Planetaire tandwieloverbrenging voor aardappelrooimachines
The planetary wheel drive gearbox for potato harvesters is a compact epicyclic gear system engineered for torque multiplication and speed reduction in agricultural equipment. In the context of potato harvesters, this gearbox is typically installed on the drive axle to transmit power from the engine or hydraulic motor to the wheels, providing essential torque and speed adjustments for optimal performance on uneven terrain during cutting, gathering, and harvesting operations.
The planetary wheel drive gearbox for potato harvesters is a compact epicyclic gear system engineered for torque multiplication and speed reduction in agricultural equipment. It consists of a central sun gear, multiple orbiting planet gears mounted on a carrier, and an outer ring gear, enabling high torque output within a space-efficient design suitable for integration with wheels or hubs. In the context of potato harvesters, this wheel drive gearbox is typically installed on the drive axle to transmit power from the engine or hydraulic motor to the wheels, providing essential torque and speed adjustments for optimal performance on uneven terrain during cutting, gathering, and harvesting operations. Key functions include enhancing traction, stability, and precise power delivery under heavy loads, which improves efficiency in separating potatoes from soil while minimizing fuel consumption and tire wear.
Afmetingen van de planetaire wielaandrijving
Technische definities
| Symbolen | Meeteenheden | Beschrijving |
| i | - | Reductieverhouding |
| T2max | [Nm] | Maximaal uitgangskoppel |
| T2p | [Nm] | Maximaal uitgangskoppel |
| T2maxint | [Nm] | Maximaal intermitterend koppel |
| T2cont | [Nm] | Continu uitgangskoppel |
| Pcont | [kW] | Maximaal continu vermogen |
| Pint | [kW] | Maximaal intermitterend vermogen |
| n1max | [rpm] | Maximale invoersnelheid |
| n2max | [rpm] | Maximale uitvoersnelheid |
GR 80
| Type | Motordisp. [cc] | Totale afvoer. [cc] | i | Koppel | Snelheid n2max | Stroom | |||||||
| T2cont | T2maxint | T2p | Pcont [kW] | Pint [kW] | |||||||||
| [Nm] | Δp [bar] | [Nm] | Δp [bar] | [Nm] | Δp [bar] | [rpm] | portata stroom [l/min] | ||||||
| GR80-MR50 | 51,6 | 269,9 | 5,23 | 470 | 145 | 570 | 175 | 630 | 205 | 115 | 30 | 5,5 | 7 |
| GR80-MR80 | 80,3 | 420,0 | 800 | 145 | 960 | 175 | 1060 | 205 | 68 | 30 | 5,5 | 7 | |
| GR80-MR100 | 99,8 | 522,0 | 800 | 115 | 1000 | 145 | 1310 | 205 | 55 | 30 | 5,5 | 7 | |
| GR80-MR125 | 125,7 | 657,4 | 800 | 95 | 1000 | 120 | 1500 | 190 | 45 | 30 | 5,5 | 7 | |
| GR80-MR160 | 159,6 | 834,7 | 800 | 75 | 1000 | 95 | 1500 | 145 | 33 | 30 | 5 | 7 | |
| GR80-MR200 | 199,8 | 1045,0 | 800 | 60 | 1000 | 75 | 1500 | 115 | 26 | 30 | 5 | 7 | |
| GR80-MR250 | 249,3 | 1303,8 | 800 | 50 | 1000 | 60 | 1500 | 95 | 21 | 30 | 4,5 | 6 | |
