CN219842154U - Detection device of electronic gear shifter - Google Patents

Abstract

The utility model belongs to the technical field of gear shifters, and particularly discloses a detection device of an electronic gear shifter, which comprises a workbench, a gear lever detection mechanism, a gear lamp detection mechanism and a key detection mechanism; the gear level detection mechanism comprises a groove, an automatic grabbing clamp, a transverse plate and a torque sensor, wherein the groove is arranged on the workbench, the electronic gear selector is arranged at the groove, the automatic grabbing clamp is installed above the groove through a bracket, the workbench is fixedly installed above the transverse plate through an upright post, the bottom of the transverse plate is connected with a rotating mechanism for controlling the rotation of the transverse plate, and the torque sensor is arranged at the rotating shaft of the rotating mechanism; the gear lamp detection mechanism comprises an illumination sensor, the illumination sensor is connected with a moving mechanism for controlling the illumination sensor to move relative to the upper side of the gear shifting lamp of the electronic gear shifter, the key detection mechanism comprises a lifter, and the lifter is arranged on the moving mechanism. By adopting the technical scheme, the comprehensive detection of the electronic gear shifter is realized by utilizing the gear lever detection mechanism, the gear lamp detection mechanism and the key detection mechanism.

Description

Detection device of electronic gear shifter

Technical Field

The utility model belongs to the technical field of gear shifters, and relates to a detection device of an electronic gear shifter.

Background

The gear shifter of the vehicle takes on important responsibility for gear shifting of the vehicle, and the quality, accuracy and durability of the gear shifter greatly influence the final running state of the vehicle. The electronic gear shifter is increasingly applied to various automobiles, the electronic gear shifter sends out signals and sends control instructions to the executor, after the executor receives the control instructions of the controller, the executor controls to enter various transposition positions through a set of mechanical connection structures, the transposition positions comprise P, D, N, R and the like, and the D also comprises a plurality of transposition positions.

Because of the self-contained safety arrangement of the control chip of the electronic gear shifter, parameters of the electronic gear shifter are difficult to modify by non-professional maintenance personnel after leaving a factory. The calibration state of the electronic gear shifter when leaving the factory already determines the use effect of the electronic gear shifter after the electronic gear shifter, if the electronic gear shifter is not well calibrated and controlled by quality when leaving the factory, the electronic gear shifter brings great negative feeling to the riding experience of a user. Therefore, how to perform perfect quality control on the electronic gear shifter before leaving the factory is the technical problem to be solved by the utility model.

In the prior art, patent CN201910776945.5 sets a mechanical arm to push a gear shift lever, continuously applies pushing force to the gear shift lever at a constant speed, obtains the force and angle required by the gear shift lever to generate displacement, and confirms whether the gear shift angle is in a standard range through abrupt change. But this patent only detected the gear selector angle of electronic shifter, and did not detect gear light and button of electronic shifter, and the detection was not comprehensive enough.

Disclosure of Invention

The utility model aims to provide a detection device for an electronic gear shifter, which can realize comprehensive detection of a gear shifting lever, gear lamplight and keys of the electronic gear shifter.

In order to achieve the above purpose, the basic scheme of the utility model is as follows: the detection device of the electronic gear shifter comprises a workbench, a gear shift lever detection mechanism, a gear lamp detection mechanism and a key detection mechanism;

the gear level detection mechanism comprises a groove, an automatic grabbing clamp, a transverse plate and a torque sensor, wherein the groove is formed in the workbench, the electronic gear selector is arranged at the groove, a part to be detected of the electronic gear selector faces to the upper side of the groove, the automatic grabbing clamp is arranged above the groove through a bracket and is used for grabbing a gear level of the electronic gear selector, the workbench is fixedly arranged above the transverse plate through an upright post, the bottom of the transverse plate is connected with a rotating mechanism for controlling the rotation of the transverse plate, and the torque sensor is arranged at a rotating shaft of the rotating mechanism;

the gear lamp detection mechanism comprises an illumination sensor, the illumination sensor is connected with a moving mechanism for controlling the light to move above the gear shifting lamp of the electronic gear shifter, the moving mechanism is arranged on the transverse plate, the key detection mechanism comprises a lifter, and the lifter is arranged on the same moving mechanism or different moving mechanisms where the illumination sensor is arranged.

