CN114137262A - Motor test real-time control device - Google Patents

Abstract

The invention discloses a real-time control device for motor testing, which comprises a mounting plate, a first rotating plate, a sliding rod, a moving rod, a first stress plate, a first movable plate and a first transmission plate, wherein a protection plate is connected to the surface of the mounting plate in a sliding manner, a rotating disk for driving the first rotating plate and the sliding rod to rotate is arranged on the surface of the mounting plate and positioned on the side surface of the protection plate, a connecting plate for driving the moving rod to slide along the mounting plate is connected to the surface of the sliding rod in a sliding manner, and a first pull plate is connected to the surface of the moving rod in a rotating manner. This motor test real-time control device through setting up the lifter plate, when the lifter plate rose, can apply the pulling force to the motion board for the motion board drives the motion piece and slides in the inside of second limiting plate, because the motion board laminates each other with the swash plate, when the motion piece removed, can drive the guard plate through motion board and swash plate and slide on the mounting panel, makes the control cabinet expose outside and be convenient for operate it.

Description

Motor test real-time control device

Technical Field

The invention relates to the field of motor testing, in particular to a real-time control device for motor testing.

Background

The motor, commonly known as "motor", refers to an electromagnetic device for realizing electric energy conversion or transmission according to the law of electromagnetic induction, the motor is represented by letter M in the circuit, its main function is to generate driving torque as the power source of electrical appliances or various machines, the generator is represented by letter G in the circuit, its main function is to convert mechanical energy into electric energy, it can be divided into dc motor and ac motor according to the kind of working power supply, and it can be divided into dc motor, asynchronous motor and synchronous motor according to the structure and working principle.

When the motor is tested, the control device is required to be used for controlling the motor, but the motor test control device is inconvenient to move when in use, cannot operate the control device at multiple angles, cannot meet the requirements of people, and provides a motor test real-time control device for the motor test.

Disclosure of Invention

The invention aims to provide a real-time motor test control device, which solves the problems that the motor test control device provided by the background technology is inconvenient to move and cannot be operated at multiple angles when in use.

In order to achieve the purpose, the invention provides the following technical scheme: the motor test real-time control device comprises a mounting plate, a first rotating plate, a sliding rod, a moving rod, a first stress plate, a first movable plate and a first transmission plate, the surface of the mounting plate is connected with a protective plate in a sliding way, the surface of the mounting plate is provided with a rotating disk which drives the first rotating plate and the sliding rod to rotate on the side surface of the protective plate, the surface of the sliding rod is connected with a connecting plate which drives the moving rod to slide along the mounting plate in a sliding way, the surface of the moving rod is connected with a first pulling plate in a rotating way, the surface of the first pulling plate is rotationally connected with a sliding block which drives the first stress plate and the first movable plate to rotate, the surface of the first movable plate is fixedly connected with a first embedded rod which drives the first transmission plate to slide, the surface of the first transmission plate is fixedly connected with a first transmission rod, and the surface of the first transmission plate is connected with an engagement rod in a sliding mode.

Preferably, the surface swivelling joint of mounting panel has the control cabinet, the bottom of mounting panel is provided with the gyro wheel, and the bottom that the side of gyro wheel is located the mounting panel is provided with supporting mechanism, the outer wall that the surface of mounting panel is located the guard plate is provided with protection machanism, the fixed surface of guard plate is connected with the swash plate.

Preferably, the slide bar is embedded into the vertical sliding groove on the surface of the connecting plate and is in sliding connection with the vertical sliding groove, the first pull plate is obliquely arranged relative to the moving rod, and the first pull plate drives the first stress plate and the first movable plate to form a rotating structure around the connecting point of the mounting plate through the sliding block.

Preferably, the first movable plate is of a U-shaped structure, the first embedded rod is perpendicular to the first movable plate, and a groove located on a rotation track of the first embedded rod is formed in the surface of the first transmission plate.

