Planetary Wheel Drive Gearbox for Forage Harvesters
The planetary wheel drive gearbox for forage harvesters is a compact, epicyclic gear system engineered for torque multiplication and speed reduction, integrating directly with wheels or hubs to propel heavy-duty agricultural machinery. It comprises a central sun gear, multiple planet gears orbiting within a ring gear, and a carrier, enabling efficient power transmission under high loads. In forage harvesters, this planetary gearbox drives the wheels, providing essential traction and stability on uneven terrain during crop cutting, chopping, and collection operations.
The planetary wheel drive gearbox for forage harvesters is a compact, epicyclic gear system engineered for torque multiplication and speed reduction, integrating directly with wheels or hubs to propel heavy-duty agricultural machinery. It comprises a central sun gear, multiple planet gears orbiting within a ring gear, and a carrier, enabling efficient power transmission under high loads. In forage harvesters, this planetary gearbox drives the wheels, providing essential traction and stability on uneven terrain during crop cutting, chopping, and collection operations.
Key features include a robust, modular design with high torque capacities, gear ratios, integrated multi-disk parking brakes, and options for hydraulic or electric motors, ensuring low-noise operation and simple maintenance. Benefits encompass enhanced durability, fuel efficiency, and reliability in off-road environments, reducing downtime and supporting high-load tasks like harvesting silage crops. Customizable variants allow adaptation to specific harvester models, optimizing performance and contributing to overall machine productivity.
유성 기어 휠 구동 장치 치수
기술적 정의
| 기호 | 측정 단위 | 설명 |
| 나 | - | 감소율 |
| 티2맥스 | [nm] | 최대 출력 토크 |
| 티2피 | [nm] | 최대 출력 토크 |
| T2maxint | [nm] | 최대 간헐적 토크 |
| T2cont | [nm] | 연속 출력 토크 |
| Pcont | [kW] | 최대 연속 출력 |
| 파인트 | [kW] | 최대 간헐적 전력 |
| n1max | [rpm] | 최대 입력 속도 |
| n2max | [rpm] | 최대 출력 속도 |
GR 80
| 유형 | 모터 디스플레이 [cc] | 총 배분 [cc] | 나 | 토크 | 속도 n2max | 힘 | |||||||
| T2cont | T2maxint | 티2피 | Pcont [kW] | 파인트 [kW] | |||||||||
| [nm] | Δp [막대] | [nm] | Δp [막대] | [nm] | Δp [막대] | [rpm] | 포르타타 흐름 [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
| 유형 | 모터 디스플레이 [cc] | 총 배분 [cc] | 나 | 토크 | 속도 n2최대 | 힘 | |||||||
| 티2계속 | 티2맥신트 | 티2p | Pcont [kW] | 파인트 [kW] | |||||||||
| [nm] | Δp [막대] | [nm] | Δp [막대] | [nm] | Δp [막대] | [rpm] | 포르타타 흐름 [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
| 유형 | 무게 | 오일량 | 이 (다÷아 / 부터÷까지) | 티2맥스 [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
| 유형 | 무게 | 오일량 | 이 (다÷아 / 부터÷까지) | 티2맥스 [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
| 유형 | 무게 | 오일량 | 이 (다÷아 / 부터÷까지) | 티2맥스 [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
| 유형 | 무게 | 오일량 | 이 (다÷아 / 부터÷까지) | 티2맥스 [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
| 유형 | 무게 | 오일량 | 이 (다÷아 / 부터÷까지) | 티2맥스 | n1max | |
| EH 913 | EH 913 | EH 913 | [nm] | [rpm] | ||
| EH 910 S | 130 | 1 | 47 ÷ 131 | 24200 | 3500 | |
| EH 910 PD | ||||||
S 버전
| 크기 | 치수 | ||||||||||
| 디1 | 디2 | 디3 | 디4 | 디5 | 디6 | 디7 | 디8 | L1 | L2 | L3 | |
| EH 210 S | 230 | 200 | 180 h9 | 190 h9 | 210 | 229.5 | M10 8호 | M10 8호 | 253 | 73 | 180 |
| EH 240 S | 230 | 200 | 180 h9 | 190 h9 | 210 | 229.5 | M10 8호 | M10 8호 | 253 | 73 | 180 |
| EH 350 S | 270 | 230 | 190 h8 | 200시간7 | 240 | 280 | M16 8호 | M16 8호 | 242 | 107 | 178 |
