제품 설명
제품 설명
compact structure stainless steel heavy duty helical gearbox Planetary gear reducers for DC motor
HangZhou Fubao Electromechanical Technology Co., Ltd. helical gearbox Planetary gear reducers 는 당사가 독자적으로 개발한 신세대 실용 제품입니다.
낮은 소음: 65db 이하.
허리 높이 여유: CZPT에서는 최대 3분각, 더블 스테이지에서는 최대 5분각.
높은 토크: 표준 행성 감속기 토크보다 높습니다.
높은 안정성: 고강도 합금강, 전체 기어는 경화 처리 후 표면만 딱딱하게 치환되지 않습니다.
높은 감속비: 모듈식 설계, 행성 기어박스를 상호 연결할 수 있습니다.
helical gearbox Planetary gear reducers 특성:
1. 유성 감속기 제조업체-푸바오 일렉트로메카니컬 테크놀로지는 유성 캐리어와 출력 샤프트를 통합하여 더 나은 비틀림 강성을 제공합니다. 정밀 가공 후 기어 세트는 편심이 발생하지 않아 간섭을 줄이고 마모와 소음을 줄이며, 동시에 넓은 베어링 스팬을 사용하여 베어링의 하중을 분산시켜 토크 강성과 레이디얼 하중 용량을 다시 한번 강화합니다. helical gearbox Planetary gear reducers출력 커버는 알루미늄 합금으로 제작되어 제품의 방열 성능이 더욱 우수하여 Fubao Electromechanical Technology에서 생산한 감속기는 기계 공구 분야에서 탁월한 역할을 수행할 수 있습니다.
2. 유성 기어 세트는 합금강으로 특수 제작되었습니다. 먼저 담금질 및 템퍼링 열처리를 통해 소재 경도를 HRC30도에 도달시킨 후, 질화 표면 처리를 통해 HV860까지 향상시켜 제품의 표면 경도와 중심부의 인성을 향상시키고, 최상의 제품 강도와 수명을 최적화합니다.
3. 입력축과 모터 출력축은 볼트 구조로 연결되고, 원형 샤프트 씰을 적용하여 설계되었으며, 동적 평형 해석을 통해 고속에서도 편심 하중이 발생하지 않도록 보장합니다. 불필요한 반경 방향 힘을 줄임으로써 모터 측의 부하를 효과적으로 줄일 수 있습니다.
4. 입력 커버/모터 연결 시트의 재질은 알루미늄 합금으로 제작되어 방열 효과가 우수하며, 전문적인 선반 가공을 통해 우수한 동심도와 수직도를 확보하여 다양한 모터와 안정적으로 결합할 수 있도록 하여 정밀도 부족으로 인한 손상을 줄였습니다. 불필요한 축 방향 반경 방향 힘은 제품 수명을 연장합니다.
다른 감속기와 비교했을 때, helical gearbox Planetary gear reducers 기계는 높은 강성, 높은 정밀도(단일 단계는 1포인트 이내에서 달성 가능), 높은 전달 효율(97-98%의 경우 단일 단계), 높은 토크/부피 비율, 평생 유지 보수가 필요 없는 등의 특성을 가지고 있습니다.
이러한 특성으로 인해,helical gearbox Planetary gear reducers 주로 스테퍼 모터와 서보 모터에 설치되며, 속도를 줄이고 토크를 높이며 관성을 맞추는 데 사용됩니다.
