CN216870750U - Motor detection table with storage structure - Google Patents

Abstract

The utility model discloses a motor detection table with a storage structure, which relates to the technical field of motor detection tables and comprises the following components: a main body; the supporting shoe, the supporting shoe sets up in the top of main part, the inside of supporting shoe is provided with torque sensor. According to the utility model, the clamping mechanism is arranged, the worm rotates to drive the worm wheel to rotate, the worm wheel rotates to drive the threaded rod to rotate, the threaded rod rotates to drive the clamping block to move, the clamping block moves and clamps the motor to be tested, then the first motor works, the output end of the first motor rotates to drive the lead screw to rotate, the lead screw rotates to drive the connecting block to move, the connecting block moves to drive the moving block to move, the moving block moves and drives the motor to be tested to move, the motor to be tested is connected with the torque sensor sleeved in the supporting block after moving, and the structure is favorable for effectively clamping the motor to be tested, so that the condition that the motor to be tested deviates in the testing process is avoided, and the testing error is reduced.

Description

Motor detection table with storage structure

Technical Field

The utility model relates to the technical field of motor detection tables, in particular to a motor detection table with a storage structure.

Background

The motor, commonly known as a motor, refers to an electromagnetic device for realizing electric energy conversion or transmission according to the electromagnetic induction law, the motor is represented by a letter M in a circuit, the motor mainly has the function of generating driving torque and is used as a power source of electrical appliances or various machines, the generator is represented by a letter G in the circuit, and the generator mainly has the function of converting mechanical energy into electric energy; the motor test bench is a device for specially testing the performance of the diesel generating set, the motor test bench can carry out delivery performance testing on diesel generating sets such as power frequency, medium frequency, high voltage, low voltage, fuel oil, fuel gas, single-machine and parallel-machine, the motor test bench is provided with special test software and a special industrial control computer, high-speed sampling and processing are carried out on three-phase voltage and three-phase current of a system, and then relevant power parameters are calculated.

The present motor test table can't be adjusted the height of examining test table itself when using to can't accomodate the operation to the motor test table, owing to examine the unable height-adjusting of test table simultaneously, the device can't be applicable to different heights and be the staff, thereby has reduced the practicality of device, can't carry out effective centre gripping to the motor that awaits measuring when treating the motor that awaits measuring to test simultaneously, thereby easily leads to test data error to appear.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: in order to solve the problem that the detection platform cannot be accommodated and cannot clamp a motor to be detected, the motor detection platform with the accommodation structure is provided.

In order to achieve the purpose, the utility model provides the following technical scheme: a motor test stand with a storage structure, comprising:

a main body;

the supporting block is arranged at the top end of the main body, a torque sensor is arranged inside the supporting block, and two ends of the torque sensor are provided with connecting sleeves penetrating to the outside;

the standard motor is arranged at the top end of the main body and is positioned at one end of the supporting block, and the output end of the standard motor is fixedly sleeved with the connecting sleeve at one end of the torque sensor;

the fixing plate is arranged at the top end of the main body and is positioned at one end, far away from the standard motor, of the supporting block;

the motor to be tested is arranged at one end of the supporting block and is positioned above the fixing plate, and the output end of the motor to be tested is in limited insertion connection with the connecting sleeve at one end of the torque sensor;

and the clamping mechanism is arranged at the top end of the fixing plate, penetrates through the inside of the fixing plate to one end of the main body, and is used for clamping the motor to be tested.

As a still further scheme of the utility model: the clamping mechanism comprises a rotating unit, a transmission unit and a power unit, the rotating unit comprises a moving block arranged at the top end of a fixed plate, a worm penetrating into the moving block is arranged on one side of the moving block, the worm is rotatably connected with the inner wall of the moving block through a bearing, and a worm wheel is meshed at the top end of the worm.

As a still further scheme of the utility model: the transmission unit comprises a threaded rod sleeved inside a worm wheel, the threaded rod is rotatably connected with the inner wall of a moving block through a bearing, a clamping block penetrating through the top end of the moving block is sleeved on the outer wall of the threaded rod, a thread matched with the threaded rod is arranged on the contact part of the clamping block and the threaded rod, a sliding groove matched with the clamping block is formed in the top end of the moving block, a limiting sliding block is arranged on one side of the clamping block, and a limiting sliding groove matched with the limiting sliding block is formed in the moving block.

As a still further scheme of the utility model: the power unit comprises a connecting block which is arranged at the bottom end of a moving block and penetrates into the fixed plate, a sliding groove matched with the connecting block is formed in the top end of the fixed plate, a lead screw is sleeved at one end of the connecting block, a first motor is arranged at one end of the lead screw and located at one end of the main body, threads matched with the lead screw are arranged in the connecting block, and a lifting mechanism is arranged at the bottom end of the main body.

