Product Description
Details Photos:
1.It is equipped with an angular contact ball bearing, so it can support the external load with the rigid moment and large allowable moment
2.Easy assemble, small vibration
3.It can reduce the motor straight junction (input gear) and inertia
4.Large torsional rigidity
5.Strong impact resistance (500% of rated torque)
6.The crankshaft is supported by 2 columns in the reducer
7.Excellent starting efficiency & Small wear and long service life
8.Small backlash (1arc. Min.)Â & Use rolling bearing
9.Strong impact resistance (500% of rated torque)
10.The number of simultaneous engagements between RV gear and needle teeth is large
Advantages:
1. High precision, high torque
2. Dedicated technical personnel can be on the go to provide design solutions
3. Factory direct sales fine workmanship durable quality assurance
4. Product quality issues have a one-year warranty time, can be returned for replacement or repair
Company profile:
HangZhou CZPT Technology Co., Ltd. was established in 2014. Based on long-term accumulated experience in mechanical design and manufacturing, various types of harmonic reducers have been developed according to the different needs of customers. The company is in a stage of rapid development. , Equipment and personnel are constantly expanding. Now we have a group of experienced technical and managerial personnel, with advanced equipment, complete testing methods, and product manufacturing and design capabilities. Product design and production can be carried out according to customer needs, and a variety of high-precision transmission components such as harmonic reducers and RV reducers have been formed; the products have been sold in domestic and global(Such as USA, Germany, Turkey, India) and have been used in industrial robots, machine tools, medical equipment, laser processing, cutting, and dispensing, Brush making, LED equipment manufacturing, precision electronic equipment, and other industries have established a good reputation.
In the future, Hongwing will adhere to the purpose of gathering talents, keeping close to the market, and technological innovation, carry CZPT the value pursuit in the field of harmonic drive&RV reducers, seek the common development of the company and the society, and quietly build itself into a CZPT brand with independent intellectual property rights. Quality supplier in the field of precision transmission”.
Strength factory:
Our plant has an entire campus The number of workshops is around 300 Whether it’s from the production of raw materials and the procurement of raw materials to the inspection of finished products, we’re doing it ourselves. There is a complete production system
HST-I Parameter:
| Rated Table | ||||||||||||||
| Output rotational speed (rpm) | 5 | 10 | 15 | 20 | 25 | 30 | 40 | 50 | 60 | |||||
| Model | Speed ratio code | Transmission Ratio(R) | Output Torque (Nm) / Enter the capacity (kW |
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| Rotation of axes | Housing rotation | |||||||||||||
| RV-6E | 31 | 31 | 30 | 101 / 0.07 |
81 / 0.11 |
72 / 0.15 |
66 / 0.19 |
62 / 0.22 |
58 / 0.25 |
54 / 0.30 |
50 / 0.35 |
47 / 0.40 |
||
| 43 | 43 | 42 | ||||||||||||
| 53.5 | 53.5 | 52.5 | ||||||||||||
| 59 | 59 | 58 | ||||||||||||
| 79 | 79 | 78 | ||||||||||||
| 103 | 103 | 102 | ||||||||||||
| RV-20E | 57 | 57 | 56 | 231 / 0.16 |
188 / 0.26 |
167 / 0.35 |
153 / 0.43 |
143 / 0.50 |
135 / 0.57 |
124 / 0.70 |
115 / 0.81 |
110 / 0.92 |