제품 매개변수
| WVB/WVBL series parameters | 모델 번호 | WVB042/WVBL50 | WVB60/WVBL70 | WVB/WVBL90 | WVB/WVBL120 | WVB142/WVBL155 | WVB180/WVBL205 | WVB220/WVBL235 |
| 정격 출력 토크 | 13-17Nm | 32-48Nm | 80-125Nm | 165-265Nm | 280-530Nm | 480-960Nm | 900-1360Nm | |
| 감소율 | L1: 3, 4, 5, 7, 10 | L2: 12, 15, 20, 25, 30, 35, 40, 50, 70, 100 | ||||||
| 행성 기어 백래시 | L1: P1≤3 P2≤5 L2: P1≤5 P2≤7 | |||||||
상세 사진
제품 상세 정보
기타 제품
회사 프로필
HangZhou Fubao Electromechanical Technology Co., Ltd. was established in 2008, the company has a complete precision reducer design, production capacity. Set R & D, manufacturing, assembly and sales, more in the field of gear manufacturing has more than 10 years of background, in the manufacturing equipment is equipped with Switzerland Riesenhahl gear grinding machine, domestic Qinchuan gear grinding machine, hamai gear hobbing machine and domestic Xihu (West Lake) Dis. gear hobbing machine, Japan Yasaki TLGmazak CNC lathe, CNC milling machine and other fully CNC equipment, In addition, it is equipped with other advanced measuring equipment such as Japanese TTI gear detector, 3 coordinate measurement, reducer backlash measurement instrument and so on. In a strong manufacturing capacity at the same time, can be stable, continuous manufacturing of high-quality precision reducer products.
The precision reducer produced by our company has the characteristics of high structural rigidity, small back backlash, precise transmission and so on. It is widely used in various industries. Companies adhering to the concept of let customers participate in manufacturing, and strive to provide customers with more personalized services. In the field of precision transmission has a unique achievements. It is our CZPT pursuit to make far-reaching contributions.
공장 디스플레이
자주 묻는 질문
Q: 감속기 그리스 교체 시기
A: 적정량의 그리스와 런닝 리듀서를 밀봉할 경우, 그리스의 노화 상태에 따라 표준 교체 시기는 20,000시간입니다. 또한, 그리스가 오염되었거나 주변 온도 조건(40°C 이상)에서 사용되는 경우, 그리스의 노화 및 오염 여부를 확인하고 교체 시기를 명시해 주십시오.
Q: 배송 시간
A: 푸바오는 2000개 이상의 생산 기지를 보유하고 있으며, 일일 생산량은 1000개 이상이며, 표준 모델은 7일 이내에 배송됩니다.
Q: 리듀서 선택
A: 푸바오는 전문적인 제품 선택 가이드를 제공하며, 제품 매칭도가 높고, 비용 대비 성능이 우수하며, 활용률이 높습니다.
Q: 감속기의 적용 범위
A: 푸바오는 전문적인 연구개발팀을 보유하고 있으며, 완벽한 카테고리 디자인을 갖추고 있어 모든 스테핑 모터, 서보 모터와 일치할 수 있으며, 더욱 정확한 일치가 가능합니다.
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| 애플리케이션: | Motor, Machinery, Agricultural Machinery, Palletizing Robot |
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| 경도: | 경화된 치아 표면 |
| 설치: | 세로형 |
| 사용자 정의: |
사용 가능
| 맞춤형 요청 |
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배송비:
단위당 예상 운임. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Considerations for Selecting Planetary Gearboxes for Aerospace and Satellite Applications
Selecting planetary gearboxes for aerospace and satellite applications requires careful consideration due to the unique demands of these industries:
- Weight and Size: Aerospace and satellite systems demand lightweight and compact components. Planetary gearboxes with high power density and lightweight materials are preferred to minimize the overall weight and size of the equipment.
- Reliability: Aerospace missions involve critical operations where component failure is not an option. Planetary gearboxes with a proven track record of reliability and durability are essential to ensure mission success.
- High Efficiency: Efficiency is crucial in aerospace applications to optimize power usage and extend the operational life of satellites. Planetary gearboxes with high efficiency ratings contribute to energy conservation.
- Extreme Environments: Aerospace and satellite systems are exposed to harsh conditions such as vacuum, extreme temperatures, and radiation. Planetary gearboxes need to be designed and tested to withstand these conditions without compromising performance.
- Precision and Accuracy: Many aerospace operations require precise positioning and accurate control. Planetary gearboxes with minimal backlash and high precision gear meshing contribute to accurate movements.
- Lubrication: Lubrication plays a vital role in aerospace gearboxes to ensure smooth operation and prevent wear. Gearboxes with efficient lubrication systems or self-lubricating materials are favored.
