CN215998350U - Riveting and shaping device for rotor balance block - Google Patents

Abstract

The utility model discloses a riveting and shaping device for a rotor balance block, which comprises a riveting workbench, a riveting device arranged on the riveting workbench and a riveting die arranged between the riveting workbench and the riveting device; the riveting and shaping device is characterized by further comprising a riveting and shaping assembly arranged on the riveting die. The utility model has the advantages that through the arrangement of the riveting and shaping component, the outer wall of the rotor is shaped during riveting through the riveting and shaping component, the size of the outer wall of the rotor is prevented from changing, and the quality of the rotor is reduced; through the arrangement of the sliding boss on the shaping sliding block, the shaping sliding block is matched with the sliding groove on the sleeve through the sliding boss, so that the shaping sliding block can slide conveniently; through the setting of the sliding limiting groove on the shaping sliding block, shaping sliding is matched with the positioning clamp column through the sliding limiting groove, so that the sliding stroke of the shaping sliding block is limited conveniently.

Description

Riveting and shaping device for rotor balance block

Technical Field

The utility model relates to a riveting set technical field specifically indicates a rotor balancing piece riveting shaping device.

Background

Need rivet spare part at top surface and bottom surface after the rotor processing is accomplished, but among the prior art, drive through pressurized cylinder and rivet mould and rivet the cylinder down and carry out the crimping simultaneously to the top surface and the bottom surface of rotor, but the both ends of rotor atress simultaneously during the crimping can make the mid portion of rotor produce deformation, and the upper and lower diameter of rotor differs to rotor riveted quality has been reduced, and then the life of motor has been reduced. Therefore, the riveting and shaping device for the rotor balance weight is provided.

Disclosure of Invention

The utility model aims at solving current technique, drive through pressurized cylinder and rivet the mould and rivet the cylinder down and carry out the crimping simultaneously to the top surface and the bottom surface of rotor in the riveting, but the both ends of rotor atress simultaneously when crimping can make the mid portion of rotor produce deformation, and the upper and lower diameter of rotor differs to reduced the riveted quality of rotor, and then reduced the life scheduling problem of motor and proposed a rotor balancing piece riveting shaping device.

In order to achieve the above purpose, the utility model provides a following technical scheme: a riveting and shaping device for a rotor balance block comprises a riveting workbench, a riveting device arranged on the riveting workbench and a riveting die arranged between the riveting workbench and the riveting device; the riveting and shaping device is characterized by further comprising a riveting and shaping assembly arranged on the riveting die.

Preferably, the riveting die comprises a riveting lower die arranged on the riveting workbench, a riveting mounting plate arranged on the riveting device and a riveting upper die arranged on the riveting mounting plate; the riveting and shaping assembly is arranged on a riveting mounting plate of a riveting die; and riveting grooves matched with the rotor balance blocks are formed in the riveting lower die and the riveting upper die.

Preferably, the riveting upper die is also provided with a counter bore guide shaft; the riveting lower die is also provided with a riveting bottom plate mounting plate and a positioning mandrel; the riveting shaping assembly comprises a sleeve arranged on the riveting mounting plate and a shaping sliding block arranged in the sleeve.

Preferably, the shaping sliding block is provided with a plurality of sliding bosses and sliding limiting grooves; the sleeve is provided with a sliding groove matched with the sliding boss and a positioning clamping column matched with the sliding limiting groove; and a plurality of springs are arranged between the shaping sliding block and the riveting mounting plate.

Preferably, the riveting device comprises a plurality of supporting guide posts arranged on a riveting workbench, an upper riveting assembly and a lower riveting assembly arranged on the supporting guide posts; the riveting mounting plate is mounted on an upper riveting component of the riveting device.

Preferably, the upper riveting component comprises an additional lower riveting cylinder arranged on the supporting guide post and an upper riveting sliding plate connected with the upper riveting cylinder and the lower riveting cylinder; the upper riveting sliding plate is provided with a table-board connecting plate; the riveting mounting plate is mounted on the table-board connecting plate of the upper riveting assembly.

Preferably, the lower riveting component comprises a lower riveting cylinder arranged on the support guide post and a lower riveting plate connected with the lower riveting cylinder; and the lower riveting plate is provided with a riveting block and a guide sleeve matched with the support guide post.

The utility model has the advantages that: through the arrangement of the riveting and shaping assembly, the outer wall of the rotor is shaped through the riveting and shaping assembly during riveting, so that the size of the outer wall of the rotor is prevented from changing, and the quality of the rotor is reduced;

through the arrangement of the sliding boss on the shaping sliding block, the shaping sliding block is matched with the sliding groove on the sleeve through the sliding boss, so that the shaping sliding block can slide conveniently;

through the setting of the sliding limiting groove on the shaping sliding block, shaping sliding is matched with the positioning clamp column through the sliding limiting groove, so that the sliding stroke of the shaping sliding block is limited conveniently.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial enlarged view of the position a of the present invention.

