Product Description
NEMA11 stepper motor electric dc motor for 3d printer
General Specification:
| Item | Specifications |
| Step Angle | 1.8° |
| Temperature Rise | 80ºCmax |
| Ambient Temperature | -20ºC~+50ºC |
| Insulation Resistance | 100 MΩ Min. ,500VDC |
| Dielectric Strength | 500VAC for 1minute |
| Shaft Radial Play | 0.02Max. (450g-load) |
| Shaft Axial Play | 0.08Max. (450g-load) |
| Max. radial force | 28N (20mm from the flange) |
| Max. axial force | 10N |
Products of special request can be made according to the customer request !
Our Company offers 3 major series of products:Hybrid Stepper motors, Brushless Dc motor and Dc Brush motor.
We are always continues develop new type models.If you need other kinds of parts, please don’t hesitate to contact us.
Amy Gao
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| Application: | Universal, Industrial, Household Appliances, Car, Power Tools |
|---|---|
| Operating Speed: | Adjust Speed |
| Excitation Mode: | Compound |
| Function: | Run |
| Casing Protection: | Protection Type |
| Number of Poles: | 8 |
| Samples: |
US$ 25/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
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|---|
Are motor slide rails suitable for use with both AC and DC electric motors?
Yes, motor slide rails are suitable for use with both AC and DC electric motors. Here’s a detailed explanation:
Motor slide rails are mechanical components designed to support and guide the movement of motors in various applications. They are typically used to facilitate linear motion, allowing motors to be positioned or moved along a defined path. The compatibility of motor slide rails with AC and DC electric motors is primarily determined by the mechanical specifications and requirements of the specific motor and application.
The fundamental function of motor slide rails is to provide a stable and controlled movement mechanism for motors. This function is independent of the type of electric motor used, whether it is an AC motor or a DC motor. The key considerations when using motor slide rails with electric motors are related to the mechanical aspects rather than the electrical characteristics of the motors.
When selecting motor slide rails for use with electric motors, several factors need to be considered:
1. Load Capacity and Size:
The motor slide rails should be chosen based on the load capacity and size requirements of the electric motor. The rails should be able to support the weight of the motor and any additional loads. It is important to consider the size and dimensions of both the motor and the slide rails to ensure proper fit and compatibility.
2. Mounting and Integration:
The mounting and integration of the motor slide rails with the electric motor should be carefully evaluated. The slide rails should be compatible with the motor mounting brackets or any other components involved in the motor installation. Proper alignment and secure attachment of the motor to the slide rails are essential for safe and reliable operation.
3. Environmental Considerations:
The operating environment and conditions should also be taken into account when selecting motor slide rails for use with electric motors. Factors such as temperature, humidity, dust, or exposure to chemicals may affect the materials and performance of the slide rails. It is important to choose slide rails that are suitable for the specific environmental conditions in which the motor will operate.
Overall, motor slide rails can be used with both AC and DC electric motors as long as the mechanical specifications and requirements of the motors are taken into consideration. The compatibility of the slide rails with the electric motors is primarily determined by factors such as load capacity, size, mounting, integration, and environmental considerations. By selecting appropriate slide rails and ensuring proper installation, users can effectively utilize motor slide rails with both AC and DC electric motors in various applications.
Can motor slide rails contribute to reducing vibrations and noise associated with motor operation?
Yes, motor slide rails can contribute to reducing vibrations and noise associated with motor operation. Here’s a detailed explanation:
Motor slide rails play a role in minimizing vibrations and noise by providing stability, dampening vibrations, and reducing mechanical resonance. Here are the ways in which motor slide rails can help in reducing vibrations and noise:
1. Stability and Rigidity:
Motor slide rails offer a stable and rigid platform for mounting the motor. The rigid structure helps in minimizing vibrations by providing a secure and immobile base for the motor. It prevents excessive movement or oscillation of the motor, reducing the generation of vibrations that can propagate through the system and cause noise.
2. Vibration Dampening:
Motor slide rails can incorporate features or materials that help dampen vibrations. They can be designed with vibration-absorbing materials, such as rubber or elastomers, integrated into the rail system. These materials absorb and dissipate vibrations, reducing their transmission to other components and minimizing the associated noise.
