CN216502176U - Rotor core riveting point mechanism - Google Patents

Abstract

The utility model relates to a riveting point mechanism for a rotor core, which belongs to the technical field of rotor core processing equipment and comprises a rotor core fixing jig, wherein a pressing assembly is arranged on the rotor core fixing jig, and riveting point assemblies are arranged on two sides of the rotor core fixing jig. The fixed smelting of rotor core include fixed smelting tool bottom plate, fixed smelting tool bottom plate upper end and compress tightly the subassembly between be equipped with fixed smelting tool bottom plate fixed rotor core fixing base of movable swivelling joint. Has simple structure, good operation stability and high efficiency. The problem that the rotor core can not be limited when being inserted into the magnetic shoe is solved.

Description

Rotor core riveting point mechanism

Technical Field

The utility model relates to the technical field of rotor core processing equipment, in particular to a rotor core riveting point mechanism.

Background

Because the clamping groove that inserts the magnetic shoe in the rotor core outside is intercommunication from top to bottom, need carry out the riveting to the clamping groove lower extreme in the rotor core outside, play the limiting displacement to the magnetic shoe.

Disclosure of Invention

The utility model mainly solves the defects of complex structure, poor operation stability and low efficiency in the prior art, and provides a rotor core riveting mechanism which has the advantages of simple structure, good operation stability and high efficiency. The problem that the rotor core can not be limited when being inserted into the magnetic shoe is solved.

The technical problem of the utility model is mainly solved by the following technical scheme:

the utility model provides a rotor core riveting point mechanism, includes that rotor core is fixed smelt, rotor core fix smelt be equipped with on compress tightly the subassembly, rotor core fix smelt both sides all be equipped with the riveting point subassembly. The fixed smelting of rotor core include fixed smelting tool bottom plate, fixed smelting tool bottom plate upper end and compress tightly the subassembly between be equipped with fixed smelting tool bottom plate fixed rotor core fixing base of movable swivelling joint.

Preferably, the riveting point assembly comprises a riveting cylinder, a riveting pressing block movably connected with the rotor core fixing seat in a pressing mode is arranged between the riveting cylinder and the rotor core fixing seat, and a riveting connecting seat is arranged between the riveting pressing block and the riveting cylinder.

Preferably, a guide rail supporting I-steel is arranged between the riveting cylinder and the fixed smelting tool bottom plate, a guide rail which is sleeved with the riveting cylinder is arranged at the upper end of the guide rail supporting I-steel, a guide sliding block which is connected with the guide rail in a sliding type inserting and embedding manner is arranged between the guide rail and the riveting connecting seat, and a connecting block is arranged between the guide sliding block and the riveting connecting seat.

Preferably, the compressing assembly comprises a compressing assembly bottom plate, a plurality of supporting columns are arranged at the rear end of the compressing assembly bottom plate, an upper fixing plate is arranged at the upper ends of the supporting columns, a lower pressing cylinder extending out of the lower end of the upper fixing plate is arranged at the upper end of the upper fixing plate, and a limiting guide pressing block movably press-embedded with the rotor core on the rotor core fixing seat is arranged at the lower end of the lower pressing cylinder.

Preferably, a movable pressing plate is arranged between the limiting guide pressing block and the lower pressing cylinder, a transition pressing block is arranged between the movable pressing plate and the lower pressing cylinder, a plurality of guide rods which are in penetrating type sleeve joint with the movable pressing plate are arranged between the support column and the rotor core fixing seat, and guide sleeves which are in movable sleeve joint with the guide rods are arranged between the guide rods and the movable pressing plate.

Preferably, the lower end of the bottom plate of the fixed jig is provided with a rotation angle motor which is connected and fixed with the rotor core fixing seat in an inserting and embedding manner in a limiting manner, and the rotor core fixing seat is provided with a plurality of photoelectric switches which are communicated and controlled with a rotation angle motor phase circuit.

Preferably, the front end of one side of the bottom plate of the fixed jig is provided with a code scanner mounting bracket, and the upper end of the code scanner mounting bracket is provided with a code scanner. The processing technology and related parameters of the rotor core are correspondingly tracked through the code scanner, so that when the rotor core is used by a user, parts of a product are all one object and one code, and data query of each processing link can be carried out.

