Nema 34 (86mm) hybrid ball screw stepper motor 1.8° Step Angle 4 Lead Wires Voltage 3/4.8V Current 6A
Description
| Product Name | 86mm hybrid ball screw stepper motor |
| Model | VSM86BSHSM |
| Type | hybrid stepper motors |
| Step Angle | 1.8° |
| Voltage (V) | 3 / 4.8 |
| Current (A) | 6 |
| Resistance (Ohms) | 0.5 / 0.8 |
| Inductance (mH) | 4 / 8.5 |
| Lead Wires | 4 |
| Motor Length (mm) | 76 / 114 |
| Ambient Temperature | -20℃ ~ +50℃ |
| Temperature Rise | 80K Max. |
| Dielectric Strength | 1mA Max. @ 500V, 1KHz, 1Sec. |
| Insulation Resistance | 100MΩ Min. @500Vdc |
Nema 34 (86mm) hybrid stepper motor, bipolar, 4-lead, ball screw, low noise, long life, high performance, CE and RoHS certified.
Ball screw stepper motor converts rotary motion to linear movement, with the use of ball screw; the ball screw has various combinations of diameter and lead, to satisfy different application requirements.
Ball screw stepper motor is typically used in the applications that require high precision linear movement, long life, high efficiency, such as industrial automation, semiconductor device, etc.
ThinkerMotion offers full range of ball screw stepper motor (NEMA 8, NEMA11, NEMA14, NEMA17, NEMA23, NEMA24, NEMA34) with load range from 30N to 2400N and different grades (C7, C5, C3) of ball screw.
Customizations can be processed per request, such as screw length & screw end, nut, magnetic brake, encoder, etc.
Certifications
Electrical Parameters:
|
Motor Size |
Voltage/ Phase (V) |
Current/ Phase (A) |
Resistance/ Phase (Ω) |
Inductance/ Phase (mH) |
Number of Lead Wires |
Rotor Inertia (g.cm2) |
Motor Weight (g) |
Motor Length L (mm) |
|
86 |
3 |
6 |
0.5 |
4 |
4 |
1300 |
2400 |
76 |
|
86 |
4.8 |
6 |
0.8 |
8.5 |
4 |
2500 |
5000 |
114 |
VSM86BSHSM standard external motor outline drawing:
Notes:
Lead screw length can be customized
Customized machining is viable at the end of lead screw
Please contact us for more ball screw specifications.
VSM86BSHSMBall nut 1605 outline drawing
VSM86BSHSMBall nut 1610 outline drawing
VSM86BSHSMBall nut 1616 outline drawing
Speed and thrust curve
86 series 76mm motor length bipolar Chopper drive
100% current pulse frequency and thrust curve
86 series 114mm motor length bipolar Chopper drive
100% current pulse frequency and thrust curve
|
Lead (mm) |
Linear velocity (mm/s) |
|||||||||
|
5 |
2.5 |
5 |
7.5 |
10 |
12.5 |
15 |
17.5 |
20 |
22.5 |
25 |
|
10 |
5 |
10 |
15 |
20 |
25 |
30 |
35 |
40 |
45 |
50 |
|
16 |
8 |
16 |
24 |
32 |
40 |
48 |
56 |
64 |
72 |
80 |
Test condition:Chopper drive, no ramping, half micro-stepping, drive voltage 40V
Areas of application:
Semiconductor Manufacturing: In the semiconductor industry, precision and reliability are crucial. 86mm hybrid ball screw stepper motors find applications in semiconductor manufacturing equipment, such as wafer handling systems, wire bonding machines, and precision alignment systems. They provide the necessary positioning accuracy and smooth motion control required for semiconductor fabrication processes.
Packaging and Labeling Machinery: Packaging and labeling industries often require high-speed and accurate positioning for efficient and reliable packaging processes. 86mm hybrid ball screw stepper motors can be found in packaging machines, label applicators, and cartoning systems, ensuring precise movement and positioning of packages or labels.
