Electromechanical Brake and Locking Device for Same

What is claimed is: 1 . A locking device for an electromechanical brake, comprising: a bracket; a rotating lever having an operating end for being interlocked with a ratchet of the electromechanical brake, the rotating lever being connected to the bracket through a rotating shaft such that the rotating lever is rotatable between an idle position and a working position with the rotating shaft as a rotation axis; an electromagnet configured to act on an action end of the rotating lever thereby causing the rotating lever to rotate from the idle position to the working position; and a reset member configured to cause the rotating lever to return to the idle position from the working position, wherein the locking device is configured such that a first movement distance of the operating end of the rotating lever is more than 3 times a second movement distance of the action end of the rotating lever during movement of the rotating lever from the idle position to the working position. 2 . The locking device according to claim 1 , wherein: the operating end is located on a first side of a shaft hole that is matched with the rotating shaft, and the rotating lever further comprises a counterweight part located on a second side of the shaft hole that is opposite to the first side such that a center of gravity of the rotating lever is near the shaft hole. 3 . The locking device according to claim 2 , wherein: the counterweight part is disposed on the action end, or the rotating lever comprises a first arm, a second arm, and a third arm that extend from the shaft hole along three directions, end parts of the first arm, the second arm and the third arm are configured as the operating end, the action end and the counterweight part, respectively, and the operating end, the action end and/or the counterweight part have axial extension parts extending along an axial direction. 4 . The locking device according to claim 1 , wherein a maximum distance from the operating end to the rotating shaft is more than 3 times a maximum distance from the counterweight part to the rotating shaft. 5 . The locking device according to claim 1 , wherein: the bracket is a separate locking device housing, the rotating lever is connected to the locking device housing through the rotating shaft, and the locking device housing includes a first cavity configured to contain the electromagnet and a second cavity configured to contain the rotating shaft, the rotating lever and the reset member. 6 . The locking device according to claim 5 , wherein: the first cavity is configured to be matched with the electromagnet in shape, the first cavity and the second cavity are spaced apart by an intermediate wall, the intermediate wall has a bore allowing an execution end of the electromagnet to pass through, the second cavity comprises opposing walls, the rotating shaft is connected to mounting holes of the opposing walls, and the rotating lever is arranged on the rotating shaft in a sleeving mode, and washers are arranged between the rotating lever and the opposing walls to axially limit the rotating lever. 7 . A locking device according to claim 5 , wherein: the reset member is a folding spring and is mounted on pins extending from the opposing walls, the folding spring includes a first end connected to a first pin, a bending part bypassing the second pin, and a second end connected to the rotating lever, the locking device further includes banking pins extending from the opposing walls, the banking pins are configured to limit the rotating lever when the rotating lever returns to the idle position from the working position, and the banking pins are wrapped with cushion collars. 8 . The locking device according to claim 1 , wherein: the bracket forms an end cap of the main module of the electromechanical brake, the end cap has an additional containing cavity configured to contain an electromagnet, the electromagnet is disposed in the additional containing cavity, and one end of the rotating shaft of the rotating lever is disposed in the bore of the end cap, the rotating lever is rotationally fixed to the rotating shaft, the reset member is a torsion spring disposed on the rotating shaft, a first end of the torsion spring abuts against a hook part of the rotating lever, and a second end of the torsion spring is fixed. 9 . An electromechanical brake, comprising: a brake motor; a spindle coupled with the brake motor, the spindle being driven by the brake motor to rotate along a first direction to drive a brake module to perform a brake operation, wherein a ratchet is fixedly disposed on the spindle; and the locking device according to claim 1 , wherein the operating end is separated from the ratchet when the rotating lever of the locking device is in the idle position, and the operating end is interlocked with the ratchet when the rotating lever of the locking device is in the working position, wherein the ratchet and the operating end of the rotating lever are disposed such that, when in the working position, the operating end interacts with the ratchet to prevent the ratchet from rotating along a second direction opposite to the first direction and to prevent the rotating lever from rotating towards the idle position. 10 . The electromechanical brake according to claim 9 , wherein: the spindle comprises a front end and a rear end that are opposite, the front end of the spindle is coupled to the brake module through a ball screw nut mechanism, the ratchet is fixedly mounted at the rear end of the spindle, a worm gear is fixedly disposed in a middle section between the front end and the rear end of the spindle, an output shaft of the brake motor is configured as a worm meshed with the worm gear on the spindle, the electromechanical brake comprises: a brake motor, a main module, a brake module, and an electronic control unit, the main module comprises a main housing and an end cap, the spindle, the ball screw nut mechanism, the ratchet, the worm gear and the locking device are contained between the main housing and the end cap, a first end of the main housing is connected to the brake module, a second end of the main housing that is opposite to the first end is closed by the end cap, and the brake motor and the electronic control unit are connected to the main housing from two opposite sides of the main housing, the locking device is pre-assembled and then mounted to the main housing, and a locking device housing of the locking device comprises a limiting feature matched with the main housing, and the locking device housing further comprises a bolt bore to be connected with a bolt passing through a wall of the main housing. 11 . The electromechanical brake according to claim 10 , wherein: the electromechanical brake further comprises an adapter mounted in the main housing, the electronic control unit is electrically connected with the electromagnet and the brake motor through the adapter, respectively, and the electromagnet comprises a terminal connected with the adapter, the terminal is toward the adapter, or the terminal is toward the end cap. 12 . A locking device according to claim 1 , wherein the locking device is configured such that the first movement distance of the operating end of the rotating lever is more than 5 times the second movement distance of the action end of the rotating lever. 13 . The locking device according to claim 2 , wherein a distance from the center of gravity of the rotating lever to the shaft hole is less than 1 cm. 14 . The locking device according to claim 4 , wherein the maximum distan