Preferably, the supporting mechanism comprises a second transmission rod, a second transmission plate, an embedded block, a push plate, a second stress plate, a second rotating plate, a second embedded rod, a clamping plate and a first limiting plate, the second transmission rod is arranged at the bottom of the mounting plate, the surface of the second transmission rod is rotationally connected with a first limiting plate fixedly connected with the mounting plate, and the side surface of the second transmission rod is fixedly connected with a second transmission plate, the inside of the second transmission plate is connected with an embedded block in a sliding way, the bottom of the embedding block is rotationally connected with a push plate, the surface of the push plate is connected with a second stress plate in a sliding way, and the surface of the second stress plate is connected with a second rotating plate which is rotationally connected with the mounting plate in a sliding manner, the bottom of the second rotating plate is fixedly connected with a second embedding rod, and the surface of the second embedding rod is connected with a clamping plate which is slidably connected with the mounting plate in a sliding manner.

Preferably, the second transmission rod is arranged at the central point of the first limiting plate, the embedding block is embedded into the triangular sliding groove at the bottom of the first limiting plate, and the embedding block drives the second stress plate to form a sliding structure along the bottom of the first limiting plate through the push plate.

Preferably, the protection machanism includes second arm-tie, swing board, movable block, second fly leaf, lifter plate, motion board, motion piece and second limiting plate, the second arm-tie sets up in the surface of mounting panel, and the surperficial swivelling joint of second arm-tie has the swing board, the surperficial swivelling joint of swing board has the movable block, the surperficial swivelling joint of movable block has the second fly leaf, and the surperficial swivelling joint of second fly leaf has the lifter plate, the surperficial swivelling joint of lifter plate has the motion board, and the surperficial swivelling joint of motion board has the motion piece, the surperficial sliding connection of motion piece has mounting panel fixed connection's second limiting plate.

Preferably, the second arm-tie is the setting of rhombus, and the left and right extreme point department of second arm-tie all is provided with the swing board, the second fly leaf is provided with two sets of that are "V" shape about the central point symmetry of mounting panel.

Preferably, the connection points of the two groups of second movable plates and the lifting plate are located at the intersection of the second movable plates and the lifting plate, the top of the movable plate is attached to the bottom of the inclined plate, and the inclined plate drives the protection plate to form a sliding structure on the mounting plate through the movable plate.

Compared with the prior art, the invention has the beneficial effects that:

1. this motor test real-time control device, through setting up the swing board, because two sets of swing boards set up in the left and right sides extreme point department of second arm-tie, when the second arm-tie was rotatory, can drive two sets of movable blocks and slide to the center of mounting panel, because two sets of second arm-ties are "V" shape setting, when two sets of movable blocks removed, can make the contained angle of two sets of second arm-ties diminish gradually, afterwards, the lifter plate can rise thereupon.

2. According to the motor test real-time control device, the lifting plate is arranged, when the lifting plate rises, a pulling force is applied to the moving plate, so that the moving plate drives the moving block to slide in the second limiting plate;

3. this motor test real-time control device, through setting up the slide bar, because the slide bar embedding is in the vertical spout that links up the board surface, when the slide bar is rotatory, can drive linkage plate and carriage release lever and slide to the left side of mounting panel, when the carriage release lever removes, can exert the pulling force to first arm-tie, make first arm-tie drive slider at the inside lapse of first atress board, first atress board can drive first fly leaf around and mounting panel linkage point to the left side slope under the effect of slider afterwards.

4. This motor test real-time control device through setting up first drive plate, because be provided with the recess that is located first embedding pole rotation track on the first drive plate, when first embedding pole rotation advances the recess on first drive plate surface inside, can promote first drive plate and survey the slip left, first drive plate can stimulate first drive plate afterwards and slide in the inside of linking the pole, through linking the pole drive control cabinet around the linking point rotatory with the mounting panel.

5. This motor test real-time control device, through setting up the embedding piece, because the embedding piece imbeds simultaneously inside inner wall and the first limiting plate bottom triangle spout of second transfer line, drive the inclined plane of embedding piece rotation to first limiting plate bottom triangle spout at the second transfer line, can drive the push pedal and stretch out and draw back in the inside of second atress board, second atress board can slide around the bottom of first limiting plate thereupon afterwards, when the second atress board slides to the one side of keeping away from the second rotor plate, can drive the second rotor plate and carry out clockwise rotation and just pendulum gradually around the linking point with the mounting panel.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic structural view of a support mechanism according to the present invention;

FIG. 4 is a schematic view of a partial first perspective structure according to the present invention;

FIG. 5 is a schematic view of a second partial perspective structure according to the present invention;

FIG. 6 is a first perspective view of the protection mechanism of the present invention;

FIG. 7 is a second perspective view of the protection mechanism of the present invention.

