CN114062922A - Industrial motor manufacturing automation equipment fault detection device - Google Patents

Abstract

The invention belongs to the technical field of motor correlation, and particularly relates to a fault detection device for industrial motor manufacturing automation equipment. According to the invention, through the use of the transverse moving mechanism and the fixing assembly, the fixing assembly can move the fixed motor to be detected to the position below the automatic induction test pencil, and then the automatic induction test pencil can perform contact detection on the automatic induction test pencil and the current conducting plate in the motor to be detected according to the matching of the longitudinal moving mechanism and the first electric push rod, so that the problem that the detection test pencil is manually held by hand for detection use can be avoided, and the phenomena of inaccurate data measured by the motor and electric shock caused by touching the metal part of the detection test pencil can be avoided.

Description

Industrial motor manufacturing automation equipment fault detection device

Technical Field

The invention relates to the technical field of motor correlation, in particular to a fault detection device for industrial motor manufacturing automation equipment.

Background

In the present society, an industrial motor generally provides power for the operation of electrical appliances or various machines, is widely applied to various industries, provides power for all electromechanical devices, is an indispensable or important part of any electromechanical device, and therefore, the demand of the motor is huge. In the process of producing the motor, in order to avoid unqualified products from entering the market, the motor needs to be detected.

However, when detecting the current motor, the current motor is generally detected through the current conducting plate in the motor by the universal meter, and the fault of the motor is judged through the resistance value of the current conducting plate in the motor, but the universal meter needs to manually hold the detection pen-shape metre for use, and if touch the metal part of the detection pen-shape metre, the numerical value measured by the motor can be influenced, and the danger of electric shock can also occur. Therefore, the invention provides a fault detection device for industrial motor manufacturing automation equipment.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a fault detection device for industrial motor manufacturing automation equipment, which solves the problems that when a hand touches a metal part of a detection meter pen, the measured numerical value of a motor is influenced and electric shock danger is caused when a current motor is detected and a current conducting plate in the motor is basically detected by a universal meter.

(II) technical scheme

The invention specifically adopts the following technical scheme for realizing the purpose:

a fault detection device for industrial motor manufacturing automation equipment comprises a workbench, wherein a communicated moving rail is arranged at the top of the workbench, a transverse moving mechanism is arranged below the moving rail, a fixing component is arranged above the moving rail and can make horizontal leftward or horizontal rightward linear motion along the inner wall of the moving rail through the transverse moving mechanism, an L-shaped support plate is connected to the top of the workbench, a communicated sliding groove is formed in the back of the L-shaped support plate, an I-shaped sliding block matched with the sliding groove is arranged on the inner wall of the sliding groove, a longitudinal moving mechanism is connected to the rear surface of the I-shaped sliding block, the I-shaped sliding block can make vertical upward or vertical downward linear motion on the inner wall of the sliding groove through the longitudinal moving mechanism, a first electric push rod is connected to the front surface of the I-shaped sliding block, and an L-shaped installation rod is connected to the output end of the first electric push rod, the other end of L type installation pole is dismantled and is connected with the auto-induction electrography, control module is installed at the top of L type backup pad, control module and auto-induction electrography electric connection.

Further, lateral shifting mechanism includes servo motor, servo motor installs the right side at the workstation, servo motor's output is connected with the threaded rod, the other end of threaded rod passes through the bearing and connects on the inside wall of workstation, the surperficial threaded connection of threaded rod has the movable plate, the movable plate extends to and removes orbital inside and be connected with fixed subassembly.

Further, fixed subassembly includes unable adjustment base, unable adjustment base's bottom is located and removes orbital central point and puts, unable adjustment base's bottom is connected with the top of movable plate, unable adjustment base's top is equipped with the first arc wall with the motor looks adaptation that awaits measuring, unable adjustment base's top is connected with the second electric putter of two symmetries, electric putter's top is connected with L type dead lever, the other end of L type dead lever is connected with the grip block, the bottom of grip block is equipped with the second arc wall of the motor looks adaptation that awaits measuring, the second arc wall corresponds with first arc wall each other.