GR 200
| Type | Motordisp. [cc] | Totale afvoer. [cc] | i | Koppel | Snelheid n2max | Stroom | |||||||
| T2vervolg | T2maxint | T2p | Pcont [kW] | Pint [kW] | |||||||||
| [Nm] | Δp [bar] | [Nm] | Δp [bar] | [Nm] | Δp [bar] | [rpm] | portata stroom [l/min] | ||||||
| GR200-MR50 | 51,6 | 319,9 | 6,20 | 560 | 145 | 670 | 175 | 740 | 205 | 98 | 30 | 5,5 | 7 |
| GR200-MR80 | 80,3 | 497,9 | 950 | 145 | 1150 | 175 | 1250 | 205 | 58 | 30 | 5,5 | 7 | |
| GR200-MR100 | 99,8 | 618,8 | 1180 | 145 | 1420 | 175 | 1560 | 205 | 46 | 30 | 5,5 | 7 | |
| GR200-MR125 | 125,7 | 779,3 | 1450 | 145 | 1750 | 175 | 1920 | 205 | 38 | 30 | 5,5 | 7 | |
| GR200-MR160 | 159,6 | 989,5 | 1600 | 125 | 2100 | 165 | 2450 | 205 | 29 | 30 | 5 | 7 | |
| GR200-MR200 | 199,8 | 1238,8 | 1600 | 100 | 2150 | 135 | 2500 | 165 | 23 | 30 | 5 | 7 | |
| GR200-MR250 | 249,3 | 1545,7 | 1600 | 80 | 2150 | 105 | 2500 | 135 | 18 | 30 | 4,5 | 6 | |
| GR200-MR315 | 315,7 | 1957,3 | 1600 | 65 | 2150 | 85 | 2500 | 110 | 15 | 30 | 4 | 5 | |
| GR200-MR375 | 372,6 | 2310,1 | 1600 | 55 | 2150 | 70 | 2500 | 90 | 12 | 30 | 3,5 | 4,5 | |
EH 210
| Type | Gewicht | Oliehoeveelheid | i (da÷a / From÷to) | T2max [Nm] | n1max [rpm] | ||||
| EH 212 | EH 213 | EH 212 | EH 213 | EH 212 | EH 213 | ||||
| EH 210 S | 35 | 40 | 0.8 | 1 | 11 ÷ 29 | 41 ÷ 129 | 3950 | 3500 | |
| EH 210 SC | |||||||||
| EH 210 PD | - | - | |||||||
EH 240
| Type | Gewicht | Oliehoeveelheid | i (da÷a / From÷to) | T2max [Nm] | n1max [rpm] | ||||
| EH 242 | EH 243 | EH 242 | EH 243 | EH 242 | EH 243 | ||||
| EH 240 S | 35 | 40 | 0.8 | 1 | 12 ÷ 31 | 45 ÷ 135 | 5600 | 3500 | |
| EH 240 SC | |||||||||
| EH 240 PD | - | - | |||||||
EH 350
| Type | Gewicht | Oliehoeveelheid | i (da÷a / From÷to) | T2max [Nm] | n1max [rpm] | ||||
| EH 352 | EH 353 | EH 352 | EH 353 | EH 352 | EH 353 | ||||
| EH 350 S | 55 | 60 | 1 | 1.2 | 15 ÷ 31 | 52 ÷ 135 | 7200 | 3500 | |
| EH 350 PD | |||||||||
EH 610
| Type | Gewicht | Oliehoeveelheid | i (da÷a / From÷to) | T2max [Nm] | n1max [rpm] | ||||
| EH 612 | EH 613 | EH 612 | EH 613 | EH 612 | EH 613 | ||||
| EH 610 S | 60 | 70 | 1.2 | 1.5 | 12 ÷ 31 | 47 ÷ 138 | 13500 | 3500 | |
| EH 610 PD | |||||||||
EH 910
| Type | Gewicht | Oliehoeveelheid | i (da÷a / From÷to) | T2max | n1max | |
| EH 913 | EH 913 | EH 913 | [Nm] | [rpm] | ||
| EH 910 S | 130 | 1 | 47 ÷ 131 | 24200 | 3500 | |
| EH 910 PD | ||||||
S-versie
| Maat | Afmetingen | ||||||||||
| D1 | D2 | D3 | D4 | D5 | D6 | D7 | D8 | L1 | L2 | L3 | |
| EH 210 S | 230 | 200 | 180 h9 | 190 h9 | 210 | 229.5 | M10 nr. 8 | M10 nr. 8 | 253 | 73 | 180 |
| EH 240 S | 230 | 200 | 180 h9 | 190 h9 | 210 | 229.5 | M10 nr. 8 | M10 nr. 8 | 253 | 73 | 180 |
| EH 350 S | 270 | 230 | 190 h8 | 200 uur | 240 | 280 | M16 nr. 8 | M16 nr. 8 | 242 | 107 | 178 |