The working principle and the beneficial effects of the basic scheme are as follows: the electronic gear shifter to be tested is arranged at the groove, the groove can carry out preliminary limit on the electronic gear shifter, meanwhile, the gear shifting lever of the electronic gear shifter is arranged between the automatic grabbing clamps to clamp, the rotating mechanism is started again to drive the transverse plate and equipment on the transverse plate to integrally rotate, the gear shifting lever is clamped by the automatic grabbing clamps and does not rotate along with the transverse plate, the gear shifting lever rotates to a corresponding gear angle relative to the electronic gear shifter, corresponding torque information is collected through the torque sensor, and a worker can judge whether the torque of the rotation angle of the gear shifting lever accords with a standard range or not. The illumination sensor and the lifter are arranged on the moving mechanism, the lifting mechanism is controlled to start to press the key, the corresponding gear lamp is controlled to light up by pressing the key, the illumination sensor and the lifter are driven to move through the moving mechanism, the gear lamps and the keys at different positions on the electronic gear shifter are detected, whether the corresponding gear lamp lights up or not when the key is pressed is detected, and the illumination intensity of the gear lamp is detected, so that a worker can judge whether the gear lamp and the key meet the standard or not.

The electronic gear shifter further comprises a positioning mechanism, wherein the positioning mechanism is arranged at the side edge of the groove and used for positioning the electronic gear shifter, and the positioning mechanism is arranged on the transverse plate;

the positioning mechanism comprises two positioning blocks and a telescopic machine for controlling the positioning blocks to move relatively, the two positioning blocks are positioned on two sides of the groove, and the end parts of the two positioning blocks can abut against the side wall of the electronic gear shifter.

The electronic gear shifter is positioned by the positioning mechanism, so that the electronic gear shifter is ensured to be positioned stably in the detection process, and the detection is prevented from being influenced by misoperation.

Further, the positioning mechanism further comprises a pressure sensor, the pressure sensor is arranged on one side, facing the electronic gear shifter, of the positioning block, and the output end of the pressure sensor is connected with the control end of the telescopic machine after passing through the NOT gate.

And when the pressure sensor does not detect the pressure signal, the telescopic mechanism is controlled to start so as to drive the positioning block to clamp the electronic gear shifter.

Further, the moving mechanism comprises a power source, a swing rod, a sliding rail and a moving piece, one end of the swing rod is connected with a rotating shaft of the power source, the swing rod rotates by taking the rotating shaft as a circle center, the power source is arranged on a transverse plate or a workbench, the sliding rail is arranged on the swing rod, the moving piece is arranged in the sliding rail and can move along the sliding rail, and the illumination sensor and the lifter are arranged on the moving piece.

The swing rod rotates to drive the moving part on the swing rod to change the circumferential angle position, and meanwhile, the moving part can also move in the sliding rail on the swing rod, so that the position adjustment of the illumination sensor and the lifter on the moving part is realized, and the requirement of detecting the position is met.

The automatic transmission device further comprises a prompting mechanism, wherein the prompting mechanism comprises a plurality of gear torque comparators, gear prompting lamps which are in one-to-one correspondence with the gear torque comparators, an illumination comparator and an illumination prompting lamp, and the gear prompting lamp and the illumination prompting lamp are arranged on the workbench;

the first input end of the gear torque comparator is connected with the output end of the torque sensor, the second input end of the gear torque comparator is connected with a torque threshold memory, the torque threshold values in the torque threshold memory connected with different gear torque comparators correspond to different gears of a gear shift lever of the electronic gear shifter, and the output end of the gear torque comparator is connected with the control end of the gear prompt lamp;

the first input end of the illumination comparator is connected with the output end of the illumination sensor, the second input end of the illumination comparator is connected with the illumination threshold memory, and the output end of the illumination comparator is connected with the control end of the illumination prompt lamp.