3. Shock Absorption:
Some motor slide rails are equipped with shock-absorbing mechanisms or dampers. These mechanisms are designed to absorb sudden shocks or impacts that may occur during motor operation. By absorbing shocks, the slide rails help reduce the vibrations that can be generated from such events, thereby reducing noise levels.
4. Vibration Isolation:
In applications where vibrations from the motor can adversely affect sensitive components or nearby equipment, motor slide rails can be used for vibration isolation. Vibration isolation mounts or pads can be integrated between the motor slide rails and the mounting surface. These mounts are designed to absorb and isolate vibrations, preventing their transmission to the surrounding environment and minimizing noise generation.
5. Resonance Reduction:
Motor slide rails can help mitigate mechanical resonance, which is a phenomenon that can amplify vibrations and noise. Resonance occurs when the natural frequency of the motor or the system matches the excitation frequency, resulting in increased vibrations. By providing a rigid and well-supported mounting platform, motor slide rails can help shift the natural frequencies away from the excitation frequencies, reducing the likelihood of resonance and minimizing the associated noise.
6. Vibration Analysis and Optimization:
Motor slide rails can be used in conjunction with vibration analysis and optimization techniques to further reduce vibrations and noise. By monitoring and analyzing the vibration characteristics of the motor system, adjustments can be made to the mounting position, alignment, or other parameters to minimize vibrations. Motor slide rails with adjustable features and fine-tuning mechanisms allow for precise positioning and alignment, facilitating the optimization process.
Overall, while motor slide rails alone may not completely eliminate vibrations and noise associated with motor operation, they can significantly contribute to reducing their impact. The stability and rigidity provided by the slide rails, along with vibration dampening features, shock absorption, vibration isolation, and resonance reduction capabilities, help in minimizing vibrations and noise propagation. Combined with vibration analysis and optimization techniques, motor slide rails can help achieve a quieter and more vibration-free motor operation.
In summary, motor slide rails can contribute to reducing vibrations and noise associated with motor operation through stability, vibration dampening features, shock absorption, vibration isolation, resonance reduction, and their compatibility with vibration analysis and optimization techniques.
Can motor slide rails be used for both horizontal and vertical motor installations?
Yes, motor slide rails can be used for both horizontal and vertical motor installations. Here’s a detailed explanation:
Motor slide rails are versatile components that provide flexibility in motor positioning and alignment. They are designed to accommodate various installation orientations, including both horizontal and vertical configurations. The adaptability of motor slide rails allows them to be used in different orientations to suit the specific requirements of the motor and application.
Horizontal Motor Installations:
In horizontal motor installations, the motor slide rails are typically mounted on a base or mounting platform. The motor is then positioned on the rails and secured in place. Horizontal motor installations are commonly used in applications where the motor shaft needs to be parallel and co-linear with the driven equipment. The motor slide rails facilitate precise alignment, allowing for horizontal adjustability to achieve the desired alignment. Horizontal motor installations are prevalent in many industrial and commercial applications.
Vertical Motor Installations:
In vertical motor installations, the motor slide rails are used to support and position the motor vertically. The rails are mounted vertically on a base or mounting structure, and the motor is slid into position along the rails. Vertical motor installations are typically employed in applications where space is limited, and it is more practical or efficient to position the motor vertically. Vertical motor installations are common in situations such as pump systems, hoists, or machinery where a compact footprint is desired.
Motor slide rails designed for vertical installations may have additional features to ensure the motor’s stability and secure placement. These features can include locking mechanisms, anti-vibration pads, or other components to prevent the motor from shifting or rotating while in operation.
Whether used for horizontal or vertical motor installations, motor slide rails offer several benefits. They allow for easy motor installation and removal, precise alignment, vibration damping, maintenance accessibility, and flexibility in motor positioning. Their versatility in accommodating different installation orientations makes them suitable for a wide range of applications, providing the necessary adaptability to meet specific motor and system requirements.
