CN216851666U - Shaping device of wire arranging machine - Google Patents

Abstract

The utility model discloses a shaping device of a thread trimming machine, which comprises a machine body, wherein a stator die is arranged on the machine body; the wire arrangement mechanism comprises a driving assembly, a first positioning assembly, a second positioning assembly and a wire arrangement die, wherein the wire arrangement die is arranged on the machine body, positioned above the positioning assembly and capable of moving along the height direction of the machine body; the first positioning assembly comprises a plurality of first positioning blocks and a driving sleeve, and the first positioning blocks are arranged around the outer side of the wire arranging die and are arranged at intervals with the outer wall of the wire arranging die; the driving sleeve is sleeved outside the first positioning blocks and can move along the height direction of the machine body; the second positioning assembly comprises a plurality of second positioning blocks and a driving rod, and the second positioning blocks are connected to the inner side of the wire arranging die in a penetrating manner and are arranged at intervals with the inner wall of the wire arranging die; the driving rod is connected to the inner sides of the second positioning blocks in a penetrating mode and can move in the height direction of the machine body. The utility model discloses can strut the coil including when giving the stator plastic, press from both sides tight stator outside to prevent that the coil from leading to the fracture when because of the plastic.

Description

Shaping device of wire arranging machine

Technical Field

The utility model relates to a whole line machine equipment technical field especially relates to a shaping device of whole line machine.

Background

Stator coil includes stator core and the coil of winding on stator core, and when production stator coil, the coil winding is fluffy behind stator core, need compress tightly its coil that needs to carry out the plastic in order to expose stator core both ends, impress the interior sword wire casing with the coil between the stator core both ends simultaneously.

In the stator coil plastic process, when the coil receives the extrusion, if do not have a protection mechanism protection stator, lead to coil fracture very easily, slot paper, cover paper also very easily damaged to lead to the stator to take place the short circuit when using.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a shaping device of a wire shaping machine, which can open a coil when shaping a stator and clamp the stator outside, thereby preventing the coil from being broken when shaping.

The purpose of the utility model is realized by adopting the following technical scheme:

a shaping device of a thread trimming machine comprises,

the stator clamping device comprises a machine body, wherein a stator die for clamping a stator is arranged on the machine body;

the wire arrangement mechanism comprises a driving assembly, a first positioning assembly, a second positioning assembly and a wire arrangement die, wherein the wire arrangement die is arranged on the machine body, is positioned above the stator die and can move along the height direction of the machine body; the first positioning assembly comprises a plurality of first positioning blocks and a driving sleeve, and the first positioning blocks are arranged around the outer side of the wire arranging die and are arranged at intervals with the outer wall of the wire arranging die; the driving sleeve is sleeved outside the first positioning blocks and can move along the height direction of the machine body; the driving sleeve is used for driving the first positioning blocks to be close to or far away from the wire arranging die when moving along the height direction of the machine body; the second positioning assembly comprises a plurality of second positioning blocks and a driving rod, and the second positioning blocks are connected to the inner side of the wire arranging die in a penetrating mode and are arranged at intervals with the inner wall of the wire arranging die; the driving rod is connected to the inner sides of the second positioning blocks in a penetrating mode and can move in the height direction of the machine body; the driving rod is used for driving the second positioning blocks to move close to or far away from the line shaping die when moving along the height direction of the machine body; the driving assembly is used for driving the wire arranging die, the driving sleeve and the driving rod to move.

Furthermore, a plurality of guide blocks are arranged on the inner wall of the driving sleeve, and the guide blocks are arranged between every two adjacent first positioning blocks; the side surface of the positioning block is provided with a guide surface, and two sides of the guide block are used for being in sliding fit with the guide surface; the guide surface is inclined inward from top to bottom.

Furthermore, the bottom end of the driving rod is provided with a guide surface, and the guide surface is gradually inclined outwards from top to bottom; the guide surface is used for being in sliding fit with the inner wall of the second positioning block.

Further, the driving assembly comprises a driving piece, a first driving plate and a second driving plate, and the first driving plate and the second driving plate are distributed at intervals in the height direction of the machine body; the first driving plate is positioned above the second driving plate and connected through a connecting rod, and the top end of the driving rod is connected with the first driving plate; the top ends of the wire arranging die and the driving sleeve are connected with the second driving plate; the driving piece is used for driving the first driving plate to move along the height direction of the machine body.

Further, the driving part comprises a driving motor, a screw rod, a nut and a guide part, the driving motor is installed on the machine body, one end of the screw rod is connected with a rotating shaft of the motor, the nut is sleeved on the screw rod in a threaded mode and is installed on the first driving plate, and the guide part is used for guiding the first driving plate to move along the height direction of the machine body when the nut rotates.