Comparing the collected related parameters with corresponding thresholds through corresponding comparators, judging whether the collected parameters exceed the threshold range, if not, turning on corresponding prompting lamps, otherwise, indicating that the collected parameters exceed the thresholds, and detecting that the electronic gear shifter does not meet the standard.

Further, the automatic power supply device further comprises a probe mechanism, the probe mechanism is connected with an external power supply, a probe power-on end is arranged on the probe mechanism, a power-on interface connected with the probe power-on end is arranged at the bottom of the electronic gear shifter, an up-down mechanism for controlling the probe mechanism to move up and down is connected to the bottom of the probe mechanism, and the up-down mechanism is arranged on the transverse plate.

The probe mechanism is used for supplying power to the electronic gear shifter during detection, and is convenient to use.

Further, the automatic control device further comprises a control panel, wherein the control panel is arranged on the workbench, a starting button and a scram button are arranged on the control panel, the output end of the starting button is connected with the starting ends of the gear lever detection mechanism, the gear lamp detection mechanism and the key detection mechanism respectively, and the output end of the scram button is connected with the stopping ends of the gear lever detection mechanism, the gear lamp detection mechanism and the key detection mechanism respectively.

The button on the control panel is used for controlling the starting and stopping of the equipment, so that the device is more flexible to use.

Drawings

FIG. 1 is a schematic structural view of a detection device of an electronic shifter according to the present utility model;

FIG. 2 is a perspective view of a detection device of the electronic shifter of the present utility model;

fig. 3 is a schematic structural view of a control panel of the detection device of the electronic shifter of the present utility model.

Reference numerals in the drawings of the specification include: the automatic electronic gear shifter comprises an electronic gear shifter 1, a workbench 2, an automatic grabbing clamp 3, a groove 4, a torque sensor 5, a gear lever 6, a transverse plate 7, an illumination sensor 8, an elevator 9, a stand column 10, a power source 11, a swinging rod 12, a sliding rail 13, a moving member 14, a positioning block 15, a telescopic machine 16, a bracket 17, a moving mechanism 18, a probe mechanism 19, a starting button 20, an emergency stop button 21, a grabbing clamp button 22, a grabbing clamp release button 23, a probe up button 24, a probe down button 25, a positioning clamp button 26, a positioning release button 27 and a control panel 28.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

In the description of the present utility model, unless otherwise specified and defined, it should be noted that the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, mechanical or electrical, or may be in communication with each other between two elements, directly or indirectly through intermediaries, as would be understood by those skilled in the art, in view of the specific meaning of the terms described above.

The utility model discloses a detection device of an electronic gear shifter, which is shown in fig. 1 and 2 and comprises a workbench 2, and a gear lever detection mechanism, a gear lamp detection mechanism and a key detection mechanism which are arranged below the workbench 2.

The gear level detection mechanism comprises a groove 4, an automatic grabbing clamp 3, a transverse plate 7 and a torque sensor 5, wherein the groove 4 is arranged on the workbench 2, the groove 4 is a through groove, and the bottom size of the groove 4 is slightly smaller than that of the electronic gear selector 1, so that the electronic gear selector 1 can be placed in the groove 4 without falling. The electronic gear shifter 1 is arranged at the groove 4, and a part to be detected of the electronic gear shifter 1 faces to the upper side of the groove 4.

