Product Description
Product Description
This gearbox is designed for plastic extrusion machine. It meet JB/T9040-1999 standard. The gear is made of high-strength alloy steel and hardened by carburizing and quenching. The accuracy of grinding teeth is higher than Level 6 and the hardness is HRC 54-62. In the front of output shaft,we assemble a thrust bearing with high safety factor to bear the extrusion pressure of screw.
Detailed Photos
| Loading capacity sheet of CHINAMFG and ZSYJ reduction gearboxes | ||||||||||||||||||||
| Type | ZLYJ | ZSYJ | ||||||||||||||||||
| Spec | △ | △ | △ | △ | △ | △ | * | * | * | * | * | * | * | * | * | * | * | * | ||
| 112 | 133 | 146 | 173 | 200 | 225 | 250 | 280 | 315 | 330 | 375 | 395 | 420 | 450 | 500 | 560 | 630 | 450 | 560 | 530 | |
| -8 | -8 | -10 | -12.5 | -12.5 | -16 | -16 | -16 | -16 | -16 | -16 | -16 | -16 | -12 | -20 | -20 | -20 | -32 | -57 | -44 | |
| Normal input power(kw) n=1500rpm | ||||||||||||||||||||
| Ordinary reliable | 15 | 22 | 30.8 | 39 | 55 | 75 | 82.5 | 116 | 171 | _ | 260 | 300 | 315 | 332 | 450 | 600 | 825 | 240 | 240 | 370 |
| High reliable | 10 | 15 | 18.3 | 30.8 | 45 | 60 | 67 | 75 | 116 | 207 | 207 | 240 | 250 | 266 | 350 | 550 | 675 | 200 | 220 | 315 |
| Allowable output torque(N.m) | ||||||||||||||||||||
| Ordinary reliable | 800 | 1165 | 1962 | 2484 | 4379 | 6568 | 7643 | 11822 | 17427 | _ | 26497 | 3571 | 32102 | 38599 | 5571 | 76433 | 105095 | 48917 | 87134 | 103694 |
| High reliable | 525 | 764 | 1165 | 1962 | 3583 | 5334 | 6306 | 7643 | 11822 | 21000 | 21096 | 24380 | 25478 | 33885 | 44566 | 70063 | 85978 | 40764 | 79873 | 88280 |
| Recommended parameters of single-screw extruder machine reduction gearbox(Optional) | ||||||||
| Type | Spec. | Power/Kw | Speed-Input | Speed-Output | Load torque/N.m | Axial force/KN | Screw diameter | Length-Diameter Ratio |
| ZLYJ | 112-8 | 5.5 | 800 | 100 | 525 | 35 | less than 35 | 25:1 |
| 113-8 | 6 | 800 | 100 | 764 | 39 | 50 | 25:1 | |
| 146-10 | 11 | 1000 | 100 | 1050 | 54 | 55 | 25:1 | |
| 173-10 | 18.5 | 900 | 90 | 1962 | 110 | 65 | 25:1 | |
| 200-12.5 | 30 | 1000 | 80 | 3581 | 155 | 75 | 25:1 | |
| 225-12.5 | 45 | 1000 | 80 | 5371 | 180 | 90 | 25:1 | |
| 250-16 | 55 | 1120 | 70 | 7503 | 192 | 105 | 25:1 | |
| 280-16 | 75 | 960 | 60 | 7643 | 258 | 110 | 25:1 | |
| 315-16 | 85 | 960 | 60 | 13528 | 287 | 120 | 25:1 | |
| 330-16 | 110 | 960 | 60 | 17528 | 360 | 135 | 25:1 | |
| 375-16 | 132 | 960 | 60 | 21008 | 390 | 150 | 25:1 | |
| 395-16 | 185 | 960 | 60 | 29442 | 400 | 160 | 25:1 | |
| 420-16 | 160/220 | 960 | 60 | 31831 | 430 | 160/170 | ||
| 450-20 | 213 | 1000 | 60 | 40640 | 500 | 180 | 25:1 | |
| 500-20 | 220 | 1000 | 50 | 42571 | 550 | 180 | 25:1 | |
| 560-17 | 440 | 1000 | 50 | 84034 | 700 | 200 | 25:1 | |
| 630-10 | 540 | 1000 | 50 | 15712 | 770 | 250 | 25:1 | |
| ZSYJ | 450-32 | 200 | 1500 | 47 | 4 0571 | 500 | 165 | 25:1 |
| 560-57 | 220 | 1500 | 26 | 80802 | 700 | 190 | 25:1 | |
Company Profile
Zhe jiang yifan gear box group CO., LTD was set up in 1970. It specializes in developing and producing small and medium-sized marine gearboxes, plastic extruder slowdown bins, Z4 DC motors,generators and so on.There are mainly 300 moreproduction equipments,including more than60 big,fine and expensive ones. The area of our company is 110, 000 square meters.There are 350 staff,and 25%of the total number are the middle and senior technical members. Since the venture,we commit toresearching and developing new products,and keeping improving the technology. We pay great attention to the after-salesservice. All of these efforts increase the developing footsteps of our company. We have strong technical strength , sophisticatedprocessing equipments,advanced products detection equipments,and own a complete security system including productsdesigned,mechanical processing,unit assembly,testing before coming out from the factory and after-sales service. Ourproducts have passed the ISO9001 Quality System Certification.
