Lighting Equipment Company 
PRODUCTS (SOUTH INDIA)
Bonfiglioli Electric Motors
Bonfiglioli is an Italian company that manufactures a wide range of products, including electric motors, gearboxes, inverters, and other power transmission and control solutions. The company has been in operation since 1956 and has expanded to have a global presence with offices and production facilities in different parts of the world.
Bonfiglioli produces a variety of electric motors, including asynchronous motors, synchronous reluctance motors, permanent magnet motors, and servo motors. These motors are used in a wide range of industrial applications, such as machinery, conveyors, pumps, fans, and compressors.
One of the notable features of Bonfiglioli electric motors is their efficiency. The company has developed advanced motor technologies that are designed to reduce energy consumption and improve overall efficiency. Some of the motors feature high power density, which means that they can provide high levels of power in a compact size.
Bonfiglioli also offers customization options for its electric motors to meet specific customer requirements. This includes customizing the motor’s size, voltage, speed, and other parameters to fit the specific needs of the application.
Overall, Bonfiglioli electric motors are known for their reliability, efficiency, and versatility, and are widely used in a variety of industrial settings.
Monoblock Pumps
A self-priming monoblock pump is a type of water pump that is designed to automatically prime itself, without the need for external priming assistance. This makes them ideal for applications where the pump may be located above the water level, such as in a rooftop water tank or a well with a high water table.
Self-priming monoblock pumps work by creating a vacuum in the suction pipe and impeller chamber when the pump is started. This causes water to be drawn into the pump, filling the impeller chamber and creating a prime. Once the pump is primed, it can operate normally and continue to draw water from the source without the need for further priming.
Self-priming monoblock pumps are typically used for applications such as water supply, irrigation, and pressure boosting. They are available in a variety of sizes and capacities, ranging from small units for domestic use to large units for industrial and commercial applications.
One of the advantages of self-priming monoblock pumps is their ease of use. They do not require any external priming assistance, which simplifies installation and maintenance. They are also relatively compact and easy to install, making them ideal for use in tight spaces.
When selecting a self-priming monoblock pump, it is important to consider factors such as the required flow rate, the lift height, and the type of fluid being pumped. It is also important to choose a pump that is properly sized for the application, as an undersized pump may not be able to meet the required flow rate, while an oversized pump may consume more energy than necessary.
Single Phase Capacitor Start Motors
Single phase capacitor start motors are a type of electric motor commonly used in a wide range of industrial and commercial applications. As the name suggests, they are designed to operate on single-phase power, which is the type of electrical power typically supplied to homes and small businesses.
One key feature of single phase capacitor start motors is the use of a capacitor to provide additional starting torque. The capacitor is connected to the motor’s windings, and when the motor is turned on, it provides an extra boost of power to help the motor overcome the initial resistance and start rotating.
Once the motor is up and running, the capacitor is no longer needed, and it is disconnected from the circuit. This helps to improve the motor’s efficiency and reduce energy consumption.
Single phase capacitor start motors are commonly used in applications such as air compressors, pumps, and other equipment that require high starting torque. They are generally more efficient than other types of single-phase motors and are well-suited for use in applications where high torque and efficiency are important.
Single Phase Induction Motors
Single phase induction motors are a type of electric motor that are commonly used in household appliances, such as fans, washing machines, and refrigerators. They are also used in small commercial applications, such as pumps, compressors, and conveyors.
Unlike three-phase induction motors, single phase induction motors do not have a rotating magnetic field. Instead, they rely on the interaction between the magnetic field of the stator (the stationary part of the motor) and the rotor (the rotating part of the motor) to produce torque.
Single phase induction motors can be either split-phase or capacitor-start motors. Split-phase motors have two windings: a main winding and an auxiliary winding. The main winding is connected directly to the power source, while the auxiliary winding is connected in series with a capacitor. When the motor is started, the capacitor provides a phase shift that creates a rotating magnetic field, which causes the rotor to start turning.
Capacitor-start motors also have two windings, but the auxiliary winding is connected in parallel with a capacitor. When the motor is started, the capacitor provides a high starting torque that helps the rotor overcome inertia and start turning. Once the motor is up to speed, a switch disconnects the capacitor from the circuit.
Single phase induction motors are relatively simple, reliable, and inexpensive compared to other types of electric motors. However, they have limited power output and efficiency, and are not suitable for high-performance applications.
Single Phase Motors
are capable of functioning for longer hours without any obstruction. These single phase motors that we have are known for their compact construction that makes them ideal being used in various material handling equipment.
Submersible pumps
Submersible pumps are a type of water pump that are designed to be fully submerged in water, typically in a well, borehole, or other water source. They are used to pump water to the surface for a variety of applications, such as irrigation, water supply, and dewatering.
Submersible pumps are made up of two main components: the motor and the pump. The motor is hermetically sealed and designed to operate underwater, while the pump is located at the bottom of the well or borehole and is used to draw water up to the surface.
One of the advantages of submersible pumps is their efficiency. Because they are located near the source of the water, they do not need to overcome the pressure of gravity and can operate more efficiently than surface pumps. They are also relatively quiet and require less maintenance than other types of pumps.
Submersible pumps are available in a variety of sizes and capacities, ranging from small units for domestic use to large units for industrial and agricultural applications. They can be powered by electricity or diesel, depending on the specific application.
When selecting a submersible pump, it is important to consider factors such as the required flow rate, the lift height, and the type of fluid being pumped. It is also important to choose a pump that is properly sized for the application, as an undersized pump may not be able to meet the required flow rate, while an oversized pump may consume more energy than necessary
Three phase induction motors
Three phase induction motors are a type of electric motor that are commonly used in industrial and commercial applications. They are more efficient and powerful than single phase induction motors, and are able to handle heavy loads and high speeds.
Three phase induction motors have three windings that are connected to a three-phase power source. The windings are spaced 120 degrees apart, which creates a rotating magnetic field in the stator. The rotating magnetic field interacts with the magnetic field of the rotor to produce torque and rotation.
There are two types of three phase induction motors: squirrel cage and wound rotor motors. Squirrel cage motors have a rotor with conductive bars that are shorted together at both ends, forming a “cage” or “squirrel cage” shape. When the stator creates a rotating magnetic field, eddy currents are induced in the conductive bars, which creates a magnetic field that interacts with the stator field and produces torque.
Wound rotor motors have a rotor with windings that are connected to slip rings. The slip rings are connected to external resistors, which allow the resistance of the rotor circuit to be varied. When the motor is started, the resistors are set to a high value, which creates a high starting torque. As the motor reaches full speed, the resistors are gradually reduced, which increases the efficiency of the motor.
Three phase induction motors are widely used in a variety of industrial applications, such as pumps, compressors, conveyors, and machines tools. They are efficient, reliable, and can operate at high speeds and under heavy loads.
