Shenzhen Zion Kaifull Automation Technology Co., Ltd.
Kaifull Automation Technology Co. Ltd.
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42LHS1674N-170 50N Force 2 Phase Nema17 No Captive Hybrid Linear Stepper Motors Linear Acuators
1. Products Overview
Hybrid linear Stepper motor is a common linear motion control device that is used to convert rotation motion to linear displacement. It is usually composed of electric motors, screws, nuts and control systems.
The device of the screw motor has the characteristics of high precision, high load capacity and high reliability, so it is widely used in the field of industrial and automation, including telecommunications, testing equipment, industrial automation control, machine tool manufacturing, medical equipment, 3D printing, solar tracking systems, etc. to achieve accurate position and speed control.
Kaifull Hybrid linear stepper motors feature and advantages,
1. High efficiency: Due to the special structure of the hybrid linear stepper motor, the motor has high transmission efficiency, which can effectively convey electrical energy as mechanical energy.
2. Precision control: Through the speed and direction of the motor, the motor can achieve precise linear motion control and can be used for various precision positioning and adjustment applications.
3. High load capacity: The motor can provide high load capacity, suitable for the occasion that needs to be afforded and heavy loads.
4. Silent operation: Due to the use of dedicated driver for hybrid linear stepper motors, the screw motor has less frictional noise, and the noise generated during running is low. It is suitable for occasions with higher noise requirements.
5. Easy maintenance: Simple maintenance of the motor is easily achieved, the screw and nut have higher wear resistance, and the long -term screw motor is widely used in machinery equipment, automated production lines, medical equipment, aerospace and other fields.
When selecting hybrid linear motors, the following factors need to be considered
Electric size selection (demand of force):
The size and maximum thrust of the motor, and the upper limit value of the load:
As the size of the motor increases, the output thrust of the motor increases accordingly.
After selecting the right motor and size according to the thrust, the appropriate guide must also consider speed and acceleration. The speed of the hybrid linear stepper motor is inversely proportional to the thrust, that is, increasing the operating speed of the motor will reduce the thrust of the screw motor accordingly. In order to improve the selection data of the motor/screw, please refer to different reference
Although these two steps provide a foundation for the choice of screw motor, other variables must also consider working cycle, system life span, environmental factors, repeated positioning accuracy, acceptable back gaps, acceleration/deceleration requirements, driving conditions, levels, levels Or vertical installation.
Since many variables affect the selection of screw motors, it is strongly recommended that users conduct actual testing before the finalization of models for your application.
2. Hybrid Stepper Motor Naming Rules and General Technical Specifications
Linear stepper motor naming rules,
General Specifications,
| Step Angle | 1.8° (2 Phase) |
| Step Angle Accuracy | ±0.09° |
| Size | Nema17, 42mm |
| Insulation Grade | 500VDC, 20 MΩ Min. ,Class B |
| Dielectric Strengt | 500 VAC for 1 Minute |
| Temperature Rise | Less than 80℃ (Rated Current) |
| Suface Temperature | Max.Allowed 100℃ |
| Humidity Range | 20% to 90% RH |
| IP Grade | IP40 |
| Certificates | Rohs, CE, CCC |
3. 20LHS Series Hybrid Linear Stepper Motor Performance Datasheet
| Model | Current | Resistance | Inductance | Min Thrust | Rotor Inertia | Bi/Unipolar | Screw Lead | Screw Length | Weight | Motor Length |
| A/Ø | Ω/Ø | mH/Ø | N @10RPS | g.cm2 | # of Wires | mm | mm | kg | mm | |
| 42LHS1674N-170 | 1.67 | 1.9 | 4.5 | 50 | 57 | Bi (4) | 4 | 170 | 0.24 | 40 |
Note: Customization of motor specifications available.
4. Mechanical Dimensions (in mm)
5. Wirings