Tag Archives: trolling motor

China wholesaler Long Life Good Service trolling Brushless Gearmotor electric car DC motor vacuum pump engine

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Q: What’re your main products?
A: We currently produce Brushed Dc Motors, Brushed Dc Gear Motors, Planetary Dc Gear Motors, Brushless Dc Motors, Stepper motors, Ac Motors and High Precision Planetary Gear Box etc. You can check the specifications for above motors on our website and you can email us to recommend needed motors per your specification too.

Q: How to select a suitable motor?
A:If you have motor pictures or drawings to show us, or you have detailed specs like voltage, speed, torque, motor size, working mode of the motor, needed lifetime and noise level etc, please do not hesitate to let us know, then we can recommend suitable motor per your request accordingly.

Q: Do you have a customized service for your standard motors?
A: Yes, we can customize per your request for the voltage, speed, torque and shaft size/shape. If you need additional wires/cables soldered on the terminal or need to add connectors, or capacitors or EMC we can make it too.

Q: Do you have an individual design service for motors?
A: Yes, we would like to design motors individually for our customers, but it may need some mold developing cost and design charge.

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 15-30days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

Please contact us if you have detailed requests, thank you ! /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Industrial
Operating Speed: Constant Speed
Excitation Mode: Shunt
Function: Driving
Casing Protection: Closed Type
Number of Poles: 4


electric motor

What factors should be considered when selecting the right electric motor for a task?

When selecting the right electric motor for a task, several factors need to be considered to ensure optimal performance and compatibility. Here’s a detailed overview of the factors that should be taken into account:

  1. Load Requirements: The first consideration is understanding the specific load requirements of the task. This includes factors such as the torque or force needed to drive the load, the speed range required, and any variations in load that may occur. By accurately assessing the load requirements, you can determine the appropriate motor type, size, and characteristics needed to handle the task effectively.
  2. Motor Type: Different motor types are suited for specific applications. Common motor types include AC induction motors, brushless DC motors, brushed DC motors, and stepper motors. Each type has its own advantages and limitations in terms of speed range, torque characteristics, efficiency, control requirements, and cost. Choosing the right motor type depends on the task’s specific requirements and the desired performance.
  3. Power Supply: Consider the available power supply for the motor. Determine whether the application requires AC or DC power and the voltage and frequency range of the power source. Ensure that the motor’s power requirements align with the available power supply to avoid compatibility issues.
  4. Efficiency and Energy Consumption: Efficiency is an important factor to consider, especially for applications where energy consumption is a concern. Higher motor efficiency translates to lower energy losses and reduced operating costs over the motor’s lifetime. Look for motors with high efficiency ratings to minimize energy consumption and improve overall system efficiency.
  5. Environmental Factors: Assess the environmental conditions in which the motor will operate. Consider factors such as temperature, humidity, dust, and vibration. Some motors are specifically designed to withstand harsh environmental conditions, while others may require additional protection or enclosures. Choosing a motor that is suitable for the intended environment will ensure reliable and long-lasting operation.
  6. Control and Feedback Requirements: Determine whether the application requires precise control over motor speed, position, or torque. Some tasks may benefit from closed-loop control systems that incorporate feedback devices like encoders or sensors to provide accurate motor control. Evaluate the control and feedback requirements of the task and select a motor that is compatible with the desired control mechanism.
  7. Physical Constraints: Consider any physical constraints or limitations that may impact motor selection. These constraints may include space restrictions, weight limitations, mounting options, and mechanical compatibility with other components or equipment. Ensure that the chosen motor can physically fit and integrate into the system without compromising performance or functionality.
  8. Cost and Budget: Finally, consider the budget and cost constraints associated with the motor selection. Evaluate the initial purchase cost of the motor as well as the long-term operating costs, including maintenance and energy consumption. Strive to strike a balance between performance and cost-effectiveness to ensure the best value for your specific application.

By considering these factors, you can make an informed decision when selecting the right electric motor for a task. It is crucial to thoroughly analyze the requirements and match them with the motor’s specifications to achieve optimal performance, reliability, and efficiency.

electric motor

Can electric motors be used in renewable energy systems like wind turbines?

