Penerangan Produk
Robot Joint Gear Unit Reductor Drive Reducer
Model:190BX-RVE
More Code And Specification:
| E series | C series | ||||
| Code | Outline dimension | General model | Code | Outline dimension | The original code |
| 120 | Φ122 | 6E | 10C | Φ145 | 150 |
| 150 | Φ145 | 20E | 27C | Φ181 | 180 |
| 190 | Φ190 | 40E | 50C | Φ222 | 220 |
| 220 | Φ222 | 80E | 100C | Φ250 | 250 |
| 250 | Φ244 | 110E | 200C | Φ345 | 350 |
| 280 | Φ280 | 160E | 320C | Φ440 | 440 |
| 320 | Φ325 | 320E | 500C | Φ520 | 520 |
| 370 | Φ370 | 450E | |||
Gear ratio And Specification
| E Series | C Series | ||
| Code | Reduction Ratio | New code | Monomer reduction ratio |
| 120 | 43,53.5,59,79,103 | 10CBX | 27.00 |
| 150 | 81,105,121,141,161 | 27CBX | 36.57 |
| 190 | 81,105,121,153 | 50CBX | 32.54 |
| 220 | 81,101,121,153 | 100CBX | 36.75 |
| 250 | 81,111,161,175.28 | 200CBX | 34.86 |
| 280 | 81,101,129,145,171 | 320CBX | 35.61 |
| 320 | 81,101,118.5,129,141,171,185 | 500CBX | 37.34 |
| 370 | 81,101,118.5,129,154.8,171,192.4 | ||
| Note 1: E series,such as by the shell(pin shell)output,the corresponding reduction ratio by 1 | |||
| Note 2: C series gear ratio refers to the motor installed in the casing of the reduction ratio,if installed on the output flange side,the corresponding reduction ratio by 1 | |||
Reducer type code
REV: main bearing built-in E type
RVC: hollow type
REA: with input flange E type
RCA: with input flange hollow type
Permohonan:
Company Information
Soalan Lazim
Q: What’re your main products?
A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box etc. You can check the specifications for above motors on our website and you can email us to recommend needed motors per your specification too.
Q: How to select a suitable motor?
A:If you have motor pictures or drawings to show us, or you have detailed specs like voltage, speed, torque, motor size, working mode of the motor, needed lifetime and noise level etc, please do not hesitate to let us know, then we can recommend suitable motor per your request accordingly.
Q: Do you have a customized service for your standard motors?
A: Yes, we can customize per your request for the voltage, speed, torque and shaft size/shape. If you need additional wires/cables soldered on the terminal or need to add connectors, or capacitors or EMC we can make it too.
Q: Do you have an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge.
Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.
Please contact us if you have detailed requests, thank you ! /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Permohonan: | Machinery, Robotic |
|---|---|
| Kekerasan: | Permukaan Gigi Mengeras |
| Pemasangan: | Vertical Type |
| Susun atur: | Coaxial |
| Bentuk Gear: | Cylindrical Gear |
| Langkah: | Double-Step |
| Penyesuaian: |
Tersedia
| Permintaan Tersuai |
|---|
How do manufacturers ensure the precision of gear tooth profiles in gear reducers?
Manufacturers employ several techniques to ensure the precision of gear tooth profiles in gear reducers, which is crucial for optimal performance and efficiency:
1. Precision Machining: Gear teeth are typically machined using advanced CNC (Computer Numerical Control) machines that can achieve high levels of accuracy and repeatability. This ensures consistent gear tooth profiles across multiple components.
2. Quality Control Measures: Rigorous quality control processes, such as dimensional inspections and profile measurements, are performed at various stages of manufacturing to verify that gear tooth profiles meet the required specifications.
3. Tooth Profile Design: Engineers use specialized software and simulation tools to design gear tooth profiles with precise involute shapes and accurate dimensions. These designs are then translated into machine instructions for manufacturing.
4. Material Selection: High-quality materials with excellent wear resistance and dimensional stability are chosen to minimize the potential for deformation or inaccuracies during machining and operation.
5. Heat Treatment: Heat treatment processes, such as carburizing and quenching, are applied to enhance the surface hardness and durability of gear teeth, reducing the risk of wear and deformation over time.
6. Tooth Grinding and Finishing: After initial machining, gear teeth often undergo precision grinding and finishing processes to achieve the desired tooth profile accuracy and surface finish.
7. Post-Processing Inspection: Gear tooth profiles are inspected again after manufacturing processes to verify that the final components meet the specified tolerances and performance criteria.
8. Computer-Aided Manufacturing (CAM): CAM software is used to generate tool paths and machining instructions, enabling precise control over tool movements and material removal during gear manufacturing.
