CN220709808U - Simple motor alignment training device - Google Patents

Abstract

The utility model relates to a vocational skill training device, in particular to a motor alignment training simple device, which comprises a bottom plate, wherein four supporting legs of a motor are connected to the top surface of the bottom plate, an axial adjusting assembly is connected to the top surface of the bottom plate, two of the four axial adjusting assemblies are propped against the side surfaces of two supporting legs at the rear side of the motor, and the other two of the four axial adjusting assemblies are propped against the side surfaces of two supporting legs at the rear side of the motor; the top surface of the bottom plate is connected with radial adjusting components, two of the four radial adjusting components are propped against two supporting leg side surfaces on the left side of the motor, and the other two radial adjusting components are propped against two supporting leg side surfaces on the right side of the motor; the front end of the third bolt passes through the bottom surface of the bottom plate, and is vertical to the motor on a vertical plane; the axial adjusting assembly, the radial adjusting assembly and the third bolt realize three-coordinate adjustment of the motor, and a crowbar and a frequent dismounting adjusting gasket are not needed in motor alignment training, so that the training efficiency and the training effect are improved, the operation is convenient and clear, the use is time-saving and labor-saving, and the safety is improved.

Description

Simple motor alignment training device

Technical Field

The utility model relates to a vocational skill training device, in particular to a simple motor alignment training device.

Background

The motor is used as a power source of various mechanical equipment of the iron and steel enterprises, is an essential important equipment of the iron and steel enterprises, and the running state of the motor directly influences the continuous stability of the whole process. When the motor and the driven mechanical equipment cannot reach the standard, the production can be affected, the service lives of the motor and the driven side equipment are shortened, the motor and the driven side can generate larger vibration and sound, the bearing is accelerated to be damaged, and the motor load is increased. Therefore, when the motor is installed, the motor alignment is very important, so motor alignment training is needed when staff trains, so that staff can understand the motor alignment principle and prepare for subsequent motor assembly.

In the prior art, when the motor is aligned and trained, the motor is required to be pried by using a crow bar, or an adjusting gasket or a shock pad is frequently added or removed, and even a plurality of people are required to lift the motor when the motor is lifted on a training site without a lifting device, the motor alignment and training operation in the prior art is complex, labor and effort are wasted, the alignment precision is low, the training efficiency is poor, and a certain danger is also provided.

Disclosure of Invention

The utility model aims to provide a simple motor alignment training device, which can be used for improving the axial deviation, radial deviation and height deviation of a motor to be quickly adjusted during training, improving the training learning efficiency and meeting the skill training requirement.

The utility model relates to a motor alignment training simple device, which comprises four supporting legs, wherein a coupler is connected to an output shaft of the motor, the motor comprises a bottom plate, the four supporting legs are connected to the top surface of the bottom plate, an axial adjusting component is connected to the top surface of the bottom plate, the axial adjusting component comprises a first nut and a first bolt, the first nut is welded on the top surface of the bottom plate, the first bolt is connected to the first nut, the first bolt passes through the first nut and then is propped against the side surfaces of the supporting legs, the first bolt is parallel to the axis of the motor on the horizontal plane, the axial adjusting components are provided with four axial adjusting components, the four axial adjusting components are symmetrical in pairs, two axial adjusting components in the four axial adjusting components are propped against the side surfaces of the two supporting legs at the rear side of the motor, and the other two axial adjusting components in the four axial adjusting components are propped against the side surfaces of the two supporting legs at the rear side of the motor.

Further, the bottom plate top surface on be connected with radial adjustment subassembly, radial adjustment subassembly is including second nut and second bolt, the second nut welds on the bottom plate top surface, second bolted connection is on the second nut, the second bolt passes behind the second nut and pushes up and connect in the landing leg side, on the horizontal plane, the second bolt is perpendicular with the motor axis, radial adjustment subassembly is equipped with four, four radial adjustment subassembly pairwise symmetries, two radial adjustment subassembly pushes up in four radial adjustment subassemblies and connects in two landing leg sides on the motor left side, two other radial adjustment subassembly pushes up in four radial adjustment subassemblies and connect in two landing leg sides on the motor right side.

Further, the bottom plate on be equipped with four screw, four screw use motor center as the circumference equipartition of axle, all be connected with the third bolt in four screw, the third bolt front end passes the bottom plate bottom surface, on vertical plane, the third bolt is perpendicular with the motor.

Further, including the base, the base is including two curb plates and a roof, and two curb plates are flat, roof fixed connection is between two curb plates, and two curb plates and roof form n shape, and every roof outside all is connected with two lugs, and the base is established in the bottom plate below, and four third bolt front ends are the top respectively and are connected on four lugs top surfaces.

