CN217037007U - Plug wire positioning device of new energy driving motor stator - Google Patents

Abstract

The utility model relates to a plug wire positioning device of a new energy drive motor stator, and belongs to the technical field of new energy drive motor stator assembling equipment. The plug wire positioning device of the new energy drive motor stator comprises a bottom plate, an assembling plate, an upper rotary table, a lower rotary table, an upper groove disc, a lower groove disc, an upper fork rod, a lower fork rod and a positioning seat; the bottom plate is provided with an assembling plate; an upper groove disc is fixedly arranged on the upper end face of the assembling plate; an upper turntable is movably arranged between the upper groove disc and the assembling plate; the upper end of the upper groove disc is provided with an upper sealing plate; a plurality of upper fork rods are movably arranged between the upper sealing plate and the upper groove disc in a divergent shape; the upper fork rod penetrates through the upper groove disc and then is connected with the upper rotary disc. The plug wire positioning device of the new energy drive motor stator is compact in structure and ingenious in design; the problem of the current plug wire mode of new forms of energy driving motor stator easily take place the coil damage is solved, the needs that the plug wire location of new forms of energy driving motor stator used are particularly suitable for.

Description

Plug wire positioning device of new energy driving motor stator

Technical Field

The utility model relates to a plug wire positioning device of a new energy drive motor stator, and belongs to the technical field of new energy drive motor stator assembling equipment.

Background

In the technical field of production and assembly of stator coils of motors, the coils need to be inserted into assembly holes of the stators of the motors. The wire plugging process of the stator coil of the driving motor can be completed by machinery or manually at present. However, when the wire insertion process of the stator coil of the driving motor is completed mechanically or manually, the problem that the coil and the assembly hole of the stator of the driving motor are scratched easily occurs. Therefore, a need exists for a new energy drive motor stator plug wire positioning device to solve the problem that coil damage is easily caused by the existing plug wire mode of the new energy drive motor stator.

Disclosure of Invention

The utility model aims to: the plug wire positioning device of the new energy drive motor stator is compact in structure and ingenious in design, and can solve the problem that coil damage is easy to occur in the existing plug wire mode of the new energy drive motor stator.

The technical scheme of the utility model is as follows:

a plug wire positioning device of a new energy drive motor stator comprises a bottom plate, an assembling plate, an upper rotary table, a lower rotary table, an upper groove disc, a lower groove disc, an upper fork rod, a lower fork rod and a positioning seat; the method is characterized in that: the bottom plate is provided with an assembling plate; an upper groove disc is fixedly arranged on the upper end surface of the assembling plate; an upper turntable is movably arranged between the upper groove disc and the assembling plate; the upper end of the upper groove disc is provided with an upper sealing plate; a plurality of upper fork rods are movably arranged between the upper sealing plate and the upper groove disc in a divergent manner; the upper fork rod penetrates through the upper groove disc and then is connected with the upper rotary disc; the lower end surface of the assembling plate is provided with a lower groove disc; a plurality of positioning seats are uniformly arranged in the lower groove disc; a support ring plate is arranged on a bottom plate below the lower trough plate; a lower rotary table is movably arranged between the supporting ring plate and the lower groove disc; a plurality of lower fork rods are movably arranged between the lower rotary disc and the lower groove disc in a divergence shape.

The middle part of the assembly plate is provided with a through hole.

The upper end surface of the upper groove plate is in a divergent shape and is provided with a plurality of guide sliding grooves; a guide sliding hole is formed in the guide sliding groove; an assembly ring edge is arranged on the lower end face of the upper groove disc; the lower end of the upper groove disc is movably provided with an upper rotating disc through an assembling ring edge.

An annular boss is arranged on the inner side of the upper surface of the supporting ring plate; a plurality of spacing blocks are uniformly arranged on the inner surface of the annular boss in a divergent shape; the side surface of the spacing block is connected with the lower fork rod in a sliding way; the supporting ring plate is movably provided with a lower turntable through an annular boss.

