Product Description

Product Description

Stepper Motor Description

This waterproof bipolar Nema 3.4″ 86 mm square stepper motor is configured with step angle 1.8° with a size of 86 mm x 86 mm x 152.5 mm. It has 4 wires for bipolar connection with an IP65 connector and each phase draws current 12.00 A at 3.00 V, with bipolar holding torque 1180.00 [Ncm] min.

The IP65 rated Ever Elettronica hybrid stepper motors are designed to provide dust proof operation and withstand low pressure jets of water. The IP65 rated stepper motors are ideal for washing machines, medical and laboratory equipments and in the packaging applications since they are suitable for washdown procedures. The high efficiency waterproof hybrid 2 phase stepper motor is also ideal to control CZPT pumps of different sizes.

 

Product Parameters

Motor Technical Specification

Flange

NEMA 34

Step angle

1.8 [°] ± 5 [%]

  Holding torque   8.2 N.m MIN

Phase resistance

0.54 [Ohm] ± 10 [%]

Phase inductance

5.0 [mH] ± 20 [%]

Rotor inertia

3800 [g.cm²]

Ambient temperature

-20 [°C] ~ +50 [°C]

Temperature rise

80 [K]

Dielectric strength

500 [VAC 1 Minute]

Class protection

IP20

Max. shaft radial load

220 [N]

Max. shaft axial load

60 [N]

Weight

4000 [g.]

Mechanical Drawing (in mm)

 

Nema Model Length Step Angle Current/Phase Resistance/Phase Inductance/Phase Holding Torque # of Leads Rotor Inertia
(L)mm ( °) A Ω mH N.M. No. g.cm2
OPEN LOOP STEP MOTOR
Nema8 EW08-210H 37.8 1.80  1.00  4.30  1.70  0.04min 4.00  2.90 
Nema11 EW11-110 30.1 1.80  1.00  4.50  3.80  0.08min 4.00  5.00 
EW11-110H 30.1 1.80  1.00  4.50  4.00  0.07min 4.00  9.00 
EW11-310 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
EW11-310D 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
Nema14 EW14-110 25.5 1.80  1.00  3.30  3.80  0.17min 4.00  25.00 
EW14-210 40.5 1.80  1.00  4.00  6.10  0.2min 4.00  25.00 
Nema17 EW17-220 33.7 1.80  2.00  0.70  1.40  0.3min 4.00  40.00 
EW17-320 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-320D 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-420 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420D 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420M 80.1 1.80  2.00  1.35  3.20  0.48min 4.00  77.00 
EW17-520 60 1.80  2.00  1.35  2.90  0.70min 4.00  115.00 
EW17-520M 99.1 1.80  2.00  1.77  4.00  0.72min 4.00  110.00 
Nema23 EW23-140 41.9 1.80  4.00  0.37  1.00  0.70min 4.00  170.00 
EW23-240 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240D 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240M 95.5 1.80  4.00  0.44  1.40  1.20min 4.00  480.00 
EW23-340 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-340D 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-350M 116.5 1.80  5.00  0.40  1.80  2.00min 4.00  480.00 
Nema24 EW24-240 54.5 1.80  4.00  0.45  1.20  1.40min 4.00  450.00 
EW24-440 85.5 1.80  4.00  0.80  3.00  3.00min 4.00  900.00 
EW24-450M 125.6 1.80  5.00  0.42  1.80  3.00min 4.00  900.00 
Nema34 EW34-260 79.5 1.80  6.00  0.38  2.80  4.5min 4.00  1900.00 
EW34-360 99 1.80  6.00  0.47  3.90  6.00min 4.00  2700.00 
EW34-460M 155.3 1.80  6.00  0.54  5.00  8.20min 4.00  3800.00 
EW34-560 129 1.80  6.00  0.64  6.00  9.00min 4.00  4000.00 
EW34-660 159.5 1.80  6.00  0.72  7.30  12min. 4.00  5000.00 
EH34-530 129 1.80  3.60  1.06  10.00  7.1min 4.00  4000.00 