Yes, electric motors can be used in renewable energy systems like wind turbines. In fact, electric motors play a crucial role in converting the kinetic energy of the wind into electrical energy in wind turbines. Here’s a detailed explanation of how electric motors are utilized in wind turbines and their role in renewable energy systems:

Wind turbines are designed to capture the energy from the wind and convert it into electrical power. Electric motors are used in wind turbines to drive the rotation of the turbine blades and generate electricity through the following process:

  1. Wind Capture: The wind turbine blades are designed to efficiently capture the kinetic energy of the wind. As the wind blows, it causes the blades to rotate.
  2. Blade Rotation: The rotational motion of the turbine blades is achieved through electric motors known as pitch motors. Pitch motors adjust the angle or pitch of the blades to optimize their orientation relative to the wind direction. The electric motors drive the mechanical mechanism that rotates the blades, allowing them to capture the maximum energy from the wind.
  3. Power Generation: The rotation of the wind turbine blades drives the main shaft of the turbine, which is connected to an electric generator. The generator consists of another electric motor known as the generator motor or generator rotor. The rotational motion of the generator rotor within a magnetic field induces an electrical current in the generator’s stator windings, producing electricity.
  4. Power Conversion and Distribution: The electricity generated by the wind turbine’s generator motor is typically in the form of alternating current (AC). To make it compatible with the electrical grid or local power system, the AC power is converted to the appropriate voltage and frequency using power electronics such as inverters. These power electronics may also incorporate electric motors for various conversion and control functions.
  5. Integration with Renewable Energy Systems: Wind turbines, equipped with electric motors, are integrated into renewable energy systems to contribute to the generation of clean and sustainable power. Multiple wind turbines can be connected together to form wind farms, which collectively generate significant amounts of electricity. The electricity produced by wind turbines can be fed into the electrical grid, used to power local communities, or stored in energy storage systems for later use.

Electric motors in wind turbines enable the efficient conversion of wind energy into electrical energy, making wind power a viable and renewable energy source. The advancements in motor and generator technologies, along with control systems and power electronics, have enhanced the performance, reliability, and overall efficiency of wind turbines. Additionally, electric motors allow for precise control and adjustment of the turbine blades, optimizing the energy capture and minimizing the impact of varying wind conditions.

Overall, the use of electric motors in wind turbines is instrumental in harnessing the power of wind and contributing to the generation of clean and sustainable energy in renewable energy systems.

electric motor

How do electric motors generate motion and mechanical work?

Electric motors generate motion and mechanical work through the interaction of magnetic fields and the conversion of electrical energy into mechanical energy. Here’s a detailed explanation of how electric motors accomplish this:

  1. Magnetic Fields: Electric motors consist of a stationary part called the stator and a rotating part called the rotor. The stator contains coils of wire that are supplied with an electric current, creating a magnetic field around them. The rotor, on the other hand, typically has magnets or electromagnets that produce their own magnetic fields.
  2. Magnetic Field Interaction: When an electric current flows through the coils in the stator, it generates a magnetic field. The interaction between the magnetic fields of the stator and the rotor creates a rotational force, also known as torque. This torque causes the rotor to start rotating.
  3. Electromagnetic Induction: In certain types of electric motors, such as induction motors, electromagnetic induction plays a significant role. When alternating current (AC) is supplied to the stator, it creates a changing magnetic field. This changing magnetic field induces voltage in the rotor, which leads to the flow of current in the rotor. The current in the rotor produces its own magnetic field, and the interaction between the stator’s magnetic field and the rotor’s magnetic field results in rotation.
  4. Commutation: In motors that use direct current (DC), such as brushed DC motors, commutation is employed. Commutation is the process of reversing the direction of current in the rotor’s electromagnets as the rotor rotates. This is done using a component called a commutator, which ensures that the magnetic fields of the rotor and the stator are always properly aligned. By periodically reversing the current, the commutator allows for continuous rotation.
  5. Conversion of Electrical Energy to Mechanical Energy: As the rotor rotates, the mechanical energy is produced. The rotational motion of the rotor is transferred to the motor’s output shaft, which is connected to the load or the device that needs to be driven. The mechanical work is performed as the output shaft drives the load, such as spinning a fan blade, rotating a conveyor belt, or powering a machine.

In summary, electric motors generate motion and mechanical work by utilizing the interaction of magnetic fields and the conversion of electrical energy into mechanical energy. The electric current flowing through the stator’s coils creates a magnetic field that interacts with the magnetic field of the rotor, producing torque and initiating rotation. In some motors, electromagnetic induction is employed, where a changing magnetic field induces voltage and current in the rotor, leading to rotation. Commutation, in certain motor types, ensures continuous rotation by reversing the current in the rotor’s electromagnets. The resulting rotational motion is then transferred to the motor’s output shaft, enabling the motor to perform mechanical work by driving the load.

