Core Purpose & Equipment Compatibility
This parts guide is exclusively tailored for the Swivel Model-SL450 "LANSHOU LS-NOW" equipment, designed to address the critical needs of maintenance teams, industrial procurement professionals, and equipment operators who require reliable, high-performance replacement parts to minimize downtime. The core purpose of these parts is to ensure the smooth operation of the swivel mechanism—supporting rotational precision, load-bearing stability, and air-driven power transmission in industrial scenarios such as material handling, assembly line rotation, and heavy-duty machinery positioning. Each component is engineered to match the original equipment specifications, ensuring seamless compatibility and long-term operational efficiency.
Parts Classification by Functional Categories
1. Power Transmission Components
Scenario Anchoring: Critical for converting pneumatic energy into rotational motion and transferring torque within the Swivel Model-SL450. These components are exposed to continuous mechanical stress during high-frequency rotation, making their durability directly impact the equipment's power output and operational stability. Value Proposition: Precision-engineered to maintain optimal power transfer efficiency, reducing energy loss and extending the overall service life of the swivel mechanism. Pain Point Resolution: Addresses common issues such as power slippage, uneven torque distribution, and premature wear caused by misaligned or low-quality transmission parts.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | PNEUMATIC MOTOR | FMS-20 | Aluminum alloy housing, steel internal components | Contaminated air supply (moisture, debris), overloading beyond rated torque, insufficient lubrication | Install an air filter-dryer to maintain clean, dry air supply; avoid operating at torque levels exceeding the motor's rating; follow the manufacturer's guidelines for periodic lubrication with compatible lubricants |
2 | SMALL GEAR | 104.07.06.04 | High-carbon steel (heat-treated) | Tooth surface abrasion from metal-to-metal contact, impact loads during sudden starts/stops, misalignment with mating gears | Ensure proper gear meshing alignment during installation; apply high-pressure gear oil regularly; avoid abrupt start/stop operations to reduce impact loads |
3 | GEAR SHAFT | 104.07.06.24 | Alloy steel (quenched and tempered) | Bending fatigue from excessive radial loads, journal wear due to insufficient lubrication, corrosion from harsh environmental conditions | Monitor and control radial loads within the shaft's rated capacity; ensure continuous lubrication of shaft journals; protect the shaft from exposure to corrosive chemicals or moisture |
4 | GEAR | 104.07.06.27 | Nickel-chromium alloy steel | Tooth pitting from cyclic loading, scuffing due to inadequate lubrication, thermal expansion mismatch in high-temperature environments | Use lubricants with appropriate viscosity for operating temperatures; avoid overloading the gear train; ensure proper heat dissipation in high-temperature working conditions |
2. Bearing & Rotational Support Components
Scenario Anchoring: Essential for reducing friction during rotational movement of the swivel mechanism's shafts and gears, ensuring smooth operation and precise positioning. These components are critical in high-speed rotation scenarios where friction and heat buildup can lead to catastrophic equipment failure. Value Proposition: High-precision bearings and support parts minimize friction-induced wear, improve rotational accuracy, and enhance the equipment's ability to handle dynamic loads. Pain Point Resolution: Solves issues such as rotational jitter, excessive noise, and premature failure caused by low-quality bearings or improper installation.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | BEARING | 36110 | Chrome steel (GCr15), rubber seal | Contamination by dust/metal particles, insufficient grease, excessive axial loads | Clean the installation area thoroughly before fitting; replenish high-temperature resistant grease periodically; ensure the bearing is not subjected to loads beyond its axial capacity |
2 | BEARING | 8120 | High-carbon chromium steel, steel cage | Impact loads during equipment startup, misalignment of shaft and bearing seat, lack of lubrication | Align the shaft and bearing seat precisely during installation; use a soft hammer to fit the bearing to avoid impact damage; apply lubricating oil regularly to the bearing raceways |
3 | BEARING | 109 | Chrome steel, phenolic resin cage | Abrasion from contaminated lubricants, overheating due to high-speed operation, corrosion in humid environments | Replace lubricants at recommended intervals; ensure adequate heat dissipation during high-speed operation; store spare bearings in a dry, dust-free environment |
4 | BEARING | 8118 | Alloy steel, brass cage | Wear of cage due to excessive rotational speed, pitting of raceways from cyclic loads, improper mounting pressure | Do not exceed the maximum rated speed of the bearing; use a press-fit tool for installation to avoid uneven pressure on the bearing raceways; inspect cage integrity regularly |
5 | BEARING | 32510 | Chrome steel, double-row spherical roller design | Misalignment between inner and outer rings, heavy radial loads, contamination by water or chemicals | Allow for slight angular misalignment within the bearing's rated range; avoid overloading with radial loads; use protective covers to prevent water/chemical ingress |