In summary, motor slide rails can be used for both horizontal and vertical motor installations. They are designed to provide flexibility and ease of use in positioning and aligning motors, regardless of the installation orientation. The choice between horizontal and vertical installation depends on the specific application, space constraints, and the desired alignment and performance objectives.
editor by CX 2024-04-10
China Cnc Router 4 Axis Kit 4pcs dm542 57HS112 3nm hybrid Stepper Motor Driver+ 4pcs Nema 23 425Oz Motor +24v 36v Power Supply brushless motor
Guarantee: 1 Yr
Design Amount: Nema 23 stepper motor kits
Period: two
Type: Hybrid
Present / Stage: 4.2A
Merchandise title: Nema 23 Stepper Motor
Action angle: 1.8 diploma
Motor length: 41mm~112mm
Current: custom-made
Resistance: .7Ω – 7.1Ω
Inductance: 1.4mH – 8.2mH
Keeping torque: .39N.m – 3.1N.m
Amount of sales opportunities: 4 or 6 or 8
Detent torque: 250g.cm – 12 RC Automobile Spare parts a hundred and ten Scale RC Auto Areas 144001 all components C kind seatRear Energetic ToothShock platetire overcorrect, stage limited circuit defense 9、15 channels subdivision and automated idle-present reduction10 、Motor torque is associated with speed, but not connected with stage/revolutionThe relationship among the driver and the two-period hybrid stepping motor is four-wire. The motor windings are connected in parallel and in collection, and the connection approach is very good. The substantial-velocity functionality is very good, but the driver current is big (1.seventy three moments the motor winding present). The generate existing is equivalent to the motor winding existing. The characteristic of the output torque:one) The more substantial the true present of the motor, the better the output torque, but the far more copper reduction (P=I²R) of the motor, the a lot more warmth the motor generatestwo) The greater the supply voltage of the driver, the increased the large-speed torque of the motor3) It can be witnessed from the minute frequency characteristic diagram of the stepping motor that the substantial velocity is smaller sized than the medium and minimal pace torque. HangZhou CZPT Co., Ltd was a substantial engineering business zone in HangZhou, china. Our items utilised in several types of machines, this kind of as 3d printer CNC device, health care equipment, weaving printing equipments and so on.JKONGMOTOR warmly welcome ‘OEM’ 12 inch Plastic Locking Collar Plastic Shaft Collar & ‘ODM’ cooperations and other companies to establish prolonged-expression cooperation with us.Business spirit of honest and very good status, gained the recognition and assist of the wide masses of buyers, at the identical time with the domestic and overseas suppliers close neighborhood of pursuits, the organization entered the stage of phase of benign advancement, laying a reliable foundation for the strategic goal of realizing only genuinely the sustainable development of the organization. 1. Can you make the gearbox or gearmotor with customized requirements?Yes. We have robust R&D ability, also a wonderful time period of engineers, every single of them have numerous function many years knowledge.2. Do you provide the samples?Indeed. Our firm can provide the samples to you3.Do you give technologies assist?Of course. Our firm have strong R&D capability, we can give technology help if you need to have.4. why need to you buy from us not from other suppliers?Professional one particular-to-1 motor custom-made . The world’s large company of selection for large quality suppliers . ISO9001:2008 high quality management technique certification, via the CE, ROHS certification.5. How to ship to us?We will ship the samples to you in accordance to the DHL or UPS or FEDEX and many others account you supply.6. How can I know the merchandise is appropriate for me?Frist, you require to supply us the a lot more details information about the product. We will recommend the merchandise to you according to your necessity of specification. Right after you confirm, we will put together the samples to you. also we will supply some excellent developments according to your product use. Simply click listed here to get more price reduction! Steel Blanks Stamping by custom steel elements !!
How to Maximize Gear Motor Reliability
A gearmotor is a mechanical device used to transmit torque from one location to another. As its name implies, it is designed to rotate one object relative to another. Its main use is to transmit torque from one point to another. The most common types of gear motors are: worm, spur, and helical. Each of these has specific functions and can be used for a variety of applications. Reliability is also an important factor to consider when choosing a gearmotor.
Applications of a gear motor
Despite its small size, a gear motor has many applications. These include heavy machinery lifts, hospital beds, and power recliners. It is also found in many everyday products, such as electromechanical clocks and cake mixers. Its versatility allows it to produce a high force from a small electric motor. Here are some of its most common uses. You can also find a gear motor in many household appliances and vehicles.
Before selecting a gearmotor, consider the specifications of the machine you need to power. You should consider its size, weight, and ambient conditions, which include temperature regimes, noise levels, and contaminating sources. You should also take into account the envelope size, mounting method, and orientation. Other considerations include the expected service life, maintenance scope, and control type. The most suitable gearmotor for your specific application will be one that can handle the load.