| EH 610 S | 260 | 230 | 190 f7 | 220 uur | 260 | 286 | M16 nr. 12 | M16 nr. 16 | 243 | 72 | 171 |
| EH 910 S | 330 | 300 | 270 f7 | 280 uur | 350 | 370 | M16 nr. 18 | M16 nr. 18 | 368 | 115 | 253 |
PD-versie
| Maat | Afmetingen | ||||||||||
| D1 | D2 | D3 | D4 | D5 | D6 | D7 | D8 | L1 | L2 | L3 | |
| EH 210 PD | 230 | 200 | 180 h9 | 160.8 f8 | 205 | 240 | M10 (8x) | M18x1.5 (6x) | 210 | 140 | 70 |
| EH 240 PD | 230 | 200 | 180 h9 | 160.8 f8 | 205 | 240 | M10 (8x) | M18x1.5 (6x) | 210 | 140 | 70 |
| EH 350 PD | 240 | 209.55 | 177.8 h8 | 200 uur | 241.3 | 280 | 5/8"-11 UNC (6x) | 5/8"-19 UNF (9x) | 285 | 107 | 178 |
| EH 610 PD | 260 | 230 | 190 f7 | 220 uur | 275 | 310 | M16 (12x) | M20x1.5 (8x) | 293 | 72 | 221 |
| EH 910 PD | 330 | 300 | 270 f7 | 280 uur | 335 | 375 | M16 (18x) | M22x1.5 (10x) | 368 | 115 | 253 |
Benefits of Wheel Drive Planetary Gearbox for Potato Harvesters
- Enhanced Torque Transmission
The planetary design provides high torque density by distributing loads across multiple planet gears, allowing potato harvesters to handle heavy soil resistance and large crop volumes without power loss, thereby improving digging and lifting efficiency in varied conditions. - Compact en ruimtebesparend ontwerp
Featuring a concentric input and output shaft arrangement, this wheel drive planetary gearbox integrates seamlessly into the wheel hubs of potato harvesters, reducing overall machine size while maintaining high performance, which facilitates better maneuverability in confined farmland spaces. - Verbeterde grip en stabiliteit
By delivering consistent power to the wheels, the planetary wheel drive enhances traction on uneven or slippery terrain common in potato fields, minimizing slippage and ensuring stable operation during harvesting, which ultimately boosts productivity and reduces crop damage. - Superieure duurzaamheid en betrouwbaarheid
Constructed with robust materials and load-sharing mechanisms, the planetary gearbox withstands harsh agricultural conditions, including dust, moisture, and vibrations, leading to extended service life and lower maintenance costs for potato harvesters over prolonged use. - Versatile Speed and Ratio Adjustments
Offering a wide range of gear ratios, this planetary wheel drive gearbox allows precise control over output speeds to match specific harvesting requirements, such as adjusting for different soil types or crop densities, thereby optimizing fuel efficiency and operational flexibility in potato farming. - Increased Overall Efficiency
Through efficient power distribution and minimal energy loss, the wheel drive planetary gear reducer enhances the fuel economy and performance of potato harvesters, enabling faster harvesting cycles while reducing operational costs and environmental impact in modern agricultural practices.