In the figure: 1. mounting a plate; 2. a protection plate; 3. rotating the disc; 4. a first rotating plate; 5. a slide bar; 6. a connector tile; 7. a travel bar; 8. a first pulling plate; 9. a slider; 10. a first force-bearing plate; 11. a first movable plate; 12. a first embedded rod; 13. a first drive plate; 14. a first drive lever; 15. a connecting rod; 16. a console; 17. a roller; 18. a support mechanism; 1801. a second transmission rod; 1802. a second drive plate; 1803. embedding a block; 1804. pushing the plate; 1805. a second force-bearing plate; 1806. a second rotating plate; 1807. a second embedded rod; 1808. a clamping plate; 1809. a first limit plate; 19. a protection mechanism; 1901. a second pulling plate; 1902. a swing plate; 1903. a moving block; 1904. a second movable plate; 1905. a lifting plate; 1906. a motion plate; 1907. a motion block; 1908. a second limiting plate; 20. a sloping plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, in the embodiment of the present invention, a real-time motor test control device includes a mounting plate 1, a first rotating plate 4, a sliding rod 5, a moving rod 7, a first stressed plate 10, a first movable plate 11, and a first transmission plate 13, wherein a protective plate 2 is slidably connected to a surface of the mounting plate 1, a rotating disk 3 for driving the first rotating plate 4 and the sliding rod 5 to rotate is disposed on a side surface of the protective plate 2 on the surface of the mounting plate 1, a connecting plate 6 for driving the moving rod 7 to slide along the mounting plate 1 is slidably connected to the surface of the sliding rod 5, a first pulling plate 8 is rotatably connected to the surface of the moving rod 7, a slider 9 for driving the first stressed plate 10 and the first movable plate 11 to rotate is rotatably connected to the surface of the first pulling plate 8, a first embedding rod 12 for driving the first transmission plate 13 to slide is fixedly connected to the surface of the first movable plate 11, a first transmission rod 14 is fixedly connected to the surface of the first transmission plate 13, and an engagement rod 15 is slidably connected to the surface of the first transmission plate 13.

Further, the surperficial swivelling joint of mounting panel 1 has control cabinet 16, the bottom of mounting panel 1 is provided with gyro wheel 17, and the bottom that the side of gyro wheel 17 is located mounting panel 1 is provided with supporting mechanism 18, the outer wall that the surface of mounting panel 1 is located protection plate 2 is provided with protection machanism 19, the fixed surface of protection plate 2 is connected with swash plate 20.

Furthermore, the slide bar 5 is embedded into the vertical sliding groove on the surface of the connecting plate 6 and is connected with the vertical sliding groove in a sliding manner, the first pulling plate 8 is obliquely arranged relative to the moving rod 7, and the first pulling plate 8 drives the first stress plate 10 and the first movable plate 11 to form a rotating structure around the connecting point of the mounting plate 1 through the slide block 9. When the sliding rod 5 rotates, the connecting plate 6 and the moving rod 7 are driven to slide to the left side of the mounting plate 1, when the moving rod 7 moves, a pulling force is applied to the first pulling plate 8, so that the first pulling plate 8 drives the sliding block 9 to slide downwards in the first stress plate 10, and then the first stress plate 10 drives the first movable plate 11 to incline to the left side around the connecting point with the mounting plate 1 under the action of the sliding block 9.

Further, the first movable plate 11 is of a "U" shape, the first embedded rod 12 is perpendicular to the first movable plate 11, and a surface of the first transmission plate 13 is provided with a groove located on a rotation track of the first embedded rod 12. Since the first driver plate 13 is provided with a groove on the rotation trajectory of the first embedding rod 12, when the first embedding rod 12 rotates into the groove on the surface of the first driver plate 13, the first driver plate 13 is pushed to slide to the left, and then the first driver plate 13 pulls the first driver rod 14 to slide in the inside of the joint rod 15, and the console 16 is driven to rotate around the joint point with the mounting plate 1 through the joint rod 15.