Company Profile

     Taking advantage of the proactive climate of the 70s, in 1977 the engineer Felice Caldi, who had always been a passionate builder and inventor, founded an innovative company, operating internationally in the field of software for industrial machinery.
Since then, this small company based in Lodi has enjoyed continuous successes related to innovative products and cutting edge “best in class” technologies in the field of industrial automation, as proven by the many patents filed during the years as well as the important awards given to it by the Chamber of Commerce of Milan and of the Lombardy Region.
    The company, thanks to its successes over time, has grown considerably, expanding its sales network abroad and opening another company in China to manage the sales flow in the Asian market. 
    Ever attentive to the dynamics and needs of the automation market, constantly evolving and continually seeking technological innovation, Ever Elettronica has been CZPT to respond to all the technological challenges that have arisen over the years, providing solutions CZPT to make its customer’s machines more and more performing and highly competitive.
    And it is precisely to underline the importance and the uniqueness of every single customer that we design, with care and dedication, highly customised automation solutions, that are CZPT to perfectly meet any request, both regarding software and hardware.
    Our team of mechatronic engineers can indeed customise the software with specially designed firmware, and it can also adapt the motor by customising, for example, the length of the cables or the diameter of the crankshaft and the IP protection degree, all strictly based on the customer’s technical specifications.

US $20-120
/ Piece
|
1 Piece

(Min. Order)

###

Application: Medical and Laboratory Equipment
Speed: Low Speed
Number of Stator: Two-Phase
Excitation Mode: HB-Hybrid
Function: Driving
Number of Poles: 2

###

Customization:

###

Flange
NEMA 34
Step angle
1.8 [°] ± 5 [%]
  Holding torque   8.2 N.m MIN
Phase resistance
0.54 [Ohm] ± 10 [%]
Phase inductance
5.0 [mH] ± 20 [%]
Rotor inertia
3800 [g.cm²]
Ambient temperature
-20 [°C] ~ +50 [°C]
Temperature rise
80 [K]
Dielectric strength
500 [VAC 1 Minute]
Class protection
IP20
Max. shaft radial load
220 [N]
Max. shaft axial load
60 [N]
Weight
4000 [g.]

###

Nema Model Length Step Angle Current/Phase Resistance/Phase Inductance/Phase Holding Torque # of Leads Rotor Inertia
(L)mm ( °) A Ω mH N.M. No. g.cm2
OPEN LOOP STEP MOTOR
Nema8 EW08-210H 37.8 1.80  1.00  4.30  1.70  0.04min 4.00  2.90 
Nema11 EW11-110 30.1 1.80  1.00  4.50  3.80  0.08min 4.00  5.00 
EW11-110H 30.1 1.80  1.00  4.50  4.00  0.07min 4.00  9.00 
EW11-310 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
EW11-310D 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
Nema14 EW14-110 25.5 1.80  1.00  3.30  3.80  0.17min 4.00  25.00 
EW14-210 40.5 1.80  1.00  4.00  6.10  0.2min 4.00  25.00 
Nema17 EW17-220 33.7 1.80  2.00  0.70  1.40  0.3min 4.00  40.00 
EW17-320 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-320D 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-420 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420D 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420M 80.1 1.80  2.00  1.35  3.20  0.48min 4.00  77.00 
EW17-520 60 1.80  2.00  1.35  2.90  0.70min 4.00  115.00 
EW17-520M 99.1 1.80  2.00  1.77  4.00  0.72min 4.00  110.00 
Nema23 EW23-140 41.9 1.80  4.00  0.37  1.00  0.70min 4.00  170.00 
EW23-240 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240D 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240M 95.5 1.80  4.00  0.44  1.40  1.20min 4.00  480.00 
EW23-340 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-340D 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-350M 116.5 1.80  5.00  0.40  1.80  2.00min 4.00  480.00 
Nema24 EW24-240 54.5 1.80  4.00  0.45  1.20  1.40min 4.00  450.00 
EW24-440 85.5 1.80  4.00  0.80  3.00  3.00min 4.00  900.00 
EW24-450M 125.6 1.80  5.00  0.42  1.80  3.00min 4.00  900.00 
Nema34 EW34-260 79.5 1.80  6.00  0.38  2.80  4.5min 4.00  1900.00 
EW34-360 99 1.80  6.00  0.47  3.90  6.00min 4.00  2700.00 
EW34-460M 155.3 1.80  6.00  0.54  5.00  8.20min 4.00  3800.00 
EW34-560 129 1.80  6.00  0.64  6.00  9.00min 4.00  4000.00 
EW34-660 159.5 1.80  6.00  0.72  7.30  12min. 4.00  5000.00 
EH34-530 129 1.80  3.60  1.06  10.00  7.1min 4.00  4000.00 
US $20-120
/ Piece
|
1 Piece