As a still further scheme of the utility model: elevating system comprises mobile unit, linkage unit and drive unit, the mobile unit is including setting up the elevator in the main part bottom, the elevator is provided with a plurality ofly, and evenly distributed in the bottom of main part, the screw thread post has been cup jointed to the inside of elevator, the screw thread post is located one side of main part, the inside cup joint of elevator that screw thread post one side was kept away from to the main part has spacing post, the bottom of spacing post is provided with the bottom plate, the screw thread post runs through to the inside of bottom plate.

As a still further scheme of the utility model: the linkage unit comprises a first bevel gear arranged at the bottom end of the threaded column and positioned inside the bottom plate, a second bevel gear is meshed with one end of the first bevel gear, and threads matched with the threaded column are arranged inside the lifting block.

As a still further scheme of the utility model: the driving unit comprises a rotating rod sleeved inside the second bevel gear, the rotating rod is rotatably connected with the inner wall of the bottom plate through a bearing, one end of the rotating rod penetrates through the outer portion of the bottom plate, a second motor is arranged at one end of the rotating rod, and the second motor is located at one end of the bottom plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. by arranging the clamping mechanism, the worm rotates to drive the worm wheel to rotate, the worm wheel rotates to drive the threaded rod to rotate, the threaded rod rotates to drive the clamping block to move, the clamping block moves and clamps the motor to be tested, then the first motor works, the output end of the first motor rotates to drive the lead screw to rotate, the lead screw rotates to drive the connecting block to move, the connecting block moves to drive the moving block to move, the moving block moves and drives the motor to be tested to move, the torque sensor sleeved with the inside of the supporting block after the motor to be tested moves is in limited insertion connection with the connecting sleeve, the structure is favorable for effectively clamping the motor to be tested, the condition that the motor to be tested deviates in the testing process is avoided, and the testing error is reduced;

2. through setting up elevating system, the second motor works, the output of second motor rotates and drives the bull stick and rotate, the bull stick rotates and drives second bevel gear and rotate, second bevel gear rotates and drives first bevel gear and rotates, first bevel gear rotates and drives the screw thread post and rotates, the screw thread post rotates and drives the elevator removal, the elevator removes and drives the vertical removal of main part, second motor stop work when the main part is adjusted to the height that needs, be favorable to adjusting the height of main part through this structure, be favorable to the staff can be according to the different height of adjusting the main part to the suitable height of self height, also be favorable to when not using the main part simultaneously, the operation of accomodating is carried out to the main part, the practicality of device has also been improved.

Drawings

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

FIG. 2 is a schematic structural diagram of the lifting mechanism of the present invention;

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

fig. 4 is an enlarged schematic view of the structure at a in fig. 3 according to the present invention.

In the figure: 1. a main body; 2. a support block; 3. a standard motor; 4. a fixing plate; 5. a clamping mechanism; 501. a moving block; 502. a worm; 503. a worm gear; 504. a threaded rod; 505. a clamping block; 506. connecting blocks; 507. a screw rod; 508. a first motor; 6. a motor to be tested; 7. a lifting mechanism; 701. a lifting block; 702. a threaded post; 703. a first bevel gear; 704. a second bevel gear; 705. a rotating rod; 706. a second motor; 8. a base 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. Based on the embodiments of the present invention, all other embodiments obtained by a person having ordinary skill in the art of the motor inspection station without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a motor detection platform with a storage structure includes:

a main body 1;

the supporting block 2 is arranged at the top end of the main body 1, a torque sensor is arranged inside the supporting block 2, and two ends of the torque sensor are provided with connecting sleeves penetrating to the outside of the supporting block 2;

the standard motor 3 is arranged at the top end of the main body 1 and is positioned at one end of the supporting block 2, and the output end of the standard motor 3 is fixedly sleeved with a connecting sleeve at one end of the torque sensor;

the fixing plate 4 is arranged at the top end of the main body 1 and is positioned at one end, far away from the standard motor 3, of the supporting block 2;

the motor 6 to be tested is arranged at one end of the supporting block 2 and is positioned above the fixing plate 4, and the output end of the motor 6 to be tested is in limited insertion connection with a connecting sleeve at one end of the torque sensor;

and the clamping mechanism 5 is arranged at the top end of the fixing plate 4, penetrates through the inside of the fixing plate 4 to one end of the main body 1, and is used for clamping the motor 6 to be tested.

In this embodiment: the standard motor 3 is used for testing the motor 6 to be tested, and is beneficial to effectively clamping the motor 6 to be tested by arranging the clamping mechanism 5, so that the condition that the motor 6 to be tested deviates in the testing process is avoided, and the testing error is reduced.