The upper turntable and the lower turntable are both composed of turntable bodies; the turntable body is of a circular ring-shaped structure; the turntable body is provided with a plurality of arc-shaped driving grooves; one side of the turntable body is provided with a transmission lug; the transmission support lug is provided with a driving roller.

The lower end surface of the lower groove plate is in a divergent shape and is provided with a plurality of guide sliding grooves; a plurality of positioning seats are uniformly arranged on the upper end surface of the lower groove disc.

One end of the upper fork rod and one end of the lower fork rod are both provided with a positioning fork opening; the lower end surface of the upper fork rod and the lower end surface of the lower fork rod are provided with inserting sliding pins; the upper fork rod penetrates through the guide sliding hole through the inserting sliding pin and then is in sliding connection with the arc-shaped driving groove of the upper turntable; the lower fork rod is connected with the arc-shaped driving groove of the lower turntable in a sliding manner through the inserting sliding pin.

The utility model has the advantages that:

this plug wire positioner of new forms of energy driving motor stator, compact structure, design benefit can fix a position motor stator to the location prong that can use last fork arm and lower fork arm protects motor stator's pilot hole, thereby has solved the problem that new forms of energy driving motor stator's current plug wire mode easily takes place the coil damage, is particularly suitable for new forms of energy driving motor stator's plug wire location needs that use.

Drawings

FIG. 1 is a schematic view of an axial measurement configuration of the present invention;

FIG. 2 is a schematic view of an axial measurement configuration of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic view of the structure in the direction A-A in FIG. 3;

FIG. 5 is a schematic illustration of an explosive structure according to the present invention;

FIG. 6 is a schematic view of the structure in the direction B-B in FIG. 5;

FIG. 7 is a schematic view of the structure in the direction C-C in FIG. 5;

FIG. 8 is a schematic view of the structure of FIG. 5 in the direction D-D;

FIG. 9 is a schematic view of the structure of FIG. 5 in the direction E-E;

FIG. 10 is a schematic view of the structure of FIG. 5 in the direction F-F;

FIG. 11 is a schematic view of the structure in the direction G-G in FIG. 5;

FIG. 12 is a schematic view of the structure of the upper tray of the present invention;

FIG. 13 is a schematic structural view of an upper tray according to the present invention;

FIG. 14 is a schematic structural view of a turntable body according to the present invention;

FIG. 15 is a schematic view of the structure of the lower tray of the present invention;

FIG. 16 is a schematic view of the structure of the lower tray of the present invention;

FIG. 17 is a schematic structural view of a support ring plate according to the present invention;

fig. 18 is a schematic structural view of the lower yoke of the present invention.

In the figure: 1. a base plate; 2. assembling a plate; 3. an upper groove plate; 4. an upper turntable; 5. an upper sealing plate; 6. an upper fork arm; 7. a lower trough plate; 8. positioning seats; 9. a support ring plate; 10. a lower turntable; 11. a lower fork arm; 12. a through hole; 13. a guide chute; 14. a guide slide hole; 15. assembling the annular edge; 16. an annular boss; 17. a spacer block; 18. a turntable body; 19. an arc-shaped driving groove; 20. a transmission lug; 21. driving the roller; 22. positioning a fork opening; 23. and inserting a sliding pin.

Detailed Description

The plug wire positioning device for the new energy drive motor stator comprises a bottom plate 1, an assembling plate 2, an upper rotary disc 4, a lower rotary disc 10, an upper groove disc 3, a lower groove disc 7, an upper fork rod 6, a lower fork rod 11 and a positioning seat 8 (see the attached figures 1 and 2 of the specification).

The bottom plate 1 is provided with an assembling plate 2; the middle part of the assembly plate 2 is provided with a through hole 12 (see the attached figure 8 in the specification). An upper fluted disc 3 is fixedly arranged on the upper end surface of the assembly plate 2 (see the specification and the attached figure 5).