(Min. Order)

###

Application: Medical and Laboratory Equipment
Speed: Low Speed
Number of Stator: Two-Phase
Excitation Mode: HB-Hybrid
Function: Driving
Number of Poles: 2

###

Customization:

###

Flange
NEMA 34
Step angle
1.8 [°] ± 5 [%]
  Holding torque   8.2 N.m MIN
Phase resistance
0.54 [Ohm] ± 10 [%]
Phase inductance
5.0 [mH] ± 20 [%]
Rotor inertia
3800 [g.cm²]
Ambient temperature
-20 [°C] ~ +50 [°C]
Temperature rise
80 [K]
Dielectric strength
500 [VAC 1 Minute]
Class protection
IP20
Max. shaft radial load
220 [N]
Max. shaft axial load
60 [N]
Weight
4000 [g.]

###

Nema Model Length Step Angle Current/Phase Resistance/Phase Inductance/Phase Holding Torque # of Leads Rotor Inertia
(L)mm ( °) A Ω mH N.M. No. g.cm2
OPEN LOOP STEP MOTOR
Nema8 EW08-210H 37.8 1.80  1.00  4.30  1.70  0.04min 4.00  2.90 
Nema11 EW11-110 30.1 1.80  1.00  4.50  3.80  0.08min 4.00  5.00 
EW11-110H 30.1 1.80  1.00  4.50  4.00  0.07min 4.00  9.00 
EW11-310 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
EW11-310D 50.4 1.80  1.00  2.50  2.20  0.14min 4.00  20.00 
Nema14 EW14-110 25.5 1.80  1.00  3.30  3.80  0.17min 4.00  25.00 
EW14-210 40.5 1.80  1.00  4.00  6.10  0.2min 4.00  25.00 
Nema17 EW17-220 33.7 1.80  2.00  0.70  1.40  0.3min 4.00  40.00 
EW17-320 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-320D 39.2 1.80  2.00  1.00  1.80  0.45min 4.00  60.00 
EW17-420 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420D 47.2 1.80  2.00  1.00  2.00  0.56min 4.00  80.00 
EW17-420M 80.1 1.80  2.00  1.35  3.20  0.48min 4.00  77.00 
EW17-520 60 1.80  2.00  1.35  2.90  0.70min 4.00  115.00 
EW17-520M 99.1 1.80  2.00  1.77  4.00  0.72min 4.00  110.00 
Nema23 EW23-140 41.9 1.80  4.00  0.37  1.00  0.70min 4.00  170.00 
EW23-240 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240D 52.9 1.80  4.00  0.45  1.70  1.25min 4.00  290.00 
EW23-240M 95.5 1.80  4.00  0.44  1.40  1.20min 4.00  480.00 
EW23-340 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-340D 76.4 1.80  4.00  0.50  1.80  2.00min 4.00  520.00 
EW23-350M 116.5 1.80  5.00  0.40  1.80  2.00min 4.00  480.00 
Nema24 EW24-240 54.5 1.80  4.00  0.45  1.20  1.40min 4.00  450.00 
EW24-440 85.5 1.80  4.00  0.80  3.00  3.00min 4.00  900.00 
EW24-450M 125.6 1.80  5.00  0.42  1.80  3.00min 4.00  900.00 
Nema34 EW34-260 79.5 1.80  6.00  0.38  2.80  4.5min 4.00  1900.00 
EW34-360 99 1.80  6.00  0.47  3.90  6.00min 4.00  2700.00 
EW34-460M 155.3 1.80  6.00  0.54  5.00  8.20min 4.00  3800.00 
EW34-560 129 1.80  6.00  0.64  6.00  9.00min 4.00  4000.00 
EW34-660 159.5 1.80  6.00  0.72  7.30  12min. 4.00  5000.00 
EH34-530 129 1.80  3.60  1.06  10.00  7.1min 4.00  4000.00 