| EH 610 S | 260 | 230 | 190 f7 | 220시간 7일 | 260 | 286 | M16 12호 | M16 16호 | 243 | 72 | 171 |
| EH 910 S | 330 | 300 | 270 f7 | 280시간 7일 | 350 | 370 | M16 18호 | M16 18호 | 368 | 115 | 253 |
PD 버전
| 크기 | 치수 | ||||||||||
| 디1 | 디2 | 디3 | 디4 | 디5 | 디6 | 디7 | 디8 | L1 | L2 | L3 | |
| EH 210 PD | 230 | 200 | 180 h9 | 160.8 f8 | 205 | 240 | M10(8x) | M18x1.5 (6개) | 210 | 140 | 70 |
| EH 240 PD | 230 | 200 | 180 h9 | 160.8 f8 | 205 | 240 | M10(8x) | M18x1.5 (6개) | 210 | 140 | 70 |
| EH 350 PD | 240 | 209.55 | 177.8 h8 | 200시간7 | 241.3 | 280 | 5/8"-11 UNC (6개) | 5/8"-19 UNF (9x) | 285 | 107 | 178 |
| EH 610 PD | 260 | 230 | 190 f7 | 220시간 7일 | 275 | 310 | M16(12배) | M20x1.5 (8x) | 293 | 72 | 221 |
| EH 910 PD | 330 | 300 | 270 f7 | 280시간 7일 | 335 | 375 | M16(18배) | M22x1.5 (10개) | 368 | 115 | 253 |
Forage Harvester Planetary Wheel Drive Gearbox Benefits
- Compact Design and High Power Density
The planetary gearbox's coaxial shaft arrangement and multiple planet gears enable a highly compact structure, allowing forage harvesters to achieve substantial torque multiplication within limited space, ideal for wheel drives in rugged terrain. This results in lighter overall machine weight, improved maneuverability, and easier integration into self-propelled harvesters without compromising performance. - Superior Torque Transmission Capacity
By distributing load across multiple planet gears, this planetary wheel drive gearbox handles high torque levels, essential for powering forage harvester wheels through dense crops and uneven fields. This shared load mechanism enhances the machine's ability to manage heavy-duty tasks like chopping and collecting silage, reducing strain on individual components and extending operational lifespan. - Exceptional Efficiency and Reduced Energy Loss
Planetary wheel drives achieve efficiency rates up to 97% per stage due to their gearing arrangement, which minimizes power losses during transmission in forage harvesters. This translates to lower fuel consumption, optimized hydraulic or electric motor performance, and sustained high-speed operations, contributing to cost savings and environmental sustainability in agricultural applications. - Enhanced Durability and Resistance to Shock Loads
The even distribution of mass and rotational stiffness in planetary wheel drives provides superior stability, making them resilient to impacts and vibrations common in forage harvesting on off-road terrains. With features like integrated brakes for emergency stops, these gearboxes ensure reliable performance, minimizing downtime and maintenance needs in high-load scenarios. - Flexible Gear Ratios for Versatile Operation
Offering reduction ratios in a compact form, wheel drive gearboxes allow forage harvesters to adapt speeds seamlessly for various crop conditions, from slow, high-torque cutting to faster transport modes. This versatility supports multi-stage configurations, enabling precise control and improved productivity across diverse farming tasks. - Improved Stability and Load Sharing
The design's equal torque distribution among planet gears ensures balanced operation, reducing elastic deflections and extending gear life in forage harvesters. This stability is crucial for maintaining traction on uneven ground, preventing premature wear, and supporting heavy payloads during extended harvesting sessions, ultimately boosting machine reliability and operator safety.