Further, the top of grip block is equipped with the fixed slot, the inner wall of fixed slot is connected with the guide bar, the spring has been cup jointed on the surface of guide bar, the surperficial sliding connection of guide bar has the movable block, the top of movable block is connected with L type connecting rod, the other end of L type connecting rod is connected with the limiting plate.

Further, the longitudinal movement mechanism comprises a brake motor, the brake motor is arranged on the back face of the L-shaped support plate, the output end of the brake motor is connected with a circular gear, a gear plate matched with the circular gear is arranged on the surface of the circular gear, and the other face of the gear plate is connected to the back face of the I-shaped sliding block.

Furthermore, a fixing plate is installed on the back surface of the L-shaped supporting plate, and one surface of the fixing plate is connected with one side of the brake motor.

Further, the top of auto-induction electrography is equipped with the thread groove, the bottom surface of L type installation pole is equipped with the external screw thread with thread groove looks adaptation, the external screw thread that L type installation pole accessible L type installation pole bottom surface set up and the inner wall threaded connection of thread groove.

(III) advantageous effects

Compared with the prior art, the invention provides a fault detection device for industrial motor manufacturing automation equipment, which has the following beneficial effects:

according to the invention, through the use of the transverse moving mechanism and the fixing component, the fixing component can move the fixed motor to be detected to the lower part of the automatic induction test pencil, and then the automatic induction test pencil can perform contact detection on the automatic induction test pencil and the current conducting plate in the motor to be detected according to the matching of the longitudinal moving mechanism and the first electric push rod, so that the problem that the detection test pencil is manually held by hand for detection use can be avoided, and the phenomena of inaccurate data measured by the motor and electric shock caused by touching the metal part of the detection test pencil can be avoided.

Drawings

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

FIG. 2 is a schematic view of a connection structure between the longitudinal moving mechanism and the L-shaped supporting plate according to the present invention;

FIG. 3 is a schematic view of the connection structure of the traverse mechanism and the worktable according to the present invention;

FIG. 4 is a schematic view of a fixing assembly according to the present invention;

FIG. 5 is a schematic view of the connection structure of the auto-induction test pencil and the L-shaped mounting rod according to the present invention.

In the figure: 1. a work table; 2. a moving track; 3. a lateral movement mechanism; 301. a servo motor; 302. a threaded rod; 303. moving the plate; 4. a fixing assembly; 401. a fixed base; 402. a first arc-shaped slot; 403. a second electric push rod; 404. an L-shaped fixing rod; 405. a clamping plate; 406. a second arc-shaped slot; 407. fixing grooves; 408. a guide bar; 409. a spring; 410. a moving block; 411. an L-shaped connecting rod; 412. a limiting plate; 5. an L-shaped support plate; 6. a sliding groove; 7. an I-shaped slider; 8. a longitudinal movement mechanism; 801. braking the motor; 802. a circular gear; 803. a gear plate; 9. a first electric push rod; 10. an L-shaped mounting bar; 11. an auto-induction electroprobe; 12. a control module; 13. a fixing plate; 14. a thread groove; 15. and (4) external threads.

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.