The beneficial effects of the utility model are as follows: the motor comprises a bottom plate, four supporting legs of the motor are connected to the top surface of the bottom plate, an axial adjusting assembly is connected to the top surface of the bottom plate, two of the four axial adjusting assemblies are propped against the side surfaces of the two supporting legs at the rear side of the motor, and the other two of the four axial adjusting assemblies are propped against the side surfaces of the two supporting legs at the rear side of the motor; the top surface of the bottom plate is connected with radial adjusting components, two of the four radial adjusting components are propped against two supporting leg side surfaces on the left side of the motor, and the other two radial adjusting components are propped against two supporting leg side surfaces on the right side of the motor; the front end of the third bolt passes through the bottom surface of the bottom plate, and is vertical to the motor on a vertical plane; the four axial adjusting components realize axial adjustment to the motor, the four radial adjusting components realize radial adjustment to the motor, the four third bolts realize adjustment to the height direction of the motor, the axial adjusting components, the radial adjusting components and the third bolts realize three-coordinate adjustment to the motor, and the crowbar and frequent dismounting adjusting gaskets are not needed in motor alignment training, so that the training efficiency and training effect are improved, the operation is convenient and clear, the use is time-saving and labor-saving, and the safety is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a view in the direction A of FIG. 1 of the present utility model;

FIG. 3 is a view in the B direction of FIG. 1 of the present utility model;

FIG. 4 is a schematic view of the structure of the base plate of the present utility model;

fig. 5 is a cross-sectional view of fig. 3 according to the present utility model.

In the figure: 1. a motor; 101. a support leg; 2. a coupling; 3. a bottom plate; 301. a screw hole; 4. a base; 401. a side plate; 402. a top plate; 403. a support lug; 5. an axial adjustment assembly; 6. a first nut; 7. a first bolt; 8. a radial adjustment assembly; 9. a second nut; 10. a second bolt; 11. and a third bolt.

Detailed Description

As shown in fig. 1-5, the motor 1 comprises four supporting legs 101, a shaft coupler 2 is connected to an output shaft of the motor 1, the motor alignment training aims at enabling one end of the shaft coupler 2, which is far away from the output shaft of the motor 1, to drive the positive motor 1, the motor alignment training simple device comprises a bottom plate 3, the four supporting legs 101 are connected to the top surface of the bottom plate 3, an axial adjusting component 5 is connected to the top surface of the bottom plate 3, the axial adjusting component 5 comprises a first nut 6 and a first bolt 7, the first nut 6 is welded to the top surface of the bottom plate 3, the first bolt 7 is connected to the first nut 6, the first bolt 7 penetrates through the first nut 6 and then is propped against the side surface of the supporting legs 101, the first bolt 7 is parallel to the axis of the motor 1 on a horizontal plane, the axial adjusting component 5 is provided with four axial adjusting components 5, two axial adjusting components 5 are symmetrically propped against the side surfaces of the two supporting legs 101 at the rear side of the motor 1, and the other two axial adjusting components 5 in the four axial adjusting components 5 are propped against the two side surfaces 101 at the rear side of the motor 1.

The four axial adjusting components 5 are used for realizing the axial adjustment of the motor 1, the first bolt 7 is rotated during use to change the extension amount of the first bolt 7 on the first nut 6, the first bolt 7 is used for pushing the supporting leg 101 so as to realize the adjustment of the motor 1, if the four first bolts 7 in the four axial adjusting components 5 are all tightly supported by the supporting leg 101, the position of the motor 1 cannot be adjusted by independently adjusting one first bolt 7, and therefore the four first bolts 7 are used in a matched mode during adjustment.

The radial adjusting components 8 are connected to the top surface of the bottom plate 3, the radial adjusting components 8 comprise a second nut 9 and a second bolt 10, the second nut 9 is welded to the top surface of the bottom plate 3, the second bolt 10 is connected to the second nut 9, the second bolt 10 passes through the second nut 9 and then is propped against the side surfaces of the supporting legs 101, the second bolt 10 is perpendicular to the axis of the motor 1 on the horizontal plane, the radial adjusting components 8 are four, the four radial adjusting components 8 are symmetrical in pairs, two radial adjusting components 8 in the four radial adjusting components 8 are propped against the side surfaces of the two supporting legs 101 on the left side of the motor 1, and the other two radial adjusting components 8 in the four radial adjusting components 8 are propped against the side surfaces of the two supporting legs 101 on the right side of the motor 1.

The radial adjustment of the motor 1 is realized by the four radial adjustment assemblies 8, during use, the second bolts 10 are rotated to change the extension amount of the second bolts 10 on the second nuts 9, the second bolts 10 push the supporting legs 101 to realize the adjustment of the motor 1, if the four second bolts 10 in the four radial adjustment assemblies 8 are propped against the supporting legs 101, the position of the motor 1 cannot be adjusted by independently adjusting one second bolt 10, so that the four second bolts 10 are matched for use in expansion and contraction during adjustment, the propping of the supporting legs 101 by the four first bolts 7 is considered, and the radial adjustment assemblies 8 and the axial adjustment assemblies 5 are matched for adjustment.

The radial adjusting component 8 and the axial adjusting component 5 are matched for use, so that the axial direction and influence of the motor 1 can be adjusted, and the inclination angle of the motor 1 on the horizontal plane can be adjusted.

