China Standard CHINAMFG Small Engine Starter Motor Manufacturers Gear Starter Motor China Iskra Starter Motor for 24V 4.0kw with High-Quality Drive for CHINAMFG vacuum pump brakes

Product Description

Is1159 Azf4147 114388 11131605 11131761 261946 Starter Motor 24V 4.0kw with High Quality Drive for Iskra CHINAMFG 8

Starting Motor

A starter is a device used to rotate an internal combustion engine in order to initiate the operation of the engine under its own power. The starter can be electric, pneumatic, or hydraulic. In the case of, for example, oversized engines or diesel engines in agricultural or excavation applications, the starter can also be another internal combustion engine. Internal combustion engines are feedback systems that, once started, rely on the inertia of each cycle to start the next cycle.

How A Starter Motor Works
It Can Be Explained By The Working Principle Of Its Main Component, The DC Motor. A DC Motor Is A Device That Converts Electrical Energy Into Mechanical Energy. It Is Based On The Principle That A Charged Conductor Is Subjected To Electromagnetic Force In A Magnetic Field. Because The Torque Generated By One Coil Is Too Small And The Speed Is Unstable, In Fact, There Are Many Coils Wound On The Armature Of The Motor, And The Number Of Commutation Pieces Also Increases Correspondingly With The Increase Of Coils. So As To Ensure Sufficient Torque And Stable Speed.

Notice

The Starting Time Of The Starter Motor Should Not Be Too Long Each Time, Generally Speaking, About 10 Seconds Is The Best. The Time Interval Between Starting The Motor Twice Is About 1 Minute, Preferably Greater Than 1 Minute. If It Cannot Be Started Three Times In A Row, The Engine, Battery, Circuit Lines, And Connection Points Should Be Checked At This Time.

For A Starter Motor Without An Overcurrent Protection Device, If It Cannot Be Started Three Times In A Row, The Starter Motor Must Be Stopped At This Time, Because The Starting Current Is Too Large, And The Starter Motor Will Overheat Due To Excessive Current During Long-Term Work; If You Continue To Forcibly Start The Motor, The Motor Will Most Likely Burn Out.

After Replacing The Starter Motor, You Should Pay Attention To The Contact Points Of The Positive And Negative Poles. It Is Best To Polish The Contact Points And Install Them Firmly, Otherwise, It Will Cause The Problem That The Engine Will Not Start When It Is Hot.

Product Parameters

   

Product Name Starter Motor
Keywords Starting Motor
Brand Neutral or Nitel
Voltage (V) 12
Kilowatt (Kw) 3.2
Teeth 10
Rotation Cw
Used on for CHINAMFG Engine
Weight Standard
Material Metal
Certification ISO/Ts16949
Application Jcb Engine
Condition 1, 291948 
Cargo 114388, 115392 
CAS CST30170AS 
CAT 2253149, 3127540, 3295710, 3653422 
Delco DRS3954 
Iskra 11131605, 11131761, 11131781, 11131793, 11131942, 11131947, 11131956, 11131989, 11132036, AZE4150, AZE4170, AZE4173, AZE4175, AZE4197, AZE4201, AZE4204, AZE4215, AZE4220, AZF4147, IS1201 
JCB 71440159R, 71445711, 7144571 
KRAUF STI1605EC, STI1605LC, STI1605LP, STI1605MA, STI1605MH, STI1605NB, STI1605SU, STI1605UL, STI1605YJ, STI9605LC, STI9605SU, STI9605YJ 
MAHLE MS294, MS399 
Motorherz STI1605RB, STI1605WA, STI9605WA 
Perkins 2873K624, 2873K625, 2873K626, 2873K634, 3586849, 3873K625, 3873K627 
SK 9142903 
WPS 18940NIK 
ZAUFER 300N10117Z