6 | BEARING | 32207 | Chrome steel, tapered roller design | Incorrect preload adjustment, wear from metal debris, overheating in high-torque applications | Adjust preload according to the manufacturer's specifications during installation; install a debris filter in the lubrication system; monitor operating temperature to prevent overheating |
3. Structural Support & Mounting Components
Scenario Anchoring: Provide stable mounting and structural support for the swivel mechanism's core components, ensuring alignment and load-bearing capacity in industrial operating environments. These parts are subjected to static and dynamic loads during equipment operation.Value Proposition: Rigid, precision-manufactured structural parts maintain component alignment, reduce vibration, and enhance the overall stability of the Swivel Model-SL450. Pain Point Resolution: Addresses issues such as component misalignment, excessive vibration, and structural fatigue caused by low-strength or poorly fitted mounting parts.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | PEDESTAL | 104.07.06.03 | Cast iron (HT200) | Crack formation from impact loads, wear at mounting surfaces due to vibration, corrosion from environmental exposure | Avoid dropping or impacting the pedestal during handling; use anti-vibration gaskets between the pedestal and mounting surface; apply anti-corrosive paint to exposed surfaces |
2 | SPACER | 104.07.06.05 | Stainless steel (304) | Abrasion from axial movement of adjacent components, deformation from excessive pressure, corrosion in humid or chemical environments | Ensure the spacer is correctly sized to prevent axial movement; avoid over-tightening fasteners that compress the spacer; select corrosion-resistant material variants for harsh environments |
3 | SHIM | 104.07.06.26 | Carbon steel (galvanized) | Bending or deformation from uneven pressure, wear at contact surfaces, corrosion from moisture | Use multiple thin shims instead of a single thick one for better load distribution; ensure even pressure when tightening fasteners; store shims in a dry environment to prevent galvanization damage |
4 | FLAT KEY(14 X 28) | GB1096-79(14X28) | Mild steel (Q235) | Shear failure from excessive torque, wear at keyways, deformation from improper installation | Ensure the key fits tightly in both the shaft and hub keyways; avoid overloading the shaft beyond its torque capacity; use a hammer with a soft tip to install the key to prevent deformation |
5 | FLAT KEY (14 X 36) | GB1096-79(14X36) | Mild steel (Q235) | Shear stress from torque transmission, wear due to relative movement between key and keyway, corrosion | Lubricate the key and keyway lightly during installation to reduce friction; inspect keyway integrity regularly for signs of wear; replace keys if signs of shear or deformation are detected |
4. Sealing & Protective Components
Scenario Anchoring: Prevent the ingress of dust, moisture, and contaminants into the swivel mechanism's internal components, while also sealing lubricants to maintain operational efficiency. These parts are critical in harsh industrial environments with high levels of dust, moisture, or chemicals. Value Proposition: High-quality sealing components extend the service life of internal parts by preventing contamination, reducing lubricant loss, and protecting against corrosion. Pain Point Resolution: Solves issues such as internal component corrosion, lubricant degradation, and premature wear caused by contaminated environments.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | O-RING (16 X 2.4) | D4-4-66(16X2.4) | Nitrile rubber (NBR) | Abrasion from contact with rough surfaces, chemical degradation from incompatible lubricants, compression set from long-term static loading | Ensure sealing surfaces are smooth and free of burrs; use lubricants compatible with NBR rubber; replace O-rings if they show signs of hardening, cracking, or compression set |
2 | O-RING (175 X 8.6) | D4-4-66(175X8.6) | Nitrile rubber (NBR) | Excessive stretching during installation, wear from dynamic movement, damage from sharp edges on sealing grooves | Avoid over-stretching the O-ring during installation; inspect sealing grooves for sharp edges and deburr if necessary; ensure the O-ring is properly seated in the groove before assembly |
3 | O-RING (180 X 3.1) | D4-4-66(180X3.1) | Nitrile rubber (NBR) | Thermal degradation from high operating temperatures, chemical attack from industrial fluids, mechanical damage during assembly | Ensure operating temperatures are within the NBR rubber's range (-40°C to 120°C); avoid contact with incompatible chemicals (e.g., strong acids, ketones); use assembly tools with rounded edges to prevent damage |
4 | O-RING (110 X 5.7) | D4-4-66(110 X 5.7) | Nitrile rubber (NBR) | Wear from rotational movement, contamination by dust or debris, loss of elasticity due to aging | Clean the sealing area thoroughly before installation; apply a thin layer of compatible lubricant to the O-ring to reduce friction; replace O-rings periodically (every 6-12 months) regardless of visible wear |
5 | O-RING (60 X 3.1) | D4-4-66(60X3.1) | Nitrile rubber (NBR) | Abrasion from contact with moving parts, compression set from over-tightening, corrosion from moisture | Do not over-tighten fasteners that compress the O-ring; ensure there is no contact between the O-ring and rotating components; store spare O-rings in a cool, dry, and dark environment to prevent aging |