How to Assemble a Planetary Motor

A Planetary Motor uses multiple planetary surfaces to produce torque and rotational speed. The planetary system allows for a wide range of gear reductions. Planetary systems are particularly effective in applications where higher torques and torque density are needed. As such, they are a popular choice for electric vehicles and other applications where high-speed mobility is required. Nevertheless, there are many benefits associated with using a planetary motor. Read on to learn more about these motors.

VPLite

If you’re looking to replace the original VP, the VPLite has a similar output shaft as the original. This means that you can mix and match your original gear sets, including the input and output shafts. You can even mix metal inputs with plastic outputs. Moreover, if you decide to replace the gearbox, you can easily disassemble the entire unit and replace it with a new one without losing any output torque.
Compared to a planetary motor, a spur gear motor uses fewer gears and is therefore cheaper to produce. However, the latter isn’t suitable for high-torque applications. The torque produced by a planetary gearmotor is evenly distributed, which makes it ideal for applications that require higher torque. However, you may have to compromise on the torque output if you’re looking for a lightweight option.
The VersaPlanetary Lite gearbox replaces the aluminum ring gear with a 30% glass-filled nylon gear. This gearbox is available in two sizes, which means you can mix and match parts to get a better gear ratio. The VPLite gearbox also has a female 5mm hex output shaft. You can mix and match different gearboxes and planetary gearboxes for maximum efficiency.
Motor

VersaPlanetary

The VersaPlanetary is a highly versatile planetary motor that can be mounted in a variety of ways. Its unique design includes a removable shaft coupler system that makes it simple to swap out the motor with another. This planetary motor mounts in any position where a CIM motor mounts. Here’s how to assemble the motor. First, remove the hex output shaft from the VersaPlanetary output stage. Its single ring clip holds it in place. You can use a drill press to drill a hole into the output shaft.
After mounting the gearbox, you can then mount the motor. The mounting hardware included with the VersaPlanetary Planetary Motor comes with four 10-32 threaded holes on a two-inch bolt circle. You can use these holes to mount your VersaPlanetary on a CIM motor or a CIM-compatible motor. Once assembled, the VersaPlanetary gearbox has 72 different gear ratios.
The VersaPlanetary gearbox is interchangeable with regular planetary gearboxes. However, it does require additional parts. You can purchase a gearbox without the motor but you’ll need a pinion. The pinion attaches to the shaft of the motor. The gearbox is very sturdy and durable, so you won’t have to worry about it breaking or wearing out.