Further, the supporting mechanism 18 includes a second transmission rod 1801, a second transmission plate 1802, an embedded block 1803, a push plate 1804, a second stressed plate 1805, a second rotation plate 1806, a second embedded rod 1807, a clamping plate 1808 and a first limiting plate 1809, the second transmission rod 1801 is disposed at the bottom of the mounting plate 1, the surface of the second transmission rod 1801 is rotatably connected with the first limiting plate 1809 fixedly connected with the mounting plate 1, the side surface of the second transmission rod 1801 is fixedly connected with the second transmission plate 1802, the interior of the second transmission plate 1802 is slidably connected with the embedded block 1803, the bottom of the embedded block 1803 is rotatably connected with a push plate 1804, the surface of the push plate 1804 is slidably connected with the second stressed plate 1805, the surface of the second stressed plate 1805 is slidably connected with a second rotation plate 1806 rotatably connected with the mounting plate 1, the bottom of the second rotation plate 1806 is fixedly connected with the second embedded rod 1807, a clamping plate 1808 slidably connected with the mounting plate 1 is slidably connected to the surface of the second embedding rod 1807. Through setting up supporting mechanism 18, can fix gyro wheel 17 in real time, when gyro wheel 17 is fixed, this equipment is in can not moving state, otherwise, and equipment can remove at will, has strengthened the flexibility of equipment greatly.

Further, the second transmission rod 1801 is disposed at a central point of the first limiting plate 1809, and the embedding block 1803 is embedded into the triangular chute at the bottom of the first limiting plate 1809, and the embedding block 1803 drives the second stressed plate 1805 to form a sliding structure along the bottom of the first limiting plate 1809 through the push plate 1804. Because the embedding block 1803 is embedded in the triangular sliding groove at the bottom of the inner wall of the second transmission rod 1801 and the first limit plate 1809, when the second transmission plate 1802 drives the embedding block 1803 to rotate to the inclined plane of the triangular sliding groove at the bottom of the first limit plate 1809, the pushing plate 1804 can be driven to stretch out and draw back in the second stress plate 1805, and then the second stress plate 1805 can slide back and forth at the bottom of the first limit plate 1809.

Further, the protection mechanism 19 includes a second pulling plate 1901, a swinging plate 1902, a moving block 1903, a second moving plate 1904, a lifting plate 1905, a moving plate 1906, a moving block 1907, and a second limiting plate 1908, the second pulling plate 1901 is disposed on the surface of the mounting plate 1, the surface of the second pulling plate 1901 is rotatably connected with the swinging plate 1902, the surface of the swinging plate 1902 is rotatably connected with the moving block 1903, the surface of the moving block 1903 is rotatably connected with the second moving plate 1904, the surface of the second moving plate 1904 is rotatably connected with the lifting plate 1905, the surface of the lifting plate 1905 is rotatably connected with the moving plate 1906, the surface of the moving plate 1906 is rotatably connected with the moving block 1907, and the surface of the moving block 1907 is slidably connected with a second limiting plate 1908 fixedly connected with the mounting plate 1. Through setting up protection machanism 19, can wrap up it when equipment does not use, be convenient for handle it prevents dust, and open very conveniently, but strengthened the practicality of equipment greatly.

Further, the second pulling plate 1901 is arranged in a diamond shape, the left and right end points of the second pulling plate 1901 are provided with swing plates 1902, and the second moving plate 1904 is symmetrically provided with two groups of V-shaped plates about the central point of the mounting plate 1. Because the two sets of swinging plates 1902 are disposed at the left and right end points of the second pulling plate 1901, when the second pulling plate 1901 rotates, the two sets of moving blocks 1903 are driven to slide toward the center of the mounting plate 1, because the two sets of second moving plates 1904 are disposed in a "V" shape, when the two sets of moving blocks 1903 move, the included angle between the two sets of second moving plates 1904 gradually decreases, and then, the lifting plate 1905 rises accordingly.

Furthermore, the connection points of the two sets of second movable plates 1904 and the lifting plate 1905 are located at the intersection of the two sets of second movable plates 1904 and the lifting plate 1905, the top of the movable plate 1906 and the bottom of the inclined plate 20 are attached to each other, and the inclined plate 20 drives the protection plate 2 to form a sliding structure on the mounting plate 1 through the movable plate 1906. When the lifting plate 1905 rises, a pulling force is applied to the moving plate 1906, so that the moving plate 1906 drives the moving block 1907 to slide in the second limiting plate 1908, and because the moving plate 1906 and the sloping plate 20 are attached to each other, when the moving block 1907 moves, the moving plate 1906 and the sloping plate 20 drive the protection plate 2 to slide on the mounting plate 1, so that the console 16 is exposed outside to facilitate the operation of the console.

