Ürün Açıklaması
Ürün Açıklaması
The reducer is generally used for low-speed and high-torxque transmission equipment. The motor, internal combustion engine or other high-speed running power is used to achieve the purpose of deceleration by meshing with the large gear on the output shaft through a gear with a small number of teeth on the input shaft of the reducer. The reducer will also have several pairs of gears with the same principle to achieve the ideal reduction effect. The ratio of the number of teeth of the large and small gears is the transmission ratio.
| SPECIFICATIONS | STAGE | RATIO | RATED TORQUE (N.m) | ||
| SPLF90-90mm Planetry Gearbox for Servo Motor | L2 | 16 | 90 | ||
| 20 | 90 | ||||
| 25 | 100 | ||||
| 28 | 90 | ||||
| 35 | 100 | ||||
| 40 | 90 | ||||
| 50 | 100 | ||||
| 70 | 70 | ||||
| Adapted motor | ∅ 19-40/ ∅70-3/90-M6 | ||||
| Rated Input Speed (rpm) | 3000/min | ||||
| Max Input Speed (rpm) | 6000/min | ||||
| Tepki | L1 | ≤10 Arcmin | |||
| L2 | ≤15 Arcmin | ||||
| Fault stop torque(N.m) | 2 times of rated torque | ||||
| Yeterlik | L1 | 96% | |||
| L2 | 94% | ||||
| Average life span | 20000h | ||||
| Operating temperature | -10°~+90° | ||||
| Nosie | ≤60 db | ||||
| Weight (kg) | L1 | 3.5 | |||
| L2 | 4.5 | ||||
| IP | 54 | ||||
| Installation method | Any installation method | ||||
Production Range
42 Series Planetary Gearbox
Tepki: 10-15 arcmin
Ratio Selection:
L1: 4,5,7,10,
L2: 12,16,20,25,28,35,40,50,70
Frame Dimension: 42mm Input Flange
Gear Arrangement: Planetary Straight Teeth
60 Series Planetary Gearbox
Tepki: 10-15 arcmin
Ratio Selection:
L1: 4,5,7,10,
L2: 16,20,25,28,35,40,50,70
Frame Dimension: 60mm Input Flange
Gear Arrangement: Planetary Straight Teeth
90 Series Planetary Gearbox
Tepki: 10-15 arcmin
Ratio Selection:
L1: 4,5,7,10,
L2: 16,20,25,28,35,40,50,70
Frame Dimension: 90mm Input Flange
Gear Arrangement: Planetary Straight Teeth
Powder Metal Series Planetary Gearbox
Tepki: 10-15 arcmin
Ratio Selection:
L1: 4,5,7,10,
L2: 16,20,25,28,35,40,50,70
Frame Dimension: 42mm & 57mm
Gear Arrangement: Planetary Straight Teeth
Right Angle Series Planetary Gearbox
Tepki: 10-15 arcmin
Ratio Selection:
L1: 4,5,7,10,
L2: 16,20,25,28,35,40,50,70
Frame Dimension: 60mm & 90mm
Gear Arrangement: Planetary Straight Teeth
Uygulama Alanı
Otomatik Silahlar
Montaj Hattı
3D Yazıcı
Tıbbi Ekipman
CNC Makinesi
Kılavuz Çekme Makinesi
Diğer Otomasyon Cihazları
Neden Bizi Seçmelisiniz?
ZheJiang Yüksek Hassasiyetli Dişli Şanzıman Co., Ltd
COMPANY
ZheJiang Yüksek Hassasiyetli Dişli Şanzıman Şirketi, Çin'in ZheJiang Eyaleti, HangZhou şehrinde bulunmaktadır. Hassas şanzıman parçaları ve sistemleri araştırma, üretim ve satışında uzmanlaşmış lider bir şirkettir. 5000 metrekarelik CZPT atölyesinde çeşitli ürün serileri üretilmektedir. Hassas planet dişli kutuları ve dişli motorları özellikle güneş enerjisi sektörü için geliştirilmiş olup, dünya çapında birçok büyük ölçekli güneş enerjisi projesine hizmet vermiştir.
Araştırma ekibimiz, bu alanda 15 yılı aşkın deneyime sahip olup, müşterilerin özel ihtiyaçlarını karşılamak için zamanında ve verimli bir hizmet sunabilmektedir. ISO9001 kalite yönetim sistemi ve CE sertifikalarına sahip olan firmamız, AGV, akıllı robot, lojistik, endüstriyel otomasyon, güneş enerjisi, gemi, paketleme ve tekstil gibi alanlarda geniş bir uygulama yelpazesiyle birçok ülkeye ihraç edilmektedir. Amacımız, güneş enerjisi endüstrisinin dünya çapında uygulanmasını teşvik etmek ve bunun insanlığa temiz ve sürdürülebilir enerji sağlayarak çevremizi daha iyi koruduğuna inanıyoruz.
ATÖLYE
SERTİFİKALAR
SSS
Q:Which areas are your products mainly used in?
C: Şu anda 2 ana ürünümüz bulunmaktadır: hassas planet dişli redüktör ve güneş enerjili dişli motor. Hassas planet redüktörlerimizin çoğu, tıbbi cihazlar, 3D yazıcılar, kapı açıcılar, diş açma makineleri, CNC torna tezgahları ve bir dizi otomasyon ekipmanı gibi otomasyon alanlarında kullanılmaktadır. Ayrıca, güneş enerjili dişli motorlarımız, çoğunlukla güneş panellerini güneş ışığını takip etmek için döner tahriklerle birleştirilen fotovoltaik enerji üretim projelerinde kullanılmaktadır.