China wholesaler Long Life Good Service trolling Brushless Gearmotor electric car DC motor   vacuum pump engine	China wholesaler Long Life Good Service trolling Brushless Gearmotor electric car DC motor   vacuum pump engine
editor by CX 2024-04-10

China Standard 12V and 24V DC Electric Trolling Outboard Boat Motor for Fishing with Good quality

Product Description

12V and 24V DC Electric powered Trolling outboard boat motor for fishing


eighteen lbs electric powered trolling motor 
1.Hangdle is extendable 
2.Crimson warning light-weight when voltage 10v 
three.Shaft:seamless steel 


18 lbs electric trolling motor

(1)Bracket :strengthened nylon

(2)2-sp ahead & 2-sp reverse

(3)four inch telescoping take care of,and management type:twist tiller

(4)Durable head

(5)Guarantee:one year1% free of charge spare components are avaliable

(6)Supply CE certificate

Electric Trolling Motor correct in rubber boat photo as following:

 Model:  HT-TMF18
 Thrust(lbs)  18
 Voltage:  12
 Power(W):  180
 Power(HP)  0.27
 Handle Length(mm)  0/104
 Handle Duration(in)  0/4.10
 Shaft Length(mm)  608
 Shaft Duration(in)  23.94
 Propeller Blade:  2
 Motor type:  Brush Motor             
 Speed  For 2/ Re two
 Net/Gross weight(Kg)  2.70 / 3.70
 Box Gauge(mm)  840*three hundred*157

Polyphase motors can be both two-stage or three-period motors. They work like solitary-stage induction motors, but the two solitary-stage and polyphase motors work on a rotating magnetic field. Their rotating magnetic fields are generated by two- or three-period currents passing through two or more sets of coils. The rotating magnetic subject makes torque. Polyphase motors are used in programs that call for substantial energy, these kinds of as the power travel of compressors, hydraulic pumps, air conditioning compressors, and irrigation pumps.
Induction motors, also acknowledged as asynchronous motors, use the electromagnetic induction generated by the magnetic area of the stator to create present in the rotor, thereby generating torque. These motors do not operate at a velocity in sync with the existing, hence the name. They use the phenomenon of electromagnetic induction to convert electrical energy into mechanical energy. Induction motor rotors are the most typical variety of AC motor discovered in pumps, compressors, and other devices of all types.

China Standard 12V and 24V DC Electric Trolling Outboard Boat Motor for Fishing     with Good quality

China Custom CZPT D Series Hand Control Electric Trolling Motor D54 with Free Design Custom

Solution Description

The CZPT D54 boat engine is a reliable and economical motor for fishing and recreation. It is mounted on hull and PVC boats, gives flexible pace administration and operates steadily even at the lowest revs. Many thanks to this, the electric powered motor for the boat is common with trolling lovers.
The CZPT D54 has a large-high quality stainless metal rack and an anti-corrosion plate is installed on the motor entire body to safeguard as significantly as achievable. So you can get a CZPT D54 boat electric powered motor for use not only in refreshing water, but also in seawater.
The motor is powered by a gel, AGM or lithium-ion traction battery. To easily management the level of its charge, a electronic voltage indicator is exhibited on the upper surface area of the head block.
The CZPT D54 is extremely silent. The sound from it is significantly much less than from gasoline engines, so you can totally take pleasure in the silence or sounds of character.
Acquire the CZPT D54 boat electrical motor. With it, your fishing and rest will become much more cozy.

Model  D54
Power (W) 624
Thrust (lbs) fifty four
Thrust (kg) 24.5
Rated Voltage (V) twelve
Max. Existing (A) 50
Variety of Electric Motor Brush
Propeller Max.  Velocity at Total Energy (rpm) 1700
Management Handle
Variety of Manage Telescopic
Shifting five forwards and 3 backwards
How Details is exhibited Electronic
Details Shown Voltage
Amount of Propeller Blades three
Sound Stage (dB) 52
Max. Boat Bodyweight (kg) 500
Max. Duration of Boat (m) 6.four
Use Surroundings New H2o, Salt Water
Color White
Overall Motor Height (cm) 117
Shaft Size (cm) ninety one
Weight  (kg) 11
Suggested Battery Capacity (AH) a hundred
Package deal Dimensions (cm) 120*fifty four*17
Warranty Period of time (Months) 12

Induction motors, also known as asynchronous motors, use the electromagnetic induction produced by the magnetic subject of the stator to produce existing in the rotor, thus making torque. These motors do not operate at a speed in sync with the recent, hence the identify. They use the phenomenon of electromagnetic induction to transform electrical vitality into mechanical vitality. Induction motor rotors are the most typical kind of AC motor found in pumps, compressors, and other equipment of all varieties.
Synchronous motors operate at a speed that is synchronous with the frequency of the mains current. This implies that in the regular-state of the motor, the rotation of the shaft is synchronized with the frequency of the offer existing. The time period of rotation of the shaft is equal to the variety of AC cycles. The stator of a synchronous motor has polyphase AC electromagnets. These electromagnets produce a magnetic discipline that rotates in synchrony with the current in the wire. The rotor geared up with long lasting magnets or electromagnets rotates synchronously with the stator magnetic area to type the 2nd synchronous rotating magnetic subject of the AC motor.

China Custom CZPT D Series Hand Control Electric Trolling Motor D54     with Free Design Custom