconnecting. The sleeve covers the retaining ring and also incorporates a dust seal in the spring area.
Steel construction, zinc plated with yellow chromate finish. hardened nipples and sleeves and CHINAMFG barstock construction for maximum resistance to damage from hydraulic and mechanical shock.
This Anti Blowout Nitrile/PTFE bonded seal is designed to prevent blow-out or damage during severe service conditions.
Durable ball-locking mechanism assures reliable connections ,every time. A large number of locking balls distributes the work load evenly while providing alignment and swiveling action to reduce hose torque and prolong hose life. CAUTION: These products are not not to be used as swivels. Rotation under pressure will result in excessive and premature wear.
LSQ-FF Series couplings employ flush valving when connecting or disconnecting. This means that the valves are mated together so that only small amounts of fluid can be lost during disconnection or air inclusion during reconnection.
New chrome plating treatment provides advanced anti-rust performance.
LSQ-FF series conforms to standard of ISO16571.
Compatible with CHINAMFG FE Series,FFSeries,STUCCHIA8008 Series, AEROQUIP FD89 Series and HANSENQA2900 Series.
| ISO | PART NO | LS | D | HEX1 | A | T |
| 6.3 | LSQ-FF-02SF | 58.2 | 28 | 20 | 14 | G1/4 NPT1/4 |
| 10 | LSQ-FF-03SF | 68.2 | 32 | 24 | 14 | G3/8 NPT3/8 |
| 10 | LSQ-FF-03SF | 72.2 | 32 | 27 | 18 | G1/2 NPT1/2 |
| 12.5 | LSQ-FF-04SF | 75 | 38 | 32 | 18 | G1/2 NPT1/2 |
| 12.5 | LSQ-FF-04SF | 79 | 38 | 36 | 22 | G3/4 NPT3/4 |
| 16 | LSQ-FF-06SF | 80 | 42 | 36 | 22 | G3/4 NPT3/4 |
| 19 | LSQ-FF-08SF | 99.8 | 48 | 41 | 22 | G3/4 NPT3/4 |
| 19 | LSQ-FF-08SF | 99.8 | 48 | 41 | 23.5 | G1 NPT1 |
| 25 | LSQ-FF-10SF | 111.5 | 56 | 55 | 24 | G1-1/4 NPT1-1/4 |
| – | LSQ-FF-12SF | 150 | 79.5 | 65 | 30 | G1-1/2 NPT1-1/2 |
| – | LSQ-FF-16SF | 167 | 98.5 | 85 | 31 | G2 NPT2 |
| ISO | PART NO | LP | d | C | HEX2 | A | T |
| 6.3 | LSQ-FF-02PF | 49.2 | 16.1 | 15.2 | 20 | 14 | G1/4 NPT1/4 |
| 10 | LSQ-FF-03PF | 55.8 | 19.7 | 19.5 | 24 | 14 | G3/8 NPT3/8 |
| 10 | LSQ-FF-03PF | 59.8 | 19.7 | 19.5 | 27 | 18 | G1/2 NPT1/2 |
| 12.5 | LSQ-FF-04PF | 72 | 24.5 | 21.6 | 32 | 18 | G1/2 NPT1/2 |
| 12.5 | LSQ-FF-04PF | 76 | 24.5 | 21.6 | 36 | 22 | G3/4 NPT3/4 |
| 16 | LSQ-FF-06PF | 75.5 | 27 | 21.6 | 36 | 22 | G3/4 NPT3/4 |
| 19 | LSQ-FF-08PF | 93.8 | 30 | 29 | 41 | 22 | G3/4 NPT3/4 |
| 19 | LSQ-FF-08PF | 93.8 | 30 | 29 | 41 | 23.5 | G1 NPT1 |
| 25 | LSQ-FF-10PF | 90 | 36 | 34 | 55 | 24 | G1-1/4 NPT1-1/4 |
| – | LSQ-FF-12PF | 112 | 57 | 38 | 65 | 30 | G1-1/2 NPT1-1/2 |
| – | LSQ-FF-16PF | 123.9 | 73 | 40.5 | 75 | 31 | G2 NPT2 |
| ISO | PART NO | L | D | HEX1 | HEX2 | T |
| 6.3 | LSQ-FF-02 | 96.2 | 28 | 20 | 20 | G1/4 NPT1/4 |
| 10 | LSQ-FF-03 | 108.4 | 32 | 24 | 24 | G3/8 NPT3/8 |
| 10 | LSQ-FF-03 | 116.4 | 32 | 27 | 27 | G1/2 NPT1/2 |
| 12.5 | LSQ-FF-04 | 129.3 | 38 | 32 | 32 | G1/2 NPT1/2 |
| 12.5 | LSQ-FF-04 | 137.3 | 38 | 36 | 36 | G3/4 NPT3/4 |
| 16 | LSQ-FF-06 | 138 | 42 | 36 | 36 | G3/4 NPT3/4 |
| 19 | LSQ-FF-08 | 172.1 | 48 | 41 | 41 | G3/4 NPT3/4 |
| 19 | LSQ-FF-08 | 172.1 | 48 | 41 | 41 | G1 NPT1 |
| 25 | LSQ-FF-10 | 178 | 56 | 55 | 55 | G1-1/4 NPT1-1/4 |
| – | LSQ-FF-12 | 233.4 | 79.5 | 65 | 65 | G1-1/2 NPT1-1/2 |
| – | LSQ-FF-16 | 251.7 | 98.5 | 85 | 75 | G2 NPT2 |
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Are there specialized hydraulic couplings for high-pressure or high-flow applications?