The automatic grabbing clamp 3 of the gear lever detection mechanism is arranged above the groove through a bracket 17, the automatic grabbing clamp 3 is used for grabbing a gear lever of the electronic gear shifter, and the automatic grabbing clamp 3 adopts the existing automatic opening and closing grabbing clamp. The top of the automatic grabbing clamp 3 is connected with an air cylinder or a hydraulic cylinder, the automatic grabbing clamp 3 is controlled to move up and down, the air cylinder or the hydraulic cylinder is welded on the support 17, and the bottom of the support 17 is welded or riveted on the ground. The workbench is fixedly arranged above the transverse plate 7 through four upright posts 10, the tops of the upright posts 10 are welded with the bottom of the workbench, and the bottoms of the upright posts 10 are welded with the top of the transverse plate 7. The bottom of the transverse plate 7 is connected with a rotating mechanism for controlling the rotation of the transverse plate, and a torque sensor (such as a German NCTE torque sensor 5) is arranged at the rotating shaft of the rotating mechanism. Preferably, the rotating mechanism adopts a motor, the output end of the motor is welded with the bottom center of the transverse plate 7, and the transverse plate 7 rotates when the motor is started. The torque sensor 5 is arranged at the output shaft of the motor, and the torque sensor 5 can be welded, adhered or embedded on the rotating shaft to collect the rotating torque of the rotating shaft.

The shift position lamp detecting mechanism includes an illumination sensor 8 (e.g., HA2003, etc.), and the illumination sensor 8 is connected to a moving mechanism 18 that controls its movement relative to the shift lamp of the electronic shifter 1. The moving mechanism 18 is arranged on the transverse plate 7, the key detection mechanism comprises a lifter 9, the lifter 9 is arranged on the moving mechanism 18 where the illumination sensor is arranged, or a moving mechanism 18 is additionally arranged, and the lifter is arranged on the moving mechanism 18, so that the lifter 9 and the illumination sensor do not synchronously move. The lifter 9 may adopt a telescopic mechanism such as an air cylinder or a hydraulic cylinder.

The electronic gear shifter 1 to be tested is arranged at the groove 4, the groove 4 can initially limit the electronic gear shifter 1, meanwhile, the gear shift lever 6 of the electronic gear shifter 1 is arranged between the automatic grabbing clamps 3 to clamp, the rotating mechanism is started again to drive the transverse shift plate 7 and equipment on the transverse shift plate to integrally rotate, the gear shift lever is clamped by the automatic grabbing clamps 3 and does not rotate along with the clamping, the gear shift lever rotates to a corresponding gear angle relative to the electronic gear shifter, corresponding torque information is collected through the torque sensor 5, and a worker can judge whether the torque of the rotating angle of the gear shift lever 6 accords with a standard range.

The illumination sensor 8 and the lifter 9 are arranged on the moving mechanism 18, the lifting mechanism is controlled to start to press the key, the corresponding gear lamp is controlled to be lighted by pressing the key, so that whether the key is pressed meets the standard is detected, and if the corresponding gear lamp is not lighted by pressing the key, the key is indicated to be pressed to have a problem. The light sensor 8 and the lifter are driven to move through the moving mechanism 18 to detect the gear lamps and keys at different positions on the electronic gear shifter 1, detect whether the corresponding gear lamps are on when the keys are pressed, and detect the light intensity of the gear lamps so as to facilitate staff to judge whether the gear lamps and the keys meet the standards.

In a preferred embodiment of the present utility model, the moving mechanism 18 includes a power source 11, a swing link 12, a slide rail 13, and a moving member 14. One end of the swing rod 12 is connected with a rotating shaft of the power source 11, the power source is arranged on the transverse plate 7 or the workbench, the power source 11 is an existing bidirectional motor, the bidirectional motor is welded on the workbench 2, and the bidirectional motor can be arranged on the transverse plate 7 through a metal frame and the like. The rotating shaft of the motor is welded with one end of the swing rod 12, and the swing rod 12 is perpendicular to the rotating shaft of the motor. The swing rod 12 rotates by taking the rotating shaft as the center of a circle, the sliding rail 13 is arranged on the swing rod 12, the moving part 14 is arranged in the sliding rail 13 and can move along the sliding rail 13, and the illumination sensor 8 and the lifter 9 are fixedly arranged (such as adhesion, bonding, riveting and the like) on the moving part 14. The moving part 14 adopts an electric trolley, a driving motor is arranged on the electric trolley to control the electric trolley to walk, and the driving motor can be controlled by a wireless remote control circuit.