Certifications
Our Advantages
1: High transmission efficiency
2: Smooth operation and low noise
3: Small size and high carrying capacity.
4: Easy to disassemble and easy to install.
FAQ
Q: Are you trading company or manufacturer?
A: We are factory.
Q: How long is your delivery time?
A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock.
Q: Can we buy 1 pc of each item for quality testing?
A: Yes, we are glad to accept trial order for quality testing.
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| Application: | Machinery |
|---|---|
| Function: | Speed Reduction |
| Layout: | Coaxial |
| Hardness: | Hardened Tooth Surface |
| Installation: | Horizontal Type |
| Step: | Double-Step |
| Samples: |
US$ 500/Piece
1 Piece(Min.Order) | |
|---|
Are there innovations or advancements in winch drive technology that have emerged recently?
In recent years, there have been notable innovations and advancements in winch drive technology that have improved performance, efficiency, and safety. Here’s a detailed explanation of some of the recent innovations and advancements in winch drive technology:
- Smart and Connected Winch Drives:
One of the significant advancements in winch drive technology is the integration of smart and connected features. Winch drives are now equipped with sensors, communication capabilities, and data processing capabilities, allowing them to be part of the Internet of Things (IoT) ecosystem. These smart winch drives can collect and analyze data in real-time, enabling remote monitoring, predictive maintenance, and performance optimization. They can communicate with other devices and systems, facilitating integration into larger control networks and automation systems.
- High-Efficiency Motor Technology:
Advancements in motor technology have contributed to higher efficiency in winch drives. Brushless DC (BLDC) motors and energy-efficient AC motors are becoming more prevalent in modern winch drives. These motors offer improved power density, higher torque-to-weight ratio, and better overall energy efficiency compared to traditional brushed motors. Additionally, advancements in motor control algorithms and variable frequency drive (VFD) technology allow for precise control and optimization of motor performance, resulting in increased efficiency and reduced energy consumption.
- Regenerative Braking:
Regenerative braking is a recent innovation in winch drive technology that improves energy efficiency. When a winch drive applies braking force to control the descent of a load, regenerative braking allows the drive to convert the braking energy into electrical energy. This electrical energy can be fed back into the power supply or stored in batteries for later use. By recovering and reusing energy that would otherwise be wasted as heat, regenerative braking reduces overall energy consumption and increases the efficiency of winch drives.
- Advanced Control and Safety Systems:
Winch drives now incorporate advanced control and safety systems that enhance their performance and safety. These systems utilize advanced algorithms, real-time data processing, and precise feedback control to optimize the operation of winch drives. They offer features such as load monitoring, automatic load balancing, anti-sway control, and intelligent speed control. Additionally, safety features like emergency stop functions, overload protection, and fault diagnostics are integrated to ensure safe operation and prevent equipment damage or accidents.
- Improved Materials and Construction:
Advancements in materials and construction techniques have also contributed to the development of more efficient and durable winch drives. The use of lightweight and high-strength materials, such as advanced alloys and composites, improves the power-to-weight ratio of winch drives. Precision machining and advanced manufacturing processes enhance the overall reliability and performance of winch drive components. These advancements result in winch drives that are more compact, reliable, and capable of handling higher loads while maintaining efficiency.
- Intuitive User Interfaces:
Recent innovations in winch drive technology have focused on improving user interfaces and operator experience. Intuitive touchscreens, graphical user interfaces (GUIs), and ergonomic control panels provide operators with easy-to-use interfaces for monitoring and controlling winch drives. These user interfaces offer real-time feedback, visualizations, and diagnostic information, making it easier for operators to operate winch drives safely and efficiently.
In summary, recent years have seen significant innovations and advancements in winch drive technology. The integration of smart and connected features, high-efficiency motor technology, regenerative braking, advanced control and safety systems, improved materials and construction, and intuitive user interfaces have all contributed to improved performance, efficiency, and safety in winch drives.
What factors should be considered when selecting a winch drive for specific applications?
When selecting a winch drive for specific applications, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed explanation of the key factors that should be taken into account:
- Load Capacity:
The load capacity is one of the most critical factors to consider when selecting a winch drive. It refers to the maximum weight or force that the winch can handle safely and efficiently. It’s essential to evaluate the anticipated loads in the specific application and choose a winch drive with a sufficient load capacity to handle those loads. Selecting a winch drive with inadequate load capacity can result in safety hazards, reduced performance, and potential damage to the winch or the load being lifted or pulled.
- Power Source:
The power source of the winch drive is another crucial consideration. Winch drives are available in electric, hydraulic, and pneumatic variants, each with its own advantages and limitations. The choice of power source depends on factors such as the availability of power, the required pulling power, and the specific application’s environmental conditions. Electric winch drives are commonly used due to their ease of use and versatility. Hydraulic winch drives offer high pulling power for heavy-duty applications, while pneumatic winch drives are suitable for hazardous or explosive environments where electrical components are not permitted.