- Redundancy and Fail-Safe: Some aerospace systems incorporate redundancy to ensure mission success even in case of component failure. Planetary gearboxes with built-in redundancy or fail-safe mechanisms enhance system reliability.
- Integration: Planetary gearboxes need to be seamlessly integrated into the overall design of aerospace and satellite systems. Customization options and compatibility with other components are important factors.
Overall, selecting planetary gearboxes for aerospace and satellite applications involves a comprehensive evaluation of factors related to weight, reliability, efficiency, durability, environmental resistance, precision, and integration to meet the unique demands of these industries.
Differences Between Inline and Right-Angle Planetary Gearbox Configurations
Inline and right-angle planetary gearbox configurations are two common designs with distinct characteristics suited for various applications. Here’s a comparison of these configurations:
Inline Planetary Gearbox:
- Configuration: In an inline configuration, the input and output shafts are aligned along the same axis. The sun gear, planetary gears, and ring gear are typically arranged in a straight line.
- Compactness: Inline gearboxes are more compact and have a smaller footprint, making them suitable for applications with limited space.
- 능률: Inline configurations tend to have slightly higher efficiency due to the direct alignment of components.
- Output Speed and Torque: Inline gearboxes are better suited for applications that require higher output speeds and lower torque.
- Applications: They are commonly used in robotics, conveyors, printing machines, and other applications where space is a consideration.
Right-Angle Planetary Gearbox:
- Configuration: In a right-angle configuration, the input and output shafts are oriented at a 90-degree angle to each other. This allows for a change in direction of power transmission.
- Space Flexibility: Right-angle gearboxes offer flexibility in arranging components, making them suitable for applications that require changes in direction or where space constraints prevent a straight-line configuration.
- Torque Capacity: Right-angle configurations can handle higher torque loads due to the increased surface area of gear engagement.
- Applications: They are often used in cranes, elevators, conveyor systems, and applications requiring a change in direction.
- 능률: Right-angle configurations may have slightly lower efficiency due to increased gear meshing complexity and potential for additional losses.
Choosing between inline and right-angle configurations depends on factors such as available space, required torque and speed, and the need for changes in power transmission direction. Each configuration offers distinct advantages based on the specific needs of the application.
Energy Efficiency of a Worm Gearbox: What to Expect
The energy efficiency of a worm gearbox is an important factor to consider when evaluating its performance. Here’s what you can expect in terms of energy efficiency:
- Typical Efficiency Range: Worm gearboxes are known for their compact size and high gear reduction capabilities, but they can exhibit lower energy efficiency compared to other types of gearboxes. The efficiency of a worm gearbox typically falls in the range of 50% to 90%, depending on various factors such as design, manufacturing quality, lubrication, and load conditions.
- Inherent Losses: Worm gearboxes inherently involve sliding contact between the worm and worm wheel. This sliding contact generates friction, leading to energy losses in the form of heat. The sliding action also contributes to lower efficiency when compared to gearboxes with rolling contact.
- Helical-Worm Design: Some manufacturers offer helical-worm gearbox designs that combine elements of helical and worm gearing. These designs aim to improve efficiency by incorporating helical gears in the reduction stage, which can lead to higher efficiency compared to traditional worm gearboxes.
- Lubrication: Proper lubrication plays a significant role in minimizing friction and improving energy efficiency. Using high-quality lubricants and ensuring the gearbox is adequately lubricated can help reduce losses due to friction.
- Application Considerations: While worm gearboxes might have lower energy efficiency compared to other types of gearboxes, they still offer advantages in terms of compactness, high torque transmission, and simplicity. Therefore, the decision to use a worm gearbox should consider the specific requirements of the application, including the trade-off between energy efficiency and other performance factors.
When selecting a worm gearbox, it’s essential to consider the trade-offs between energy efficiency, torque transmission, gearbox size, and the specific needs of the application. Regular maintenance, proper lubrication, and selecting a well-designed gearbox can contribute to achieving the best possible energy efficiency within the limitations of worm gearbox technology.
editor by CX 2024-02-21