The power source 11 is started, the swing rod 12 rotates to drive the moving part 14 on the swing rod to change the circumferential angle position, meanwhile, the moving part 14 is controlled to move in the sliding rail 13 on the swing rod 12, so that the illumination sensor 8 and the lifter 9 on the moving part 14 move to the gear lamp detection position and the key detection position of the electronic gear shifter 1, and after one gear lamp or key detection is completed, the power source 11 and the moving part 14 can be controlled to move again to change the next position, and the detection position requirement is met.

In a preferred embodiment of the present utility model, the detection device of the electronic gear shifter 1 further includes a positioning mechanism for positioning the electronic gear shifter 1, and the positioning mechanism is fixedly mounted on the transverse plate 7. The positioning mechanism comprises two positioning blocks 15 and a telescopic machine 16 for controlling the positioning blocks 15 to move relatively, the two positioning blocks 15 are positioned on the left side and the right side of the groove 4, and the end parts of the two positioning blocks 15 can abut against the side wall of the electronic gear shifter 1. The telescopic mechanism 16 can directly control the positioning block 15 to move horizontally and linearly by using telescopic mechanisms 16 such as an air cylinder, a hydraulic cylinder and the like, the mechanisms can be fixedly arranged on the transverse plate 7 through a metal frame and the like, the metal frame is welded on the transverse plate 7, and the mechanisms are welded on the metal frame; or the positioning block 15 is controlled to move horizontally and linearly through the swinging of the connecting rod by a hinged connecting rod mechanism. The side wall of the positioning block 15, which is in contact with the electronic gear shifter 1, can be fixedly provided with an elastic protective layer, such as a sponge layer, a rubber layer and the like.

When the electronic gear shifter 1 is placed in the groove 4, the telescopic machine 16 is started, the control positioning blocks 15 move to the side where the electronic gear shifter 1 is located until the two positioning blocks 15 are abutted against the side wall of the electronic gear shifter 1, so that the clamping and positioning of the electronic gear shifter 1 are realized, the position of the electronic gear shifter 1 in the detection process is ensured to be stable, and the detection is prevented from being influenced by misoperation.

Preferably, the positioning mechanism further comprises a pressure sensor, the pressure sensor is fixedly mounted (such as welded, adhered, inlaid, etc.) on one side of the positioning block 15 facing the electronic shifter 1, and an output end of the pressure sensor is electrically connected with a control end of the telescopic machine 16 after passing through the non-gate. The pressure sensor used in the utility model can be 26PC01SMT, ZCH304 and the like.

When the pressure sensor does not detect the pressure signal, the pressure sensor outputs a low level and then obtains a high level through the NOT gate, and the high level signal is used for controlling the telescopic mechanism 16 to start so as to drive the positioning block 15 to clamp the electronic gear selector 1.

In a preferred scheme of the utility model, the detection device of the electronic gear shifter further comprises a prompting mechanism, wherein the prompting mechanism comprises a plurality of gear torque comparators, gear prompting lamps which are in one-to-one correspondence with the gear torque comparators, an illumination comparator, an illumination prompting lamp, and the gear prompting lamp and the illumination prompting lamp are arranged on the workbench 2.

The first input end of the gear torque comparator of the prompting mechanism is electrically connected with the output end of the torque sensor 5, the second input end of the gear torque comparator is electrically connected with a torque threshold memory, the torque threshold in the torque threshold memory electrically connected with different gear torque comparators corresponds to different gears of the gear shift lever 6 of the electronic gear shifter 1, and the output end of the gear torque comparator is electrically connected with the control end of the gear prompting lamp.

The first input end of the illumination comparator of the prompt mechanism is electrically connected with the output end of the illumination sensor 8, the second input end of the illumination comparator is electrically connected with the illumination threshold memory, and the output end of the illumination comparator is electrically connected with the control end of the illumination prompt lamp.

