CN219957799U - Frock of simulation motor load test - Google Patents

Abstract

The utility model discloses a tool for simulating motor load test, which comprises a fixed bottom plate, wherein a positioning clamping groove is formed in the bottom of the fixed bottom plate, a mounting sliding groove is formed in the top of the fixed bottom plate, two bottom mounting blocks are slidably mounted at the upper end of the fixed bottom plate through the mounting sliding groove, sliding blocks are integrally formed at the lower ends of the bottom mounting blocks, and positioning screws are mounted in the bottom mounting blocks through positioning screw holes in a threaded manner. According to the tool for simulating the motor load test, the motor main body is installed upwards, so that the load test of the rotating shaft part is facilitated, the distance between the two upper top mounting blocks can be adjusted through the left-right movement of the bottom mounting blocks around the mounting sliding groove, and the motor main body with different sizes can be installed by matching with the arrangement of the plurality of mounting screw holes, the trouble of replacing the tool is avoided, and the test use of the motor is facilitated.

Description

Frock of simulation motor load test

Technical Field

The utility model relates to the field of motor testing, in particular to a tool for simulating motor load testing.

Background

The utility model provides a frock of simulation motor load test is the frock that the motor was installed fixedly and is used, mainly when the motor carries out the simulation load test, play the effect of motor installation, current frock of simulation motor load test is when using, mainly connect the screw hole of motor through mounting panel and screw, play the effect of motor installation, but install down usually when motor installation, therefore the pivot part is located the frock inboard, when the accessory of test is needed to be connected to the pivot again, inconvenient operation, and then the test use of inconvenient motor, the frock can only install the motor of single size usually simultaneously, when the installation of equidimension, need change the frock, the test use of inconvenient motor also.

Disclosure of Invention

The utility model mainly aims to provide a tool for simulating motor load test, which can effectively solve the technical problems of the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a frock of simulation motor load test, includes PMKD, the positioning slot has been seted up to PMKD bottom, the installation spout has been seted up at PMKD's top, PMKD's upper end has two bottom installation pieces through installation spout slidable mounting, the lower extreme integrated into one piece of bottom installation piece has the sliding block, the locating screw has been seted up to the inside of bottom installation piece, the locating screw is installed through the locating screw thread to the inside of bottom installation piece, one side fixed mounting of bottom installation piece has the connection pole setting, the one end fixed mounting that the bottom installation piece was kept away from to the connection pole setting has the top installation piece, a plurality of installation screw holes have been seted up to the inside of top installation piece, the lifting screw is installed to PMKD's upper end central screw thread, the upper end fixed mounting of lifting screw has the motor roof.

As a further scheme of the utility model, the sliding block is embedded into the installation chute and is connected in a matched manner, and the bottom installation block and the sliding block slide left and right around the installation chute.

As a further scheme of the utility model, the upper end of the positioning screw is parallel to the upper end of the bottom mounting block, and the lower end of the positioning screw passes through the positioning screw hole to be in fit connection with the fixed bottom plate.

As a further scheme of the utility model, the top mounting block is positioned above the bottom mounting block, the mounting screw holes penetrate through the top mounting block, and the plurality of mounting screw holes are arranged in a straight line.

As a further scheme of the utility model, the lifting screw is screwed into the fixed bottom plate, the lifting screw is positioned at the inner side of the installation chute, and the two bottom installation blocks are positioned at the two sides of the lifting screw.

As a further scheme of the utility model, a motor main body is arranged above the motor top plate, and screws are arranged at four corners of the motor main body and fixedly connected into mounting screw holes in the top mounting block.

Compared with the prior art, the utility model has the following beneficial effects: through the installation spout, bottom installation piece, the sliding block, the locating screw, connect the pole setting, top installation piece, the installation screw hole, motor main part is when the test, motor main part goes into the installation screw hole through the screw in, and then make motor main part install the below at two top installation pieces, motor main part's pivot part protrusion is to the top of top installation piece, cooperate the load test to use, make motor main part install up, and then make things convenient for the pivot part to carry out the load test to use, still can be through the bottom installation piece around the left and right sides removal of installation spout, the interval of two top installation pieces in adjustment top, the setting of a plurality of installation screw holes of again cooperation, make not unidimensional motor main part all can install, the trouble of changing the frock has been saved, the test use of more convenient motor.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a tool for simulating motor load testing;

FIG. 2 is a bottom view of a tool for simulating motor load testing according to the present utility model;

fig. 3 is a split view of a bottom mounting block in a tool for simulating motor load testing.

In the figure: 1. a fixed bottom plate; 2. positioning clamping grooves; 3. installing a chute; 4. a bottom mounting block; 5. a sliding block; 6. positioning screw holes; 7. a set screw; 8. connecting the vertical rods; 9. a top mounting block; 10. installing screw holes; 11. lifting screw rods; 12. a motor top plate; 13. a motor body.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-3, a tool for simulating motor load test comprises a fixed bottom plate 1, wherein a positioning clamping groove 2 is formed in the bottom of the fixed bottom plate 1, a mounting sliding groove 3 is formed in the top of the fixed bottom plate 1, two bottom mounting blocks 4 are slidably mounted at the upper end of the fixed bottom plate 1 through the mounting sliding groove 3, a sliding block 5 is integrally formed at the lower end of the bottom mounting blocks 4, positioning screw holes 6 are formed in the bottom mounting blocks 4, positioning screws 7 are mounted in the bottom mounting blocks 4 through the positioning screw holes 6 in a threaded manner, a connecting upright rod 8 is fixedly mounted on one side of the bottom mounting blocks 4, a top mounting block 9 is fixedly mounted at one end, far away from the bottom mounting blocks 4, of the connecting upright rod 8, a plurality of mounting screw holes 10 are formed in the top mounting block 9, a lifting screw 11 is mounted at the center of the upper end of the fixed bottom plate 1, and a motor top plate 12 is fixedly mounted at the upper end of the lifting screw 11.

