Product Description
Product Description
Product Description:
Introducing the High Power 63mm DC Worm Gear Motor
Upgrade to the High Power version of the 63mm DC worm gear motor from HangZhou Xihu (West Lake) Dis. Motor Co., Ltd. This motor is designed for optimal performance with a 50A stall current, making it ideal for high-power applications.
Key Features:
- Available with a 48CPR encoder for precise control
- Option to include a back shaft for added versatility
- Choose between a metal brush or carbon brush for customized performance
Whether you need reliable power and precision, this 63mm DC worm gear motor is the perfect choice for your project. Upgrade to the High Power version today!
63mm,76mm turboworm gear box motor, low noise and small load torque selection of plastic gear of POM material, there is no requirement for noise, but the choice of metal gear with large load torque,
The motor is used in rolling gates, automatic fence doors, glass doors, wipers, wheelchairs, various lifting equipment, kitchen supplies and other products.
The encoder can be used as a low cost servo motor and has the same function.
Equipped with left and right gearboxes can be used symmetrically, using rolling shafts and oil-bearing to meet various scenarios.
Various parameters can be adjusted according to customer requirements, the maximum torque of 12V/24V is 50N.m, for the speed of 10RPM
| voltage VDC |
no load speed RPM |
no load current A |
load torque KG.CM |
on load speed RPM |
power W |
ratio |
| 12 | 80 | 1.8 | 60 | 68 | 80 | 60:1 |
| 12 | 130 | 1.2 | 33 | 110 | 30 | 20:1 |
| 12 | 150 | 1.2 | 45 | 130 | 30 | 20:1 |
| 12 | 170 | 1.4 | 35 | 150 | 45 | 24:1 |
| 24 | 30 | 1.4 | 60 | 25 | 30 | 60:1 |
| 24 | 65 | 120 | 50 | 60 | 80 | 20:1 |
| 24 | 210 | 1.0 | 40 | 180 | 45 | 75:1 |
Detailed Photos
Product Parameters
Certifications
Packaging & Shipping
Installation Instructions
Company Profile
FAQ
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| Application: | DC Worm Gear Motor |
|---|---|
| Operating Speed: | Low Speed |
| Excitation Mode: | Excited |
| Function: | Driving |
| Casing Protection: | Open Type |
| Number of Poles: | 2 |
| Customization: |
Available
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What factors should be considered when selecting worm wheels for different applications?
When selecting worm wheels for different applications, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed explanation of the factors that should be taken into account:
- Torque Requirement: The torque requirement of the application is a crucial factor in selecting the appropriate worm wheel. Consider the maximum torque that the worm wheel needs to transmit and ensure that the selected worm wheel has a sufficient torque rating to handle the load without excessive wear or failure.
- Speed Range: The speed range of the application influences the choice of worm wheel. Different worm wheel configurations are suitable for specific speed ranges. For high-speed applications, it may be necessary to consider factors such as tooth design, materials, and lubrication to minimize friction and wear under increased rotational speeds.
- Load Capacity: Evaluate the expected load on the worm wheel and ensure that the selected worm wheel can handle the specific load without deformation or excessive wear. Factors such as tooth profile, material selection, and the number of threads in the worm wheel contribute to its load-carrying capacity.
- Space Constraints: Consider the available space for the installation of the worm wheel. Worm wheels come in various sizes, and it’s essential to choose a size that fits within the designated space without compromising performance or interfering with other components of the system.
- Operating Conditions: Evaluate the operating conditions such as temperature, humidity, and contamination levels. Some applications may require worm wheels with specific material properties to withstand harsh environments or corrosive substances. Consider factors such as corrosion resistance, temperature tolerance, and the need for additional sealing or protection measures.
- Efficiency Requirements: The desired efficiency of the system is an important consideration. Different worm wheel configurations and materials have varying levels of efficiency. Evaluate the trade-off between efficiency, cost, and other application requirements to select a worm wheel that provides the desired balance of performance and cost-effectiveness.
- Maintenance and Lubrication: Consider the maintenance requirements and lubrication needs of the worm wheel. Some worm wheels may require periodic lubrication to ensure smooth operation and minimize wear. Evaluate the accessibility of the worm wheel for lubrication and the frequency of maintenance that the application can accommodate.