FITS FOR

FITS FOR JCB 8 [Perkins 6-354] 01.1969-
JCB 4CX Perkins: TC 4.4 HATTAT TARIM A-Series
JCB 3CX-4 CHINAMFG 4.236 0 CHINAMFG FASTRAC 135 1000-6T 0
JCB 420 TU CHINAMFG 6-354 0
LANDINI CHINAMFG CHINAMFG 1006-6HR3 0
MANITOU TELEHANDLERS TELEHANDLERS MT 835 /H 854-E34TA; 75kW; Tier 4 3.4
MANITOU TELEHANDLERS MHT TELEHANDLERS MHT MHT 780 1104D-E44TA; 106kW, Tier 3 4.4
MANITOU TELEHANDLERS TELEHANDLERS MT 1335 H/HA 854E-34TA; 75kW; Tier 4 3.4
MANITOU TELEHANDLERS MHT TELEHANDLERS MHT MHT 860 1104D-E44TA; 106kW 4.4
MANITOU TELEHANDLERS TELEHANDLERS MT 1135 /H/HA 854E-34TA; 75kW; Tier 4 3.4
MANITOU TELEHANDLERS TELEHANDLERS MT 1440 /A/H/HA 854-E34TA; 75kW; Tier 4 3.4
MANITOU MASTER FORKLIFT TRUCKS
MASTER FORKLIFT TRUCKS MSI 50 T 1104D-44T; 70kW; Tier 3 4.4
MANITOU MASTER FORKLIFT TRUCKS
MASTER FORKLIFT TRUCKS MSI 40 T 1104D-44T; 65kW; Tier 3 4.4
MANITOU ROTATING TELEHANDLERS ROTATING TELEHANDLERS MRT 1840 CHINAMFG 854E-E34TA 3.4
MANITOU MASTER FORKLIFT TRUCKS
MASTER FORKLIFT TRUCKS MI 70 H 1104C-44T; 74,5kW; Tier 4 4.4
MANITOU MASTER FORKLIFT TRUCKS
MASTER FORKLIFT TRUCKS MI 60 H 1104C 44 T; 74,5kW; Tier 4 4.4
MANITOU TELEHANDLERS MRT TELEHANDLERS MRT MRT 1840 1104D-44T; 74,5kW; Tier 3 4.4
MANITOU TELEHANDLERS MRT TELEHANDLERS MRT MRT 1640 1104D-44T; 74,5kW; Tier 3 4.4
MANITOU TELEHANDLERS TELEHANDLERS MT 1840 1104D-44TA; 74,5kW, Tier 3 4.4
MANITOU TELEHANDLERS MRT TELEHA

Detailed Photos

About Us

Founded In 2571, ZheJiang CHINAMFG Electromechanical Co., Ltd. Is An Excellent Starter, Alternator, And Parts Supplier. Our High-Quality Motors Are Used In Heavy trucks, Mechanical, And Marine Engines. The Company Is Located In HangZhou ZheJiang , A National Historical And Cultural City Known As “The North Water City Of The Yangtze River”, With Convenient Transportation.

Since Its Establishment, The Company Has Formed A Perfect Product Structure, With More Than 10 Series Of Starter Motors And Alternators, And More Than 1000 Models. The Company Has Domestic Advanced Starter Motors, Alternator Production Lines, Complete Technical Equipment, And An Annual Production Capacity Of 500,000 Sets. The Main Products Are The Bosch Series, CHINAMFG Series, CHINAMFG Series, Prestolite Series, CHINAMFG Series, And So On. Our Products Are Suitable For All Kinds Of Engines And Trucks, Such As CHINAMFG Engines, CHINAMFG Engines, CHINAMFG Engines, CHINAMFG Power Engines, CHINAMFG Engines, CHINAMFG Engine, ZheJiang Diesel Engines, HangZhou Diesel Engines, Medium Heavy Automobiles, Freighter Trucks, International Truck, Etc.

The Products Have Been Exported To Russia, Spain, South Korea, Germany, The United Kingdom, The United States, Canada, Brazil, Argentina, India, Saudi Arabia, Pakistan, Kazakhstan, South Africa, Vietnam, Cambodia, And Other Countries.