Planetary Wheel Drive Gearbox Application Industry
- Landbouwindustrie
In agriculture, planetary wheel drive gearboxes are integrated into machinery such as potato harvesters, tractors, and combine harvesters to provide enhanced torque for navigating uneven terrain, improving traction during soil tilling and crop collection while reducing operational downtime and fuel consumption in large-scale farming operations. - Mijnbouw
Within mining operations, these planetary gearboxes power haul trucks, underground loaders, and drilling rigs through wheel drives, offering high load-bearing capacity to handle extreme pressures and abrasive environments, which optimizes extraction efficiency and minimizes maintenance in resource-intensive extraction processes. - Bouwsector
Construction equipment like excavators, wheel loaders, and bulldozers utilize wheel drive planetary gearboxes for wheel and track drives, enabling robust torque transmission essential for heavy lifting, digging, and material movement on rugged sites, thereby enhancing machine stability and productivity in infrastructure projects. - Bosbouwindustrie
Forestry machinery, including log loaders, forwarders, and harvesters, employs planetary wheel drives for superior propulsion in dense woodlands, delivering consistent power distribution to wheels for traversing soft or sloped ground, thus facilitating timber harvesting with reduced soil compaction and increased operational safety. - Material Handling and Logistics Industry
In material handling, planetary gearbox reducers are applied in automated guided vehicles (AGVs), forklifts, and conveyor systems for precise speed reduction and torque amplification, supporting seamless warehouse operations, cargo transport, and inventory management with enhanced maneuverability and energy efficiency. - Municipal and Utility Vehicles Industry
Municipal vehicles such as street sweepers, refuse trucks, and utility maintenance equipment incorporate these planetary gear reducers in wheel drives to ensure reliable performance in urban environments, providing the necessary torque for continuous operation while adapting to variable loads and contributing to sustainable public service infrastructure.
 |  |
| Planetaire wielaandrijving voor mijnbouwkippers | Planetaire aandrijving voor ondergrondse boormachines (Jumbo's) |
 |  |
| Planetary Wheel Drive for Wheat Seeders | Planetaire wielaandrijving voor wielkranen |
Planetaire tandwielkast voor wielaandrijving Oliesmering
- Prepare the Equipment and Workspace
Begin by ensuring the wheel drive planetary gearbox is powered off and cooled down to prevent accidents, while gathering necessary tools including drain pans, wrenches, and protective gear. Consult the manual's manual for specific oil type recommendations and safety protocols, verifying compatibility with operational conditions like temperature and load to avoid lubrication failures during subsequent steps. - Drain the Existing Oil
Position a collection container beneath the drain plug and remove it to allow the old oil to fully drain from the gearbox housing, which may take several minutes depending on viscosity and volume. This step eliminates contaminated lubricant containing debris, wear particles, and degraded additives, preparing the system for fresh oil and preventing potential damage to internal gears and bearings. - Clean the Gearbox Interior
Flush the planetary gearbox with a compatible cleaning solvent or low-viscosity oil to remove residual sludge, contaminants, and metal shavings accumulated from operation, using compressed air if necessary to dry the components. Thorough cleaning ensures no foreign particles interfere with new lubrication, enhancing the efficiency of torque transmission in wheel drive applications under heavy loads. - Inspect Components for Wear
Examine internal elements such as gears, bearings, and seals for signs of damage, corrosion, or excessive wear while the planetary reduction gearbox is open, replacing any faulty parts as needed. This inspection step is crucial for planetary wheel drive gearboxes in rugged environments, as it identifies issues early, ensuring reliable performance and minimizing downtime during high-torque operations like those in potato harvesters. - Select and Add New Lubricant
Choose the appropriate oil type, based on planetary gear reducer specifications and operating conditions, then fill the housing to the recommended level, typically 30-50% for synthetic oils in hot environments. Proper selection and addition prevent overheating and friction, optimizing lubrication for splash or forced methods in wheel drive systems. - Verify Levels and Test Operation
Reinstall plugs and check oil levels using the dipstick or sight glass to confirm they align with manual guidelines, then run the gearbox at low speed to distribute the lubricant evenly while monitoring for leaks or unusual noises. This final verification ensures effective lubrication circulation, supporting long-term durability and efficiency in planetary wheel drives under variable field conditions.
Extra informatie
| Bewerkt door | Yjx |
|---|