- Compatibility: Ensure that the selected worm wheel is compatible with other components of the system, such as the mating worm gear and any associated power transmission elements. Consider factors such as tooth profiles, pitch, backlash control, and the overall system design to ensure proper meshing, alignment, and efficient power transmission.
- Cost Considerations: Finally, consider the cost implications of the selected worm wheel. Evaluate factors such as material costs, manufacturing complexity, and any additional features or customization required. Balance the desired performance and quality with the available budget to select a worm wheel that meets both technical and financial requirements.
By carefully considering these factors, it is possible to select the most suitable worm wheel for a specific application, ensuring optimal performance, longevity, and efficient power transmission.
What is a worm wheel, and how does it function in mechanical systems?
A worm wheel, also known as a worm gear or worm gear wheel, is an important component in mechanical systems that helps transmit motion and power between two perpendicular shafts. It consists of a circular gear called the worm wheel or worm gear, and a screw-like gear called the worm or worm screw. Here’s a detailed explanation of what a worm wheel is and how it functions in mechanical systems:
A worm wheel is a gear with teeth that are cut in a helical pattern around its circumference. It meshes with the worm, which has a threaded shaft resembling a screw. The worm gear and the worm are designed in such a way that their threads have a specific shape and orientation to ensure smooth and efficient power transmission.
The primary function of a worm wheel in mechanical systems is to provide a compact and efficient means of transmitting rotational motion and power between shafts that are oriented at right angles to each other. The interaction between the worm gear and the worm allows for high gear reduction ratios, making it suitable for applications that require large speed reductions and high torque output.
When the worm rotates, its threaded shaft engages with the teeth of the worm wheel, causing the wheel to rotate. The helical shape of the worm gear teeth allows for a sliding action between the worm and the worm wheel, resulting in a smooth and continuous transfer of motion. The gear ratio between the worm and worm wheel determines the speed reduction and torque multiplication achieved.
The unique design of the worm wheel provides several advantages in mechanical systems:
- High Gear Reduction: The helical threads of the worm wheel enable a significant reduction in rotational speed while increasing torque output. This makes it suitable for applications where a large reduction in speed is required, such as in machinery with heavy loads or precise positioning requirements.
- Self-Locking: The frictional force between the worm gear and the worm prevents backdriving, which means the worm wheel can hold its position even when the driving force is removed. This self-locking feature is beneficial for applications where it is necessary to prevent the transmission of motion from the output side back to the input side.
- Compact Design: The perpendicular arrangement of the worm and worm wheel allows for a compact and space-saving design. This is advantageous in applications where space constraints are a concern, such as in automotive, robotics, or machinery with limited available space.
- Quiet Operation: The sliding action between the worm and the worm wheel helps distribute the load over multiple teeth, reducing noise and vibration. This makes worm wheel mechanisms suitable for applications that require smooth and quiet operation, such as in precision equipment or gearboxes.
- Efficiency: Worm wheel systems can achieve high efficiency when properly designed and lubricated. However, they typically have lower efficiency compared to other types of gear systems due to the sliding motion and increased friction between the components.
Worm wheels are commonly used in various mechanical systems, including automotive transmissions, industrial machinery, elevators, printing presses, and steering systems. Their unique characteristics make them well-suited for applications that require precise control, high torque, and compact design.
It is important to note that proper lubrication, maintenance, and design considerations are crucial for ensuring the reliable and efficient operation of worm wheel systems. Regular inspections and adherence to manufacturer guidelines are essential for maximizing the lifespan and performance of worm wheel components.
Are there innovations or advancements in worm wheel technology that have emerged in recent years?
Yes, there have been significant innovations and advancements in worm wheel technology in recent years. Here’s a detailed explanation of some notable developments:
- Improved Materials: The development of new materials and advanced manufacturing techniques has contributed to improved performance and durability of worm wheels. High-performance materials such as hardened steels, alloys, and composite materials are being used to enhance the strength, wear resistance, and load-carrying capacity of worm wheels. These materials offer better fatigue resistance, reduced friction, and increased efficiency, leading to longer service life and improved overall performance.