||
| 81 | 81 | 80 | ||||||||||||
| 105 | 105 | 104 | ||||||||||||
| 121 | 121 | 120 | ||||||||||||
| 141 | 141 | 140 | ||||||||||||
| 161 | 161 | 160 | ||||||||||||
| RV-40E | 57 | 57 | 56 | 572 / 0.40 |
465 / 0.65 |
412 / 0.86 |
377 / 1.05 |
353 / 1.23 |
334 / 1.40 |
307 / 1.71 |
287 / 2.00 |
271 / 2.27 |
||
| 81 | 81 | 80 | ||||||||||||
| 105 | 105 | 104 | ||||||||||||
| 121 | 121 | 120 | ||||||||||||
| 153 | 153 | 152 | ||||||||||||
| RV-80E | 57 | 57 | 56 | 1,088 / 0.76 |
885 / 1.24 |
784 / 1.64 |
719 / 2.01 |
672 / 2.35 |
637 / 2.67 |
584 / 3.26 |
546 / 3.81 |
517 / 4.33 |
||
| 81 | 81 | 80 | ||||||||||||
| 101 | 101 | 100 | ||||||||||||
| 121 | 121 | 120 | ||||||||||||
| 153 | 1(153) | 1(152) | ||||||||||||
| RV-110E | 81 | 81 | 80 | 1,499 / 1.05 |
1,215 / 1.70 |
1,078 / 2.26 |
990 / 2.76 |
925 / 3.23 |
875 / 3.67 |
804 / 4.49 |
 |  | ||
| 111 | 111 | 110 | ||||||||||||
| 161 | 161 | 160 | ||||||||||||
| 175 | 1227/7 | 1220/7 | ||||||||||||
| RV-160E | 81 | 81 | 80 | 2,176 / 1.52 |
1,774 / 2.48 |
1,568 / 3.28 |
1,441 / 4.02 |
1,343 / 4.69 |
1,274 / 5.34 |
 |  |  | ||
| 101 | 101 | 100 | ||||||||||||
| 129 | 129 | 128 | ||||||||||||
| 145 | 145 | 144 | ||||||||||||
| 171 | 171 | 170 | ||||||||||||
| RV-320E | 81 | 81 | 80 | 4,361 / 3.04 |
3,538 / 4.94 |
3,136 / 6.57 |
2,881 / 8.05 |
2,695 / 9.41 |
2,548 / 10.7 |
 |  |  | ||
| 101 | 101 | 100 | ||||||||||||
| 118.5 | 118.5 | 117.5 | ||||||||||||
| 129 | 129 | 128 | ||||||||||||
| 141 | 141 | 140 | ||||||||||||
| 171 | 171 | 170 | ||||||||||||
| 185 | 185 | 184 | ||||||||||||
| RV-450E | 81 | 81 | 80 | 6,135 / 4.28 |
4,978 / 6.95 |
4,410 / 9.24 |
4,047 / 11.3 |
3,783 / 13.2 |
 |  |  |  | ||
| 101 | 101 | 100 | ||||||||||||
| 118.5 | 118.5 | 117.5 | ||||||||||||
| 129 | 129 | 128 | ||||||||||||
| 154.8 | 2013/13 | 2000/13 | ||||||||||||
| 171 | 171 | 170 | ||||||||||||
| 192 | 1347/7 | 1340/7 | ||||||||||||
| Note: 1. The allowable output speed is affected by duty cycle, load, and ambient temperature. When the allowable output speed is above NS1, please consult our company about the precautions. 2. Calculate the input capacity (kW) by the following formula. |
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| Input capacity (kW) =(2π*N*T)/(60*η/100*10*10*10) |  | N: output speed (RPM) T: output torque (nm) η = 75: reducer efficiency (%) |
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| Â The input capacity is the reference value. 3. When using the reducer at a low temperature, the no-load running torque will increase, so please pay attention when selecting the motor. (refer to p.93 low-temperature characteristics) |
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| T0 Rated torque(Remark .7) |
N0 Rated output speed |
K Rated life |
TS1 Allowable starting and stopping torque |
TS2 Instantaneous maximum allowable torque |
NS0 Allowable maximum output speed (Remark .1) |
Backlash | Empty distance MAX. | Angle transmission error MAX. | A representative value of starting efficiency | MO1 Allowable moment (Remark .4) |
MO2 Instantaneous maximum allowable moment |
Wr Allowable radial load (Remark .10) |
               I Converted value of inertia moment input shaft (Remark .5) |
Weight |
| (Nm) | (rpm) | (h) | (Nm) | (Nm) | (r/min) | (arc.sec.) | (arc.min.) | (arc.sec.) | (%) | (Nm) | (Nm) | (N) | (kgm2) | (kg) |
| 58 | 30 | 6,000 | 117 | 294 | 100 | 1.5 | 1.5 | 80 | 70 | 196 | 392 | 2,140 | 2.63×10-6 | 2.5 |
| 2.00×10-6 | ||||||||||||||
| 1.53×10-6 | ||||||||||||||