Yes, there are specialized hydraulic couplings designed to meet the demands of high-pressure and high-flow applications. These specialized couplings are engineered to handle the increased loads, pressures, and flow rates typically encountered in industrial settings where heavy-duty equipment and machinery are used. Here are some types of hydraulic couplings commonly used in such applications:
- High-Pressure Hydraulic Couplings: High-pressure hydraulic couplings are constructed with robust materials and advanced sealing technologies to withstand extreme pressure levels. They are commonly used in hydraulic systems that operate at pressures exceeding standard hydraulic system limits. These couplings ensure reliable power transmission and prevent leakage or failure under high-pressure conditions.
- Quick-Disconnect Couplings: Quick-disconnect couplings, also known as quick-release or quick-connect couplings, are designed for rapid and efficient connection and disconnection of hydraulic lines. They are prevalent in high-flow applications where frequent connections and disconnections are necessary, such as in construction equipment, agricultural machinery, and manufacturing processes.
- Multi-Couplings: Multi-couplings allow the simultaneous connection of multiple hydraulic lines with a single motion. These couplings are suitable for applications with complex hydraulic circuits, such as material handling systems and mobile hydraulics. They simplify the connection process and minimize downtime during equipment setup or maintenance.
- High-Flow Hydraulic Couplings: High-flow hydraulic couplings are designed to accommodate large volumetric flow rates in hydraulic systems. They feature larger passageways and flow channels to reduce pressure drop and ensure efficient fluid transfer in applications like heavy machinery, material handling, and large-scale industrial processes.
- Flush Face Couplings: Flush face couplings provide a leak-free connection when connected or disconnected. They are suitable for high-pressure applications where minimizing fluid loss during connection and disconnection is critical for safety and environmental reasons.
- Flat Face Couplings: Flat face couplings are ideal for high-pressure applications where cleanliness and contamination control are essential. Their flat mating surfaces prevent trapping debris during connection, making them suitable for construction equipment, mining machinery, and other rugged applications.
- High-Temperature Hydraulic Couplings: High-temperature hydraulic couplings are designed to operate in extreme temperature environments, such as those encountered in hot industrial processes or near machinery generating significant heat. They use specialized seals and materials that can withstand elevated temperatures without compromising performance.
Specialized hydraulic couplings are engineered to handle the unique challenges posed by high-pressure or high-flow applications, ensuring safe, efficient, and reliable operation in demanding industrial environments. When selecting a hydraulic coupling for such applications, it’s crucial to consider factors like the specific pressure and flow requirements, environmental conditions, compatibility with the hydraulic fluid, and the overall system design to achieve optimal performance and safety.
Are hydraulic couplings suitable for use in hydraulic cylinders or pumps?
Yes, hydraulic couplings are commonly used in hydraulic cylinders and pumps, playing a crucial role in connecting various components within hydraulic systems. Hydraulic cylinders and pumps are essential components in hydraulic systems, responsible for generating and controlling fluid power to perform mechanical work.
Hydraulic cylinders are actuators that convert fluid pressure into linear motion, producing force and movement. They are widely used in various applications, such as construction machinery, manufacturing equipment, agricultural machinery, and automotive systems.