The utility model can achieve the following effects:

compared with the prior art, the rotor core riveting point mechanism has the advantages of simple structure, good operation stability and high efficiency. The problem that the rotor core can not be limited when being inserted into the magnetic shoe is solved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a side view of the present invention.

In the figure: compress tightly subassembly 1, riveting subassembly 2, the fixed smelting tool 3 of rotor core, riveting cylinder 4, riveting connecting seat 5, riveting briquetting 6, air cylinder 7 pushes down, an upper fixed plate 8, transition briquetting 9, remove clamp plate 10, bar code scanner 11, bar code scanner installing support 12, uide bushing 13, guide bar 14, connecting block 15, direction slider 16, guide rail 17, rotor core fixing base 18, rotation angle motor 19, fixed smelting tool bottom plate 20, guide rail support I-steel 21, photoelectric switch 22, spacing direction briquetting 23, compress tightly subassembly bottom plate 24, support column 25.

Detailed Description

The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.

Example (b): as shown in fig. 1, 2 and 3, a rotor core riveting point mechanism, including the fixed smelting 3 of rotor core, the fixed smelting 3 of rotor core is equipped with bar code device installing support 12 including fixed smelting tool bottom plate 20, fixed smelting tool bottom plate 20 one side front end, and bar code device installing support 12 upper end is equipped with bar code device 11. A rotor iron core fixing seat 18 which is movably and rotatably connected and fixed with the fixed smelting tool bottom plate 20 is arranged between the upper end of the fixed smelting tool bottom plate 20 and the pressing component 1. The lower end of the fixed smelting tool bottom plate 20 is provided with a rotating angle motor 19 which is fixedly connected with the rotor core fixing seat 18 in a limiting and inserting manner through a clamping spring, and the rotor core fixing seat 18 is provided with 2 photoelectric switches 22 which are communicated and controlled with the rotating angle motor 19 in a circuit mode. Be equipped with on the fixed 3 of smelting of rotor core and compress tightly subassembly 1, compress tightly subassembly 1 including compressing tightly subassembly bottom plate 24, compress tightly subassembly bottom plate 24 rear end and be equipped with a plurality of support columns 25, the support column 25 upper end is equipped with upper fixed plate 8, 8 upper ends of upper fixed plate are equipped with the air cylinder 7 that pushes down that extends the 8 lower extremes of upper fixed plate, push down the air cylinder 7 lower extreme be equipped with rotor core movable type pressure on the rotor core fixing base 18 inlay spacing direction briquetting 23. A movable pressing plate 10 is arranged between the limiting guide pressing block 23 and the pressing cylinder 7, a transition pressing block 9 is arranged between the movable pressing plate 10 and the pressing cylinder 7, 2 guide rods 14 which are in through type sleeve joint with the movable pressing plate 10 are arranged between the supporting columns 25 and the rotor core fixing seat 18, and guide sleeves 13 which are in movable sleeve joint with the guide rods 14 are arranged between the guide rods 14 and the movable pressing plate 10. The fixed 3 both sides of smelting of rotor core all are equipped with riveting subassembly 2. The riveting point component 2 comprises a riveting cylinder 4, a riveting pressing block 6 movably connected with the rotor core fixing seat 18 in a pressing mode is arranged between the riveting cylinder 4 and the rotor core fixing seat 18, and a riveting connecting seat 5 is arranged between the riveting pressing block 6 and the riveting cylinder 4. A guide rail supporting I-steel 21 is arranged between the air cylinder 4 and the fixed smelting tool bottom plate 20, a guide rail 17 which is sleeved with the riveting air cylinder 4 is arranged at the upper end of the guide rail supporting I-steel 21, a guide sliding block 16 which is connected with the guide rail 17 in a sliding insertion and embedding manner is arranged between the guide rail 17 and the riveting connecting seat 5, and a connecting block 15 is arranged between the guide sliding block 16 and the riveting connecting seat 5.