The upper end surfaces of the upper groove discs 3 are in a divergent shape and are provided with a plurality of guide sliding grooves 13; a guide sliding hole 14 is arranged in the guide sliding chute 13; the lower end face of the upper fluted disc 3 is provided with a mounting annular ridge 15 (see the description and the attached figures 12 and 13).

An upper turntable 4 is movably arranged between the upper groove disc 3 and the assembly plate 2 through an assembly annular rib 15 (see the attached figure 5 in the specification); the upper rotary table 4 can freely rotate around the assembling ring edge 15 when being stressed.

The upper rotary table 4 is composed of a rotary table body 18; the turntable body 18 is of a circular ring structure; the turntable body 18 is provided with a plurality of arc-shaped driving grooves 19; a transmission lug 20 is arranged on one side of the turntable body 18 (see the description and the attached drawing 14); the transmission lug 20 is provided with a driving roller 21 (see the description and the attached figures 7 and 11). In operation, the driving roller 21 can push the upper rotating disc 4 to rotate freely between the upper fluted disc 3 and the assembling plate 2.

The upper end of the upper groove plate 3 is provided with an upper seal plate 5; a plurality of upper fork rods 6 are arranged between the upper closing plate 5 and the upper trough plate 3 in a radiating manner (refer to the attached figures 5 and 6 in the specification).

One end of the upper fork rod 6 is provided with a positioning fork opening 22; the lower end face of the upper fork rod 6 is provided with an inserting sliding pin 23 (refer to the figure 18 in the specification).

The body of the upper fork rod 6 is connected with a guide sliding groove 13 on the upper fluted disc 3 in a sliding way (see the attached figure 6 in the specification). The upper fork arm 6 can only slide back and forth along the guide runner 13 towards the centre of the plug wire positioning device during operation.

The plug-in sliding pin 23 of the upper fork rod 6 passes through the guide sliding hole 14 and then is in sliding connection with the arc-shaped driving groove 19 on the upper rotary disc 4. The purpose of so arranging the upper fork lever 6 is: so that the upper fork rod 6 can be driven by the plug-in sliding pin 23 to slide along the guide sliding groove 13 of the upper fluted disc 3 in the rotating process of the upper rotating disc 4, and thus the purposes that the upper fork rod 6 extends out when the upper rotating disc 4 rotates forwards and the upper fork rod 6 retracts when the upper rotating disc 4 rotates backwards can be achieved.

The lower end face of the mounting plate 2 is provided with a lower fluted disc 7 (see figures 5 and 8 of the specification). The lower end surfaces of the lower groove discs 7 are all provided with a plurality of guide sliding grooves 13 in a divergent shape (refer to the attached figure 16 in the specification); a plurality of positioning seats 8 are uniformly arranged on the upper end surface of the lower fluted disc 7 (refer to the attached figures 8 and 9 of the specification).

The inner surface of the positioning seat 8 is provided with a positioning arc opening (not shown in the attached figures of the specification). The surface radian of the positioning arc opening is consistent with the radian of the convex part on the circumferential surface of the workpiece,

the number and the relative position of the positioning seats 8 are consistent with the position of the convex part on the circumferential surface of the new energy drive motor stator; the purpose of so setting is: so that the protruding part of the workpiece can position the motor stator through the positioning seat 8 during operation.

The bottom plate 1 below the lower trough plate 7 is provided with a supporting ring plate 9 (see the description attached to figures 5 and 11). The upper surface of the support ring plate 9 is provided with an annular boss 16 on the inside (see description fig. 17).

The support ring plate 9 is movably provided with a lower turntable 10 through an annular boss 16 (refer to the attached figure 11 in the specification). The lower turntable 10 is composed of a turntable body 18; the turntable body 18 is of a circular ring structure; the turntable body 18 is provided with a plurality of arc-shaped driving grooves 19; one side of the turntable body 18 is provided with a transmission lug 20; the transmission lug 20 is provided with a driving roller 21. The lower turntable 10 is free to rotate about the support ring plate 9 when subjected to a force.