Further, the guide piece comprises a guide rod and a guide sleeve, and the guide sleeve is arranged on each of the first drive plate and the second drive plate; the guide rod is connected in the guide sleeve in a penetrating mode.

Furthermore, the driving piece further comprises a synchronous belt transmission mechanism, and a rotating shaft of the driving motor is synchronously connected with the screw rod through the synchronous belt transmission mechanism.

Furthermore, an elastic component is sleeved outside the driving rod; the elastic component is clamped between the machine body and the second positioning block.

Furthermore, the wire arranging mechanism is arranged below the stator die.

Compared with the prior art, the beneficial effects of the utility model reside in that: it is when carrying out the plastic, can advance the stator assembly on the stator mould, then drive assembly drives whole line mould, driving sleeve and actuating lever downstream simultaneously, a plurality of first locating pieces can be close to the tight outward surface of stator of sizing die clamp and fix a position the stator under the drive of driving sleeve, a plurality of second locating pieces can stretch into in the shaft hole of stator simultaneously, outwards expand under the drive of actuating lever, then whole line mould can carry out whole line action simultaneously at the stator location, and prop open coil including a plurality of second locating pieces can when giving the stator plastic, thereby prevent that the coil from leading to the fracture when because of the plastic.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of another perspective structure of the present invention;

FIG. 3 is a cross-sectional view of the thread trimming mechanism of the present invention;

fig. 4 is another view structure diagram of the thread trimming mechanism of the present invention.

In the figure: 10. a body; 11. a stator die; 20. a wire arrangement mechanism; 21. a drive assembly; 211. A drive motor; 212. a synchronous belt transmission mechanism; 213. a first drive plate; 214. a second drive plate; 215. a screw rod; 221. a first positioning block; 222. a drive sleeve; 231. a second positioning block; 232. a drive rod; 24. and (5) finishing the wire.

Detailed Description

The invention will be further described with reference to the following drawings and detailed description:

the shaping device of the wire arranging machine shown in fig. 1-4 comprises a machine body 10 and a wire arranging mechanism 20, wherein a stator die 11 is arranged on the machine body 10, the stator die 11 is used for clamping a stator, and the wire arranging mechanism 20 can be arranged above the stator die 11.

The specific wire arranging mechanism 20 comprises a driving assembly 21, a first positioning assembly, a second positioning assembly and a wire arranging die 24, wherein the wire arranging die 24 is arranged on the machine body 10 and is positioned above the stator die 11, and the wire arranging die 24 can move along the height direction of the machine body 10.

The first positioning assembly includes a plurality of first positioning blocks 221 and a driving sleeve 222, the plurality of first positioning blocks 221 are disposed around the outer side of the wire arranging mold 24, the plurality of first positioning blocks 221 are disposed at intervals with the outer wall of the wire arranging mold 24, the driving sleeve 222 is sleeved outside the plurality of first positioning blocks 221, the driving sleeve 222 can move along the height direction of the machine body 10, and the driving sleeve 222 can drive the plurality of first positioning blocks 221 to approach or leave the wire arranging mold 24 when moving along the height direction of the machine body 10.

In addition, the second positioning assembly includes a plurality of second positioning blocks 231 and a driving rod 232, the plurality of second positioning blocks 231 are connected to the inner side of the wire arranging mold 24 in a penetrating manner, the plurality of second positioning blocks 231 can be arranged at intervals with the inner wall of the wire arranging mold 24, the driving rod 232 is connected to the inner side of the plurality of second positioning blocks 231 in a penetrating manner, the driving rod 232 can move along the height direction of the machine body 10, the driving rod 232 can drive the plurality of second positioning blocks 231 to approach or be far away from the wire arranging mold 24 when moving along the height direction of the machine body 10, and the driving assembly 21 is used for driving the wire arranging mold 24, the driving sleeve 222 and the driving rod 232 to move.

On the basis of the structure, use the utility model discloses a during shaping device of whole line machine, when carrying out whole line, can advance the stator assembly on stator mould 11, then drive assembly 21 drives whole line mould 24, drive sleeve 222 and actuating lever 232 downstream simultaneously, and a plurality of first locating module 221 can enclose the location periphery of establishing at stator mould 11, and a plurality of first locating module 221 then can stretch into in the shaft hole of stator mould 11.

Drive assembly 21 can drive driving sleeve 222 downstream, driving sleeve 222 is at the downstream in-process, slide in a plurality of first locating piece 221 peripheries, it is tight to press from both sides to fix a position the stator near the shaping mould to drive a plurality of first locating pieces 221, drive actuating lever 232 can downstream simultaneously, drive a plurality of second locating piece 231 and keep away from the positioning mould motion, outwards expand under the drive of actuating lever 232, a plurality of second locating piece 231 alright insert in the coil of location, support coil inside, then whole line mould 24 can carry out whole line action simultaneously in the stator location, and a plurality of second locating piece 231 can prop the coil including when giving the shaping, thereby prevent that the coil from leading to the fracture during because of the plastic.

