FEATURES OF Reduction Gearhead

Robust design

Help to handle high torque, resist wear and tear ensure reliable and efficient power transmission

Easy Installation

Saves Time and Increase overall production efficiency

High Torque Carrying Capacity

Ensures reliable power transmission, allowing applications to handle heavy-duty tasks with efficiency and precision

Precise Motion Control

Achieve reliable and smooth movements, ensuring optimal performance of application

Why choose Mechtex for your business


Year Of Experience


Countries Present


Industries Served

Unique Selling Proposition ( USP )

Customisation Option

We delivers tailored made solutions for customers unique needs and Requirements

Wide Product Range

Offering a diverse range of motors and gearbox to cater to various industries and applications need

Customer Centric Approach

Prioritizing customer satisfaction by providing user-friendly, economical, and high-quality products

Safety and Compliance

An ISO 9001:2015 and 14001:2015 Certified Organization. Our Products are ROHs, UL and CE certified meeting industry standards for safety and reliability.

Technical Expertise

Dedicated to research and development and Providing technically superior products with superior performance for enhanced efficiency.

Industries We Served










Frequently Asked Questions (FAQs)

Planetary gears and spur gears are two different types of gear systems used for various mechanical applications. They have distinct designs and offer different advantages. The choice between the two depends on the specific needs of the application and the desired gear characteristics. Planetary gears offer compactness, versatility in gear ratios, and efficient torque distribution, making them suitable for applications with higher torque and speed requirements. Spur gears, on the other hand, are simpler and commonly used for lower torque applications where constant gear ratios are sufficient.
A reduction gearhead, also known as a gear reducer or gearbox, reduces the rotational speed and increases the torque of a motor or power source. It achieves this by using a combination of gears with different sizes and tooth counts. It is a versatile mechanical component that finds applications in a wide range of industries to provide the necessary power and control for various systems and machines. Reduction gearheads are commonly used in various applications, including industrial machinery, automotive systems, robotics, and more.
The relationship is described by a fundamental principle known as the mechanical power equation, which relates speed (angular velocity) and torque (rotational force) with mechanical power. The mechanical power equation is as follows: Mechanical Power (P) = Torque (T) × Speed (ω) Where: P is the mechanical power measured in watts (W) or horsepower (hp). T is the torque measured in newton-meter (Nm) or pound-feet (lb-ft). ω is the speed (angular velocity) measured in radians per second (rad/s) or revolutions per minute (RPM). Direct Relationship between Power and Speed: When the mechanical power output of a rotating system increases, the speed of the system also increases, assuming the torque remains constant. Conversely, if the mechanical power output decreases, the speed will decrease, assuming the torque remains constant. Inverse Relationship between Power and Torque: If the mechanical power output of a rotating system increases while the speed remains constant, the torque provided by the system also increases. Similarly, if the mechanical power output decreases while the speed remains constant, the torque provided by the system decreases.
The efficiency of a gearbox is a measure of how much mechanical power is lost as heat or friction within the gearbox during the process of power transmission. It is expressed as a percentage and indicates how effectively the gearbox can convert input power to output power. It's important to note that gearbox efficiency can vary based on the gear type, quality of materials and manufacturing, lubrication, and operating conditions. In practice, gearbox efficiency is typically highest when the gearbox operates close to its design load and speed.

Our Clients



We are very pleased not only with the end result, but with the entire process of working with Mechtex. The amount of patience, guidance, and knowledge that they displayed throughout the whole process made them a very easy and enjoyable partner to work with.
Mechtex is a great consulting partner. They have shown consistency and high integrity over the course of our relationship. We are very impressed with their commitment and outstanding quality.
Mechtex has been outstanding to work with, and has been instrumental in getting our requirements fulfilled on time and within budget. We have worked with other vendors in the past that have will do what you ask for but no more and do not necessarily understand the end state and the why behind it
The Mechtex team helped build our complex and custom motor connector from scratch on-time and with excellent quality. They were very knowledgeable in the domain and very professional. We are looking forward to working with them on an ongoing basis


Why Reduction Gearheads

Why Reduction Gearheads

Reduction gearheads use the concept of gear reduction which implies that the gears reduce the speed of the machine but increase its torque. They are usually made of steel, hardened metal, nylon, plastic or rubber gear. The usage of sintered gears is also increasing to decrease the expense of gear production. These are self lubricating. They are available with a variety of mounting options, reduction ratios and output shafts

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Why Planetary Gearheads

Why Planetary Gearheads

A planetary gearhead is a device in which the output and the input shafts are aligned. The primary function of the planetary gearhead is to offer the greatest torque in the most compact manner. They offer a greater torque and a higher reduction ratio per gear train. They are made of good quality composite materials

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Why is Synchronous Motor not self starting?

Why is Synchronous Motor not self starting?

Synchronous motors offer several advantages in terms of efficiency and control. However, their self-starting limitation necessitates the use of external means to bring the rotor to near synchronous speed before synchronization with the power supply can occur

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All About Drones

All About Drones

Drones consist of numerous components including electronic speed controllers, flight controllers, GPS modules, battery, receiver, cameras, sensors, etc

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The idea of precision motion control - Hybrid Stepper Motors

The idea of precision motion control - Hybrid Stepper Motors

A brushless DC (BLDC) electric motor that divides a full rotation into a number of equal steps motor is known as Stepper Motor

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Drivetronics of Electric Motors

Drivetronics of Electric Motors

A driver is an electrical circuit that enables switching the current into a motor's winding in different ways in order to produce the desired speed and torque

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Stepper Motor

Stepper Motor

A stepper motor consists of a fixed stator made from a series of electromagnetic coils and a moving rotor made of a ferromagnetic material or a permanent magnet.

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Synchronous  Motors

Synchronous Motors

Synchronous Motors A synchronous motor is an electric motor that will run at a synchronous speed, to convert the supplied electrical energy into rotational (mechanical) energy, or it will not run at all.

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BLDC Motor.

BLDC Motor.

In a BLDC motor, the mechanical commutator used in the conventional DC motor is replaced with an electric switch circuit. A brushless DC Motor is basically a type of synchronous motor. Therefore, the magnetic field generated by the stator and the rotor revolve at the same frequency

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EL-108, Electronic Zone, Mahape TTC Industrial Estate,
Navi Mumbai - 400709, Maharashtra India