 

FAQ

Q1:Are You A Manufacturer?
  A: Yes, We Are A Starter Motor Manufacturer/Factory.

Q2: How Much Does The Sample Cost?
  A: Please Contact Our Sales Staff And Tell Them The Model You Need, And They Will Check The Sample Cost For You (Some Are Free). And The Customer Pays The Delivery Cost.

Q3: How To Get A Quotation?
  A: Please Suggest One Number Or Picture, Quantity, Etc., And Then Send Your Email To Us Or Talk To Our Staff Through The Trade Manager.

Q4: What Is The Minimum Order Quantity?
  A: If We Have Stock, There Is No Minimum Order Quantity Limit. If Not, Please Contact Our Sales Staff, Different Items Are Different.

 Q5: What About Your Service?
   A: Timely. Be Careful. Before The Sale, We Will Use Our Software To Check The Correct OE Number To Avoid Errors. After Sending, We Will        Track The Product For You Every Two Days Until You Get The Product.

 Q6: Do You Test All Your Goods Before Delivery?
   A: Yes, We Have 100% Test Before Delivery

Q7:  How Do You Make Our Business Long-Term And Good Relationship?
  A:1. We Keep Good Quality And Competitive Prices To Ensure Our Customers Benefit ;
     2. We Respect Every Customer As Our Friend And We Sincerely Do Business And Make Friends With Them, No Matter Where They Come From.

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After-sales Service: Free Replacement for Quality Problems Within 1 Yea
Warranty: 1 Year
Car Make: for Jcb Engine
Engine Type: 100% OEM Replacement
Control System: Electromagnetic-Operated
DC Form: Common Starter Motor
Samples:
US$ 40/Piece
1 Piece(Min.Order)

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Customization:
Available

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gear motor

Are there innovations or emerging technologies in the field of gear motor design?

Yes, there are several innovations and emerging technologies in the field of gear motor design. These advancements aim to improve the performance, efficiency, compactness, and reliability of gear motors. Here are some notable innovations and emerging technologies in gear motor design:

1. Miniaturization and Compact Design:

Advancements in manufacturing techniques and materials have enabled the miniaturization of gear motors without compromising their performance. Gear motors with compact designs are highly sought after in applications where space is limited, such as robotics, medical devices, and consumer electronics. Innovative approaches like micro-gear motors and integrated motor-gear units are being developed to achieve smaller form factors while maintaining high torque and efficiency.

2. High-Efficiency Gearing:

New gear designs focus on improving efficiency by reducing friction and mechanical losses. Advanced gear manufacturing techniques, such as precision machining and 3D printing, allow for the creation of intricate gear tooth profiles that optimize power transmission and minimize losses. Additionally, the use of high-performance materials, coatings, and lubricants helps reduce friction and wear, improving overall gear motor efficiency.

3. Magnetic Gearing:

Magnetic gearing is an emerging technology that replaces traditional mechanical gears with magnetic fields to transmit torque. It utilizes the interaction of permanent magnets to transfer power, eliminating the need for physical gear meshing. Magnetic gearing offers advantages such as high efficiency, low noise, compactness, and maintenance-free operation. While still being developed and refined, magnetic gearing holds promise for various applications, including gear motors.

4. Integrated Electronics and Controls:

Gear motor designs are incorporating integrated electronics and controls to enhance performance and functionality. Integrated motor drives and controllers simplify system integration, reduce wiring complexity, and allow for advanced control features. These integrated solutions offer precise speed and torque control, intelligent feedback mechanisms, and connectivity options for seamless integration into automation systems and IoT (Internet of Things) platforms.

5. Smart and Condition Monitoring Capabilities:

New gear motor designs incorporate smart features and condition monitoring capabilities to enable predictive maintenance and optimize performance. Integrated sensors and monitoring systems can detect abnormal operating conditions, track performance parameters, and provide real-time feedback for proactive maintenance and troubleshooting. This helps prevent unexpected failures, extend the lifespan of gear motors, and improve overall system reliability.

