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What are the advantages of elevator guide rail components

Source:www.huida-cn.com      Release date: 2025年06月09日
Information summary:The elevator guide rail is one of the core components of the elevator system, mainly used to guide the vertical movement of the car and counterweight, ensuring the smoothness and safety of elevator operation. Its advantages are mainly reflected in structural design, material properties, processing accuracy, and safety assurance, as follows:
      The elevator guide rail is one of the core components of the elevator system, mainly used to guide the vertical movement of the car and counterweight, ensuring the smoothness and safety of elevator operation. Its advantages are mainly reflected in structural design, material properties, processing accuracy, and safety assurance, as follows:
1、 High strength and rigidity ensure safe operation
1. Excellent material properties
     Elevator guide rails are usually made of high-quality carbon steel (such as Q235, Q345) or alloy tool steel, with a tensile strength of 450-600 MPa and a yield strength of ≥ 235 MPa. They can withstand the vertical gravity of the car, counterweight, and load, as well as the dynamic impact force during start stop.
     The cross-section of the guide rail (such as T-shaped and L-shaped) is designed as an I-shaped or groove shaped structure. By optimizing the inertia moment of the cross-section, the anti bending and anti torsion capabilities are improved to prevent the deformation of the guide rail from causing elevator jamming or derailment.
2. Strong load-bearing capacity
      Standard guide rails can carry a weight of 2000-5000 kg (depending on the model), while thick guide rails are used for high-speed elevators or heavy-duty scenarios (such as freight elevators), with a bearing capacity of over 10 tons, to meet different load requirements.
2、 High precision machining ensures smooth operation
1. High dimensional accuracy
     The straightness error of the working surface (guide surface) of the guide rail is ≤ 0.1 mm/m, the perpendicularity error is ≤ 0.05 mm/m, and the parallelism error between the top and side surfaces is ≤ 0.1 mm. It is achieved through precision rolling or grinding technology to ensure the guiding accuracy during the operation of the car (shaking amount ≤ 1 mm).
     The height difference at the joint of the guide rail is ≤ 0.03 mm, and the gap is ≤ 0.5 mm. Precise docking is achieved through mortise and tenon structures or connecting plates to reduce vibration and noise during operation (high-speed elevator noise ≤ 55 dB).
2. Low surface roughness
      The surface roughness of the working face reaches Ra 1.6~3.2 μ m, which is close to a mirror effect. The friction coefficient with the guide shoe (sliding or rolling guide shoe) is low (sliding guide shoe friction coefficient ≈ 0.02~0.05), reducing operating resistance and improving ride comfort.
3、 Easy installation and low maintenance cost
1. Standardized design
     The cross-sectional shape of the guide rail (such as T75, T89, T127, etc.) and the installation hole position are standardized to adapt to different specifications of guide shoes and brackets. During installation, they can be quickly fixed to the guide rail bracket through expansion bolts or welding, shortening the construction period.
2. Long lifespan and low maintenance
     The surface of the guide rail is usually quenched (with a hardness of HRC 30-40) or galvanized for anti-corrosion treatment, with a wear resistance life of more than 10-15 years. It is only necessary to regularly clean the contact surface between the guide shoe and the guide rail in daily life, reducing the lubrication frequency (lubricating the sliding guide shoe 1-2 times a year).
4、 Security protection design enhances system reliability
1. Anti derailment and anti fall functions
      The flanges on both sides of the T-shaped guide rail (commonly known as "rail shoulders") can limit the lateral movement of the guide shoes and prevent the car from derailing; Combined with the safety clamp device, when the elevator exceeds the speed limit, the safety clamp wedge can quickly clamp the guide rail, with a braking distance of ≤ 1.5 m (depending on the speed), to avoid falling accidents.
2. Seismic and impact resistance capability
      The guide rail bracket adopts elastic connections (such as rubber shock absorbers), which can absorb the vibration energy during elevator operation. In areas with seismic fortification intensity ≤ 7 degrees, the guide rail system can still maintain structural stability and prevent severe shaking of the car.