Please refer to fig. 3 and 4, the clamping mechanism 5 is composed of a rotating unit, a transmission unit and a power unit, the rotating unit includes a moving block 501 arranged at the top end of the fixed plate 4, one side of the moving block 501 is provided with a worm 502 penetrating into the moving block 501, the worm 502 is rotatably connected with the inner wall of the moving block 501 through a bearing, and the top end of the worm 502 is engaged with a worm wheel 503; the transmission unit comprises a threaded rod 504 sleeved inside a worm wheel 503, the threaded rod 504 is rotatably connected with the inner wall of the moving block 501 through a bearing, a clamping block 505 penetrating through the top end of the moving block 501 is sleeved on the outer wall of the threaded rod 504, a part of the clamping block 505, which is in contact with the threaded rod 504, is provided with threads matched with the threaded rod 504, the top end of the moving block 501 is provided with a sliding groove matched with the clamping block 505, one side of the clamping block 505 is provided with a limiting sliding block, and a limiting sliding groove matched with the limiting sliding block is arranged inside the moving block 501; the power unit is including setting up in the movable block 501 bottom to run through to the inside connecting block 506 of fixed plate 4, the top of fixed plate 4 be provided with connecting block 506 assorted spout, lead screw 507 has been cup jointed to the one end of connecting block 506, the one end of lead screw 507 is provided with first motor 508, first motor 508 is located the one end of main part 1, the inside of connecting block 506 be provided with lead screw 507 assorted screw thread, the bottom of main part 1 is provided with elevating system 7.

In this embodiment: the motor 6 to be tested is placed at the top end of the moving block 501, the worm 502 is rotated to drive the worm wheel 503 to rotate, the worm wheel 503 is rotated to drive the threaded rod 504 to rotate, the threaded rod 504 is rotated to drive the clamping block 505 to move, the clamping block 505 moves and clamps the motor 6 to be tested, then the first motor 508 works, the output end of the first motor 508 rotates to drive the lead screw 507 to rotate, the lead screw 507 rotates to drive the connecting block 506 to move, the connecting block 506 moves to drive the moving block 501 to move, the moving block 501 moves and drives the motor 6 to be tested to move, the torque sensor sleeved with the supporting block 2 after the motor 6 to be tested moves is in limit insertion connection with the connecting sleeve, the effective clamping of the motor 6 to be tested is facilitated through the structure, the condition that the motor 6 to be tested is deviated in the testing process is avoided, the testing error is reduced, then the standard motor 3 works, the output end of the standard motor 3 rotates to drive the connecting sleeve to rotate, the connecting sleeve rotates to drive the torque sensor to rotate, and the torque sensor drives the output end of the motor 6 to be tested to rotate through the connecting sleeve, so that the motor 6 to be tested is tested.

Please refer to fig. 2, the lifting mechanism 7 is composed of a moving unit, a linkage unit and a driving unit, the moving unit includes a plurality of lifting blocks 701 disposed at the bottom end of the main body 1, the lifting blocks 701 are uniformly distributed at the bottom end of the main body 1, a threaded column 702 is sleeved inside the lifting blocks 701, the threaded column 702 is located at one side of the main body 1, a limiting column is sleeved inside the lifting block 701 at one side of the main body 1 far from the threaded column 702, a bottom plate 8 is disposed at the bottom end of the limiting column, and the threaded column 702 penetrates into the bottom plate 8; the linkage unit comprises a first bevel gear 703 arranged at the bottom end of the threaded column 702 and positioned inside the bottom plate 8, one end of the first bevel gear 703 is engaged with a second bevel gear 704, and threads matched with the threaded column 702 are arranged inside the lifting block 701; the driving unit comprises a rotating rod 705 sleeved inside the second bevel gear 704, the rotating rod 705 is rotatably connected with the inner wall of the bottom plate 8 through a bearing, one end of the rotating rod 705 penetrates through the outside of the bottom plate 8, one end of the rotating rod 705 is provided with a second motor 706, and the second motor 706 is located at one end of the bottom plate 8.

In this embodiment: when the device is in operation, the height of the main body 1 needs to be adjusted firstly, the second motor 706 works, the output end of the second motor 706 rotates to drive the rotating rod 705 to rotate, the rotating rod 705 rotates to drive the second bevel gear 704 to rotate, the second bevel gear 704 rotates to drive the first bevel gear 703 to rotate, the first bevel gear 703 rotates to drive the threaded column 702 to rotate, the threaded column 702 rotates to drive the lifting block 701 to move, the lifting block 701 moves to drive the main body 1 to vertically move, the second motor 706 stops working when the main body 1 is adjusted to the required height, the height of the main body 1 is favorably adjusted through the structure, the height of the main body 1 can be favorably adjusted according to the difference of the height of the worker, the main body 1 can be favorably adjusted to the proper height, the main body 1 can be also favorably not used, the operation of accommodating is carried out on the main body 1, and the practicability of the device is also improved.

