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Traction lifts, also known as traction elevators, are a type of elevator system commonly used in modern buildings. They operate using a system of ropes or belts attached to the elevator cab and counterweight, which are then connected to a traction machine typically located at the top of the elevator shaft. The traction machine, often driven by a gearless motor, pulls or releases the ropes to move the elevator cab up and down the shaft.

Traditional lifts, on the other hand, often refer to hydraulic elevators or older styles of elevator systems that use hydraulic fluid pressure to move the elevator cab. Hydraulic elevators typically consist of a piston mounted beneath the elevator cab, which pushes the cab upwards when the piston is pressurized with hydraulic fluid. These systems are commonly found in low to mid-rise buildings and are characterized by their simplicity and reliability.

Here's a comparison between traction lifts and traditional lifts:

1. Operation: Traction lifts use a system of ropes or belts and a traction machine, while traditional lifts use hydraulic pistons and hydraulic fluid pressure for operation.
2. Speed and Height: Traction lifts are generally capable of higher speeds and are more suitable for taller buildings, as they are not limited by the height of the piston like hydraulic lifts.
3. Space Requirements: Traction lifts typically require a machine room at the top of the elevator shaft to house the traction machine, whereas hydraulic lifts require a separate machine room or space for the hydraulic pump and fluid reservoir.
4. Energy Efficiency: Traction lifts are often considered more energy-efficient, especially if they utilize gearless traction machines and regenerative braking systems. Hydraulic lifts may consume more energy, particularly during peak usage times, as they require the continuous operation of hydraulic pumps.
5. Maintenance: Traction lifts may require less maintenance compared to hydraulic lifts, as they have fewer moving parts and are less susceptible to issues such as oil leaks or hydraulic fluid contamination.

Both traction lifts and traditional lifts have their advantages and are suitable for different building types and applications. Traction lifts are commonly used in high-rise buildings where speed and efficiency are critical, while traditional lifts are often found in low to mid-rise buildings where space and cost considerations may be more important.

Hydraulic lifts, also known as conventional lifts, are a type of elevator system that relies on hydraulic fluid pressure to move the elevator cab between floors. These lifts are commonly used in low to mid-rise buildings, typically up to six or seven floors, due to their simplicity, reliability, and cost-effectiveness.

Here's how hydraulic lifts typically work:

1. Piston and Cylinder System: Hydraulic lifts consist of a piston mounted beneath the elevator cab within a cylinder. The piston is connected to the elevator cab through a system of ropes or chains. When hydraulic fluid is pumped into the cylinder, it pushes the piston upward, lifting the elevator cab. Conversely, when the hydraulic fluid is released from the cylinder, the cab descends under its own weight or with the assistance of a counterweight.
2. Hydraulic Pump: The hydraulic fluid is pressurized and circulated by a hydraulic pump located either within the elevator shaft or in a separate machine room. The pump is powered by an electric motor and is responsible for generating the necessary pressure to move the elevator cab.
3. Control System: A control system manages the operation of the hydraulic lift, including starting and stopping the pump, controlling the flow of hydraulic fluid, and directing the movement of the elevator cab. This system typically includes safety features such as emergency brakes and limit switches to ensure safe operation.
4. Machine Room: In some installations, the hydraulic pump and fluid reservoir are housed in a separate machine room located adjacent to the elevator shaft. However, in modern designs, machine-room-less hydraulic lifts are also available, where the pump and reservoir are integrated within the shaft structure, saving space and construction costs.
5. Safety Features: Hydraulic lifts are equipped with various safety features to prevent accidents and ensure passenger safety. These may include emergency stop buttons, door interlocks, overspeed governors, and buffer systems to cushion the cab in the event of a sudden stop.

Hydraulic lifts are valued for their simplicity, reliability, and relatively low cost compared to other elevator systems. However, they typically have slower travel speeds and are less energy-efficient compared to traction lifts, making them more suitable for shorter vertical distances and buildings with fewer floors.

 The most favorable aspects of Home Lifts are that offer phenomenal comfort and also facilitate the increase in the value of a property. A house featuring an elevator eliminates the inconveniences that a person with reduced mobility normally faces, and thus broadens the list of potential buyers. 

• Quick And Easy To Install

Our home elevators only need a few days for installation. With quick and easy installation, you can have your elevator up and running, in no time.

• Affordability and Adaptability

Home elevators are being increasingly considered by more and more homeowners these days, because of the fact that they are being quite affordable, both in terms of installation and maintenance. The elevators that we manufacture are specially designed in such a way that they can be installed anywhere, no matter the building’s specifications and elevator space allotment. Since lifts for homes require less space, there is no need for a separate room or even a pit.

• Energy Efficient

The energy consumption of our state-of-the-art home elevators in India and other parts of the country is minimal and can be compared to that of a washing machine. Therefore, our home elevators aren’t just solutions that offer paramount comfort and convenience but are also economical.

• Phenomenal Safety and Comfort

All the home elevators we manufacture meet the safety standards for home lifts in India. Our elevators are specially designed and engineered with state-of-the-art emergency features and function extremely smoothly without any unpleasant jerks and pauses. 

 Machine Room Less (MRL) elevators are a type of elevator system designed to eliminate the need for a dedicated machine room, making them more space-efficient and potentially more environmentally friendly compared to traditional elevator setups.

Here's how they typically work and some of their "Go Green" characteristics:

1. Space Efficiency: Traditional elevators require a separate machine room to house the motor and other mechanical components. MRL elevators integrate these components within the elevator shaft itself, eliminating the need for a separate room. This saves space and allows for more flexible building designs.
2. Energy Efficiency: MRL elevators often use gearless traction systems, which are more energy-efficient compared to traditional geared systems. These systems use permanent magnet motors that require less power to operate, leading to energy savings over the long term.
3. Regenerative Braking: Many MRL elevators are equipped with regenerative braking systems. When the elevator descends, the motor acts as a generator, converting the kinetic energy of the moving cab into electrical energy. This energy can then be fed back into the building's electrical grid or used to power other building systems, reducing overall energy consumption.
4. LED Lighting: MRL elevators often incorporate energy-efficient LED lighting both inside the cab and in the shaft. LED lights consume less energy and have a longer lifespan compared to traditional incandescent or fluorescent lights.
5. Smart Control Systems: Advanced control systems in MRL elevators optimize energy usage by adjusting elevator operation based on factors such as passenger traffic patterns, time of day, and building occupancy. These systems can minimize wait times and energy consumption by efficiently coordinating elevator movements.
6. Recyclable Materials: Manufacturers of MRL elevators increasingly use recyclable materials in their construction, reducing the environmental impact of manufacturing and disposal.

Overall, MRL elevators offer several advantages in terms of space efficiency, energy efficiency, and environmental sustainability compared to traditional elevator systems, making them a popular choice for modern building projects focused on green technologies and sustainability.