The motor and gearbox types can be mixed and matched, depending on the application. A three-phase asynchronous motor and a permanent magnet synchronous servomotor are common choices for these devices. The type of motor and gearbox combination you choose will determine the power supply, the efficiency of the motor, and cost. Once you understand the application, it will be easy to integrate a gear motor into your system.
When used in industrial applications, gear motors are effective for reducing the speed of rotating shafts. One third of all industrial electric motor systems use gearing to reduce output speed. They can also save energy, which benefits the workers who operate them. In fact, industrial electric motor systems are responsible for nearly one-tenth of the carbon dioxide emissions that are produced by fossil-fueled power plants. Fortunately, efficiency and reliability are just two of the benefits of using gear motors.
Types
Before choosing a gearmotor, it is important to understand its specifications. The key factors to consider are the size, weight, and noise level of the gearmotor. Additionally, the power, torque, and speed of the motor are important factors. Specifications are also important for its operating environment, such as the temperature and the level of ingress protection. Finally, it is important to determine its duty cycle to ensure it will operate properly. To choose a suitable gearmotor, consult the specifications of your application.
Some common applications of gearmotors include packaging equipment, conveyors, and material handling applications. They also come with several advantages, including their ability to control both position and speed. This makes them ideal for applications where speed and positioning are crucial. Parallel-shaft gear units, for instance, are commonly used in conveyors, material handling, and steel mills. They are also able to operate in high-precision manufacturing. For these reasons, they are the most popular type of gearmotor.
There are three common types of gears. Helical gears have teeth that are inclined at 90 degrees to the axis of rotation, making them more efficient. Helicoidal gears, meanwhile, have a lower noise level and are therefore preferred for applications requiring high torque. Worm gears are preferred for applications where torque and speed reduction are important, and worm gears are suited for those conditions. They also have advantages over spur gears and worm gears.
The application of a gear motor is almost limitless. From heavy machine lifts to hospital bed lifting mechanisms, gear motors make it possible to use a small rotor at a high speed. Their lightweight construction also allows them to move heavy loads, such as cranes, but they do so slowly. Gear motors are an excellent choice in applications where space is an issue. A few common applications are discussed below. When choosing a gear motor, remember to choose the best size and application for your needs.
Functions
A gearmotor’s speed is directly proportional to the gear ratio. By dividing the input speed by the gear ratio, the output speed can be determined. Gear ratios above one reduce speed, while gear ratios below one increase speed. Efficiency of a gearmotor is defined as its ability to transfer energy through its gearbox. This efficiency factor takes into account losses from friction and slippage. Most gearmotor manufacturers will provide this curve upon request.
There are several factors that must be considered when choosing a gearmotor. First, the application must meet the desired speed and torque. Second, the output shaft must rotate in the desired direction. Third, the load must be properly matched to the gearmotor. Lastly, the operating environment must be considered, including the ambient temperature and the level of protection. These details will help you find the perfect gearmotor. You can compare various types of gear motors on this page and choose the one that will meet your needs.
The micro-DC gear motor is one of the most versatile types of geared motors. These motors are widely used in intelligent automobiles, robotics, logistics, and the smart city. Other applications include precision instruments, personal care tools, and cameras. They are also commonly found in high-end automotives and are used in smart cities. They also find use in many fields including outdoor adventure equipment, photography equipment, and electronics. The benefits of micro-DC gear motors are many.
The main function of a gear motor is to reduce the speed of a rotating shaft. Small electric clocks, for example, use a synchronous motor with a 1,200-rpm output speed to drive the hour, minute, and second hands. While the motor is small, the force it exerts is enormous, so it’s crucial to ensure that the motor isn’t over-powered. There is a high ratio between the input torque and the output torque.
Reliability
The reliability of a gear motor is dependent on a number of factors, including material quality, machining accuracy, and operating conditions. Gear failure is often more serious than surface fatigue, and can compromise personal safety. Reliability is also affected by the conditions of installation, assembly, and usage. The following sections provide an overview of some important factors that impact gear motor reliability. This article provides some tips to maximize gear motor reliability.
First and foremost, make sure you’re buying from a reliable supplier. Gear motors are expensive, and there is no standardization of the sizes. If a gear breaks, replacing it can take a lot of time. In the long run, reliability wins over anything. But this doesn’t mean that you can ignore the importance of gears – the quality of a gear motor is more important than how long it lasts.