By combining these techniques and leveraging advanced manufacturing technologies, manufacturers can achieve the necessary precision in gear tooth profiles, resulting in reliable and efficient gear reducers for various industrial applications.
What maintenance practices are essential for prolonging the lifespan of gear reducers?
Proper maintenance is crucial for extending the lifespan and ensuring optimal performance of gear reducers. Here are essential maintenance practices:
- 1. Lubrication: Regular lubrication of gear reducers is vital to reduce friction, wear, and heat generation. Use the recommended lubricant and follow the manufacturer’s guidelines for lubrication intervals.
- 2. Inspection: Routinely inspect gear reducers for signs of wear, damage, or leaks. Check for unusual noises, vibrations, or temperature increases during operation.
- 3. Alignment: Ensure proper alignment of the input and output shafts. Misalignment can lead to increased wear, noise, and reduced efficiency. Align the components according to the manufacturer’s specifications.
- 4. Cooling and Ventilation: Maintain proper cooling and ventilation to prevent overheating. Ensure that cooling fans and vents are clean and unobstructed.
- 5. Seal Maintenance: Inspect and replace seals as needed to prevent contaminants from entering the gear reducer. Contaminants can lead to accelerated wear and reduced performance.
- 6. Bolts and Fasteners: Regularly check and tighten bolts and fasteners to prevent loosening during operation, which can cause misalignment or component damage.
- 7. Replacing Worn Components: Replace worn or damaged components, such as gears, bearings, and seals, with genuine parts from the manufacturer.
- 8. Vibration Analysis: Conduct periodic vibration analysis to identify potential issues early. Excessive vibration can indicate misalignment or component wear.
- 9. Maintenance Records: Keep detailed maintenance records, including lubrication schedules, inspection dates, and component replacements. This helps track the history of the gear reducer and aids in future maintenance planning.
- 10. Training: Provide proper training to maintenance personnel on gear reducer maintenance and troubleshooting techniques.
By adhering to these maintenance practices, you can maximize the lifespan of your gear reducers, minimize downtime, and ensure reliable operation in your industrial processes.
Bolehkah anda menerangkan pelbagai jenis pengurang gear yang terdapat di pasaran?
Terdapat beberapa jenis pengurang gear yang biasa digunakan dalam aplikasi industri:
1. Pengurang Gear Spur: Pengurang ini mempunyai gigi lurus dan kos efektif untuk aplikasi yang memerlukan tork sederhana dan pengurangan kelajuan. Mereka cekap tetapi mungkin menghasilkan lebih banyak bunyi berbanding jenis lain.
2. Pengurang Gear Heliks: Gear heliks mempunyai gigi bersudut, yang memberikan operasi yang lebih lancar dan lebih senyap berbanding dengan gear taji. Ia menawarkan kapasiti tork yang lebih tinggi dan sesuai untuk aplikasi tugas berat.
3. Pengurang Gear Serong: Gear serong mempunyai bentuk kon dan bersilang pada sudut, membolehkan mereka menghantar kuasa antara aci tidak selari. Ia biasanya digunakan dalam aplikasi di mana aci bersilang pada 90 darjah.
4. Pengurang Gear Cacing: Gear cacing terdiri daripada cacing (skru) dan alat mengawan (roda cacing). Ia menawarkan pengurangan tork yang tinggi dan digunakan untuk aplikasi yang memerlukan nisbah tinggi, walaupun ia boleh menjadi kurang cekap.
5. Pengurang Gear Planet: Pengurang ini menggunakan sistem gear planet untuk mencapai output tork yang tinggi dalam reka bentuk yang padat. Ia memberikan pendaraban tork yang sangat baik dan biasanya digunakan dalam robotik dan automasi.
6. Pengurang Gear Sikloid: Pemacu sikloidal menggunakan sesondol sipi untuk mencapai pengurangan kelajuan. Mereka menawarkan rintangan beban kejutan yang tinggi dan sesuai untuk aplikasi dengan permulaan dan berhenti yang kerap.
7. Pengurang Pemacu Harmonik: Pemacu harmonik menggunakan spline yang fleksibel untuk mencapai nisbah pengurangan gear yang tinggi. Ia memberikan ketepatan yang tinggi dan biasanya digunakan dalam aplikasi yang memerlukan kedudukan yang tepat.
8. Pengurang Gear Hypoid: Gear hipoid mempunyai gigi heliks dan aci tidak bersilang, menjadikannya sesuai untuk aplikasi dengan had ruang. Mereka menawarkan tork dan kecekapan yang tinggi.
Setiap jenis pengurang gear mempunyai kelebihan dan batasannya sendiri, dan pilihannya bergantung pada faktor seperti keperluan tork, nisbah kelajuan, tahap hingar, kekangan ruang dan keperluan khusus aplikasi.
editor by CX 2024-04-10