| 1.39×10-6 | ||||||||||||||
| 1.09×10-6 | ||||||||||||||
| 0.74×10-6 | ||||||||||||||
| 167 | 15 | 6,000 | 412 | 833 | 75 | 1.0 | 1.0 | 70 | 75 | 882 | 1,764 | 7,785 | 9.66×10-6 | 4.7 |
| 6.07×10-6 | ||||||||||||||
| 4.32×10-6 | ||||||||||||||
| 3.56×10-6 | ||||||||||||||
| 2.88×10-6 | ||||||||||||||
| 2.39×10-6 | ||||||||||||||
| 412 | 15 | 6,000 | 1,571 | 2,058 | 70 | 1.0 | 1.0 | 60 | 85 | 1,666 | 3,332 | 11,594 | 3.25×10-5 | 9.3 |
| 2.20×10-5 | ||||||||||||||
| 1.63×10-5 | ||||||||||||||
| 1.37×10-5 | ||||||||||||||
| 1.01×10-5 | ||||||||||||||
| 784 | 15 | 6,000 | 1,960 | Bolt tightening 3920 | 70 | 1.0 | 1.0 | 50 | 85 | Bolt fastening 2156 | Bolt tightening | Bolt tightening 12988 | 8.16×10-5 | Bolt tightening 13.1 |
| 6.00×10-5 | ||||||||||||||
| 4.82×10-5 | ||||||||||||||
| Pin combination 3185 | Pin combination 1735 | Pin combination 2156 | Pin combination 1571 | Pin combination 12.7 | ||||||||||
| 3.96×10-5 | ||||||||||||||
| 2.98×10-5 | ||||||||||||||
| 1,078 | 15 | 6,000 | 2,695 | 5,390 | 50 | 1.0 | 1.0 | 50 | 85 | 2,940 | 5,880 | 16,648 | 9.88×10-5 | 17.4 |
| 6.96×10-5 | ||||||||||||||
| 4.36×10-5 | ||||||||||||||
| 3.89×10-5 | ||||||||||||||
| 1,568 | 15 | 6,000 | 3,920 | Bolt tightening 7840 | 45 | 1.0 | 1.0 | 50 | 85 | 3,920 | Bolt tightening 7840 | 18,587 | 1.77×10-4 | 26.4 |
| 1.40×10-4 | ||||||||||||||
| 1.06×10-4 | ||||||||||||||
| Pin and use 6615 | Pin and use 6762 | |||||||||||||
| 0.87×10-4 | ||||||||||||||
| 0.74×10-4 | ||||||||||||||
| 3,136 | 15 | 6,000 | 7,840 | Bolt tightening 15680 | 35 | 1.0 | 1.0 | 50 | 80 | Bolt tightening 7056 | Bolt tightening 14112 | Bolt tightening 28067 | 4.83×10-4 | 44.3 |
| 3.79×10-4 | ||||||||||||||
| 3.15×10-4 | ||||||||||||||
| 2.84×10-4 | ||||||||||||||
| Pin combination 12250 | Pin combination 6174 | Pin and use 1571 | Pin combination 24558 | |||||||||||
| 2.54×10-4 | ||||||||||||||
| 1.97×10-4 | ||||||||||||||
| 1.77×10-4 | ||||||||||||||
| 4,410 | 15 | 6,000 | 11,571 | Bolt tightening 22050 | 25 | 1.0 | 1.0 | 50 | 85 | 8,820 | Bolt tightening 17640 | 30,133 | 8.75×10-4 | 66.4 |
| 6.91×10-4 | ||||||||||||||
| 5.75×10-4 | ||||||||||||||
| 5.20×10-4 | ||||||||||||||
| Pin and use 18620 | Pin and use 13524 | |||||||||||||
| 4.12×10-4 | ||||||||||||||
| 3.61×10-4 | ||||||||||||||
| 3.07×10-4 | ||||||||||||||
| 4. The allowable torque will vary according to the thrust load. Please confirm by the allowable moment line diagram (p.91). 5. The value of inertia moment is the value of the reducer body. The moment of inertia of the input gear is not included. 6. For moment stiffness and torsion stiffness, please refer to the calculation of inclination angle and torsion angle (p.99). 7. Rated torque refers to the torque value reflecting the rated life at rated output speed, not the data showing the upper limit of load. Please refer to the glossary (p.81) and product selection flow chart (p.82). 8. If you want to buy products other than the above speed ratio, please consult our company. 9. The above specifications are obtained according to the company’s evaluation method. Please confirm that the product meets the use conditions of carrying real aircraft before use. 10. When a radial load is applied to dimension B, please use it within the allowable radial load range. 11. 1 RV-80e r = 153 is only output shaft bolt fastening type( P.20,21) |
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APPLICATIONS:
FQA:
Q: What should I provide when I choose a gearbox/speed reducer?