- Enhanced Tooth Profile Design: Innovations in tooth profile design have focused on optimizing the contact pattern, load distribution, and efficiency of worm wheels. Advanced computer-aided design (CAD) and simulation tools enable the modeling and analysis of complex tooth profiles, resulting in improved gear meshing and reduced losses. Modified tooth profiles, such as helical or curved teeth, are being employed to minimize sliding friction, increase tooth engagement, and enhance overall efficiency.
- Surface Treatments and Coatings: Surface treatments and coatings are being used to improve the wear resistance, reduce friction, and enhance the performance of worm wheels. Technologies such as nitriding, carburizing, and diamond-like carbon (DLC) coatings are applied to the gear surfaces to increase hardness, reduce friction, and minimize wear. These treatments and coatings improve the efficiency and extend the lifespan of worm wheels, particularly in demanding applications with high loads or harsh operating conditions.
- Advanced Manufacturing Techniques: Innovations in manufacturing techniques have enabled the production of worm wheels with higher precision, tighter tolerances, and improved surface finishes. Technologies such as computer numerical control (CNC) machining, 3D printing, and advanced grinding methods allow for the production of complex geometries and accurate tooth profiles. These advancements result in better gear meshing, reduced noise, improved efficiency, and enhanced overall performance of worm wheel systems.
- Integrated Lubrication Systems: Integrated lubrication systems have been developed to optimize the lubrication process and improve the efficiency of worm wheels. These systems use precise oil delivery mechanisms, such as micro-pumps or spray nozzles, to deliver lubricant directly to the meshing surfaces. The controlled and targeted lubrication ensures proper lubricant film formation, reduces frictional losses, and minimizes wear. Integrated lubrication systems also help to maintain consistent lubricant quality and reduce the need for manual lubrication maintenance.
- Smart Monitoring and Predictive Maintenance: Advancements in sensor technology, data analytics, and connectivity have facilitated the implementation of smart monitoring and predictive maintenance strategies for worm wheel systems. Sensors embedded in the gear assembly can collect real-time data on parameters such as temperature, vibration, or load. This data is then analyzed using machine learning algorithms to detect anomalies, predict potential failures, and optimize maintenance schedules. Smart monitoring and predictive maintenance help to maximize uptime, reduce downtime, and improve the overall reliability and efficiency of worm wheel systems.
These recent innovations and advancements in worm wheel technology have resulted in improved performance, efficiency, durability, and reliability of worm wheel systems. Continued research and development in this field are expected to drive further advancements and expand the capabilities of worm wheel technology in various applications.
editor by CX 2024-04-03
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Worm gear reducer gearbox
A worm gear reducer gearbox is a mechanical device used to reduce the viscosity of fluids. It can be used in a variety of applications and is available in a variety of sizes. Read on to learn more about these devices. They come in different shapes, sizes and prices. Also, these products are very reliable.
Viscosity
A new study shows that polymers derived from worms reduce the viscosity of aqueous solutions. The researchers mixed the worms with water and then applied shearing force to the mixture. Polymer-filled solutions are more resistant to shear forces than simple liquids. This is because when the solution is sheared, the filaments become entangled with each other. When the solution is sheared, the filaments line up, reducing the viscosity of the solution.
The researchers then used live insects to study the polymer’s shear thinning properties. By measuring “worm activity”, the researchers could calculate the viscosity of the mixture. The researchers then altered the worms’ activity and measured changes in the viscosity of the mixture.
The PSMA13 precursor was synthesized from BzMA at 90 °C. The resulting PSMA13-PBzMA65 worms were studied using SAXS, 1H NMR and TEM. They were found to be highly anisotropic over a wide temperature range.
The efficiency of a worm gear reducer gearbox increases with the number of revolutions of the input shaft. Braking torque also increases with the viscosity of the oil. These three factors are used to determine the efficiency of a worm gear reducer gearbox. A worm gear reducer gearbox with a helical pinion on the motor shaft will achieve a 40:1 gear ratio. The combination of a 4 liter ratio helical primary gear with a 10:l worm secondary gear will achieve high efficiency and overload capability.
The PSMA13-PBzMA65 dispersion has the same effective viscosity at 20 degrees Celsius and variable temperature. The transition time is 0.01 Pa s, indicating good thermal reversibility.