Hydraulic pumps, on the other hand, are responsible for generating the fluid flow and pressure required to operate hydraulic systems. They provide the driving force that enables hydraulic cylinders and other actuators to perform their intended tasks.
Hydraulic couplings are used in hydraulic cylinders and pumps to connect hoses, tubes, and other hydraulic components. They ensure a secure and leak-free connection, allowing hydraulic fluid to flow between different parts of the system. Some common coupling types used in hydraulic cylinders and pumps include:
- JIC Fittings: JIC (Joint Industry Council) fittings, which have a 37-degree flare angle, are commonly used in high-pressure hydraulic systems, including hydraulic cylinders and pumps. They provide reliable metal-to-metal sealing and are easy to assemble and disassemble.
- ORFS Fittings: ORFS (O-Ring Face Seal) fittings are widely used in high-pressure hydraulic applications. They provide a robust and leak-free connection through an O-ring seal in the face of the fitting.
- NPT Fittings: NPT (National Pipe Thread) fittings, with their tapered threads, are commonly used in lower-pressure hydraulic systems, providing a reliable seal with the use of thread sealants like Teflon tape.
- BSP Fittings: BSP (British Standard Pipe) fittings, available in parallel (BSPP) and tapered (BSPT) threads, are widely used in European hydraulic systems.
Properly selected and installed hydraulic couplings ensure the integrity of the hydraulic system, allowing efficient and reliable power transmission between hydraulic cylinders, pumps, valves, and other components. When using hydraulic couplings in hydraulic cylinders and pumps, it’s essential to consider factors such as the required pressure rating, flow capacity, material compatibility, and environmental conditions to ensure optimal performance and safety.
In summary, hydraulic couplings are essential components in hydraulic systems, making them well-suited for use in hydraulic cylinders and pumps, where they facilitate fluid flow and help maintain the integrity of the overall hydraulic system.
What are the key design considerations when using hydraulic couplings in hydraulic systems?
Designing hydraulic systems with hydraulic couplings requires careful consideration of various factors to ensure optimal performance, reliability, and safety. Here are the key design considerations:
- Fluid Compatibility: Select hydraulic couplings made from materials compatible with the hydraulic fluid used in the system. Incompatible materials may lead to chemical reactions, corrosion, or degradation of the coupling, affecting its performance and service life.
- Pressure Rating: Ensure that the hydraulic coupling has an adequate pressure rating to handle the maximum operating pressure of the hydraulic system. Using a coupling with a lower pressure rating may lead to failure and system leaks.
- Temperature Range: Consider the temperature range in which the hydraulic system will operate. Choose a hydraulic coupling that can withstand the minimum and maximum temperatures without deformation or loss of performance.
- Torsional Stiffness: Evaluate the required torsional stiffness of the coupling based on the system’s torque demands. A coupling with insufficient torsional stiffness may lead to excessive vibrations and decreased system accuracy.
- Misalignment Compensation: Hydraulic couplings should be able to accommodate misalignments between the driving and driven shafts. Consider the angular, radial, and axial misalignment capacity of the coupling to prevent excessive stress on the system components.
- Speed and Torque Requirements: Determine the speed and torque demands of the hydraulic system. Choose a coupling that can handle the required torque and rotational speed to ensure efficient power transmission.
- Environmental Conditions: Factor in the environmental conditions the hydraulic system will be exposed to, such as moisture, dust, chemicals, or extreme temperatures. Select a coupling with appropriate coatings or materials to withstand these conditions.
- Overload Protection: Consider whether overload protection is necessary for the hydraulic system. Some hydraulic couplings offer built-in overload protection features, which can be beneficial in preventing damage during unexpected load spikes.
- Installation and Maintenance: Choose a hydraulic coupling that is easy to install and maintain. Accessible coupling designs simplify inspection and servicing, reducing downtime and maintenance costs.
- Size and Weight: Consider the available space and weight constraints in the system. Opt for a hydraulic coupling that fits within the available space and meets the weight limitations without compromising performance.
By carefully considering these design considerations and selecting the appropriate hydraulic coupling, designers can ensure a reliable and efficient hydraulic system that meets the specific requirements of the application. Regular maintenance and proper coupling installation also play a crucial role in prolonging the life and performance of the hydraulic system.
editor by CX 2024-04-22