6. Energy-Efficient Motor Technologies:

Gear motor design is influenced by advancements in energy-efficient motor technologies. Brushless DC (BLDC) motors and synchronous reluctance motors (SynRM) are gaining popularity due to their higher efficiency, better power density, and improved controllability compared to traditional brushed DC and induction motors. These motor technologies, when combined with optimized gear designs, contribute to overall system energy savings and performance improvements.

These are just a few examples of the innovations and emerging technologies in gear motor design. The field is continuously evolving, driven by the need for more efficient, compact, and reliable motion control solutions in various industries. Gear motor manufacturers and researchers are actively exploring new materials, manufacturing techniques, control strategies, and system integration approaches to meet the evolving demands of modern applications.

gear motor

Can you explain the role of backlash in gear motors and how it’s managed in design?

Backlash plays a significant role in gear motors and is an important consideration in their design and operation. Backlash refers to the slight clearance or play between the teeth of gears in a gear system. It affects the precision, accuracy, and responsiveness of the gear motor. Here’s an explanation of the role of backlash in gear motors and how it is managed in design:

1. Role of Backlash:

Backlash in gear motors can have both positive and negative effects:

  • Compensation for Misalignment: Backlash can help compensate for minor misalignments between gears, shafts, or the load. It allows a small amount of movement before engaging the next set of teeth, reducing the risk of damage due to misalignment. This can be particularly beneficial in applications where precise alignment is challenging or subject to variations.
  • Negative Impact on Accuracy and Responsiveness: Backlash can introduce a delay or “dead zone” in the motion transmission. When changing the direction of rotation or reversing the load, the gear teeth must first overcome the clearance or play before engaging in the opposite direction. This delay can reduce the overall accuracy, responsiveness, and repeatability of the gear motor, especially in applications that require precise positioning or rapid changes in direction or speed.

2. Managing Backlash in Design:

Designers employ various techniques to manage and minimize backlash in gear motors:

  • Tight Manufacturing Tolerances: Proper manufacturing techniques and tight tolerances can help minimize backlash. Precision machining and quality control during the production of gears and gear components ensure closer tolerances, reducing the amount of play between gear teeth.
  • Preload or Pre-tensioning: Applying a preload or pre-tensioning force to the gear system can help reduce backlash. This technique involves introducing an initial force or tension that eliminates the clearance between gear teeth. It ensures immediate contact and engagement of the gear teeth, minimizing the dead zone and improving the overall responsiveness and accuracy of the gear motor.
  • Anti-Backlash Gears: Anti-backlash gears are designed specifically to minimize or eliminate backlash. They typically feature modifications to the gear tooth profile, such as modified tooth shapes or special tooth arrangements, to reduce clearance. Anti-backlash gears can be used in gear motor designs to improve precision and minimize the effects of backlash.
  • Backlash Compensation: In some cases, backlash compensation techniques can be employed. These techniques involve monitoring the position or movement of the load and applying control algorithms to compensate for the backlash. By accounting for the clearance and adjusting the control signals accordingly, the effects of backlash can be mitigated, improving accuracy and responsiveness.

3. Application-Specific Considerations:

The management of backlash in gear motors should be tailored to the specific application requirements:

  • Positioning Accuracy: Applications that require precise positioning, such as robotics or CNC machines, may require tighter backlash control to ensure accurate and repeatable movements.
  • Dynamic Response: Applications that involve rapid changes in direction or speed, such as high-speed automation or servo control systems, may require reduced backlash to maintain responsiveness and minimize overshoot or lag.
  • Load Characteristics: The nature of the load and its impact on the gear system should be considered. Heavy loads or applications with significant inertial forces may require additional backlash management techniques to maintain stability and accuracy.