Self-locking function
Worm reducer gearboxes have many advantages. This gear has a high capacity and can transmit a lot of power. It’s also very quiet. Its advantages also include a space-saving design. Another benefit of worm reducer gearboxes is their ease of lubrication and cooling. It is also an excellent choice for transmitting high power with high gear ratios.
The self-locking function of the worm gear unit ensures that torque is only transmitted in one direction. When the load peaks, the torque signal is disabled. Unlike conventional gear reducer gearboxes, self-locking worm gears are not interchangeable.
Self-locking worm gears are not suitable for high mass applications because the weight of the driven mass can overwhelm the gear. The large mass can cause a huge side load on the worm, which can cause the worm to break. To solve this problem, a self-locking worm gear train with special provisions can be designed to reduce the heat generated.
The self-locking properties of worm reducer gearboxes are helpful in many industrial applications. It prevents reversing, which saves money on the braking system. It can also be used to lift and hold loads. The self-locking function is very useful in preventing backing.
The self-locking function depends on the pitch diameter and lead angle. A larger pitch diameter will make the self-locking function easier. However, the lead angle decreases as the pitch diameter increases. The higher pitch diameter will also make the worm reducer gearbox more resistant to backlash.
Self-locking worm gears are also useful in lifting and hoisting applications. If the worm gear is self-locking, it cannot reverse its direction without positive torque.s This makes the worm gear ideal for applications where the worm must be lowered.
application
The worm gear reducer gearbox market is a global industry consisting of several sub-sectors. This report analyzes past and current market trends and discusses key challenges and opportunities in this market. It also highlights leading marketing players and their marketing strategies. Furthermore, the report covers important segments and provides information on emerging segments.
Worm reducer gearboxes can be used in a variety of applications, such as reducing the speed and torque of rotating parts. These gears are usually available as gear sets and seat units and are available in multi-speed designs. Some manufacturers also offer precision worms and zero-backlash worms for high precision reduction.
Typically, worm gears are used on vertical axes that do not intersect. Compared to other gear drives, they are inefficient but produce a lot of reduction. There are two basic types of worm gears: double envelope and single envelope. The difference is in how they work. When the two axes do not intersect, a double-enveloping worm gear is used.
In the industrial world, worm gear reducer gearboxes are the most popular type of reducer gearbox. They are known for their high torque output multipliers and high reduction ratios. They are used in many power transmission applications including elevators, safety gates, and conveyor belts. They are especially suitable for low to medium-horsepower applications.
Worm gears can also be used for noise control. Its unique shape and size make it suitable for tight spaces. They are also suitable for conveying heavy materials and the packaging industry. In addition, they have high gear ratios, which make them suitable for small and compact machinery.
cost
The cost of a worm gear reducer gearbox depends on several factors, including the type of worm used, the materials used to manufacture the equipment, and the number of users. The worm gear reducer gearbox market is divided into two types: vertical and horizontal. Furthermore, the market is segmented by application, including the automotive industry, shipping industry, and machinery and equipment.
Worm gear reducer gearbox is a popular type of reducer gearbox. They are available in standard and flush-type packaging. They feature C-side inputs for standard NEMA motors and multiple mounting positions to suit the application. For example, a soup factory can use the same hollow reducer gearbox in multiple installation locations.
Another application for worm gear reducer gearboxes is in conveyors. They provide torque and speed reduction to move products efficiently. They are also widely used in security doors that automatically lock when they are closed. Typically, these doors use two separate worm drives. In this way, they cannot be reversed.
The cost of a worm gear reducer gearbox is determined by several factors. Size and material are important. Worm gear reducer gearboxes can be made of aluminum, cast iron, or stainless steel. Its efficiency depends on its size and proportions. It is usually used as a retarder in low-speed machinery, but can also be used as a secondary braking device.