The inner surface of the annular boss 16 is provided with a plurality of spacing blocks 17 uniformly in a divergent shape (refer to the description and the attached figure 17). The channels formed between the spacers 17 correspond to the guide runners 13 on the lower tray 7. The thickness of the spacing block 17 is higher than that of the lower fork rod 11, so that when a workpiece is placed on the spacing block 17, the lower fork rod 11 can smoothly slide in the wire inserting positioning device.

A plurality of lower fork rods 11 are arranged between the lower rotating disc 10 and the lower grooved disc 7 in a divergent manner (refer to the attached figures 5 and 10 in the specification). One end of the lower fork rod 11 is provided with a positioning fork opening 22; the lower end surface of the lower fork rod 11 is provided with an inserting sliding pin 23; the lower fork rod 11 is connected with the arc-shaped driving groove 19 of the lower rotary disk 10 in a sliding way through the inserting sliding pin 23; the body of the lower fork rod 11 is slidably connected with the side surface of the spacing block 17 and the guide sliding groove 13 on the lower groove plate 7.

The purpose of so arranging the lower fork lever 11 is: so that the lower rotary table 10 can drive the lower fork rod 11 to slide along the guide sliding chute 13 of the lower grooved plate 7 through the inserting sliding pin 23 in the rotating process, and thus, the purposes that the lower fork rod 11 extends out when the lower rotary table 10 rotates forwards and the lower fork rod 11 retracts when the lower rotary table 10 rotates backwards can be achieved.

When the plug wire positioning device of the new energy drive motor stator works, the lower rotary disc 10 and the upper rotary disc 4 are driven by the driving roller 21 to synchronously rotate reversely for a certain angle, and then the plug wire positioning device stops acting. In the process, when the lower turntable 10 rotates reversely, the lower fork rod 11 is driven by the plug-in sliding pin 23 to retract outwards for a certain distance along the guide sliding groove 13 of the lower groove disc 7 and then stops. Meanwhile, when the upper rotating disc 4 rotates reversely, the upper fork rod 6 is driven by the inserting sliding pin 23 to retract outwards for a certain distance and then stops.

The workpiece is then placed by the positioning seat 8 in a limited manner on the spacer blocks 17 of the internal support ring plate 9 of the plug wire positioner. After the workpiece is placed, the lower rotary table 10 and the upper rotary table 4 are driven by the driving roller 21 to rotate synchronously in a positive direction for a certain angle, so that the upper rotary table 4 drives the upper fork rod 6 to move to the upper end face of the workpiece, and the lower rotary table 10 drives the lower fork rod 11 to move to the lower end face of the workpiece. At this time, the positioning slit 20 of each upper fork 6 is inserted outside the corresponding fitting hole of the workpiece, and the positioning slit 20 of each lower fork 11 is inserted outside the corresponding fitting hole of the workpiece. Accomplish the plug wire work of coil through other instruments afterwards, the coil plug wire in-process will be because location fork mouth 20 can form the protection to the pilot hole, so can avoid the coil to touch the pilot hole and take place the problem of scraping the damage.

After the coil is inserted into the wire, the lower rotary table 10 and the upper rotary table 4 are driven by the driving roller 21, so that the lower rotary table 10 and the upper rotary table 4 drive the lower fork rod 11 and the upper fork rod 6 to reset and separate from the workpiece, and then the workpiece with the inserted wire is taken out, so far, the inserted wire positioning device completely completes positioning work, and the inserted wire positioning device can enter the next working cycle.

This plug wire positioner of new forms of energy driving motor stator, compact structure, design benefit can fix a position motor stator to can use the location fork mouth 22 of last wishbone 6 and lower wishbone 11 to protect motor stator's pilot hole, thereby solved the problem that the coil damage very easily takes place for the current plug wire mode of new forms of energy driving motor stator, the needs that the plug wire location of especially adapted new forms of energy driving motor stator used.