Rotor core places on rotor core fixing base 18, detects the required rotation angle of riveting the point of rotor core through photoelectric switch 22 for rotation angle motor 19 drives rotor core fixing base 18 and loops through riveting cylinder 4 and promotes riveting connecting seat 5 and accomplish the riveting crimping process by riveting briquetting 6. In order to avoid the offset in the riveting point crimping process, a lower pressing cylinder 7 is adopted above the rotor core, and a limiting guide pressing block 23 at the lower end of a movable pressing plate 10 is driven by a transition pressing block 9 to realize the pressing and fixing of the rotor core.

In conclusion, the rotor core riveting mechanism has the advantages of simple structure, good operation stability and high efficiency. The problem that the rotor core can not be limited when being inserted into the magnetic shoe is solved.

It is obvious to a person skilled in the art that the utility model is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the essential characteristics of the utility model. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In summary, the above description is only an embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any changes or modifications within the scope of the present invention by those skilled in the art are covered by the present invention.

Claims (7)

1. The utility model provides a rotor core riveting point mechanism which characterized in that: the device comprises a rotor core fixing jig (3), wherein a pressing component (1) is arranged on the rotor core fixing jig (3), and riveting point components (2) are arranged on two sides of the rotor core fixing jig (3); fixed smelting tool (3) of rotor core including fixed smelting tool bottom plate (20), fixed smelting tool bottom plate (20) upper end and compress tightly subassembly (1) between be equipped with fixed smelting tool bottom plate (20) fixed rotor core fixing base (18) of movable swivelling joint mutually.

2. The rotor core riveting point mechanism of claim 1, wherein: the riveting point component (2) comprises a riveting cylinder (4), a riveting pressing block (6) which is movably connected with the rotor core fixing seat (18) in a pressing mode is arranged between the riveting cylinder (4) and the rotor core fixing seat (18), and a riveting connecting seat (5) is arranged between the riveting pressing block (6) and the riveting cylinder (4).

3. The rotor core riveting point mechanism of claim 2, wherein: riveting cylinder (4) and fixed smelting tool bottom plate (20) between be equipped with guide rail support I-steel (21), guide rail support I-steel (21) upper end be equipped with guide rail (17) that cup joint mutually with riveting cylinder (4), guide rail (17) and riveting connecting seat (5) between be equipped with guide rail (17) looks slidingtype insert inlay the direction slider (16) of being connected, direction slider (16) and riveting connecting seat (5) between be equipped with connecting block (15).

4. The rotor core riveting point mechanism of claim 1, wherein: compress tightly subassembly (1) including compressing tightly subassembly bottom plate (24), compress tightly subassembly bottom plate (24) rear end be equipped with a plurality of support columns (25), support column (25) upper end be equipped with upper fixed plate (8), upper fixed plate (8) upper end be equipped with and extend upper fixed plate (8) lower extreme down push down cylinder (7), push down cylinder (7) lower extreme be equipped with rotor core on rotor core fixing base (18) movable press the spacing direction briquetting (23) of inlaying mutually.

5. The rotor core riveting point mechanism of claim 4, wherein: spacing direction briquetting (23) and push down cylinder (7) between be equipped with removal clamp plate (10), removal clamp plate (10) and push down cylinder (7) between be equipped with transition briquetting (9), support column (25) and rotor core fixing base (18) between be equipped with a plurality of and remove clamp plate (10) and run through the guide bar (14) that the formula cup jointed mutually, guide bar (14) and removal clamp plate (10) between all be equipped with guide bar (14) movable uide bushing (13) that cup joint mutually.

6. The rotor core riveting point mechanism of claim 1, wherein: fixed smelting tool bottom plate (20) lower extreme be equipped with rotor core fixing base (18) looks jump ring spacing formula insert inlay and connect fixed rotation angle motor (19), rotor core fixing base (18) on be equipped with a plurality of with rotation angle motor (19) looks circuit intercommunication control photoelectric switch (22).

7. The rotor core riveting point mechanism of claim 1, wherein: fixed smelting tool bottom plate (20) one side front end be equipped with code scanner installing support (12), code scanner installing support (12) upper end be equipped with code scanner (11).

Images