There are two types of worms: standard worm and double worm gear. Standard worms have one or two threads, and double worm gears have one left-hand and right-hand thread. A single-threaded combination will give you a 50 reduction ratio, while a dual-threaded combination will only give you a 25% reduction.
manufacturing
Agknx Transmission Ltd. manufactures premium worm gear reducer gearboxes with robust construction and premium case-hardened steel worms. They use phosphor bronze centrifugally cast rims and attach them to the output shaft in the center. They also feature dual-purpose bearings and a large overhang load margin on the output shaft. The high-quality reducer gearbox also has a full range of positive lubrication functions. This means that they do not need special attention when using low-speed shaft extensions.
editor by CX 2023-04-26
China 5840-3650 12V 24V Worm Gearbox Brushless DC bldc motor Electric Self-lock Micro Worm Reducer Motor GEAR MOTOR worm gearbox design
Warranty: 3years
Design Amount: 5840-3650
Utilization: BOAT, Auto, Electrical Bicycle, Admirer, House Appliance
Kind: Equipment MOTOR
Torque: 2.5kg.cm-70kg.cm
Construction: Permanent Magnet
Commutation: Brushless
Safeguard Attribute: Totally Enclosed
Speed(RPM): 8 – 470 RPM
Ongoing Existing(A): .8-1.6A
Efficiency: IE 2
Rotor: Pure copper coils
Bodyweight: 380g
Output Shaft Duration: 15mm
Physique size: 108mm
Output Shaft Diam: 8mm (D-Kind)
Certification: CE ,ROHS
Packaging Information: Selling Units: Solitary itemSingle package size: 15X10X9 cmSingle gross excess weight: .68 kgPackage Type:1. Shockproof foam packing2. High quality export carton
Port: HangZhou
| Brand | wenquan | ||||||
| Motor Voltage (VDC) | 12V, 24V | ||||||
| Reduction Ratio | 17, 31, fifty, a hundred, two hundred, 290, 500 | ||||||
| Gearmotor No Load Pace (RPM) | 8rpm, 14rpm, 20rpm, 40rpm, 80rpm, 130rpm, 235rpm | ||||||
| Gearmotor Rated Load Speed (RPM) | 6rpm, China cheap real components for chain and sprocket screws set AX100 10rpm,15rpm,30rpm,60rpm,100rpm,180rpm | ||||||
| Gearmotor Rated Load Torque(kg.cm) | 70kg.cm | ||||||
| Gearmotor No Load Present(A) | <1600mA | ||||||
| Gearmotor rated recent(A) | <800mA | ||||||
| Housing content | Stainless steel | ||||||
| Bearing at output shaft | Ball-bearing or oil-retaining bearing | ||||||
| Shaft Condition | D-type | ||||||
| Gear kind | Worm equipment | ||||||
| Weight | 0.38kg | ||||||
A-Drive PWC single worm reducer gearbox
A worm gear is a gear used to reduce the speed of a mechanical device. Often used in the automotive and shipbuilding industries, these gears have a lifespan comparable to many other types of reducer gearboxes. As a result, worm gears continue to be popular with engineers.
Agknx driver
Conical drive worm reducer gearboxes are an excellent choice for a variety of applications. The double-enveloping worm gear geometry of the Agknx Drive reducer gearbox provides a larger contact area and higher torque carrying capacity. This specialized gear system is also ideal for applications requiring higher precision.
Agknx Drive’s products are ideal for the solar, packaging, steel, food and pulp and paper industries. Additionally, Agknx Drive’s products are ideal for motion control and medium to heavy duty applications. The company’s dedicated sales and service teams are available to assist with your specific needs.
Agknx drive worm gear reducer gearboxes are available in single, double and triple reductions. Depending on the application, a single stage unit can transport up to 7,500 lbs. of torque. Its low-cost, compact design makes it a convenient option. Conical drive gearboxes are versatile and durable.
X & H
X & H worm gear units feature worm gear sets and are available in two different series. The X-Series includes XA versions with shaft and XF to XC versions with motor mounts. Compared to the XC compact series, the XF series offers outstanding versatility and higher efficiency. The H series combines the features of the X series with a spur gear pre-stage on the input. The H series has a die cast aluminum housing and cast iron shaft.
The X & H Worm reducer gearbox Series “H” helical gears are compatible with NMRV and C side input 56F wired motors. These gear reducer gearboxes are low cost and easy to install. They feature a cast iron housing and four threaded mounting holes.