Q : How to choose the suitable planetary gearbox?
C: Öncelikle, ilgili parametreleri sağlayabilmeniz gerekiyor. Bir motor çiziminiz varsa, sizin için uygun bir redüktörü daha hızlı önerebiliriz. Yoksa, aşağıdaki motor parametrelerini sağlayabileceğinizi umuyoruz: çıkış hızı, çıkış torku, voltaj, akım, IP değeri, gürültü, çalışma koşulları, motor boyutu ve gücü vb.
Q : What is the price ?
A : The main determining factor for the price of each product is the order volume. You can communicate with us and let us understand each other. I believe that our prices, product quality and our services can definitely make you satisfied.
Q : Do you provide customized service?
A : Yes, we provide customized services. You only need to put CZPT your needs, and we will do our best to provide you with a plan, make plans, and try our best to meet your needs.
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| Başvuru: | Motor, Machinery, Marine, Agricultural Machinery, Laser Cutting Machine |
|---|---|
| İşlev: | Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction, Speed Increase |
| Düzen: | Koaksiyel |
| Sertlik: | Sertleştirilmiş Diş Yüzeyi |
| Kurulum: | Dikey Tip |
| Adım: | Çift Adım |
| Örnekler: |
US$ 90/Piece
1 Adet (Min.Sipariş) | |
|---|
| Özelleştirme: |
Mevcut
| Özelleştirilmiş İstek |
|---|
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.
Impact of Temperature Variations and Environmental Conditions on Planetary Gearbox Performance
The performance of planetary gearboxes can be significantly influenced by temperature variations and environmental conditions. Here’s how these factors impact their operation:
Temperature Variations: Extreme temperature fluctuations can affect the lubrication properties of the gearbox. Cold temperatures can cause the lubricant to thicken, leading to increased friction and reduced efficiency. On the other hand, high temperatures can cause the lubricant to thin out, potentially leading to insufficient lubrication and accelerated wear.
Environmental Contaminants: Planetary gearboxes used in outdoor or industrial environments can be exposed to contaminants such as dust, dirt, moisture, and chemicals. These contaminants can infiltrate the gearbox and degrade the quality of the lubricant. Additionally, abrasive particles can cause wear on gear surfaces, leading to decreased performance and potential damage.
Corrosion: Exposure to moisture, especially in humid or corrosive environments, can lead to corrosion of gearbox components. Corrosion weakens the structural integrity of gears and other components, which can ultimately result in premature failure.
Thermal Expansion: Temperature changes can cause materials to expand and contract. In gearboxes, this can lead to misalignment of gears and improper meshing, causing noise, vibration, and reduced efficiency. Proper consideration of thermal expansion is crucial in gearbox design.
Sealing and Ventilation: To mitigate the impact of temperature and environmental factors, planetary gearboxes need effective sealing to prevent contaminants from entering and to retain the lubricant. Proper ventilation is also essential to prevent pressure build-up inside the gearbox due to temperature changes.
Cooling Systems: In applications where temperature control is critical, cooling systems such as fans or heat exchangers can be incorporated to maintain optimal operating temperatures. This helps prevent overheating and ensures consistent gearbox performance.
Overall, temperature variations and environmental conditions can have a profound impact on the performance and lifespan of planetary gearboxes. Manufacturers and operators need to consider these factors during design, installation, and maintenance to ensure reliable and efficient operation.
Challenges and Solutions for Managing Power Transmission Efficiency in Planetary Gearboxes
Managing power transmission efficiency in planetary gearboxes is crucial to ensure optimal performance and minimize energy losses. Several challenges and solutions are involved in maintaining high efficiency:
1. Gear Meshing Efficiency: The interaction between gears can lead to energy losses due to friction and meshing misalignment. To address this, manufacturers use precision manufacturing techniques to ensure accurate gear meshing and reduce friction. High-quality materials and surface treatments are also employed to minimize wear and friction.
2. Lubrication: Proper lubrication is essential to reduce friction and wear between gear surfaces. Using high-quality lubricants with the appropriate viscosity and additives can enhance power transmission efficiency. Regular maintenance and monitoring of lubrication levels are vital to prevent efficiency losses.
3. Bearing Efficiency: Bearings support the rotating elements of the gearbox and can contribute to energy losses if not properly designed or maintained. Choosing high-quality bearings and ensuring proper alignment and lubrication can mitigate efficiency losses in this area.
4. Bearing Preload: Incorrect bearing preload can lead to increased friction and efficiency losses. Precision assembly and proper adjustment of bearing preload are necessary to optimize power transmission efficiency.
5. Mechanical Losses: Various mechanical losses, such as windage and churning losses, can occur in planetary gearboxes. Designing gearboxes with streamlined shapes and efficient ventilation systems can reduce these losses and enhance overall efficiency.
6. Material Selection: Choosing appropriate materials with high strength and minimal wear characteristics is essential for reducing power losses due to material deformation and wear. Advanced materials and surface coatings can be employed to enhance efficiency.
7. Noise and Vibration: Excessive noise and vibration can indicate energy losses in the form of mechanical inefficiencies. Proper design and precise manufacturing techniques can help minimize noise and vibration, indicating better power transmission efficiency.
8. Efficiency Monitoring: Regular efficiency monitoring through testing and analysis allows engineers to identify potential issues and optimize gearbox performance. This proactive approach ensures that any efficiency losses are promptly addressed.
By addressing these challenges through careful design, material selection, manufacturing techniques, lubrication, and maintenance, engineers can manage power transmission efficiency in planetary gearboxes and achieve high-performance power transmission systems.
editor by CX 2024-01-18