6 | WOOLEN RING | 104.07.06.35 | Wool fiber impregnated with oil-resistant resin | Clogging with dust and debris, oil saturation leading to reduced sealing efficiency, degradation from high temperatures | Clean the woolen ring regularly to remove accumulated dust; replace the ring when it becomes saturated with oil; avoid operating in environments with temperatures exceeding 100°C |
5. Friction & Wear Components
Scenario Anchoring: Absorb impact, reduce friction, and protect critical components during rotational and contact operations of the swivel mechanism. These parts are designed to wear sacrificially, extending the life of more expensive core components. Value Proposition: High-wear-resistant friction components minimize downtime by reducing the frequency of core component replacement, ensuring consistent performance during extended operation. Pain Point Resolution: Addresses issues such as excessive noise, component damage, and reduced operational efficiency caused by worn friction parts.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | OUT RUB PIECE I | 104.07.06.07 | Rubber-reinforced composite | Abrasion from contact with rotating surfaces, thermal degradation from friction heat, chemical attack from lubricants | Ensure proper alignment to distribute contact pressure evenly; monitor operating temperature to prevent overheating; use lubricants compatible with the composite material |
2 | OUT RUB PIECE II | 104.07.06.08 | Rubber-reinforced composite | Impact wear from sudden contact, uneven wear due to misalignment, aging from environmental exposure | Avoid sudden, forceful contact between the rub piece and mating surfaces; align the rub piece correctly during installation; store spare parts in a cool, dry environment to prevent aging |
3 | OUT RUB PIECE III | 104.07.06.09 | Rubber-reinforced composite | Wear from continuous contact, degradation from UV exposure (if used in outdoor environments), damage from foreign particles | Inspect for wear regularly and replace when the wear limit is reached; protect outdoor-installed parts from UV exposure with protective covers; keep the operating area clean of foreign particles |
4 | OUT RUB PIECE IV | 104.07.06.10 | Rubber-reinforced composite | Shear wear from rotational forces, compression set from long-term loading, damage from sharp edges | Ensure the rub piece is not subjected to forces beyond its shear capacity; avoid long-term static loading when the equipment is idle; inspect mating surfaces for sharp edges and deburr if necessary |
5 | OUT RUB PIECE V | 104.07.06.11 | Rubber-reinforced composite | Abrasion from high-speed contact, thermal fatigue from repeated heating/cooling cycles, chemical degradation | Avoid operating at speeds exceeding the rub piece's rated limit; allow the equipment to cool down between extended operation cycles; use compatible cleaning agents to avoid chemical damage |
6 | INNER RUB PIECE I | 104.07.06.31 | High-density rubber composite | Wear from confined-space contact, contamination by internal debris, compression set from tight fitting | Clean the internal assembly area thoroughly before installation; ensure the rub piece is correctly sized for the confined space; inspect for compression set during routine maintenance |
7 | INNER RUB PIECE II | 104.07.06.32 | High-density rubber composite | Impact wear from internal component movement, uneven wear due to misalignment, aging from lubricant exposure | Align internal components precisely to distribute contact evenly; replace lubricants regularly to prevent degradation of the rubber; replace rub pieces if signs of cracking or hardening are detected |
8 | INNER RUB PIECE III | 104.07.06.33 | High-density rubber composite | Wear from continuous rotational contact, thermal degradation from internal heat buildup, damage from metal particles | Ensure adequate internal ventilation to reduce heat buildup; install a debris filter in the lubrication system; inspect for metal particles in the oil during oil changes |
6. Cover & Enclosure Components
Scenario Anchoring: Protect internal components of the swivel mechanism from external contamination, physical damage, and operator injury. These parts also help maintain the integrity of the lubrication system and internal pressure. Value Proposition: Durable cover components enhance equipment safety, extend internal part life, and simplify maintenance by providing easy access to critical components. Pain Point Resolution: Solves issues such as internal component damage from foreign objects, lubricant leakage, and safety hazards caused by exposed moving parts.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | OUTER JOIN COVER | 104.07.06.06 | Aluminum alloy | Impact damage from external objects, corrosion from environmental exposure, gasket wear leading to leakage | Install protective guards around the cover in high-traffic areas; apply anti-corrosive coating to exposed surfaces; replace gaskets whenever the cover is removed |
2 | INNER JOIN COVER | 104.07.06.34 | Aluminum alloy | Wear at mounting points due to vibration, corrosion from internal moisture, deformation from over-tightening fasteners | Use lock washers to prevent fastener loosening from vibration; ensure the internal environment is dry to prevent corrosion; tighten fasteners to the manufacturer's recommended torque |