Self-centering planetary gears

A planetary motor is a simple mechanical device that rotates around a axis, with the planets moving around the shaft in a radial direction. The planets are positioned so that they mesh with both the sun gear and the output gears. The carrier 48 is flexibly connected to the drive shaft and can move depending on the forces exerted by the planet gears. In this way, the planets can always be in the optimal mesh with the output gears and sun gear.
The first step in developing a planetary gear motor is to identify the number of teeth in each planet. The number of teeth should be an integer. The tooth diameters of the planets should mesh with each other and the ring. Typically, the teeth of one planet must mesh with each other, but the spacing between them must be equal or greater than the other. This can be achieved by considering the tooth count of each planet, as well as the spacing between planets.
A second step is to align the planet gears with the output gears. In a planetary motor, self-centering planetary gears must be aligned with both input and output gears to provide maximum torque. For this to be possible, the planet gears must be connected with the output shaft and the input shaft. Similarly, the output shaft should also be able to align with the input gear.
Motor

Encoders

A planetary geared motor is a DC motor with a planetary gearbox. The motor can be used to drive heavy loads and has a ratio of 104:1. The shaft speed is 116rpm when it is unloaded. A planetary gearbox has a low backlash and is often used in applications that need high torque. Planetary Motor encoders can help you keep track of your robot’s position or speed.
They are also able to control motor position and speed with precision. Most of them feature high resolution. A 0.18-degree resolution encoder will give you a minimum of 2000 transitions per rotation between outputs A and B. The encoder is built to industrial standards and has a sturdy gearbox to avoid damage. The encoder’s robust design means it will not stall when the motor reaches its maximum speed.
There are many advantages to a planetary motor encoder. A high-quality one will not lose its position or speed even if it’s subject to shocks. A good quality planetary motor will also last a long time. Planetary motors are great for resale or for your own project. If you’re considering buying a planetary motor, consider this information. It’ll help you decide if a particular model is right for your needs.

Cost

There are several advantages of planetary motors. One of the biggest is their cost, but they can also be used in many different applications. They can be combined with a variety of gearboxes, and are ideal for various types of robots, laboratory automation, and production applications. Planetary gearboxes are available in many different materials, and plastic planetary gearboxes are an economical alternative. Plastic gearboxes reduce noise at higher speeds, and steel input stage gears are available for high torques. A modified lubrication system can help with difficult operating conditions.
In addition to being more durable, planetary motors are much more efficient. They use fewer gears, which lowers the overall cost of production. Depending on the application, a planetary motor can be used to move a heavy object, but is generally less expensive than its counterpart. It is a better choice for situations where the load is relatively low and the motor is not used frequently. If you need a very high torque output, a planetary motor may be the better option.
Planetary gear units are a good choice for applications requiring high precision, high dynamics, and high torque density. They can be designed and built using TwinCAT and TC Motion Designer, and are delivered as complete motor and gear unit assemblies. In a few simple steps, you can calculate the torque required and compare the costs of different planetary gear units. You can then choose the best model for your application. And because planetary gear units are so efficient, they are a great option for high-end industrial applications.
Motor

Applications

There are several different applications of the planetary motor. One such application is in motion control. Planetary gearboxes have many benefits, including high torque, low backlash, and torsional stiffness. They also have an extremely compact design, and can be used for a variety of applications, from rack and pinion drives to delta robotics. In many cases, they are less expensive to manufacture and use than other types of motors.
Another application for planetary gear units is in rotary tables. These machines require high precision and low backlash for their precise positioning. Planetary gears are also necessary for noise reduction, which is a common feature in rotary tables. High precision planetary gears can make the height adjustment of OP tables a breeze. And because they are extremely durable and require low noise, they are a great choice for this application. In this case, the planetary gear is matched with an AM8000 series servomotor, which gives a wide range of choices.
The planetary gear transmission is also widely used in helicopters, automobiles, and marine applications. It is more advanced than a countershaft drive, and is capable of higher torque to weight ratios. Other advantages include its compact design and reduced noise. A key concern in the development of this type of transmission is to minimize vibration. If the output of a planetary gear transmission system is loud, the vibration caused by this type of drive system may be too loud for comfort.

China Hot Sale High Quality Electric NEMA 34 Easy Servo Stepper Motor with Planetary Gearbox     car motor		China Hot Sale High Quality Electric NEMA 34 Easy Servo Stepper Motor with Planetary Gearbox     car motor
editor by czh 2022-11-24