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 of motor inspection table technology will be able to cover the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof.

Claims (7)

1. The utility model provides a motor detects platform with accomodate structure which characterized in that includes:

a main body (1);

the supporting block (2) is arranged at the top end of the main body (1), a torque sensor is arranged inside the supporting block (2), and two ends of the torque sensor are provided with connecting sleeves penetrating to the outside of the supporting block (2);

the standard motor (3) is arranged at the top end of the main body (1) and is positioned at one end of the supporting block (2), and the output end of the standard motor (3) is fixedly sleeved with a connecting sleeve at one end of the torque sensor;

the fixing plate (4) is arranged at the top end of the main body (1), and is positioned at one end, far away from the standard motor (3), of the supporting block (2);

the motor (6) to be tested is arranged at one end of the supporting block (2) and is positioned above the fixing plate (4), and the output end of the motor (6) to be tested is in limited insertion connection with a connecting sleeve at one end of the torque sensor;

and the clamping mechanism (5) is arranged at the top end of the fixing plate (4), penetrates through the inside of the fixing plate (4) to one end of the main body (1), and is used for clamping the motor (6) to be measured.

2. The motor detection table with the storage structure is characterized in that the clamping mechanism (5) is composed of a rotating unit, a transmission unit and a power unit, the rotating unit comprises a moving block (501) arranged at the top end of the fixed plate (4), a worm (502) penetrating into the moving block (501) is arranged on one side of the moving block (501), the worm (502) is rotatably connected with the inner wall of the moving block (501) through a bearing, and a worm wheel (503) is meshed at the top end of the worm (502).

3. The motor detection table with the storage structure as claimed in claim 2, wherein the transmission unit comprises a threaded rod (504) sleeved inside a worm wheel (503), the threaded rod (504) is rotatably connected with the inner wall of the moving block (501) through a bearing, a clamping block (505) penetrating through the top end of the moving block (501) is sleeved on the outer wall of the threaded rod (504), a thread matched with the threaded rod (504) is arranged on a contact portion of the clamping block (505) and the threaded rod (504), a sliding groove matched with the clamping block (505) is arranged at the top end of the moving block (501), a limit slider is arranged on one side of the clamping block (505), and a limit sliding groove matched with the limit slider is arranged inside the moving block (501).

4. The motor detection table with the storage structure according to claim 3, wherein the power unit comprises a connecting block (506) which is arranged at the bottom end of the moving block (501) and penetrates into the fixed plate (4), a sliding groove matched with the connecting block (506) is arranged at the top end of the fixed plate (4), a lead screw (507) is sleeved at one end of the connecting block (506), a first motor (508) is arranged at one end of the lead screw (507), the first motor (508) is located at one end of the main body (1), a thread matched with the lead screw (507) is arranged in the connecting block (506), and a lifting mechanism (7) is arranged at the bottom end of the main body (1).

5. The motor detection table with the storage structure according to claim 4, wherein the lifting mechanism (7) comprises a moving unit, a linkage unit and a driving unit, the moving unit comprises a lifting block (701) arranged at the bottom end of the main body (1), the lifting block (701) is provided with a plurality of lifting blocks and is uniformly distributed at the bottom end of the main body (1), a threaded column (702) is sleeved inside the lifting block (701), the threaded column (702) is located on one side of the main body (1), a limiting column is sleeved inside the lifting block (701) far away from one side of the threaded column (702) of the main body (1), a bottom plate (8) is arranged at the bottom end of the limiting column, and the threaded column (702) penetrates through the inside of the bottom plate (8).

6. The motor detection table with the storage structure is characterized in that the linkage unit comprises a first bevel gear (703) arranged at the bottom end of the threaded column (702) and positioned inside the bottom plate (8), one end of the first bevel gear (703) is engaged with a second bevel gear (704), and the inside of the lifting block (701) is provided with threads matched with the threaded column (702).

7. The motor detection table with the storage structure according to claim 6, wherein the driving unit comprises a rotating rod (705) sleeved inside a second bevel gear (704), the rotating rod (705) is rotatably connected with the inner wall of the bottom plate (8) through a bearing, one end of the rotating rod (705) penetrates through the outside of the bottom plate (8), a second motor (706) is arranged at one end of the rotating rod (705), and the second motor (706) is located at one end of the bottom plate (8).

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