Examples

As shown in fig. 1 and 2, an industrial motor manufacturing automation equipment fault detection device provided by an embodiment of the present invention includes a workbench 1, a moving rail 2 communicated with the top of the workbench 1 is provided at the top of the workbench 1, a transverse moving mechanism 3 is provided below the moving rail 2, a fixing component 4 is provided above the moving rail 2, the fixing component 4 can make a horizontal leftward or horizontal rightward linear motion along the inner wall of the moving rail 2 through the transverse moving mechanism 3, when a motor to be detected is fixed in the fixing component 4, in order to prevent the problem of error of detection data caused by shaking of the motor to be detected due to external force, then the motor to be detected positioned in the fixing component 4 can be moved to the lower part of an automatic induction pen 11 under the coordination of the transverse moving mechanism 3, and the automatic induction pen 11 can be adjusted by a longitudinal moving mechanism 8, can do vertical downward linear motion, the purpose is to enable an automatic induction electroprobe 11 to be capable of carrying out contact detection with a current conducting plate limited at the top of a clamping plate 405, the automatic induction electroprobe 11 can also be pushed by a first electric push rod 9 to enable the automatic induction electroprobe 11 to adjust the position of a current conducting terminal in the current conducting plate, compared with the traditional manual multimeter detection, the detection is more accurate, the top of a workbench 1 is connected with an L-shaped supporting plate 5, the back of the L-shaped supporting plate 5 is provided with a communicated sliding groove 6, the inner wall of the sliding groove 6 is provided with an I-shaped sliding block 7 which is matched with the L-shaped supporting plate, the rear surface of the I-shaped sliding block 7 is connected with a longitudinal moving mechanism 8, the I-shaped sliding block 7 can do vertical upward or vertical downward linear motion on the inner wall of the sliding groove 6 through the longitudinal moving mechanism 8, the front surface of the I-shaped sliding block 7 is connected with the first electric push rod 9, the output of first electric putter 9 is connected with L type installation pole 10, and the other end dismantlement of L type installation pole 10 is connected with auto-induction electrography 11, and control module 12 is installed at the top of L type backup pad 5, control module 12 and auto-induction electrography 11 electric connection.

As shown in fig. 3, in some embodiments, the lateral moving mechanism 3 includes a servo motor 301, the servo motor 301 is installed on the right side of the workbench 1, the output end of the servo motor 301 is connected with a threaded rod 302, the other end of the threaded rod 302 is connected to the inner sidewall of the workbench 1 through a bearing, the surface of the threaded rod 302 is connected with a moving plate 303 in a threaded manner, the moving plate 303 extends into the moving track 2 and is connected with the fixed component 4, when the fixed component 4 needs to move horizontally to the right along the top of the workbench 1, the threaded rod 302 can be driven by the servo motor 301 to rotate, the moving plate 303 on the surface of the threaded rod 302 is limited by the moving track 2, so that the moving plate 303 can move horizontally to the right on the surface of the threaded rod 302, and a fixed base 401 in the fixed component 4 is connected with the moving plate 303, so that when the moving plate 303 moves horizontally to the right on the surface of the threaded rod 302, the fixed base 401 also moves along with the movement of the moving plate 303, then when the motor to be detected with the top limited on the fixed base 401 moves to the lower part of the automatic induction electric pen 11, the rotation of the servo motor 301 is stopped, and finally, the automatic induction electric pen 11 is pushed by the first electric push rod 9 through the downward adjustment of the longitudinal moving mechanism 8, so that the automatic induction electric pen 11 can perform contact detection on the conducting plate with the top limited on the clamping plate 405.

As shown in fig. 4, in some embodiments, the fixing assembly 4 includes a fixing base 401, the bottom of the fixing base 401 is located at the center of the moving track 2, the bottom of the fixing base 401 is connected to the top of the moving plate 303, the top of the fixing base 401 is provided with a first arc-shaped groove 402 adapted to a motor to be tested, the top of the fixing base 401 is connected to two symmetrical second electric push rods 403, the top of the second electric push rod 403 is connected to an L-shaped fixing rod 404, the other end of the L-shaped fixing rod 404 is connected to a clamping plate 405, the bottom of the clamping plate 405 is provided with a second arc-shaped groove 406 adapted to the motor to be tested, the second arc-shaped groove 406 corresponds to the first arc-shaped groove 402, when the motor to be tested is tested, the motor to be tested can be placed in the first arc-shaped groove 402 formed at the top of the fixing base 401 first, and then the clamping plate 405 can be vertically moved linearly downward under the action of the second electric push rod 403, when the second arc-shaped groove 406 of grip block 405 bottom compresses tightly with the surface of the motor that awaits measuring, stop the drive to second electric putter 403, its purpose is in order to treat that the motor that awaits measuring carries on spacingly, can guarantee that the motor that awaits measuring of location in the fixed subassembly 4 moves the below of auto-induction electrography 11 through lateral shifting mechanism 3 and detects time measuring, can keep good stability.