Automated Test and Measurement Equipment: In test and measurement applications, precise positioning and controlled motion are essential for accurate data acquisition and testing. Hybrid ball screw stepper motors are used in automated test equipment (ATE), coordinate measuring machines (CMM), and other measurement devices to achieve precise and repeatable positioning of probes, sensors, or testing components.
Industrial Automation and Robotics: Industrial automation relies on precise motion control and positioning. 86mm hybrid ball screw stepper motors play a vital role in various automated systems, including assembly lines, material handling robots, automated guided vehicles (AGVs), and robotic arms. They provide the required torque, accuracy, and reliability to perform repetitive tasks with precision.
Laser Cutting and Engraving Systems: Laser cutting and engraving machines require precise and controlled movement to create intricate designs with high accuracy. Hybrid ball screw stepper motors are used in these systems to drive the motion of laser heads, ensuring smooth and precise movement during cutting or engraving processes.
Packaging and Material Handling: In applications that involve packaging, sorting, and material handling, 86mm hybrid ball screw stepper motors are used in conveyor systems, indexing tables, and robotic arms. These motors enable precise positioning and controlled movement of packages or materials, ensuring efficient and reliable handling operations.
Automated Dispensing Systems: Dispensing applications, such as adhesive dispensing, liquid filling, or precision dosing, require accurate and controlled dispensing of fluids or substances. Hybrid ball screw stepper motors are employed in automated dispensing systems to control the position and flow rate, ensuring precise and consistent dispensing results.
Advantage
Excellent Positioning Accuracy: Hybrid ball screw stepper motors offer excellent positioning accuracy due to the inherent characteristics of the ball screw mechanism. The ball screw assembly minimizes backlash and provides high repeatability, ensuring precise positioning of the motor shaft. This accuracy is crucial in applications that require precise motion control and positioning, such as CNC machines, 3D printers, and automated inspection systems.
Self-Locking Capability: One significant advantage of hybrid ball screw stepper motors is their self-locking capability. The ball screw mechanism has a high mechanical efficiency, allowing the motor to hold its position without requiring continuous power. This feature is beneficial in applications where it is necessary to hold a position or prevent undesired movement when the motor is not actively powered.
High Torque Density: 86mm hybrid ball screw stepper motors offer high torque density, allowing them to deliver substantial torque output for their size. This is advantageous in applications where compact motors with high torque capabilities are required, such as robotic joints, industrial manipulators, and high-torque motion control systems.
Wide Speed Range: Hybrid ball screw stepper motors can operate over a wide range of speeds, from low speeds for high torque applications to higher speeds for rapid positioning tasks. They can achieve precise speed control and maintain stability across the operating range, making them suitable for applications that require versatile speed capabilities, such as pick-and-place systems, automated assembly lines, and textile machinery.
Easy-to-Use and Cost-Effective: Hybrid ball screw stepper motors are relatively easy to set up and use. They operate in an open-loop control system, eliminating the need for additional feedback devices such as encoders. This simplifies the overall system design and reduces costs compared to closed-loop servo systems. Stepper motor control is typically achieved through pulse and direction signals, making integration with control systems straightforward.
High Reliability and Durability: Hybrid ball screw stepper motors are known for their high reliability and durability. The ball screw mechanism provides smooth and consistent motion, reducing wear and extending the motor's lifespan. Additionally, they are less prone to stalling or losing steps, ensuring reliable operation in demanding applications.
Low Maintenance: With their robust design and reliable performance, 86mm hybrid ball screw stepper motors require minimal maintenance. The ball screw assembly is typically lubricated and sealed, reducing the need for frequent maintenance tasks such as re-greasing or realignment.
Motor Selection Requirements:
►Movement/mounting direction
►Load Requirements
►Stroke Requirements
►End machining requirements
►Precision Requirements
►Encoder Feedback Requirements
►Manual Adjustment Requirements
►Environmental Requirements
Production workshop
