Detection method for elevator brake moment

The invention claimed is: 1. A method for detecting elevator brake moment in an elevator including a controller, a motor, a brake and a frequency converter, the method comprising: initiating an automatic detection function; determining, by the controller, whether the elevator is in an idle state; in response to the elevator not being in the idle state, continuing to perform the determining until the elevator is in the idle state; in response to the elevator being in the idle state, controlling, by the controller, the frequency converter to continuously output stagewise-changing torque current to the motor while applying the brake and recording a torque at which the motor rotates; calculating, by the controller, whether the torque at which the motor rotates is larger than a design moment range of the brake; in response to the torque at which the motor rotates being larger than a design moment range of the brake, terminating the automatic detection function and restoring the elevator to normal running; in response to the torque at which the motor rotates not being larger than the design moment range of the brake, entering a fault protection state and stopping the elevator from running; calculating, by the controller, a brake moment decline curve in response to a plurality of recordings of the torque at which the motor rotates; and in response to a slope of the brake moment decline curve being larger than a preset slope and the torque at which the motor rotates being larger than the design moment range of the brake, the controller generating a warning that the brake needs to be maintained. 2. The method of claim 1 , wherein: the automatic detection function is initiated by the controller in response to an automatic detection cycle time. 3. The method of claim 1 , wherein: after the fault protection state is entered, the controller controls the elevator to enter a stopped state and the controller does not respond to an elevator call command when the controller receives the elevator call command. 4. The method of claim 3 , wherein: the controller maintains the elevator in the stopped state until the controller receives a manual turn-on signal; in response to receiving the a manual turn-on signal, the controller performs the initiating the automatic detection function. 5. The method of claim 1 , wherein: controlling the frequency converter comprises increasing an output torque current value at different intervals of time, so that the torque current changes from low to high; wherein the torque current which is initially output by the frequency converter is larger than a normal torque current value.