As shown in fig. 4, in some embodiments, a fixed groove 407 is disposed at the top of the clamping plate 405, a guide rod 408 is connected to the inner wall of the fixed groove 407, a spring 409 is sleeved on the surface of the guide rod 408, a moving block 410 is slidably connected to the surface of the guide rod 408, an L-shaped connecting rod 411 is connected to the top of the moving block 410, and a limiting plate 412 is connected to the other end of the L-shaped connecting rod 411, in order to prevent the conductive plate of the motor to be tested from shaking due to an external force, the conductive plate is placed between two limiting plates 412 on the surface of the top of the clamping plate 405, the limiting plate 412 is pressed by the conductive plate, the L-shaped connecting rod 411 at one side of the limiting plate 412 drives the moving block 410 to slidably press the spring 409 on the surface of the guide rod 408, and the limiting plate 412 can compress and fix the conductive plate due to the elastic force of the spring 409, when the conductive plate of the motor to be tested passes through the auto-induction pen 11, the accuracy of the detection data can be further improved.

As shown in fig. 2, in some embodiments, the longitudinal moving mechanism 8 includes a brake motor 801, the brake motor 801 is disposed on the back of the L-shaped supporting plate 5, the output end of the brake motor 801 is connected to a circular gear 802, the surface of the circular gear 802 is provided with a gear plate 803 adapted to the circular gear 802, the other surface of the gear plate 803 is connected to the back of the i-shaped slider 7, when the motor to be tested positioned on the fixing assembly 4 moves below the auto-induction pencil 11 through the lateral moving mechanism 3, the auto-induction pencil 11 can drive the circular gear 802 to rotate through the brake motor 801, since the gear slot on one surface of the gear plate 803 is designed according to the gear shape on the surface of the circular gear 802, and the other surface of the gear plate 803 is connected to the back of the i-shaped slider 7, when the circular gear 802 drives the gear plate 803 to make a vertical downward linear motion, the i-shaped slider 7 will move downward along the inner wall of the sliding slot 6 with the motion of the gear plate 803, and then the auto-induction electrography 11 that I shape slider 7 front surface was connected can carry out contact detection to the current conducting plate on the below motor that awaits measuring.

As shown in fig. 2, in some embodiments, a fixing plate 13 is mounted on the back surface of the L-shaped supporting plate 5, and one surface of the fixing plate 13 is connected to one side of the brake motor 801, wherein the fixing plate 13 is used to mount the brake motor 801 on the side surface of the fixing plate 13, so as to effectively support and fix the brake motor 801, and thus, the brake motor 801 can stably operate during operation.