A: The best way is to provide the motor drawing with parameters. Our engineer will check and recommend the most suitable gearbox model for your reference.
Or you can also provide the below specification as well:
1) Type, model, and torque.
2) Ratio or output speed
3) Working condition and connection method
4) Quality and installed machine name
5) Input mode and input speed
6) Motor brand model or flange and motor shaft size
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| Application: | Motor, Motorcycle, Machinery, Agricultural Machinery |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Installation: | Horizontal Type |
| Layout: | Coaxial |
| Gear Shape: | Cylindrical Gear |
| Step: | Single-Step |
| Samples: |
US$ 600/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
Choosing the Right Agricultural Gearbox
When buying an agricultural gearbox, there are a few things to consider. The quality of materials, functionality, and mechanism are crucial factors to durability. A durable device will ensure that you won’t have to keep replacing it. Here are some tips to help you select the right one. Let’s begin. Read on to learn more about the different features available in agricultural gearboxes. Listed below are a few of the most important factors to consider.
Bevel gearboxes
Agricultural gearboxes are essential to the entire food cycle. If your gears are not in good shape, you will be unable to meet the demand and you will suffer from heightened downtime. Fortunately, there are numerous quality bevel gearboxes available on the market today. In fact, the CZPT Gearbox Company supplies bevel gearboxes for agricultural applications. Here are some of the reasons you should choose the right one.
A bevel gearbox is a single-stage unit that interlocks bevelled edges on two gears to transfer torque and rotation. These gears can be either straight or helical. This type of gearbox is inexpensive to produce and operates quietly. It also has lower transmittable torque. Bevel gearboxes are often used as a low-cost alternative to hypoid gearboxes.
Agricultural bevel gearboxes are used in various applications, including hay balers, combine harvesters, seeders, and plows. These gears are well-suited for use with offset rotary fillers. They offer reduction ratios of up to 2.44 and cast iron cases. They are commonly known as “right-angle gearboxes” or “Parallel SHAFT gearboxes.”
Agricultural bevel gearboxes come in many sizes and ratios. In general, higher sizes are made of closed-grain cast-iron. Other materials, such as SG 500/7, are used for larger sizes. The main gear and each drive gear are mesh-mounted, and the shafts are designed to rotate in either direction. They have oil seals on the joints. The Spiral Bevel Gearbox is best suited for FG60 or FG75 motors.
The RINV-OP65 right-angle angular gearbox comes with an optional electronic or mechanical position indicator. Its angular design allows for changes in axis rotation, and provides smooth power transmission with minimal backlash. Premium gearmotors include hardened spiral bevel gears and stainless steel shafts for quiet operation. They are available in various ratios and shaft styles. If you want to choose one, make sure it is made to fit the needs of the machine.
Closed-loop seals
There are a number of reasons to install closed-loop seals in an agricultural gearbox. The first is the need to isolate the gearbox from the atmosphere, an important safety concern. Closed-loop seals are CZPT alternatives to desiccant breathers because they prevent the entry of water. While these seals can’t keep the gearbox underwater, they isolate the gearbox from the atmosphere and are therefore vital for the safety of your equipment.
The most common material used for these seals is polymer rubber. Most are made from HBR, which stands for High-cis polybutadiene rubber. Other materials include Butadiene and FKM, which are known for their high-temperature performance. However, the disadvantage of these seals is that they are susceptible to shaft damage and degrade quickly in high temperatures. Therefore, you should always consider the type of seal before purchasing one.
If you plan to use agricultural gearboxes on a regular basis, you should consider getting a good quality one. You should look for a closed-loop seal on your gearbox to protect it against dirt and debris. A quality agricultural gearbox also has an easy-access design, which will make it easy to access and maintain. This will ensure its long-lasting performance and low-maintenance costs.
Agricultural equipment is frequently used to perform various tasks, such as sowing seeds, spreading fertilizer, digging holes, and more. This requires durable and effective sealing solutions to keep dirt out of the system and lubricants in. A close-loop seal helps to ensure that all these operations are performed at maximum efficiency. If you’re a farmer, closed-loop seals are the ideal solution for you.