Fig. 3 is a partial enlarged view of the present invention at B.

Fig. 4 is a schematic structural view of the sleeve of the present invention.

Fig. 5 is a schematic structural diagram of the shaping slider of the present invention.

Illustration of the drawings: 1 riveting a workbench; 2, riveting a device; 201 supporting a guide post; 202 riveting the components; 203 lower riveting component; 204 adding a lower riveting cylinder; 205 riveting a sliding plate; 206 a table top connection plate; 207 lower riveting a cylinder; 208 lower riveting plate; 209 a riveting block; 210 a guide sleeve; 3 riveting a die; 301 riveting a lower die; 302 riveting a mounting plate; 303 riveting an upper die; 304 a counterbore guide shaft; 305 riveting the base plate mounting plate; 306 positioning the mandrel; 307 riveting the groove; 4 riveting a shaping component; 401 a sleeve; 402, shaping the sliding block; 403 sliding bosses; 404 sliding a limit groove; 405 a sliding groove; 406 positioning the snap post; 407 spring.

Detailed Description

The following description will be made with reference to the accompanying drawings for further explaining a riveting and shaping device for a rotor balance block of the present invention.

Referring to fig. 1, the riveting and shaping device for the rotor balance block in the embodiment includes a riveting workbench 1, a riveting device 2 installed on the riveting workbench 1, and a riveting die 3 installed between the riveting workbench 1 and the riveting device 2; the riveting and shaping device is characterized by also comprising a riveting and shaping component 4 arranged on the riveting die 3; through the setting of riveting plastic subassembly 4, carry out the plastic through riveting plastic subassembly 4 to the outer wall of rotor when riveting, prevent that the outer wall size of rotor from producing the change, reduce the quality of rotor.

Referring to fig. 1 to 5, the riveting die 3 includes a lower riveting die 301 mounted on the riveting table 1, a riveting mounting plate 302 mounted on the riveting device 2, and an upper riveting die 303 mounted on the riveting mounting plate 302; the riveting and shaping component 4 is arranged on a riveting mounting plate 302 of the riveting die 3; riveting grooves 307 matched with the rotor balance blocks are formed in the riveting lower die 301 and the riveting upper die 303; a counter bore guide shaft 304 is further mounted on the riveting upper die 302; the riveting lower die 301 is also provided with a riveting base plate mounting plate 305 and a positioning mandrel 306; the riveting reshaping component 4 comprises a sleeve 401 arranged on the riveting installation plate 302 and a reshaping sliding block 402 arranged in the sleeve 401; the shaping sliding block 402 is provided with a plurality of sliding bosses 403 and sliding limiting grooves 404; the sleeve 401 is provided with a sliding groove 405 matched with the sliding boss 403 and a positioning clamp column 406 matched with the sliding limiting groove 404; a plurality of springs 407 are arranged between the shaping sliding block 402 and the riveting mounting plate 302; by arranging the sliding bosses 403 on the shaping slider 402, the shaping slider 402 is matched with the sliding grooves 405 on the sleeve 401 through the sliding bosses 403, so that the shaping slider 402 can slide conveniently; through the arrangement of the sliding limiting groove 404 on the shaping slider 402, the shaping slider 402 is matched with the positioning clamping column 406 through the sliding limiting groove 404, so that the sliding stroke of the shaping slider 402 is limited conveniently.

Referring to fig. 1 to 3, the riveting device 2 comprises a plurality of supporting guide columns 201 installed on the riveting workbench 1, an upper riveting component 202 and a lower riveting component 203 installed on the supporting guide columns 201; the riveting mounting plate 302 is mounted on the upper riveting component 202 of the riveting device 2; the upper riveting component 202 comprises an additional lower riveting cylinder 204 arranged on the support guide column 201 and an upper riveting sliding plate 205 connected with the upper riveting cylinder 204 and the lower riveting cylinder 204; the upper riveting sliding plate 205 is provided with a table top connecting plate 206; the riveting mounting plate 302 is mounted on the table top connecting plate 206 of the upper riveting assembly 202; the lower riveting component 203 comprises a lower riveting cylinder 207 arranged on the support guide column 201 and a lower riveting plate 208 connected with the lower riveting cylinder 207; the lower riveting plate 208 is provided with a riveting block 209 and a guide sleeve 210 matched with the support guide column 201; the upper riveting sliding plate 205 is driven to move downwards by the upper and lower riveting air cylinders 204, the upper riveting sliding plate 205 drives the table-board connecting plate 206 and the upper riveting die 303 installed on the table-board connecting plate 206 to move downwards along the supporting guide post 201 to rivet the top of the rotor, the lower riveting air cylinder 204 drives the lower riveting plate 208 to move upwards, and the lower riveting plate 208 drives the riveting block 209 to move upwards along the supporting guide post 201 to rivet the bottom of the rotor, so that the riveting of the rotor is facilitated.