Cost
The cost of a gear motor is relatively low compared to that of other forms of electric motors. This type of motor is commonly used in money counters, printers, smart homes, and automation equipment. A DC gear motor is also commonly used in automatic window machines, glass curtain walls, and banknote vending machines. There are many advantages to using a gear motor. Here are a few of them. Read on to learn more about them.
Speed management is another benefit of a gear motor. The motors tend to have less wear and tear than other motors, which means less frequent replacements. Additionally, many gear motors are easy to install and require less maintenance, which also helps reduce the overall cost of ownership. Lastly, because noise is a common concern for many electronic OEMs, DC gear motors are often quieter than their counterparts. For these reasons, they are often used in industrial settings.
Another advantage of an electric gear motor is its size and power. They are typically designed for 12V, 24V, and 48V voltages and 200-watt power. Their rated speed is 3000 rpm and their torque is 0.64 Nm. They are also more reliable than their AC counterparts and are ideal for many industrial applications. They have a high ratio of three to two, which makes them ideal for a variety of applications.
A gear motor is an electric motor that is coupled with a gear train. It uses AC or DC power, and is often called a gear reducer. The main purpose of these gear reducers is to multiply torque, while maintaining compact size and overall efficiency. However, the efficiency of a gear motor is also affected by ambient temperature and lubricants. If the gear motor is installed in the wrong location, it may be ineffective and result in premature failure of the machine.
editor by czh 2023-02-18
China high quality 7.5kw Air Cooling Spindle Motor for CNC Router with Hot selling
Product Description
| produtct Paramenters | |||
| KW | 7.5 | Volt | 220v/380v |
| RPM | 18000 | AMP | 26.2/15.3 |
| Hz | 300 | Collet | ER32 |
| produtct Paramenters | |||
| KW | 7.5 | Volt | 220v/380v |
| RPM | 18000 | AMP | 26.2/15.3 |
| Hz | 300 | Collet | ER32 |
What Is a Gear Motor?
A gear motor is an electric motor coupled with a gear train. It uses either DC or AC power to achieve its purpose. The primary benefit of a gear reducer is its ability to multiply torque while maintaining a compact size. The trade-off of this additional torque comes in the form of a reduced output shaft speed and overall efficiency. However, proper gear technology and ratios provide optimum output and speed profiles. This type of motor unlocks the full potential of OEM equipment.
Inertial load
Inertial load on a gear motor is the amount of force a rotating device produces due to its inverse square relationship with its inertia. The greater the inertia, the less torque can be produced by the gear motor. However, if the inertia is too high, it can cause problems with positioning, settling time, and controlling torque and velocity. Gear ratios should be selected for optimal power transfer.
The duration of acceleration and braking time of a gear motor depends on the type of driven load. An inertia load requires longer acceleration time whereas a friction load requires breakaway torque to start the load and maintain it at its desired speed. Too short a time period can cause excessive gear loading and may result in damaged gears. A safe approach is to disconnect the load when power is disconnected to prevent inertia from driving back through the output shaft.
Inertia is a fundamental concept in the design of motors and drive systems. The ratio of mass and inertia of a load to a motor determines how well the motor can control its speed during acceleration or deceleration. The mass moment of inertia, also called rotational inertia, is dependent on the mass, geometry, and center of mass of an object.
Applications
There are many applications of gear motors. They provide a powerful yet efficient means of speed and torque control. They can be either AC or DC, and the two most common motor types are the three-phase asynchronous and the permanent magnet synchronous servomotor. The type of motor used for a given application will determine its cost, reliability, and complexity. Gear motors are typically used in applications where high torque is required and space or power constraints are significant.
There are two types of gear motors. Depending on the ratio, each gear has an output shaft and an input shaft. Gear motors use hydraulic pressure to produce torque. The pressure builds on one side of the motor until it generates enough torque to power a rotating load. This type of motors is not recommended for applications where load reversals occur, as the holding torque will diminish with age and shaft vibration. However, it can be used for precision applications.
The market landscape shows the competitive environment of the gear motor industry. This report also highlights key items, income and value creation by region and country. The report also examines the competitive landscape by region, including the United States, China, India, the GCC, South Africa, Brazil, and the rest of the world. It is important to note that the report contains segment-specific information, so that readers can easily understand the market potential of the geared motors market.