The comparators used in the present utility model are preferably, but not limited to, LM324, LM339.

The torque sensor 5 collects a torque signal of a gear lever 6 of the electronic gear shifter 1 and transmits the torque signal to the gear torque comparator, and the gear torque comparator compares the value of a torque threshold in a torque threshold memory connected with the collected torque signal. When the collected torque signal is matched with the torque threshold range in the torque threshold memory, the gear torque comparator outputs a control signal to a corresponding gear indicator lamp, the gear indicator lamp is lightened, a gear corresponding to the torque value is displayed, and the gear of the gear shifter is correctly converted; otherwise, the gear torque comparator does not output a control signal, and the corresponding gear indicator lamp is in an off state, so that the torque is not matched with the torque threshold value of the gear, and the gear shift lever 6 of the electronic gear shifter 1 is not in accordance with the standard.

Similarly, the illumination sensor 8 collects illumination intensity information of the gear lamp at the corresponding position, and the first pressure sensor 10 collects pressure signals when the corresponding key is pressed and transmits the pressure signals to the corresponding illumination comparator and the corresponding pressure comparator. The illumination comparator compares the value of the collected illumination intensity parameter and the illumination intensity threshold value, when the collected illumination intensity parameter is matched with the illumination intensity threshold value, the illumination comparator outputs a control signal to the control end of the illumination prompting lamp, the illumination prompting lamp is lighted to indicate that the illumination intensity of the gear lamp is normal, otherwise, the illumination prompting lamp is not lighted to indicate that the gear lamp does not accord with the standard.

In a preferred embodiment of the present utility model, the detection device of the electronic gear shifter further comprises a probe mechanism 19. The probe mechanism 19 is electrically connected with an external power supply, a probe power-on end is arranged on the probe mechanism 19, and a power-on interface connected with the probe power-on end is arranged at the bottom of the electronic gear shifter. The bottom of the probe mechanism 19 is connected with an up-down mechanism for controlling the up-down movement of the probe mechanism, the up-down mechanism is arranged on the transverse plate 7, the up-down mechanism can also adopt a conventional cylinder or a hydraulic cylinder, and the up-down mechanism is welded on the transverse plate 7 and controls the probe mechanism 19 to move up and down, so that the probe power-on end of the probe mechanism 19 is electrically connected or disconnected with the power-on interface of the electronic gear shifter. The probe mechanism 19 is used for supplying power to the electronic gear shifter during detection, and is convenient to use.

In a preferred embodiment of the present utility model, as shown in fig. 3, the detection device of the electronic gear shifter further includes a control panel 28, wherein the control panel 28 is fixedly mounted (e.g. welded, adhered, riveted, etc.) on the workbench 2, and the control panel 28 is provided with a start button 20, an emergency stop button 21, a grip clamp button 22, a grip clamp release button 23, a probe up button 24, a probe down button 25, a positioning clamp button 26, a positioning release button 27, etc. The output end of the start button 20 is electrically connected with the start ends of the gear lever detection mechanism, the gear lamp detection mechanism and the key detection mechanism respectively, and the output end of the scram button 21 is electrically connected with the stop ends of the gear lever detection mechanism, the gear lamp detection mechanism and the key detection mechanism respectively.

The output ends of the grabbing clamp button 22 and the grabbing clamp releasing button 23 are respectively and electrically connected with the clamping control end and the releasing control end of the automatic grabbing clamp 3, and the output ends of the probe ascending button 24 and the probe descending button 25 are respectively and electrically connected with the ascending control end and the descending control end of the ascending and descending mechanism. The positioning clamping button 26 and the positioning releasing button 27 are respectively electrically connected with the clamping control end and the releasing control end of the positioning mechanism.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. The detection device of the electronic gear shifter is characterized by comprising a workbench, a gear shift lever detection mechanism, a gear lamp detection mechanism and a key detection mechanism;

