Nema 34 86BLS Geared Square Head BLDC Motor with High Precision Gearbox 3000rpm 86x86mm 48V 3 Phase

86BLS 48V Bldc Motor Dimension:

Hybrid Stepper Motor Optional Parts：

Connectors, Gearbox, Encoder, Brake, Integrated Driver...

Customized Service:

Metal Pulleys

Plastic Pulley

Gear

Shaft Pin

Threaded Shaft

Panel Mount

Hollow Shaft

Lead Screw

Panel Mount

Single Flat

Dual Flat

Key Shaft

Hybrid Stepper Motor Customized Service:

Cables

Covers

Shaft

Lead Screw Rod

Encoders

Brakes

Gearboxes

Linear Module

Integrated Drivers

Worm Gearbox

FAQs About NEMA 34 86BLS Geared Brushless DC Motor

I. Product Perspective: Performance, Design & Applications

1. What is a NEMA 34 86BLS geared brushless DC motor?
A NEMA 34 86BLS motor is a high-torque BLDC motor with a 3.4-inch (86 mm) frame size, integrated with a precision gearbox to increase output torque and reduce speed.

2. What are the main advantages of a geared BLDC motor?
Geared BLDC motors provide higher torque, improved low-speed performance, precise positioning, and reduced load on the motor shaft.

3. What types of gearboxes are available for the 86BLS motor?
Common options include planetary gearboxes, spur gearboxes, and worm gearboxes, depending on torque and speed requirements.

4. How does a planetary gearbox compare to a spur or worm gearbox?
Planetary gearboxes offer high efficiency and compact design, spur gearboxes are cost-effective and simple, and worm gearboxes provide high torque with self-locking capabilities.

5. What voltage and current options are available for this motor?
Typical options include 24V, 48V, and higher voltage designs, with current ratings depending on winding and gearbox configuration.

6. What torque output can the NEMA 34 86BLS motor deliver?
Torque depends on the motor winding and selected gearbox ratio, making it suitable for medium to high-load industrial applications.

7. Can the motor operate continuously?
Yes, designed for continuous industrial duty with proper driver control and cooling.

8. What is the typical speed range of a geared BLDC motor?
Speed depends on the gearbox ratio and driver, allowing high precision at low speeds or fast motion at lower torque.

9. What applications commonly use NEMA 34 86BLS geared BLDC motors?
They are used in CNC machinery, robotics, conveyor systems, packaging equipment, and industrial automation.

10. Can the motor replace a servo motor in certain applications?
Yes, in medium to high torque, low- to medium-speed applications, it provides a cost-effective alternative with high reliability.

II. Factory Customization Capability: Manufacturing & OEM Solutions

11. Can the NEMA 34 86BLS motor be customized?
Yes, manufacturers can customize torque, voltage, speed, gearbox type, and motor length to meet specific application requirements.

12. Are different gearbox ratios available?
Yes, a wide range of ratios can be selected for planetary, spur, or worm gearboxes to match speed and torque needs.

13. Can encoders or sensors be integrated?
Yes, Hall sensors or encoders can be added for closed-loop speed and position control.

14. Can the motor be supplied with a matched BLDC driver?
Yes, optimized BLDC motor drivers can be provided for plug-and-play operation.

15. Are low-noise or low-vibration versions available?
Yes, optimized windings, precision bearings, and high-quality gear materials reduce vibration and noise.

16. Can the motor be customized for harsh environments?
Yes, IP-rated housings and coatings can protect against dust, water, and corrosive conditions.

17. What shaft types are available?
Options include solid shafts, hollow shafts, keyed shafts, or custom-machined shafts.

18. What quality control tests are performed?
Testing includes torque verification, efficiency testing, thermal testing, vibration analysis, and long-term endurance testing.

19. What is the typical lead time for custom motors?
Prototype samples typically take 2–4 weeks, while mass production usually requires 4–8 weeks.

20. How does factory-level customization improve system performance?
Customization ensures optimal matching between motor, gearbox, and load, enhancing efficiency, accuracy, and reliability for long-term industrial operation.