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China factory NEMA 34 Worm Gearbox 86 with Ratio 1: 7.5~100 and Double Output Gearbox for NEMA 34 Stepper Motor differential gearbox

Product Description

Descriptions: NMRV63 worm gear speed reducer Ratio 20:1
 
Product Paramenters:
Step angle:1.8° Temperature rise:below 80 ºC
Ambient temperature:-20 ºC ~ + 50 ºC
Insulation resistance:minimum 100MΩ, 500VDC
Dielectric strength:820VAC for 1 minute
Shaft radial clearance 0.02 max (450 g load)
Shaft axial clearance:0.08Max. (450 g load)
Maximum radial force:220N (20mm from flange)
Maximum axial force:60N

 

Model Name: JK86HS78-5504 

Step Angle(degrees):1.8Degree 

Model Number:NEMA34

Phase:2 

Type:Hybrid 

Current / Phase:5.5A 

Resistance:0.46Ω 

Inductance:4mH 

Holding Torque:4.5N.m 

Motor length:78mm 

Number of leads: 4leads

Shaft Dia: 12mm or 12.7mm

Shaft Type: Round Shaft or D-cut Shaft

Model Name: JK86HS115-6004
Step Angle(degrees):1.8Degree
Model Number:NEMA34
Phase:2
Type:Hybrid
Current / Phase:6A
Resistance:0.6Ω
Inductance:6.5mH
Holding Torque:8.5N.m
Motor length:115mm

Number of leads: 4leads 

 

Model Name: JK86HS155-6004
Step Angle(degrees):1.8Degree
Model Number:NEMA34
Phase:2
Type:Hybrid
Current / Phase:6A
Resistance:1Ω
Inductance:0.68mH
Holding Torque:12.5N.m
Motor length:155mm
Number of leads: 4leads

Detailed Image:

 

Company File:

   

WHY YOU CHOOSE US:

We are a professional manufacturer for Stepper motor , Stepper driver, BLDC motor and DC motor. we can supply OEM service.  
Our products all with CE and ROHS. 
Welcome you visit our company HangZhou Jingkong Motor&Electric Appliance Co.,Ltd 
 
Depending on advanced technology and CZPT service, we establish a good and diligent team and keep nice business relationship with a large amount of worthy clients in global market. We are prepared to provide the best products to clients at competitive price. 

High quality  
Competitive price 
Good Packing 
Fast Delivery 
Knight service
Advanced technology

Believe that we will do our best!

Model No. Step Angle Motor Length Current
/Phase
Resistance
/Phase
Inductance
/Phase
Holding Torque # of Leads Detent Torque Rotor Inertia Mass
( °) (L)mm A Ω mH N.m No. kg.cm g.cm2 Kg
JK86HS68-5904 1.8 67 5.9 0.28 1.7 3.4 4 0.8 1000 1.7
JK86HS68-2808 1.8 67 2.8 1.4 3.9 3.4 8 0.8 1000 1.7
JK86HS78-5504 1.8 78 5.5 0.46 4.0 4.6 4 1.2 1400 2.3
JK86HS78-4208 1.8 78 4.2 0.75 3.4 4.6 8 1.2 1400 2.3
JK86HS97-4504 1.8 97 4.5 0.66 3.0 5.8 4 1.7 2100 3.0
JK86HS97-4008 1.8 97 4.0 0.98 4.1 4.7 8 1.7 2100 3.0
JK86HS100-6004 1.8 100 6.0 0.36 2.8 7.0 4 1.9 2200 3.1
JK86HS115-6004 1.8 115 6.0 0.6 6.5 8.7 4 2.4 2700 3.8
JK86HS115-4208 1.8 115 4.2 0.9 6.0 8.7 8 2.4 2700 3.8
JK86HS126-6004 1.8 126 6.0 0.58 6.5 6.3 4 2.9 3200 4.5
JK86HS155-6004 1.8 155 6.0 0.68 9.0 13.0 4 3.6 4000 5.4
JK86HS155-4208 1.8 155 4.2 1.25 8.0 12.2 8 3.6 4000 5.4

 

HangZhou Jingkong Motor Co.,Ltd

 

 
 

 

 

 

How to Install and Align a Worm Reducer Properly

Proper installation and alignment of a worm reducer are crucial for ensuring optimal performance and longevity. Follow these steps to install and align a worm reducer:

  1. Preparation: Gather all the necessary tools, equipment, and safety gear before starting the installation process.
  2. Positioning: Place the worm reducer in the desired location, ensuring that it is securely mounted to a stable surface. Use appropriate fasteners and mounting brackets as needed.
  3. Shaft Alignment: Check the alignment of the input and output shafts. Use precision measurement tools to ensure that the shafts are parallel and in line with each other.
  4. Base Plate Alignment: Align the base plate of the reducer with the foundation or mounting surface. Ensure that the base plate is level and properly aligned before securing it in place.
  5. Bolt Tightening: Gradually and evenly tighten the mounting bolts to the manufacturer’s specifications. This helps ensure proper contact between the reducer and the mounting surface.
  6. Check for Clearance: Verify that there is enough clearance for any rotating components or parts that may move during operation. Avoid any interference that could cause damage or performance issues.
  7. Lubrication: Apply the recommended lubricant to the worm reducer according to the manufacturer’s guidelines. Proper lubrication is essential for smooth operation and reducing friction.
  8. Alignment Testing: After installation, run the worm reducer briefly without a load to check for any unusual noises, vibrations, or misalignment issues.
  9. Load Testing: Gradually introduce the intended load to the worm reducer and monitor its performance. Ensure that the reducer operates smoothly and efficiently under the load conditions.

It’s important to refer to the manufacturer’s installation guidelines and specifications for your specific worm reducer model. Proper installation and alignment will contribute to the gearbox’s reliability, efficiency, and overall functionality.

Application: Printing Equipment
Speed: High Speed
Number of Stator: Two-Phase
Excitation Mode: HB-Hybrid
Function: Control, Driving
Number of Poles: Other
Customization:
Available

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Customized Request

Can a Worm Gearbox Provide High Torque Output?

Yes, a worm gearbox is capable of providing high torque output due to its unique design and principle of operation. Worm gears are known for their high torque multiplication capabilities, making them suitable for applications that require significant torque transfer.

The torque output of a worm gearbox is influenced by several factors:

  • Lead Angle:

    Worm Gearbox Applications in Robotics and Automation

    Worm gearboxes play a crucial role in various robotics and automation applications due to their unique characteristics and benefits. Here are some common applications where worm gearboxes are used:

    • Robotic Arm Movement: Worm gearboxes are employed in robotic arms to provide precise and controlled movement. The self-locking property of worm gearboxes helps maintain the arm’s position without requiring additional brakes.
    • Conveyor Systems: In automated production lines, worm gearboxes are used to drive conveyor belts and move materials or products along assembly lines with accuracy.
    • Precision Positioning: Worm gearboxes are used in precision positioning systems, such as those found in pick-and-place robots and CNC machines. They ensure accurate and repeatable movements.
    • Pan and Tilt Mechanisms: Worm gearboxes are utilized in pan and tilt mechanisms of surveillance cameras, robotic cameras, and sensors. The self-locking feature helps stabilize and maintain the desired angle.
    • Automated Gates and Doors: Worm gearboxes are used in automated gate and door systems to control their opening and closing movements smoothly and safely.
    • Material Handling: Robots in warehouses and distribution centers use worm gearboxes to manipulate and lift objects, enhancing efficiency in material handling.
    • Medical Robotics: Worm gearboxes are employed in medical robots for surgical procedures, diagnostic equipment, and rehabilitation devices, ensuring precise and controlled movements.
    • Industrial Robots: Industrial robots rely on worm gearboxes for various tasks, including welding, painting, assembly, and packaging, where precise movements are essential.
    • Automated Testing Equipment: In testing and inspection applications, worm gearboxes provide the necessary movement and positioning for accurate testing and measurements.
    • Food and Beverage Industry: Worm gearboxes are used in automated food processing and packaging systems, ensuring hygienic and precise movement of products.

    Worm gearboxes are preferred in these applications due to their compact size, high torque output, self-locking feature, and ability to provide a right-angle drive. However, selecting the right gearbox requires considering factors such as load, speed, efficiency, and environmental conditions.

    The lead angle of the worm affects the mechanical advantage of the gear system. A larger lead angle can result in higher torque output.

  • Worm Diameter: A larger diameter worm can offer increased torque output as it provides more contact area with the gear.
  • Gear Ratio: The gear ratio between the worm and the gear determines the torque multiplication factor. A higher gear ratio leads to higher torque output.
  • Lubrication: Proper lubrication is essential to minimize friction and ensure efficient torque transmission.
  • Material and Quality: High-quality materials and precision manufacturing contribute to the gearbox’s ability to handle high torque loads.

Due to their ability to provide high torque output in a compact form factor, worm gearboxes are commonly used in various industrial applications, including heavy machinery, construction equipment, conveyor systems, and more.

China factory NEMA 34 Worm Gearbox 86 with Ratio 1: 7.5~100 and Double Output Gearbox for NEMA 34 Stepper Motor   differential gearbox	China factory NEMA 34 Worm Gearbox 86 with Ratio 1: 7.5~100 and Double Output Gearbox for NEMA 34 Stepper Motor   differential gearbox
editor by CX 2023-08-17