The working process of the utility model, firstly, the rotor balancing block needing riveting is placed on the rivets on the aluminum end rings at the upper end and the lower end of the rotor, then the rotor is positioned and installed on the riveting lower die 301 through the positioning mandrel 306, meanwhile, the rotor balancing block at the lower end of the rotor is matched with the riveting groove of the riveting lower die, then the upper riveting cylinder 204 drives the upper riveting sliding plate 205 to move downwards, the upper riveting sliding plate 205 drives the table-board connecting plate 206, the upper riveting die 303 installed on the table-board connecting plate 206 and the riveting shaping component 4 move downwards to be matched with the rotor, the shaping slide block 402 in the riveting shaping component 4 moves upwards along the sliding groove 405 on the sleeve 401 through being contacted with the rotor balancing block, so that the spring 407 between the shaping slide block 402 and the riveting installing plate 302 is compressed and contracted, and is limited by the lower end of the positioning clamp column 406 and the sliding limiting groove 404, and the sliding distance of the shaping slide block 402 is ensured, simultaneously riveting cylinder 204 drives riveting plate 208 upward movement down, riveting plate 208 drives riveting block 209 along supporting guide post 201 upward movement down, thereby rivet the rotor, during the riveting, plastic slider 402 fixes the outer wall of rotor, prevent the size grow of rotor interlude, influence the quality of rotor crimping, after the crimping is accomplished, riveting cylinder 204 drives riveting block 209 downward movement down, it drives mould 303 in the riveting to go up riveting cylinder 204, sleeve 401 and plastic slider 402 upward movement, promote plastic slider 402 downward movement along slip spacing groove 404 simultaneously because of the elasticity of spring 407, and spacing through the upper end looks adaptation of location calorie post 406 with slip spacing groove 402, then more renew rotor balancing piece rivets.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (7)

1. A riveting and shaping device for a rotor balance block comprises a riveting workbench (1), a riveting device (2) arranged on the riveting workbench (1) and a riveting die (3) arranged between the riveting workbench (1) and the riveting device (2); the riveting and shaping device is characterized by further comprising a riveting and shaping assembly (4) arranged on the riveting die (3).

2. The riveting and shaping device for the rotor balance weight according to claim 1, which is characterized in that: the riveting die (3) comprises a riveting lower die (301) arranged on the riveting workbench (1), a riveting mounting plate (302) arranged on the riveting device (2) and a riveting upper die (303) arranged on the riveting mounting plate (302); the riveting and shaping assembly (4) is arranged on a riveting mounting plate (302) of the riveting die (3); and riveting grooves (307) matched with the rotor balance blocks are formed in the riveting lower die (301) and the riveting upper die (303).

3. The riveting and shaping device for the rotor balance weight according to claim 2, wherein: a counter bore guide shaft (304) is further mounted on the riveting upper die (303); the riveting lower die (301) is also provided with a riveting bottom plate mounting plate (305) and a positioning mandrel (306); the riveting reshaping component (4) comprises a sleeve (401) arranged on the riveting installation plate (302) and a reshaping sliding block (402) arranged in the sleeve (401).

4. The riveting and shaping device for the rotor balance weight according to claim 3, wherein: the shaping sliding block (402) is provided with a plurality of sliding bosses (403) and sliding limiting grooves (404); the sleeve (401) is provided with a sliding groove (405) matched with the sliding boss (403) and a positioning clamp column (406) matched with the sliding limiting groove (404); and a plurality of springs (407) are arranged between the shaping sliding block (402) and the riveting mounting plate (302).

5. The riveting and shaping device for the rotor balance weight according to claim 2, wherein: the riveting device (2) comprises a plurality of supporting guide columns (201) arranged on the riveting workbench (1), an upper riveting component (202) and a lower riveting component (203) which are arranged on the supporting guide columns (201); the riveting mounting plate (302) is mounted on an upper riveting component (202) of the riveting device (2).

6. The riveting and shaping device for the rotor balance weight according to claim 5, wherein: the upper riveting component (202) comprises an upper riveting cylinder (204) and a lower riveting cylinder (204) which are arranged on the support guide column (201) and an upper riveting sliding plate (205) which is connected with the upper riveting cylinder and the lower riveting cylinder (204); a table top connecting plate (206) is arranged on the upper riveting sliding plate (205); the riveting mounting plate (302) is mounted on a table top connecting plate (206) of the upper riveting assembly (202).

7. The riveting and shaping device for the rotor balance weight according to claim 5, wherein: the lower riveting component (203) comprises a lower riveting cylinder (207) arranged on the support guide column (201) and a lower riveting plate (208) connected with the lower riveting cylinder (207); and the lower riveting plate (208) is provided with a riveting block (209) and a guide sleeve (210) matched with the support guide column (201).

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