The working principle of the invention is as follows: when the real-time control device for motor test is used, firstly, the protection plate 2 is controlled to open and close, when the console 16 is used, firstly, the second pulling plate 1901 is driven to rotate by the motor, because the two groups of swinging plates 1902 are arranged at the left and right end points of the second pulling plate 1901, when the second pulling plate 1901 rotates, the two groups of moving blocks 1903 are driven to slide towards the center of the mounting plate 1, because the two groups of second moving plates 1904 are arranged in a V shape, when the two groups of moving blocks 1903 move, the included angle of the two groups of second moving plates 1904 is gradually reduced, then, the lifting plate 1905 rises along with the swinging plates 1906, when the lifting plate 1905 rises, the pulling force is applied to the moving plate 1906, so that the moving plate 1906 drives the moving block 1907 to slide in the second limiting plate 1908, because the moving plate 1906 and the sloping plate 20 are mutually attached, when the moving block 1907 moves, the protection plate 2 is driven to slide on the mounting plate 1 by the moving plate 1906 and the sloping plate 20, exposing console 16 to the outside to facilitate its manipulation;

then, the operation console 16 is angularly rotated, in order to facilitate the operation of the console 16 in multiple directions, the rotating disk 3 is firstly controlled to rotate, then the first rotating plate 4 and the sliding rod 5 are rotated, as the sliding rod 5 is embedded in the vertical sliding slot on the surface of the connecting plate 6, when the sliding rod 5 rotates, the connecting plate 6 and the moving rod 7 are driven to slide towards the left side of the mounting plate 1, when the moving rod 7 moves, a pulling force is applied to the first pulling plate 8, so that the first pulling plate 8 drives the sliding block 9 to slide downwards inside the first stressed plate 10, then the first stressed plate 10 drives the first movable plate 11 to tilt towards the left side around the connecting point with the mounting plate 1 under the action of the sliding block 9, because the first driving plate 13 is provided with a groove on the rotating track of the first embedding rod 12, when the first embedding rod 12 rotates into the groove on the surface of the first driving plate 13, the first driving plate 13 is pushed to slide leftwards, and then the first driving plate 13 pulls the first driving rod 14 to slide in the interior of the joint rod 15, and the control console 16 is driven to rotate around the joint point with the mounting plate 1 through the joint rod 15;

finally, the roller 17 is controlled to be fixed, the second transmission rod 1801 is controlled to drive the second transmission plate 1802 to rotate, because the embedded block 1803 is embedded in the inner wall of the second transmission rod 1801 and the triangular chute at the bottom of the first limit plate 1809 at the same time, when the second transmission plate 1802 drives the embedded block 1803 to rotate to the inclined plane of the triangular chute at the bottom of the first limit plate 1809, the push plate 1804 is driven to extend and retract in the second stress plate 1805, then the second stress plate 1805 slides back and forth at the bottom of the first limit plate 1809, when the second stress plate 1805 slides to the side far away from the second rotation plate 1806, the second rotation plate 1806 is driven to rotate clockwise around the connection point with the mounting plate 1 and gradually swing right, then the second embedded rod 1807 starts to slide in the clamping plate 1808, and pushes the clamping plate 1808 to slide to and gradually contact with the roller 17 at the bottom of the mounting plate 1, and then the roller 17 is fixed, so that the device can be switched in motion state at will when in use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. Motor test real-time control device, including mounting panel (1), first rotor plate (4), slide bar (5), carriage release lever (7), first atress board (10), first fly leaf (11) and first transmission board (13), its characterized in that: the surface sliding connection of mounting panel (1) has guard plate (2), the surface of mounting panel (1) is located the side of guard plate (2) and is provided with the drive first rotor plate (4) with the rotatory rotary disk (3) of slide bar (5), the surface sliding connection of slide bar (5) has the drive carriage release lever (7) along the gliding linkage plate (6) of mounting panel (1), the surface rotating connection of carriage release lever (7) has first arm-tie (8), the surface rotating connection of first arm-tie (8) has the drive first atress board (10) with slider (9) of first arm-tie (11) rotation, the fixed surface of first arm-tie (11) is connected with the drive the gliding first embedding pole (12) of first drive plate (13), the fixed surface of first drive plate (13) is connected with first transmission pole (14), the surface of the first transmission plate (13) is connected with an engaging rod (15) in a sliding mode.