In this embodiment, a plurality of guide blocks may be disposed on the inner wall of the driving sleeve, and a guide block is disposed between two adjacent first positioning blocks 221, a guide surface may be disposed on the side surface of each positioning block, two sides of the guide block are used for sliding fit with the guide surface, and the guide surface is inclined inward from top to bottom, so that when a plurality of first positioning blocks 221 are positioned, the first positioning blocks can move downward through the positioning sleeve, and the guide blocks can slide fit with the guide surface on the side surface of each positioning block.

Of course, after the stator is shaped, the driving sleeve 222 may move upward, the guiding block may move upward along the guiding surface, and the first positioning blocks 221 may be gradually unfolded to be released from the stator, so as to facilitate the stator to be taken down.

Further, can also be equipped with the spigot surface in the bottom of actuating lever 232, this spigot surface is slope outwards gradually from top to bottom, specific spigot surface is used for with second locating piece 231 inner wall sliding fit, so, when actuating lever 232 downstream, the spigot surface of actuating lever 232 bottom can cooperate with second locating piece 231 inner wall, because the spigot surface is slope outwards gradually from top to bottom, therefore can order about second locating piece 231 at actuating lever 232 downstream in-process and expand, inflation is to the inside application of force of stator coil in the stator, prevent whole line in-process coil damage.

The guide surface and the guide surface may be implemented by using a structure such as an inclined surface, a tapered surface, or an arc surface in the prior art, and in short, may be implemented by using a structure capable of decomposing and converting a longitudinal force into a transverse force.

Further, the driving assembly 21 in this embodiment includes a driving member, a first driving plate 213 and a second driving plate 214, the first driving plate 213 and the second driving plate 214 are distributed at intervals in the height direction of the machine body 10, specifically, the first driving plate 213 is located above the second driving plate 214 and is connected through a connecting rod, the top end of the driving rod 232 is connected with the first driving plate 213, and the top ends of the wire arranging mold 24 and the driving sleeve 222 are connected with the second driving plate 214; the driving member is used for driving the first driving plate 213 to move along the height direction of the machine body 10.

Thus, the wire arranging mold 24 and the driving sleeve 222 are connected with the second driving plate 214 located below, so that when the driving member acts, the driving sleeve 222 located below can drive the first positioning blocks 221 to guide the first positioning blocks 221 to be close to and clamped with the stator at the periphery of the stator, and the driving rod 232 located above also stretches into the second positioning blocks 231 after the stator is clamped, and then guides the second positioning blocks 231 to be unfolded, and the wire arranging mold 24 can perform the wire arranging action in the process.

More specifically, the driving member includes a driving motor 211, a lead screw 215, a nut, and a guide member, the driving motor 211 is mounted on the machine body 10, one end of the lead screw 215 is connected to a rotating shaft of the motor, the nut is threadedly mounted on the lead screw 215 and mounted on the first driving plate 213, and the guide member is used for guiding the first driving plate 213 to move in a height direction of the machine body 10 when the nut rotates.

On the basis of the structure, the rotating shaft of the driving motor 211 can rotate to drive the screw rod 215 to rotate, the screw rod 215 can rotate to drive the nut in threaded connection with the screw rod to rotate, the rotating movement of the nut is limited by the guide piece, and then the nut is guided to move along the extending direction of the screw rod 215, so that the first driving plate 213 connected with the nut and the second driving plate 214 connected with the first driving plate 213 are driven to move up and down, and the up and down movement is carried out by adopting threaded transmission, so that the stroke precision control of the up and down movement is more accurate.

Of course, the guide member includes a guide rod and a guide sleeve, the guide sleeve is provided on each of the first drive plate 213 and the second drive plate 214, and the guide rod is inserted into the guide sleeve. In this way, when the screw 215 rotates, the rotation of the nut is restricted by the sliding fit between the guide sleeve and the guide rod, so that the first drive plate 213 and the second drive plate 214 are guided to move up and down stably.

Furthermore, the driving member further includes a synchronous belt transmission mechanism 212, and the rotating shaft of the driving motor 211 is synchronously coupled with the screw rod 215 through the synchronous belt transmission mechanism 212, that is, the rotating shaft of the driving motor 211 can be output after being transmitted through the synchronous belt transmission mechanism 212, so that the output rotating speed is more stable.

Of course, the rotating shaft of the driving motor 211 can also be synchronously connected with the screw rod 215 through a gear transmission mechanism, and the selection can be specifically performed according to actual needs.