In this embodiment, the sliding block 5 is embedded in the installation chute 3 to be connected in an internal fit manner, the bottom installation block 4 and the sliding block 5 slide left and right around the installation chute 3, and the installation chute 3 plays a role in sliding installation of the sliding block 5.

In this embodiment, the upper end of the set screw 7 is parallel to the upper end of the bottom mounting block 4, the lower end of the set screw 7 passes through the set screw hole 6 to be connected with the fixed bottom plate 1 in a fitting manner, and the set screw 7 plays a role in tightening and positioning.

In this embodiment, the top mounting block 9 is located above the bottom mounting block 4, and the mounting screw holes 10 penetrate the top mounting block 9, and the plurality of mounting screw holes 10 are arranged in a straight line, and the mounting screw holes 10 are used for installing screws into the motor main body 13.

In this embodiment, the lifting screw 11 is screwed into the fixed bottom plate 1, the lifting screw 11 is located at the inner side of the installation chute 3, the two bottom installation blocks 4 are located at two sides of the lifting screw 11, and the lifting screw 11 plays a lifting role through threaded connection to drive the motor top plate 12 to prop up and support below the motor main body 13.

In this embodiment, a motor main body 13 is arranged above the motor top plate 12, and four corners of the motor main body 13 are screwed into the mounting screw holes 10 in the top mounting block 9 to be fixedly connected.

It should be noted that, the utility model is a tool for simulating motor load test, when in use, the fixed bottom plate 1 is used for connecting the installation position, and passes through the holes on the fixed bottom plate 1 to fix through the screws, the positioning clamping groove 2 plays a role in positioning, the top installation block 9 is installed above the bottom installation block 4 through the connecting upright rod 8, the motor main body 13 is aligned and attached with the installation screw holes 10 below the top installation block 9 in the test, then four corners of the motor main body 13 pass through the screws and go into the installation screw holes 10, and then the motor main body 13 is installed below the two top installation blocks 9, the rotating shaft part of the motor main body 13 protrudes above the top installation blocks 9 to be matched with load test, and when the motor main body 13 with different sizes is installed and tested, the bottom installation block 4 and the sliding block 5 can be moved left and right around the installation sliding groove 3, after the movement, the positioning screw 7 is tightened, the positioning screw 7 is propped against the upper part of the fixed bottom installation block 4, and then the distance between the two top installation blocks 9 is adjusted, the motor main body 13 is installed below the two top installation blocks 9, and the installation holes 10 are not matched with each other in size, and the installation hole 10 is not matched with the installation hole.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A frock of simulation motor load test, its characterized in that: including PMKD (1), positioning slot (2) have been seted up to PMKD (1) bottom, installation spout (3) have been seted up at the top of PMKD (1), the upper end of PMKD (1) has two bottom installation piece (4) through installation spout (3) slidable mounting, the lower extreme integrated into one piece of bottom installation piece (4) has slider (5), positioning screw (6) have been seted up to the inside of bottom installation piece (4), positioning screw (7) have been installed through positioning screw (6) screw thread to the inside of bottom installation piece (4), one side fixed mounting of bottom installation piece (4) has connecting pole setting (8), one end fixed mounting that bottom installation piece (4) were kept away from to connecting pole setting (8) has top installation piece (9), a plurality of installation screw holes (10) have been seted up to the inside of top installation piece (9), lifting screw (11) are installed to the upper end center screw thread of PMKD (1), the upper end fixed mounting of lifting screw (11) has roof (12).

2. The tool for simulating motor load testing according to claim 1, wherein: the sliding block (5) is embedded into the installation sliding groove (3) for being connected in an internal fit mode, and the bottom installation block (4) and the sliding block (5) slide left and right around the installation sliding groove (3).

3. The tool for simulating motor load testing according to claim 1, wherein: the upper end of the positioning screw (7) is parallel to the upper end of the bottom mounting block (4), and the lower end of the positioning screw (7) penetrates through the positioning screw hole (6) to be connected with the fixed bottom plate (1) in a fitting mode.

4. The tool for simulating motor load testing according to claim 1, wherein: the top installation block (9) is located above the bottom installation block (4), and the installation screw holes (10) penetrate through the top installation block (9), and a plurality of installation screw holes (10) are arranged in a straight line.

5. The tool for simulating motor load testing according to claim 1, wherein: the lifting screw (11) is screwed into the fixed bottom plate (1), the lifting screw (11) is positioned on the inner side of the installation chute (3), and the two bottom installation blocks (4) are positioned on the two sides of the lifting screw (11).

6. The tool for simulating motor load testing according to claim 1, wherein: the motor is characterized in that a motor main body (13) is arranged above the motor top plate (12), and screws are inserted into mounting screw holes (10) in the top mounting block (9) on four corners of the motor main body (13) to be fixedly connected.