the gear level detection mechanism comprises a groove, an automatic grabbing clamp, a transverse plate and a torque sensor, wherein the groove is formed in the workbench, the electronic gear selector is arranged at the groove, a part to be detected of the electronic gear selector faces to the upper side of the groove, the automatic grabbing clamp is arranged above the groove through a bracket and is used for grabbing a gear level of the electronic gear selector, the workbench is fixedly arranged above the transverse plate through an upright post, the bottom of the transverse plate is connected with a rotating mechanism for controlling the rotation of the transverse plate, and the torque sensor is arranged at a rotating shaft of the rotating mechanism;

the gear lamp detection mechanism comprises an illumination sensor, the illumination sensor is connected with a moving mechanism for controlling the light to move above the gear shifting lamp of the electronic gear shifter, the moving mechanism is arranged on the transverse plate, the key detection mechanism comprises a lifter, and the lifter is arranged on the same moving mechanism or different moving mechanisms where the illumination sensor is arranged.

2. The detecting device for an electronic shifter according to claim 1, further comprising a positioning mechanism provided at a side of the recess for positioning the electronic shifter, the positioning mechanism being mounted on the cross plate;

the positioning mechanism comprises two positioning blocks and a telescopic machine for controlling the positioning blocks to move relatively, the two positioning blocks are positioned on two sides of the groove, and the end parts of the two positioning blocks can abut against the side wall of the electronic gear shifter.

3. The device for detecting an electronic gear shifter according to claim 2, wherein the positioning mechanism further comprises a pressure sensor, the pressure sensor is mounted on one side of the positioning block, which faces the electronic gear shifter, and an output end of the pressure sensor is connected with a control end of the telescopic machine after passing through the non-gate.

4. The apparatus for detecting an electronic gear shifter according to claim 1, wherein the moving mechanism includes a power source, a swing link, a slide rail, and a moving member, one end of the swing link is connected to a rotation shaft of the power source, the swing link rotates around the rotation shaft, the power source is mounted on a cross plate or a table, the slide rail is disposed on the swing link, the moving member is disposed in the slide rail and is movable along the slide rail, and the illumination sensor and the lifter are mounted on the moving member.

5. The apparatus for detecting an electronic shifter according to claim 1, further comprising a reminder mechanism including a plurality of gear torque comparators, gear reminder lights in one-to-one correspondence with the gear torque comparators, an illumination comparator, an illumination reminder light, the gear reminder lights and the illumination reminder light being mounted on the work table;

the first input end of the gear torque comparator is connected with the output end of the torque sensor, the second input end of the gear torque comparator is connected with a torque threshold memory, the torque threshold values in the torque threshold memory connected with different gear torque comparators correspond to different gears of a gear shift lever of the electronic gear shifter, and the output end of the gear torque comparator is connected with the control end of the gear prompt lamp;

the first input end of the illumination comparator is connected with the output end of the illumination sensor, the second input end of the illumination comparator is connected with the illumination threshold memory, and the output end of the illumination comparator is connected with the control end of the illumination prompt lamp.

6. The device for detecting an electronic gear shifter according to claim 1, further comprising a probe mechanism, wherein the probe mechanism is connected with an external power supply, a probe power-on end is arranged on the probe mechanism, a power-on interface connected with the probe power-on end is arranged at the bottom of the electronic gear shifter, an up-and-down mechanism for controlling the probe mechanism to move up and down is connected at the bottom of the probe mechanism, and the up-and-down mechanism is arranged on the transverse plate.

7. The detecting device for an electronic shifter according to claim 1, further comprising a control panel mounted on the work table, wherein the control panel is provided with a start button and a scram button, the output end of the start button is connected with the start ends of the shift lever detecting mechanism, the shift position lamp detecting mechanism and the key detecting mechanism, respectively, and the output end of the scram button is connected with the stop ends of the shift lever detecting mechanism, the shift position lamp detecting mechanism and the key detecting mechanism, respectively.