2. The motor test real-time control device of claim 1, wherein: the surface swivelling joint of mounting panel (1) has control cabinet (16), the bottom of mounting panel (1) is provided with gyro wheel (17), and the bottom that the side of gyro wheel (17) is located mounting panel (1) is provided with supporting mechanism (18), the outer wall that the surface of mounting panel (1) is located protection plate (2) is provided with protection machanism (19), the fixed surface of protection plate (2) is connected with swash plate (20).

3. The motor test real-time control device of claim 1, wherein: slide bar (5) embedding is gone into inside and rather than sliding connection of the vertical spout on linkage plate (6) surface, first arm-tie (8) are the slope setting about carriage release lever (7), and just first arm-tie (8) drive first atress board (10) and first fly leaf (11) and constitute revolution mechanic around the linkage point of mounting panel (1) through slider (9).

4. The motor test real-time control device of claim 1, wherein: the first movable plate (11) is of a U-shaped structure, the first embedded rod (12) and the first movable plate (11) are perpendicular to each other, and a groove located on the rotating track of the first embedded rod (12) is formed in the surface of the first transmission plate (13).

5. The motor test real-time control device of claim 2, wherein: the supporting mechanism (18) comprises a second transmission rod (1801), a second transmission plate (1802), an embedded block (1803), a push plate (1804), a second stress plate (1805), a second rotating plate (1806), a second embedded rod (1807), a clamping plate (1808) and a first limiting plate (1809), the second transmission rod (1801) is arranged at the bottom of the mounting plate (1), the surface of the second transmission rod (1801) is rotationally connected with a first limiting plate (1809) fixedly connected with the mounting plate (1), the side surface of the second transmission rod (1801) is fixedly connected with the second transmission plate (1802), the internal sliding of the second transmission plate (1802) is connected with the embedded block (1803), the bottom of the embedded block (1803) is rotationally connected with the push plate (1804), the surface of the push plate (1804) is slidably connected with the second stress plate (1805), and the surface of the second stress plate (1805) is slidably connected with the second stress plate (1806) rotationally connected with the mounting plate (1), the bottom of the second rotating plate (1806) is fixedly connected with a second embedded rod (1807), and the surface of the second embedded rod (1807) is connected with a clamping plate (1808) which is connected with the mounting plate (1) in a sliding mode.

6. The motor test real-time control device of claim 5, wherein: the second transmission rod (1801) is arranged at the central point of the first limiting plate (1809), the embedding block (1803) is embedded into the triangular sliding groove at the bottom of the first limiting plate (1809), and the embedding block (1803) drives the second stress plate (1805) to form a sliding structure along the bottom of the first limiting plate (1809) through the push plate (1804).

7. The motor test real-time control device of claim 2, wherein: the protection mechanism (19) comprises a second pulling plate (1901), a swinging plate (1902), a moving block (1903), a second moving plate (1904), a lifting plate (1905), a moving plate (1906), a moving block (1907) and a second limiting plate (1908), the second pulling plate (1901) is arranged on the surface of the mounting plate (1), a swinging plate (1902) is rotatably connected to the surface of the second pulling plate (1901), a moving block (1903) is rotatably connected to the surface of the swinging plate (1902), a second movable plate (1904) is rotatably connected to the surface of the movable block (1903), and the surface of the second movable plate (1904) is rotatably connected with a lifting plate (1905), the surface of the lifting plate (1905) is rotatably connected with a moving plate (1906), and the surface of the motion plate (1906) is rotationally connected with a motion block (1907), and the surface of the motion block (1907) is slidably connected with a second limit plate (1908) fixedly connected with the mounting plate (1).

8. The motor test real-time control device of claim 7, wherein: the second pulling plate (1901) is arranged in a rhombic shape, the left end point and the right end point of the second pulling plate (1901) are provided with swinging plates (1902), and the second moving plate (1904) is symmetrically provided with two groups in a V shape relative to the central point of the mounting plate (1).

9. The motor test real-time control device of claim 7, wherein: the connection points of the two groups of second movable plates (1904) and the lifting plate (1905) are located at the intersection of the two groups of second movable plates, the top of the movable plate (1906) is attached to the bottom of the inclined plate (20), and the inclined plate (20) drives the protection plate (2) to form a sliding structure on the mounting plate (1) through the movable plate (1906).

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