Wheel Drive Planetary Gear Reducer Uses
- 농업 기계
In agriculture, wheel drive planetary gearboxes are employed in tractors, combine harvesters, forage harvesters, wheat seeders, boom sprayers, and corn planters to deliver high torque for navigating uneven terrain and heavy loads. Their compact design ensures seamless integration into wheel hubs, enhancing traction, reducing slippage, and improving overall machine efficiency during planting, harvesting, and soil cultivation tasks. - 건설 장비
These gearboxes power wheel and track drives in excavators, wheel loaders, bulldozers, road reclaimers, motor graders, cold planers, and asphalt pavers, offering superior torque multiplication for handling rugged construction sites. They enable precise control under high shock loads, minimize downtime through durable construction, and support heavy-duty operations like earthmoving and material transport. - 자동 유도 차량(AGV)
Utilized in warehouse automation and manufacturing, planetary wheel drive gearboxes facilitate smooth, precise mobility for AGVs transporting goods. Their high efficiency and low backlash ensure reliable navigation in confined spaces, boosting productivity while accommodating variable speeds and loads in logistics environments. - 광업 산업
In mining operations, these planetary gear reducers drive dump trucks, wheel loaders, drill rigs, and wheel dozers, providing robust torque for extreme conditions like steep inclines and abrasive environments. They enhance vehicle stability, resist shock loads, and extend service life, contributing to safer and more efficient extraction processes. - 임업 장비
Applied in forwarders, harvesters, and skidders, planetary wheel drives offer high torque density for traversing forested terrains with heavy timber loads. Their modular design allows customization for variable speeds, improving grip on soft ground and reducing environmental impact during logging activities.
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| 옥수수 심는 기계용 행성형 휠 드라이브 | 콤바인 수확기용 행성형 휠 드라이브 |
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| 광산 덤프 트럭용 행성 휠 드라이브 | 도로 재활용기용 행성 휠 드라이브 |
Wheel Drive Planetary Gearbox Parts
- 선 기어
The sun gear serves as the central input component in a wheel drive planetary gearbox, meshing with multiple planet gears to initiate torque transmission. Typically made from high-strength alloy steel for durability, it rotates at high speeds, enabling efficient power distribution and speed reduction essential for wheel propulsion in heavy equipment like harvesters and loaders. - 플래닛 기어스
These are multiple satellite gears that orbit the sun gear while engaging the outer ring gear, distributing load evenly to enhance torque multiplication in wheel drive applications. Constructed with precision teeth for minimal backlash, they rotate on pins attached to the carrier, providing stability and reducing wear under high-load conditions in off-road vehicles. - 링 기어
The ring gear forms the outer stationary or rotating enclosure with internal teeth that mesh with the planet gears, facilitating torque output to the wheel hub. Often integrated into the gearbox housing for compactness, it ensures smooth power flow, high gear ratios, and resistance to radial forces in demanding environments like construction and agriculture. - 플래닛 캐리어
This component holds the planet gears in position, connecting them to the output shaft or wheel flange to transmit combined torque effectively. Designed for robustness with forged materials, it rotates as a unit, supporting multi-stage configurations and contributing to the gearbox's overall efficiency and load-sharing capabilities in wheel drives. - 문장
Bearings in wheel drive gearboxes support rotating elements like shafts and carriers, minimizing friction and ensuring alignment under axial and radial loads. High-quality roller or ball bearings are used for longevity, preventing premature failure and enabling smooth operation in high-vibration settings such as mining equipment and automated vehicles. - Housing and Seals
The housing encases all internal components, providing structural integrity and protection against contaminants in rugged wheel drive applications. Paired with advanced seals like oil or labyrinth types, it prevents lubricant leakage, maintains internal pressure, and extends service life by shielding gears from dust, moisture, and extreme temperatures in industrial use.
추가 정보
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