Surface finish
The surface finish of an agricultural gearbox should be free from defects in the casting process and mechanical damage. The bearing hole in the shaft must be a minimum of 100 mm long and the distance between the bearing holes should be equal to the shaft length. The shaft should be free of any cracks or burrs. The ellipticity and centerline irregularity of the shaft must be less than 0.015 mm. Likewise, the diameter of the shaft, hole spacing and bearing hole relationship should be at least 20 mm.
In recent studies, researchers have investigated the efficiency of different surfaces on the same materials. They found that surface roughness affects gearbox efficiency. Kahraman et al. reported that superfinishing the gears and reducing surface roughness improved efficiency. In addition, Andersson et al. investigated the impact of different assembly processes on the gearbox’ surface roughness. The results of their studies are presented in Table I.
The quality of the surface finish of an agricultural gearbox depends on the materials used. A typical example is wrought steel gear. The die inserts for a forged gear were made of H11 or H13 tool steel. This material softens over time and has a limited life span. An improved alternative was Alloy 718. This alloy has a high temperature range and is suitable for high rotational speeds.
A good surface finish is vital for the health and safety of an agricultural gearbox. It protects the entire food chain and is necessary for agricultural production. The heightened demand for food will cause increased wear and tear on farm machinery. Moreover, a damaged gear will cost the farmer a lot of money. Therefore, it is crucial for farmers to invest in a high-quality agricultural gearbox to avoid such costly downtimes.
Shaft arrangement
An agricultural gearbox has two main stages, the first of which is the reduction stage. The reduction stage contains the pinion, a series of gears, and the first reduction stage. A second stage is connected to the first reduction stage via a mechanical clutch. This gearbox typically consists of three stages. The first reduction stage is also known as the low gear “L”. The first reduction stage provides four forward gearing ratios, while the second stage has three forward gearing ratios. A conventional agricultural gearbox also incorporates a mechanical clutch.
The second stage is a speed change gearbox. It has an input and output shaft. The input shaft is rotatably mounted in the casing and extends through the tractor’s interior. The shaft extends to the rear of the tractor, where the driven part of the joint 26 is keyed onto. The rear end portion of the shaft projects into the back axle casing 15, where it is connected to the first transmission shaft 34. The gearbox then serves to drive the power take-off shaft 36.
Newer types of tractors have larger shafts to support higher power applications. Type 3 tractors have a larger shaft with 20 splines while Type 2 tractors have a smaller shaft. The Type 2 is often referred to as the small 1000. When viewed from inside the tractor cab, Type 3 and Type 2 are rotated counterclockwise. If you are unfamiliar with agricultural gearboxes, here are some basic terms.
Shaft arrangement is important in choosing the right gearing system for agricultural machinery. There are a few differences between these arrangements. The first type has a higher gear ratio, while the second has lower. In terms of speed, the shaft arrangement of an agricultural gearbox reflects the speed of the machinery. The higher the speed of the gear, the higher the output speed. So, when choosing a gearbox, keep this in mind.
Cost
Purchasing an agricultural gearbox may be a costly process, but the benefits outweigh the price. Agricultural gearboxes are vital to the food cycle. When a gear breaks down, farmers will face significant losses. Additionally, agricultural applications use a high-quality gearbox to minimize equipment wear and tear. Ultimately, a high-quality gearbox will reduce the cost of production while extending the lifespan of the agricultural machinery.
Many countries trade in Agriculture Gearbox with India, and many of these suppliers are located in India. Using a marketplace to buy from Indian suppliers offers several advantages. Among the many factors to consider when choosing an Agriculture Gearbox supplier are quality, price, reliability, and past trade history. Through a marketplace like CZPT, you can obtain 360-degree information on Indian Agriculture Gearbox suppliers. In this way, you can choose a vendor with whom you do business.
CZPT Gearbox Company is a leading manufacturer of high-quality agricultural gearboxes. Their experienced engineers can reverse-engineer an existing design for a custom-made gearbox for your needs. Whether you need a smaller or larger gearbox for an agricultural application, CZPT Gearbox Company is your partner. A line of high-quality agricultural gearboxes from CZPT Gearbox Company will help you maximize the performance of your farm machinery. They will transfer rotational power from the input shaft to the output shafts, allowing for a change in speed, direction, and rotation.
editor by CX 2024-04-15