- Control Mechanisms:
The control mechanisms of the winch drive play a significant role in the efficiency and ease of operation. Consider the control options available for the winch drive, such as manual control, remote control, or integrated control systems. Remote control systems, for example, allow operators to control the winch drive from a safe distance, enhancing safety and flexibility. Additionally, some winch drives offer features like variable speed control, which allows for precise positioning and controlled movement of the load.
- Environmental Conditions:
The environmental conditions in which the winch drive will be used should be carefully assessed. Some winch drives are designed to withstand harsh environments, such as extreme temperatures, moisture, dust, or corrosive substances. For example, in marine applications, winch drives need to be corrosion-resistant and capable of operating in wet and salty conditions. Assessing the specific environmental conditions and selecting a winch drive with appropriate protection and durability features ensures its longevity and reliable performance.
- Mounting and Installation:
The mounting and installation requirements of the winch drive should be considered to ensure proper integration into the intended application. Evaluate factors such as space availability, mounting options (e.g., vehicle-mounted, structure-mounted, or portable), and compatibility with existing equipment or systems. Some winch drives may require additional accessories or modifications for installation, so it’s important to factor in these considerations during the selection process.
- Safety Features:
Winch drives should be equipped with appropriate safety features to prevent accidents and ensure secure operation. Common safety features include overload protection, emergency stop mechanisms, limit switches, and braking systems for load holding. These safety features contribute to the safe operation of the winch drive and protect against potential hazards or damage caused by excessive loads or unexpected circumstances.
- Reliability and Maintenance:
Consider the reliability and maintenance requirements of the winch drive. Look for winch drives from reputable manufacturers known for producing high-quality and reliable equipment. Assess factors such as maintenance intervals, ease of maintenance, availability of spare parts, and after-sales support. Choosing a winch drive that is reliable and has accessible maintenance options ensures minimal downtime and long-term cost-effectiveness.
By considering these factors when selecting a winch drive for specific applications, you can make an informed decision that aligns with the load requirements, power source availability, control preferences, environmental conditions, and safety considerations of your intended application.
How does the design of a winch drive contribute to efficient load lifting and pulling?
The design of a winch drive plays a critical role in ensuring efficient load lifting and pulling operations. Various design considerations are implemented to optimize performance, reliability, and safety. Here’s a detailed explanation of how the design of a winch drive contributes to efficient load lifting and pulling:
- Power and Torque:
A well-designed winch drive is equipped with a power source and gearbox that provide sufficient power and torque to handle the intended load. The power source, whether it’s an electric motor or hydraulic system, should have adequate capacity to generate the required energy for the pulling or lifting operation. The gearbox or transmission is designed to provide the appropriate torque output, matching the load requirements. By ensuring the winch drive has the necessary power and torque, it can efficiently handle the load without straining the components or compromising performance.
- Gearing and Speed Control:
The gearing system within the winch drive allows for precise control over the speed of the pulling or lifting operation. The gearbox is designed with different gear ratios, enabling the operator to select the desired speed based on the specific requirements of the task. This capability is crucial for efficient load handling. For instance, a higher gear ratio can be used for lighter loads or faster pulling speeds, while a lower gear ratio provides increased pulling power for heavier loads. The ability to control the speed optimizes the efficiency of the winch drive by adapting to the load characteristics and operational needs.
- Drum Size and Cable Capacity:
The design of the winch drive includes considerations for the drum size and cable capacity. The drum is responsible for winding or unwinding the cable during the pulling or lifting operation. A larger drum diameter allows for a greater length of cable to be wound, which increases the pulling capacity of the winch. The drum design should also ensure proper cable alignment and smooth winding to prevent cable damage or entanglement. By optimizing the drum size and cable capacity, the winch drive can efficiently handle the load and accommodate the necessary cable length required for the task.
- Braking System:
An efficient winch drive incorporates a reliable braking system. The braking system is designed to hold the load securely when the winch is not actively pulling or lifting. It prevents the load from slipping or releasing unintentionally, ensuring safety and stability during operation. The braking system should engage quickly and provide sufficient holding force, even in the event of power loss or sudden load changes. A well-designed braking system contributes to the efficiency of load lifting and pulling by maintaining control and preventing accidents or damage.
- Control System and Safety Features:
The design of the winch drive includes a control system with intuitive controls and safety features. The control system allows the operator to manage the operation of the winch drive, including start/stop functions, direction control, and speed adjustment. Clear and user-friendly controls enhance operational efficiency and facilitate precise load handling. Additionally, safety features such as overload protection, emergency stop mechanisms, and limit switches are integrated into the winch drive design to ensure safe operation and prevent damage to the equipment or injury to personnel.
By considering power and torque requirements, gearing and speed control, drum size and cable capacity, braking systems, control systems, and safety features, the design of a winch drive contributes to efficient load lifting and pulling. These design elements work together to optimize performance, control, and safety, allowing the winch drive to handle loads effectively and reliably in various applications and industries.
editor by CX 2024-03-26
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