Size
The safety factor, or SF, of a gear motor is an important consideration when selecting one for a particular application. It compensates for the stresses placed on the gearing and enables it to run at maximum efficiency. Manufacturers provide tables detailing typical applications, with multiplication factors for duty. A gear motor with a SF of three or more is suitable for difficult applications, while a gearmotor with a SF of one or two is suitable for relatively easy applications.
The global gear motor market is highly fragmented, with numerous small players catering to various end-use industries. The report identifies various industry trends and provides comprehensive information on the market. It outlines historical data and offers valuable insights on the industry. The report also employs several methodologies and approaches to analyze the market. In addition to providing historical data, it includes detailed information by market segment. In-depth analysis of market segments is provided to help identify which technologies will be most suitable for which applications.
Cost
A gear motor is an electric motor that is paired with a gear train. They are available in AC or DC power systems. Compared to conventional motors, gear reducers can maximize torque while maintaining compact dimensions. But the trade-off is the reduced output shaft speed and overall efficiency. However, when used correctly, a gear motor can produce optimal output and mechanical fit. To understand how a gear motor works, let’s look at two types: right-angle geared motors and inline geared motors. The first two types are usually used in automation equipment and in agricultural and medical applications. The latter type is designed for rugged applications.
In addition to its efficiency, DC gear motors are space-saving and have low energy consumption. They can be used in a number of applications including money counters and printers. Automatic window machines and curtains, glass curtain walls, and banknote vending machines are some of the other major applications of these motors. They can cost up to 10 horsepower, which is a lot for an industrial machine. However, these are not all-out expensive.
Electric gear motors are versatile and widely used. However, they do not work well in applications requiring high shaft speed and torque. Examples of these include conveyor drives, frozen beverage machines, and medical tools. These applications require high shaft speed, so gear motors are not ideal for these applications. However, if noise and other problems are not a concern, a motor-only solution may be the better choice. This way, you can use a single motor for multiple applications.
Maintenance
Geared motors are among the most common equipment used for drive trains. Proper maintenance can prevent damage and maximize their efficiency. A guide to gear motor maintenance is available from WEG. To prevent further damage, follow these maintenance steps:
Regularly check electrical connections. Check for loose connections and torque them to the recommended values. Also, check the contacts and relays to make sure they are not tangled or damaged. Check the environment around the gear motor to prevent dust from clogging the passageway of electric current. A proper maintenance plan will help you identify problems and extend their life. The manual will also tell you about any problems with the gearmotor. However, this is not enough – it is important to check the condition of the gearbox and its parts.
Conduct visual inspection. The purpose of visual inspection is to note any irregularities that may indicate possible problems with the gear motor. A dirty motor may be an indication of a rough environment and a lot of problems. You can also perform a smell test. If you can smell a burned odor coming from the windings, there may be an overheating problem. Overheating can cause the windings to burn and damage.
Reactive maintenance is the most common method of motor maintenance. In this type of maintenance, you only perform repairs if the motor stops working due to a malfunction. Regular inspection is necessary to avoid unexpected motor failures. By using a logbook to document motor operations, you can determine when it is time to replace the gear motor. In contrast to preventive maintenance, reactive maintenance requires no regular tests or services. However, it is recommended to perform inspections every six months.
Linear Stage Actuator Slide Guide Rail Module CNC Ball near me shop Screw Xy Motion Table NEMA 11 Stepper Motor Heavy Load Cost Router
Product Description
NEMA11 stepper motor electric dc motor for 3d printer
General Specification:
| Item | Specifications |
| Step CZPT le | 1.8° |
| Temperature Rise | 80ºCmax |
| Ambient Temperature | -20ºC~+50ºC |
| Insulation Resistance | 100 MΩ Min. ,500VDC |
| Dielectric CZPT | 500VAC for 1minute |
| Shaft Radial Play | 0.02Max. (450g-load) |
| Shaft Axial Play | 0.08Max. (450g-load) |
| Max. radial force | 28N (20mm from the flange) |
| Max. axial force | 10N |
Products of special request can be made according to the CZPT er request !
Our Company offers three major series of products:Hybrid Stepper motors, Brushless Dc motor and Dc Brush motor.
We are always continues develop new type models.If you need other kinds of parts, please don’t hesitate to contact us.
Amy Gao