When the motor 1 is used, the first bolt 7 and the second bolt 10 cannot be tightly propped against the supporting leg 101 before the motor 1 is not aligned, but the motor 1 is freely placed on the bottom plate 3, so that the first bolt 7 and the second bolt 10 do not contact the supporting leg 101, the stretching amount of the bolts which need to be adjusted in position is operated one by one until the motor 1 is aligned, and all the first bolt 7 and the second bolt 10 are fastened, so that the position of the motor 1 is fixed.

Four screw holes 301 are formed in the bottom plate 3, the four screw holes 301 are uniformly distributed circumferentially by taking the center of the motor 1 as an axis, third bolts 11 are connected in the four screw holes 301, the front ends of the third bolts 11 penetrate through the bottom surface of the bottom plate 3, and the third bolts 11 are perpendicular to the motor 1 on a vertical plane.

The arrangement of the four third bolts 11 enables the motor 1 to be adjustable in the vertical direction, thereby being more convenient for the use of the utility model.

The utility model also comprises a base 4, wherein the base 4 comprises two side plates 401 and a top plate 402, the two side plates 401 are flat, the top plate 402 is fixedly connected between the two side plates 401, the two side plates 401 and the top plate 402 form an n shape, two lugs 403 are connected to the outer side of each top plate 402, the base 4 is arranged below the bottom plate 3, and the front ends of four third bolts 11 are respectively propped against the top surfaces of the four lugs 403.

The height of motor 1 has been promoted in setting up of base 4, makes the observation to motor 1 more convenient during training, and the setting of four lugs 403 is convenient to observe rotation and flexible of third bolt 11 when adjusting.

According to the utility model, under the cooperation of the axial adjusting component 5, the radial adjusting component 8 and the third bolt 11, the three-coordinate alignment adjustment of the motor 1 is realized, and the motor 1 can be adjusted by rotating the bolt during use, so that a crowbar is not required to be used or an adjusting gasket is not required to be frequently assembled and disassembled. The utility model can also be matched with a laser centering instrument for use, so as to realize rapid reading of the laser centering instrument.

Claims (4)

1. The utility model provides a motor alignment training simple and easy device, motor (1) are including four landing legs (101), are connected with shaft coupling (2), its characterized in that on motor (1) output shaft: including bottom plate (3), four landing leg (101) all are connected on bottom plate (3) top surface, be connected with axial adjustment subassembly (5) on bottom plate (3) top surface, axial adjustment subassembly (5) are including first nut (6) and first bolt (7), first nut (6) welding is on bottom plate (3) top surface, first bolt (7) are connected on first nut (6), first bolt (7) pass behind first nut (6) top connect in landing leg (101) side, first bolt (7) are parallel with motor (1) axis on the horizontal plane, axial adjustment subassembly (5) are equipped with four, two axial adjustment subassembly (5) two bisymmetries in four axial adjustment subassemblies (5) top connect two landing leg (101) sides at motor (1) rear side in four axial adjustment subassembly (5), two other axial adjustment subassembly (5) top connect two landing leg (101) sides at motor (1) rear side.

2. The motor alignment training facilitation device as defined in claim 1 wherein: the utility model provides a radial adjustment subassembly (8) are connected with on bottom plate (3) top surface, radial adjustment subassembly (8) are including second nut (9) and second bolt (10), second nut (9) welding is on bottom plate (3) top surface, second bolt (10) are connected on second nut (9), second bolt (10) are passed behind second nut (9) and are propped and connect in landing leg (101) side, on the horizontal plane, second bolt (10) are perpendicular with motor (1) axis, radial adjustment subassembly (8) are equipped with four, two bisymmetry of four radial adjustment subassemblies (8), two radial adjustment subassemblies (8) in four radial adjustment subassemblies (8) are propped and are connect in two landing leg (101) sides on motor (1) left side, two other radial adjustment subassemblies (8) in four radial adjustment subassemblies (8) are propped and are connected in two landing leg (101) sides on motor (1) right side.

3. The motor alignment training facilitation device as set forth in claim 2 wherein: the motor is characterized in that four screw holes (301) are formed in the bottom plate (3), the four screw holes (301) are uniformly distributed around the center of the motor (1) as an axis, third bolts (11) are connected in the four screw holes (301), the front ends of the third bolts (11) penetrate through the bottom surface of the bottom plate (3), and the third bolts (11) are perpendicular to the motor (1) on a vertical plane.

4. A motor alignment training facilitation apparatus as defined in claim 3 wherein: including base (4), base (4) are including two curb plates (401) and roof (402), and two curb plates (401) are leveled, roof (402) fixed connection between two curb plates (401), and two curb plates (401) and roof (402) form n shape, and every roof (402) outside all is connected with two journal stirrup (403), and base (4) are established in bottom plate (3) below, and four third bolt (11) front ends roof respectively connect on four journal stirrup (403) top surfaces.