Product Description
Product Description: Concrete Mixer Truck Hydraulic Gearbox PMP6.5R120CP
The Concrete Mixer Truck Hydraulic Gearbox PMP6.5R120CP is a robust and reliable transmission component designed specifically for concrete mixer trucks. This gearbox ensures smooth and efficient operation of the mixer drum, optimizing the mixing process and enhancing the overall performance of the truck.
Key Features:
Robust Construction: The PMP6.5R120CP is built with high-strength materials that can withstand the rigorous demands of concrete mixing applications. This ensures durability and longevity, even in harsh operating conditions.
High Torque Capacity: The gearbox is designed to handle high torque loads, allowing for efficient mixing of concrete with various consistencies. This ensures thorough mixing and consistent output quality.
Smooth Operation: The gearbox provides smooth and even rotation of the mixer drum, preventing segregation and ensuring a homogeneous mix. This improves the quality of the concrete and reduces waste.
Easy Maintenance: The design of the gearbox allows for easy access to critical components, making maintenance and repairs quick and straightforward. This minimizes downtime and keeps the truck operational.
Efficient Heat Dissipation: The gearbox is equipped with efficient heat dissipation mechanisms to prevent overheating during continuous operation. This ensures stable performance and extended service life.
Applications:
The Concrete Mixer Truck Hydraulic Gearbox PMP6.5R120CP is suitable for use in various types of concrete mixer trucks, including both on-road and off-road models. It is widely used in construction, mining, and other industries where reliable and efficient concrete mixing is crucial.
Installation and Operation:
The installation of the gearbox is straightforward and requires minimal downtime. Once installed, it integrates seamlessly with the truck’s hydraulic system, providing smooth and reliable operation. Regular maintenance and inspections are recommended to ensure optimal performance and long-term durability.
In summary, the Concrete Mixer Truck Hydraulic Gearbox PMP6.5R120CP is a robust and reliable component that ensures smooth and efficient operation of concrete mixer trucks. Its high torque capacity, smooth operation, and easy maintenance make it a valuable addition to any construction fleet.
| Technical data of Camray CMR conrete mixer gearbox | ||
| Model | 6.5R120CP | 7.1R120CP |
| Max.Output Torque Nm |
65,000 | 65,000 |
| Ratio l= |
1:120 | 1:120 |
| Max.installation angle of Drum | 12° | 12° |
| Max.Input speed rpm |
2500 | 2500 |
| Max.Output speed rpm |
18 | 18 |
| Max.Capacity of Drum m³ | 8~12 | 8~12 |
| Weight(without oil) KG | 320 | 320 |
| Model NO. | 6.5R120CP | Model | 6.5R120CP |
| Lead Time | 5 Days | Transport Package | Standard Export Wooden Case |
| Colour | as Your Request | Usage | Concrete Mixer |
| Weight | 330KG | Specification | 56*56*68 |
| Trademark | Bodeke | Origin | China |
| HS Code | 8483457100 | Production Capacity | 100 Sets/Month |
FAQs about Mixer Truck Speed Reducer
Q1: What is a mixer truck speed reducer?
A1: A mixer truck speed reducer is a mechanical device that reduces the speed of the mixer truck’s motor, increasing torque and allowing for more effective mixing. It helps to transfer power from the motor to the mixer drum more efficiently, ensuring smooth and consistent mixing.
Q2: Why is a speed reducer necessary for mixer trucks?
A2: A speed reducer is necessary for mixer trucks because it matches the speed and torque requirements of the mixer drum to the output of the truck’s motor. By reducing the speed, the reducer amplifies the torque, allowing the mixer drum to rotate at the optimal speed for mixing, while minimizing wear and tear on the motor.
Q3: How does a mixer truck speed reducer work?
A3: A mixer truck speed reducer typically consists of a series of gears or other mechanical components that transfer power from the motor to the mixer drum at a reduced speed. These gears are designed to mesh together, reducing the speed of rotation while increasing torque. This allows the mixer drum to rotate at a slower, more controlled speed, ensuring effective mixing.
Q4: What are the benefits of using a mixer truck speed reducer?