Claims (7)

1. A plug wire positioning device of a new energy drive motor stator comprises a bottom plate (1), an assembling plate (2), an upper rotary plate (4), a lower rotary plate (10), an upper groove plate (3), a lower groove plate (7), an upper fork rod (6), a lower fork rod (11) and a positioning seat (8); the method is characterized in that: the bottom plate (1) is provided with an assembling plate (2); an upper groove disc (3) is fixedly arranged on the upper end surface of the assembling plate (2); an upper turntable (4) is movably arranged between the upper groove disc (3) and the assembly plate (2); the upper end of the upper groove plate (3) is provided with an upper sealing plate (5); a plurality of upper fork rods (6) are movably arranged between the upper closing plate (5) and the upper groove disc (3) in a divergence shape; the upper fork rod (6) penetrates through the upper groove disc (3) and then is connected with the upper rotary disc (4); a lower groove disc (7) is arranged on the lower end face of the assembling plate (2); a plurality of positioning seats (8) are uniformly arranged in the lower groove disc (7); a supporting ring plate (9) is arranged on the bottom plate (1) below the lower groove disc (7); a lower turntable (10) is movably arranged between the supporting ring plate (9) and the lower groove disc (7); a plurality of lower fork rods (11) are movably arranged between the lower rotary disc (10) and the lower groove disc (7) in a divergence shape.

2. The device for positioning the plug wire of the stator of the new energy drive motor according to claim 1, characterized in that: the middle part of the assembly plate (2) is provided with a through hole (12).

3. The device for positioning the plug wire of the stator of the new energy drive motor according to claim 1, characterized in that: the upper end surface of the upper groove plate (3) is in a divergent shape and is provided with a plurality of guide sliding grooves (13); a guide sliding hole (14) is arranged in the guide sliding chute (13); an assembly ring edge (15) is arranged on the lower end face of the upper grooved disc (3); the lower end of the upper fluted disc (3) is movably provided with an upper rotating disc (4) through an assembling ring edge (15).

4. The device for positioning the plug wire of the stator of the new energy drive motor according to claim 3, wherein: an annular boss (16) is arranged on the inner side of the upper surface of the supporting ring plate (9); a plurality of spacing blocks (17) are uniformly arranged on the inner surface of the annular boss (16) in a divergent shape; the side surface of the spacing block (17) is connected with the lower fork rod (11) in a sliding way; the supporting ring plate (9) is movably provided with a lower turntable (10) through an annular boss (16).

5. The device for positioning the plug wire of the stator of the new energy drive motor according to claim 4, wherein: the upper turntable (4) and the lower turntable (10) are both composed of turntable bodies (18); the turntable body (18) is of a circular ring-shaped structure; the turntable body (18) is provided with a plurality of arc-shaped driving grooves (19); one side of the turntable body (18) is provided with a transmission support lug (20); the transmission support lug (20) is provided with a driving roller (21).

6. The device of claim 5, wherein the wire insertion positioning device comprises: the lower end surface of the lower groove plate (7) is provided with a plurality of guide sliding grooves (13) in a divergent shape; a plurality of positioning seats (8) are uniformly arranged on the upper end surface of the lower groove disc (7).

7. The device for positioning the plug wire of the stator of the new energy drive motor according to claim 6, wherein: one end of the upper fork rod (6) and one end of the lower fork rod (11) are both provided with a positioning fork opening (22); the lower end surface of the upper fork rod (6) and the lower end surface of the lower fork rod (11) are both provided with an inserting sliding pin (23); the upper fork rod (6) penetrates through the guide sliding hole (14) through an inserting sliding pin (23) and then is in sliding connection with the arc-shaped driving groove (19) of the upper turntable (4); the lower fork rod (11) is connected with the arc-shaped driving groove (19) of the lower rotary table (10) in a sliding manner through the inserting sliding pin (23).

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