3 | ADDING POWER COVER | 104.07.06.16 | Steel (painted) | Corrosion from moisture and chemicals, paint peeling leading to rust, impact damage | Touch up paint scratches promptly to prevent rust; avoid exposure to corrosive chemicals; handle the cover carefully during maintenance to avoid impact |
4 | SHUCK | 104.07.06.21 | Sheet steel (galvanized) | Bending or deformation from external pressure, corrosion at galvanization weak points, wear at mating surfaces | Avoid applying excessive pressure to the shuck during installation or operation; inspect galvanization for damage and repair with zinc-rich paint; ensure mating surfaces are clean and smooth |
7. Clutch & Spring Components
Scenario Anchoring: Control power transmission and provide elastic support in the swivel mechanism, ensuring smooth engagement/disengagement of rotational components and absorbing shock loads. These parts are critical for maintaining operational safety and stability. Value Proposition: Precision-manufactured clutch and spring components ensure reliable power control, reduce shock loads, and enhance the equipment's ability to handle variable operating conditions. Pain Point Resolution: Addresses issues such as clutch slippage, spring fatigue failure, and shock-induced component damage.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | CLUTCH BODY | 104.07.06.20 | Alloy steel (heat-treated) | Wear at engagement surfaces, thermal fatigue from repeated engagement/disengagement, corrosion | Ensure proper clutch adjustment to avoid slipping; allow the clutch to cool between frequent engagement cycles; apply anti-corrosive lubricant to engagement surfaces |
2 | SPRING | 104.07.06.17-1 | Spring steel (65Mn) | Fatigue failure from repeated compression/extension, corrosion, deformation from overloading | Avoid compressing the spring beyond its maximum rated length; inspect springs regularly for signs of fatigue (e.g., cracks, permanent deformation); store spare springs in a dry environment |
3 | SPRING SEAT | 104.07.06.18 | Carbon steel | Abrasion from spring contact, deformation from uneven pressure, corrosion | Ensure the spring seat is properly aligned to distribute pressure evenly; replace the seat if contact surfaces show excessive wear; apply a thin layer of anti-corrosive oil to the seat |
4 | PISTON | 104.07.06.22 | Aluminum alloy | Wear at cylinder walls, corrosion from hydraulic/pneumatic fluids, damage from foreign particles | Ensure the cylinder is clean before installing the piston; use fluids compatible with aluminum alloy; install a filter in the fluid line to prevent foreign particle ingress |
8. Pneumatic Pipeline Component
Scenario Anchoring: Transports compressed air to the pneumatic motor, ensuring reliable power supply to the swivel mechanism. This component is critical for maintaining consistent air pressure and flow rate. Value Proposition: High-quality pipeline components minimize air leakage, ensure stable power supply, and reduce energy consumption. Pain Point Resolution: Solves issues such as insufficient air pressure, air leakage, and inconsistent motor performance caused by low-quality or damaged pipelines.
No. | Part Name | Part No | Material | Key Wear Causes | Damage Prevention Notes |
1 | PIPE | 104.07.02.03 | Copper | Bending fatigue from vibration, corrosion from moisture in compressed air, damage from external impact | Avoid sharp bends when routing the pipe; install an air dryer to remove moisture from compressed air; use pipe clamps to secure the pipe and reduce vibration |
Procurement & Maintenance Guidelines
To ensure the optimal performance and longevity of your Swivel Model-SL450 "LANSHOU LS-NOW", we recommend adhering to the following procurement and maintenance guidelines:
1. Procurement Standards: Source parts exclusively from authorized suppliers to guarantee compatibility with the original equipment. Verify that each part matches the specified part number and material requirements outlined in this guide.
2. Pre-Installation Inspection: Before installing any replacement part, inspect it for signs of damage, deformation, or contamination. Ensure all mating surfaces are clean and free of burrs or debris.
3. Routine Maintenance: Follow a regular maintenance schedule to inspect critical components (e.g., bearings, seals, friction parts) for wear. Replace wear parts promptly when they reach the manufacturer's recommended wear limit.
4. Lubrication Management: Use only lubricants compatible with the material of each component. Maintain proper lubricant levels and replace lubricants at the recommended intervals to prevent component damage.
5. Environmental Protection: Protect the equipment and its components from harsh environmental conditions (e.g., excessive moisture, corrosive chemicals, extreme temperatures) to reduce premature wear and corrosion.
Call to Action
Ensure the continuous, reliable operation of your Swivel Model-SL450 "LANSHOU LS-NOW" by choosing high-quality, compatible replacement parts. Our parts are engineered to meet or exceed original equipment specifications, providing you with the durability and performance you need to minimize downtime and maximize productivity. For inquiries about part availability, pricing, or technical support, please contact our sales team today. Invest in the right parts for your equipment—your operational efficiency depends on it.