A4: Using a mixer truck speed reducer provides several benefits. It increases the torque output of the motor, allowing the mixer drum to rotate more effectively and mix materials more thoroughly. Additionally, it reduces wear and tear on the motor by matching the speed and torque requirements of the mixer drum, extending the motor’s lifespan. Furthermore, a speed reducer can improve the overall efficiency of the mixer truck, reducing fuel consumption and operational costs.
Q5: How often should a mixer truck speed reducer be maintained?
A5: The frequency of maintenance for a mixer truck speed reducer depends on the specific model and manufacturer’s recommendations. However, generally speaking, it is important to perform regular inspections and lubrication to ensure the reducer is operating smoothly and efficiently. Additionally, if any issues or malfunctions are noticed, it is crucial to address them promptly to prevent further damage or downtime. Regular maintenance can help extend the lifespan of the speed reducer and keep your mixer truck operating at CZPT performance.
Q6: What are the common issues that can arise with mixer truck speed reducers?
A6: Common issues that can arise with mixer truck speed reducers include wear and tear on gears, bearings, and other mechanical components. This can lead to reduced efficiency, increased noise, and ultimately, failure of the reducer. Lubrication issues, such as insufficient or contaminated lubricant, can also cause problems. Regular maintenance and inspection, as well as prompt repair of any issues, are crucial to preventing these common problems and ensuring the reliable operation of the speed reducer.
Q7.Are you manufacturer? And what’s the delivery time?
A7:Yes, we are manufacturer and have our own factory. Generally, its in stock for common models, 25-30 days will be finished and sent to customer in time.
Q8.If we don’t find what we want on your website, what should we do?
A8: You can email us the descriptions and pictures of the products you need, We will check whether we can make it.
Q9.How about the inspection and Guarantee of products?
A9:We promise: all products are tested before ship, to confirm it will be working and in good conditions when customers get. Also, we offer 12-month guarantee, if it doesn’t work due to quality issue in the period, we will send spares to repair for free.
Bodeke Industrial Components Co., Ltd. is a leading Chinese company specializing in the manufacturing and maintenance of a wide range of industrial equipment components. Our products find application in diverse sectors, including cement tanker trucks, excavators, rescue equipment for cement trucks, mixers, cranes, hydraulic motors, hydraulic pumps, and other industrial machinery.
| Empower your industrial machinery with Bodeke – a leading Chinese manufacturer specializing in the repair and production of a wide range of equipment components.From cement tanker trucks and excavators to mixer trucks,cranes,hydraulic motors,and pumps,our precision-engineered products redefine reliability and performance.Elevate your operations with Bodeke’s quality components-your trusted partner in global industrial excellence. | |||
| Gearbox | Pump | Motor | |
| PLM-7 reducer / gearbox | PMP7YR120 reducer / gearbox | 4623-552 pump | 4633 motor |
| PLM-9 reducer / gearbox | PMP7.2R129 reducer / gearbox | 5423-518 pump | 5433-138 motor |
| CML-10 reducer / gearbox | PMP7.1R130 reducer / gearbox | 6423-279 pump | 6433 motor |
| CML-12 reducer / gearbox | PMP7.5R130 reducer / gearbox | Eaton 4623-552 pump | Eaton 4633 motor |
| CML16 reducer / gearbox | PMP7.8R140 reducer / gearbox | Eaton 5423-518 pump | Eaton 5433-138 motor |
| P3301 reducer / gearbox | PMP8.0R140 reducer / gearbox | Eaton 6423-279 pump | Eaton 6433 motor |
| P4300 reducer / gearbox | PMP9YR140 reducer / gearbox | PV22 pump | MF22 motor |
| P5300 reducer / gearbox | PMP7.5R134 reducer / gearbox | PV23 pump | MF23 motor |
| P7300 reducer / gearbox | PMP7.5R135 reducer / gearbox | SPV22 pump | SMF22 motor |