RV seriese aluminum right angle
RV seriese aluminum right angle worm reduces versatility and durability. They are available in a variety of sizes including 25, 30, 40, 50, 63, 75, 110, 130, 150. Featuring standard NEMA motor input flanges and torque arm or foot mounting options, these reducer gearboxes are ideal for a variety of applications.
RV series worm gear reducer gearbox is made of high-quality aluminum alloy with compact structure. It also features light weight, corrosion resistance and low noise. Its housing is made of die-cast aluminum alloy, while the worm gear is made of 20CrM. The worm gear is heat treated by carbon quenching to increase its hardness. The thickness of the carbide layer is between 0.3-0.5mm.
These worm gear reducer gearboxes have multiple functions to maximize efficiency. In addition to being corrosion resistant, they are available in a variety of sizes to suit any application. Other features include a corrosion-resistant cast iron housing, enclosed breather, double-lip seal and magnetic drain plug. These worm gear reducer gearboxes are available with single or dual input shafts and are interchangeable with NMRVs.
Aluminum alloy right angle worm reducer gearbox is a light, durable and efficient gear reduction device. Its compact design makes it lighter than other gearheads, while its rust-resistant surface and long life make it an excellent choice for industrial and automotive applications. It is available in a variety of sizes, including inches.AGknx Single
Worm reducer gearboxes can be classified as sacrificial gears. It is used to reduce the torque of the machine. It has two parts: a worm and wheels. The worm can be made of brass or steel. Brass worm gears corrode easily. Phosphorus EP gear fluid can run on brass worm gears. It creates a thin oxide layer on the gear teeth, protecting them from impact forces and extreme mechanical conditions. Unfortunately, it can also cause serious damage to the brass wheels.
Worm reducer gearboxes work by transferring energy only when the worm is sliding. This process wears away the lubricating layer and metal of the wheel. Eventually, the worm surface reaches the top of the wheel and absorbs more lubricant. This process will repeat itself in the next revolution.
Worm reducer gearboxes have two benefits: they are compact and take up little space. They can slow down high-output motors while maintaining their torque. Another important feature of the worm gear reducer gearbox is its high transmission ratio capability. It can be installed in both vertical and horizontal positions, and a bidirectional version is also available.
Worm gears have some complications compared to standard gear sets, but overall they are reliable and durable. Proper installation and lubrication can make them sturdy, efficient devices.
A-Drive AGknx Single
If you’re considering purchasing a new worm gear reducer gearbox for your A-Drive AGknx single, you need to understand your goals. While single-stage worm reducer gearboxes can be used, their reduction ratios are often limited. In most cases, they can only achieve a reduction ratio of 10:1. However, there are other types of gears that provide additional speed reduction capabilities.
The worm reducer gearbox consists of two parts: the input worm and the output worm. Each component has its own rotational speed, the input worm rotates in a single direction and the output worm wheel rotates vertically. In a five-to-one ratio, the input worm rotates five times for each output worm. Likewise, a 60-to-1 ratio requires 60 revolutions of each worm. Due to this arrangement, the worm reducer gearbox is inefficient. Gear reduction is inefficient due to sliding friction rather than rolling friction.
Worm reducer gearboxes are also susceptible to thermal stress. They run hotter than hypoid reducer gearboxes, which reduces their useful life. In addition to higher heat, worm reducer gearboxes can experience component failure over time. In addition, an oil change is imminent due to the deterioration of lubrication.
The worm gear reducer gearbox of the A-Drive PPC single is a direct drive gearbox for personal watercraft. It has bronze bushings, aluminum gears, and a spool box. The spool box has a quarter-inch plated spool to wrap 1/4-inch 7 x 19 aircraft cable. Its design also makes it a more efficient alternative to belt-driven AGknx cranes.AGknx X & H
The AGknx X & H worm gear reducer gearbox series is a high-performance universal mount worm gear reducer gearbox. It features a spur gear primary on the input for higher performance and a wider range of gear ratios. Its design also allows it to be used with a variety of input shaft types, including shaft and closed-coupled applications.
It is available in a variety of sizes, including popular frame sizes 90 and 110. The worm shaft is made of case-hardened alloy steel with a cast iron hub and bronze ring gear. The standard output shaft is hollow. There are also models with dual single-shaft outputs.
editor by CX 2023-04-22