What safety accidents may be caused by poor gear meshing of the GR107-Y3-4P-11.59 reducer?

Poor gear meshing of the GR107-Y3-4P-11.59 reducer may indeed cause safety accidents. The core risks are mechanical structure damage, electrical system overload and personal injury.

1. Safety accidents caused by damage to mechanical structures

‌1. Risk of gear breakage or chipping‌:

‌Consequences‌: Broken gear fragments may fly, causing scratches and crushing injuries (especially in open transmission systems). The gear falling off will cause the transmission to be interrupted and cause the equipment to lose control (such as the emergency stop of the elevator or the sudden stop of the conveyor line causing material accumulation and collapse).

‌Cause‌: Long-term overload causes fatigue fracture of the tooth root (exceeding the material fatigue limit); sudden impact load (such as falling heavy objects) causes the gear to collapse due to instantaneous overload.

2. Risk of bearing locking or cracking:

‌Consequences‌: Bearing jamming causes severe vibration of the shaft system, which may cause the reducer housing to crack, bolts to loosen and fall off, and even the equipment toppling. Broken bearing balls/cages entering the gear meshing area will aggravate secondary damage (such as gear teething).

‌Cause‌: Overload causes the axial/radial load of the bearing to exceed the standard; it is more likely to occur when there is insufficient lubrication (such as the bearing being short of oil in a dusty environment of mining machinery).

2. Risks caused by overloading of electrical systems

‌1. Risk of motor burnout and electrical fire‌:

‌Consequences‌: Abnormal load causes the motor current to continuously exceed the rated value, and the windings are overheated and burned, which may cause short circuit or electrical fire (especially in flammable and explosive environments).

‌Cause‌: Abnormal vibration and impact load caused by poor gear meshing can cause the motor to run overloaded.

‌2. Risk of falling or overturning of lifting equipment‌:

‌Consequences‌: Overloading the main hoisting reducer of the crane may cause the brake to fail, and heavy objects may fall and damage equipment or personnel (such as the tower crane hook losing control at a construction site). The uneven load of the driving reducer causes the wheels to chew on the rails, and long-term operation leads to track deformation and equipment overturning.

3. Personal injuries and occupational health risks

‌1. Mechanical injury risk‌:

‌Consequences‌: Overload causes the coupling guard to loosen and fall off, and rotating parts (such as coupling bolts) are thrown out and injure people. Abnormal vibrations cause equipment components to loosen (such as gearbox peephole covers falling off), exposing high-speed rotating gears and causing limbs to be involved.