As shown in fig. 5, in some embodiments, a thread groove 14 is formed at the top of the auto-induction electric pen 11, an external thread 15 adapted to the thread groove 14 is formed on the bottom end surface of the L-shaped mounting rod 10, the L-shaped mounting rod 10 can be connected to the internal wall of the thread groove 14 through the external thread 15 formed on the bottom end surface of the L-shaped mounting rod 10, the external thread 15 is formed on the bottom end surface of the L-shaped mounting rod 10, and the L-shaped mounting rod 10 can be connected to the thread groove 14 formed at the top of the auto-induction electric pen 11 in a threaded manner, so that the auto-induction electric pen 11 can be replaced when damaged in a later period.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an industrial motor makes automation equipment fault detection device, includes workstation (1), its characterized in that: the top of the workbench (1) is provided with a communicated moving track (2), a transverse moving mechanism (3) is arranged below the moving track (2), a fixed component (4) is arranged above the moving track (2), the fixed component (4) can make horizontal leftward or horizontal rightward linear motion along the inner wall of the moving track (2) through the transverse moving mechanism (3), the top of the workbench (1) is connected with an L-shaped supporting plate (5), the back of the L-shaped supporting plate (5) is provided with a communicated sliding groove (6), the inner wall of the sliding groove (6) is provided with an I-shaped sliding block (7) which is matched with the L-shaped supporting plate, the rear surface of the I-shaped sliding block (7) is connected with a longitudinal moving mechanism (8), and the I-shaped sliding block (7) can make vertical upward or vertical downward linear motion on the inner wall of the sliding groove (6) through the longitudinal moving mechanism (8), the front surface of I shape slider (7) is connected with first electric putter (9), the output of first electric putter (9) is connected with L type installation pole (10), the other end dismantlement of L type installation pole (10) is connected with auto-induction electrography (11), control module (12) are installed at the top of L type backup pad (5), control module (12) and auto-induction electrography (11) electric connection.

2. The fault detection device of industrial motor manufacturing automation equipment according to claim 1, characterized in that: lateral shifting mechanism (3) are including servo motor (301), the right side at workstation (1) is installed in servo motor (301), the output of servo motor (301) is connected with threaded rod (302), the other end of threaded rod (302) passes through the bearing and connects on the inside wall of workstation (1), the surperficial threaded connection of threaded rod (302) has movable plate (303), movable plate (303) extend to the inside of moving track (2) and are connected with fixed subassembly (4).

3. The fault detection device of industrial motor manufacturing automation equipment according to claim 2, characterized in that: fixed subassembly (4) include unable adjustment base (401), the bottom of unable adjustment base (401) is located the central point of removal track (2) and puts, the bottom of unable adjustment base (401) is connected with the top of movable plate (303), the top of unable adjustment base (401) is equipped with and awaits measuring first arc wall (402) of motor looks adaptation, the top of unable adjustment base (401) is connected with second electric putter (403) of two symmetries, the top of second electric putter (403) is connected with L type dead lever (404), the other end of L type dead lever (404) is connected with grip block (405), the bottom of grip block (405) is equipped with second arc wall (406) of motor looks adaptation that awaits measuring, second arc wall (406) and first arc wall (402) correspond to each other.

4. The fault detection device of industrial motor manufacturing automation equipment according to claim 3, characterized in that: the top of grip block (405) is equipped with fixed slot (407), the inner wall of fixed slot (407) is connected with guide bar (408), spring (409) has been cup jointed on the surface of guide bar (408), the surperficial sliding connection of guide bar (408) has movable block (410), the top of movable block (410) is connected with L type connecting rod (411), the other end of L type connecting rod (411) is connected with limiting plate (412).

5. The fault detection device of industrial motor manufacturing automation equipment according to claim 1, characterized in that: the longitudinal moving mechanism (8) comprises a brake motor (801), the brake motor (801) is arranged on the back face of the L-shaped supporting plate (5), the output end of the brake motor (801) is connected with a circular gear (802), a gear plate (803) matched with the circular gear (802) is arranged on the surface of the circular gear (802), and the other face of the gear plate (803) is connected to the back face of the I-shaped sliding block (7).

6. The apparatus for detecting failure of industrial motor manufacturing automation equipment according to claim 5, characterized in that: the back side of the L-shaped supporting plate (5) is provided with a fixing plate (13), and one side of the fixing plate (13) is connected with one side of a brake motor (801).

7. The fault detection device of industrial motor manufacturing automation equipment according to claim 1, characterized in that: the top of auto-induction electrography (11) is equipped with thread groove (14), the bottom surface of L type installation pole (10) is equipped with external screw thread (15) with thread groove (14) looks adaptation, the internal wall threaded connection of external screw thread (15) and thread groove (14) that L type installation pole (10) accessible L type installation pole (10) bottom surface set up.

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