In summary, backlash in gear motors can affect precision, accuracy, and responsiveness. While it can compensate for misalignments, backlash may introduce delays and reduce the overall performance of the gear motor. Designers manage backlash through tight manufacturing tolerances, preload techniques, anti-backlash gears, and backlash compensation methods. The management of backlash depends on the specific application requirements, considering factors such as positioning accuracy, dynamic response, and load characteristics.

gear motor

In which industries are gear motors commonly used, and what are their primary applications?

Gear motors find widespread use in various industries due to their versatility, reliability, and ability to provide controlled mechanical power. They are employed in a wide range of applications that require precise power transmission and speed control. Here’s a detailed explanation of the industries where gear motors are commonly used and their primary applications:

1. Robotics and Automation:

Gear motors play a crucial role in robotics and automation industries. They are used in robotic arms, conveyor systems, automated assembly lines, and other robotic applications. Gear motors provide the required torque, speed control, and directional control necessary for the precise movements and operations of robots. They enable accurate positioning, gripping, and manipulation tasks in industrial and commercial automation settings.

2. Automotive Industry:

The automotive industry extensively utilizes gear motors in various applications. They are used in power windows, windshield wipers, HVAC systems, seat adjustment mechanisms, and many other automotive components. Gear motors provide the necessary torque and speed control for these systems, enabling smooth and efficient operation. Additionally, gear motors are also utilized in electric and hybrid vehicles for powertrain applications.

3. Manufacturing and Machinery:

Gear motors find wide application in the manufacturing and machinery sector. They are used in conveyor belts, packaging equipment, material handling systems, industrial mixers, and other machinery. Gear motors provide reliable power transmission, precise speed control, and torque amplification, ensuring efficient and synchronized operation of various manufacturing processes and machinery.

4. HVAC and Building Systems:

In heating, ventilation, and air conditioning (HVAC) systems, gear motors are commonly used in damper actuators, control valves, and fan systems. They enable precise control of airflow, temperature, and pressure, contributing to energy efficiency and comfort in buildings. Gear motors also find applications in automatic doors, blinds, and gate systems, providing reliable and controlled movement.

5. Marine and Offshore Industry:

Gear motors are extensively used in the marine and offshore industry, particularly in propulsion systems, winches, and cranes. They provide the required torque and speed control for various marine operations, including steering, anchor handling, cargo handling, and positioning equipment. Gear motors in marine applications are designed to withstand harsh environments and provide reliable performance under demanding conditions.

6. Renewable Energy Systems:

The renewable energy sector, including wind turbines and solar tracking systems, relies on gear motors for efficient power generation. Gear motors are used to adjust the rotor angle and position in wind turbines, optimizing their performance in different wind conditions. In solar tracking systems, gear motors enable the precise movement and alignment of solar panels to maximize sunlight capture and energy production.

7. Medical and Healthcare:

Gear motors have applications in the medical and healthcare industry, including in medical equipment, laboratory devices, and patient care systems. They are used in devices such as infusion pumps, ventilators, surgical robots, and diagnostic equipment. Gear motors provide precise control and smooth operation, ensuring accurate dosing, controlled movements, and reliable functionality in critical medical applications.

These are just a few examples of the industries where gear motors are commonly used. Their versatility and ability to provide controlled mechanical power make them indispensable in numerous applications requiring torque amplification, speed control, directional control, and load distribution. The reliable and efficient power transmission offered by gear motors contributes to the smooth and precise operation of machinery and systems in various industries.

China Standard CHINAMFG Small Engine Starter Motor Manufacturers Gear Starter Motor China Iskra Starter Motor for 24V 4.0kw with High-Quality Drive for CHINAMFG   vacuum pump brakesChina Standard CHINAMFG Small Engine Starter Motor Manufacturers Gear Starter Motor China Iskra Starter Motor for 24V 4.0kw with High-Quality Drive for CHINAMFG   vacuum pump brakes
editor by CX 2024-01-16