Furthermore, an elastic component may be sleeved outside the driving rod 232, and the elastic component is clamped between the machine body 10 and the second positioning block 231, so that the elastic component can prevent the driving rod 232 from being damaged by the impact with the inside of the stator, and can buffer the driving force of the driving rod 232 moving downwards, and the movement is relatively smooth.

It should be noted that the elastic component may be implemented by using an elastic rubber block or the like in the prior art.

Certainly, in this embodiment, the above-mentioned wire arrangement mechanism may be further disposed below the stator die, that is, the wire arrangement mechanisms are disposed above and below the stator die, the wire arrangement dies of the two wire arrangement mechanisms are respectively located above and below, the wire arrangement action may be simultaneously performed on the top end and the bottom end of the stator on the stator die under the driving of the driving assembly, and the wire arrangement efficiency is higher. For the specific line-sorting process, reference is made to the above description, which is not repeated herein in detail.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (9)

1. A shaping device of a thread trimming machine is characterized by comprising,

the stator mould clamping device comprises a machine body, wherein a stator mould for clamping a stator is arranged on the machine body;

the wire arrangement mechanism comprises a driving assembly, a first positioning assembly, a second positioning assembly and a wire arrangement die, wherein the wire arrangement die is arranged on the machine body, is positioned above the stator die and can move along the height direction of the machine body; the first positioning assembly comprises a plurality of first positioning blocks and a driving sleeve, and the first positioning blocks are arranged around the outer side of the wire arranging die and are arranged at intervals with the outer wall of the wire arranging die; the driving sleeve is sleeved outside the first positioning blocks and can move along the height direction of the machine body; the driving sleeve is used for driving the first positioning blocks to be close to or far away from the wire arranging die when moving along the height direction of the machine body; the second positioning assembly comprises a plurality of second positioning blocks and a driving rod, and the second positioning blocks are connected to the inner side of the wire arranging die in a penetrating mode and are arranged at intervals with the inner wall of the wire arranging die; the driving rod is connected to the inner sides of the second positioning blocks in a penetrating mode and can move in the height direction of the machine body; the driving rod is used for driving the second positioning blocks to move close to or far away from the line shaping die when moving along the height direction of the machine body; the driving assembly is used for driving the wire arranging die, the driving sleeve and the driving rod to move.

2. The shaping device of the thread trimming machine according to claim 1, wherein a plurality of guide blocks are arranged on the inner wall of the driving sleeve, and the guide blocks are arranged between two adjacent first positioning blocks; the side surface of the positioning block is provided with a guide surface, and two sides of the guide block are used for being in sliding fit with the guide surface; the guide surface is inclined inward from top to bottom.

3. The shaping device of the thread trimming machine according to claim 2, wherein the bottom end of the driving rod is provided with a guide surface, and the guide surface is gradually inclined outwards from top to bottom; the guide surface is used for being in sliding fit with the inner wall of the second positioning block.

4. The shaping device of the wire shaping machine as claimed in any one of claims 1 to 3, wherein the driving assembly comprises a driving member, a first driving plate and a second driving plate, and the first driving plate and the second driving plate are distributed at intervals in the height direction of the machine body; the first driving plate is positioned above the second driving plate and connected through a connecting rod, and the top end of the driving rod is connected with the first driving plate; the top ends of the wire arranging die and the driving sleeve are connected with the second driving plate; the driving piece is used for driving the first driving plate to move along the height direction of the machine body.

5. The shaping device of a wire arranging machine according to claim 4, wherein the driving member includes a driving motor, a lead screw, a nut, and a guiding member, the driving motor is mounted on the machine body, one end of the lead screw is connected with a rotating shaft of the motor, the nut is threadedly mounted on the lead screw and mounted on the first driving plate, and the guiding member is used for guiding the first driving plate to move along the height direction of the machine body when the nut rotates.

6. The shaping device of the wire arranging machine as claimed in claim 5, wherein the guide member comprises a guide rod and a guide sleeve, and the guide sleeve is arranged on each of the first drive plate and the second drive plate; the guide rod is connected in the guide sleeve in a penetrating mode.

7. The shaping device of the wire shaping machine as claimed in claim 5, wherein the driving member further comprises a synchronous belt transmission mechanism, and the rotating shaft of the driving motor is synchronously coupled with the screw rod through the synchronous belt transmission mechanism.

8. The shaping device of the wire arranging machine as claimed in any one of claims 1 to 3, wherein an elastic member is sleeved outside the driving rod; the elastic component is clamped between the machine body and the second positioning block.

9. The shaping device of the wire shaping machine according to any one of claims 1 to 3, wherein the wire shaping mechanism is arranged below the stator die.

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