| PLM-7 reducer / gearbox | PMP7.5R136 reducer / gearbox | SPV23 pump | SMF23 motor |
| PLM-9 reducer / gearbox | PMP6sp reducer / gearbox | PV070 pump | MF070 motor |
| CML-10 reducer / gearbox | PMP 6.5sp reducer / gearbox | PV089 pump | MF089 motor |
| CML-12 reducer / gearbox | PMP 7.1sp reducer / gearbox | SPV070 pump | SMF070 motor |
| CML16 reducer / gearbox | PMP 7.5sp reducer / gearbox | SPV089 pump | SMF089 motor |
| P3301 reducer / gearbox | PMP 6cp reducer / gearbox | PV110 pump | MF110 motor |
| P4300 reducer / gearbox | PMP 6.5cp reducer / gearbox | SPV110 pump | SMF110 motor |
| P5300 reducer / gearbox | PMP 7.1cp reducer / gearbox | PV112 pump | MF112 motor |
| P7300 reducer / gearbox | PMP 7.5cp reducer / gearbox | SPV112 pump | SMF112 motor |
| PMB 6.0 reducer / gearbox | 575L reducer / gearbox | PV090 pump | MF090 motor |
| PMB6R100 reducer / gearbox | 577L reducer / gearbox | SPV090 pump | SMF090 motor |
| PMB6.5R120 reducer / gearbox | 580L reducer / gearbox | A4VTG71pump | TMM070 motor |
| PMB7aspR120 reducer / gearbox | 575S3W reducer / gearbox | A4VTG90 pump | TMM089 motor |
| PMB7.1R120 reducer / gearbox | 577S3W reducer / gearbox | 90C pump | AA2FM63/A2FM90/61W Piston Motor |
| PMB7YR120 reducer / gearbox | 580S3W reducer / gearbox | 90A pump | AA2FM80/A2FM90/62W Piston Motor |
| PMB7.2R129 reducer / gearbox | PM51.2 reducer / gearbox | MA4V090 pump | AA2FM90/A2FM90/63W Piston Motor |
| PMB7.1R130 reducer / gearbox | PM61.2 reducer / gearbox | PMP P110 pump | 90M75 motor |
| PMB7.5R130 reducer / gearbox | PM71.2 reducer / gearbox | PMP P90 pump | 90M100 motor |
| PMB7.8R140 reducer / gearbox | TMG51.2 reducer / gearbox | PMH P110 pump | MSF85 motor |
| PMB8.0R140 reducer / gearbox | TMG61.2 reducer / gearbox | PMH P90 pump | PMP M110 motor |
| PMB9YR140 reducer / gearbox | TMG71.2 reducer / gearbox | A4VTG090HW100/33MRNC4C92F0000AS-0 pump | PMH M90 motor |
| PMB7.5R134 reducer / gearbox | P58 reducer / gearbox | A4VTG90HW/32R-NLD10F001S pump | PMH M110 motor |
| PMB7.5R135 reducer / gearbox | P68 reducer / gearbox | A4VTG71 hydraulic piston pump | PMH M90 motor |
| PMB7.5R136 reducer / gearbox | P70 reducer / gearbox | T90R100-35-20 hydraulic piston pump | A2FO23 PISTON pump |
| PMB 6sp reducer / gearbox | P75S reducer / gearbox | T90L100 hydraulic piston pump | A2FO16 PISTON pump |
| PMB 6.5sp reducer / gearbox | P75R reducer / gearbox | T90R75hydraulic piston pump | A2FO18 PISTON pump |
| PMB 7.1sp reducer / gearbox | P80 reducer / gearbox | T90L75hydraulic piston pump | VB99-17 reducer / gearbox |
| PMB 7.5sp reducer / gearbox | P90S reducer / gearbox | A11VO40DRG/10R-NPC12N00 PISTON pump | A2FO32/61L-VAB05 PISTON pump |
| PMB 6cp reducer / gearbox | P90 reducer / gearbox | A11VLO190LRDU2/11R-NZD12K02P-S PISTON pump | HA4VTG090HW/33R |
| PMB 6.5cp reducer / gearbox | TOP P58 reducer / gearbox | A11VLO190LRDU2 | |
| ZTS P68 reducer / gearbox | ZHP P75S reducer / gearbox | A4VG180HD1MT1/32R-NSF02F571-S PISTON pump | 875719000 |
| ZTS P70 reducer / gearbox | DD33-MF reducer / gearbox | A7VO55LRDS/63L-NZB01-S PISTON pump | 8483457100 |
| ZTS P75S reducer / gearbox | ZHP P68 reducer / gearbox | Concrete Mixer Truck Mixer Drum Cement Mixer | SAUER,Bonfiglioli,TOPUNIOU,KYB,REXROTH, , ,PMP |
/* 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(/(.*?):(.*)$/))&&1
| Application: | Machinery |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Installation: | 90 Degree |
| Layout: | Expansion |
| Gear Shape: | Cylindrical Gear |
| Step: | Double-Step |
| Samples: |
US$ 690/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
Challenges in Achieving High Gear Ratios with Compactness in Planetary Gearboxes
Designing planetary gearboxes with high gear ratios while maintaining compactness presents several challenges:
- Space Constraints: As the gear ratio increases, the number of gear stages required also increases. This can lead to larger gearbox sizes, which may be challenging to accommodate in applications with limited space.
- Bearing Loads: Higher gear ratios often result in increased loads on the bearings and other components due to the redistribution of forces. This can impact the durability and lifespan of the gearbox.
- Efficiency: Each gear stage introduces losses due to friction and other factors. With multiple stages, the overall efficiency of the gearbox can decrease, affecting its energy efficiency.
- Complexity: Achieving high gear ratios can require complex gear arrangements and additional components, which can lead to increased manufacturing complexity and costs.
- Thermal Effects: Higher gear ratios can lead to greater heat generation due to increased friction and loads. Managing thermal effects becomes crucial to prevent overheating and component failure.
To address these challenges, gearbox designers use advanced materials, precise machining techniques, and innovative bearing arrangements to optimize the design for both compactness and performance. Computer simulations and modeling play a critical role in predicting the behavior of the gearbox under different operating conditions, helping to ensure reliability and efficiency.
Enhancing Wind Turbine System Performance with Planetary Gearboxes
Planetary gearboxes play a crucial role in enhancing the performance and efficiency of wind turbine systems. Here’s how they contribute:
1. Speed Conversion: Wind turbines operate optimally at specific rotational speeds to generate electricity efficiently. Planetary gearboxes allow for speed conversion between the low rotational speed of the wind turbine rotor and the higher speed required by the generator. This speed adaptation ensures the generator operates at its peak efficiency, resulting in maximum power generation.
2. Torque Amplification: Wind turbine blades may experience varying wind speeds, which result in fluctuating torque loads. Planetary gearboxes can amplify the torque generated by the rotor blades before transmitting it to the generator. This torque multiplication helps maintain stable generator operation even during wind speed variations, improving overall energy production.
3. Compact Design: Wind turbines are often installed in locations with limited space, such as offshore platforms or densely populated areas. Planetary gearboxes offer a compact design, allowing for efficient power transmission within a small footprint. This compactness is vital for accommodating gearboxes in the limited nacelle space of the wind turbine.
4. Load Distribution: Wind turbines are subjected to varying wind conditions, including gusts and turbulence. Planetary gearboxes distribute the load evenly among multiple planet gears, reducing stress and wear on individual components. This balanced load distribution improves gearbox durability and reliability.
5. Efficiency Optimization: Planetary gearboxes are known for their high efficiency due to their parallel axis arrangement and multiple gear stages. The efficient power transmission minimizes energy losses within the gearbox, resulting in more power being converted from wind energy to electricity.
6. Maintenance and Reliability: The robust construction of planetary gearboxes contributes to their durability and longevity. Wind turbines often operate in challenging environments, and the reliability of the gearbox is crucial for minimizing maintenance and downtime. Planetary gearboxes’ low maintenance requirements and ability to handle varying loads contribute to the overall reliability of wind turbine systems.
7. Variable Speed Control: Some wind turbines use variable-speed operation to optimize power generation across a range of wind speeds. Planetary gearboxes can facilitate variable speed control by adjusting the gear ratio to match the wind conditions. This flexibility improves energy capture and reduces stress on turbine components.
8. Adaptation to Turbine Size: Planetary gearboxes are available in various sizes and gear ratios, making them adaptable to different turbine sizes and power outputs. This versatility allows wind turbine manufacturers to select gearboxes that align with specific project requirements.
Overall, planetary gearboxes play a pivotal role in optimizing the performance, efficiency, and reliability of wind turbine systems. Their ability to convert speed, amplify torque, and distribute loads makes them a key component in harnessing wind energy for clean and sustainable electricity generation.
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 2024-05-14