CN214900591U

CN214900591U - Forming die and forming mechanism of motor hairpin conductor

Info

Publication number: CN214900591U
Application number: CN202121542249.7U
Authority: CN
Inventors: 黄朝东; 龙欢
Original assignee: Chongqing Zongshen Electric Power Technology Co ltd
Current assignee: Chongqing Zongshen Electric Power Technology Co ltd
Priority date: 2021-07-04
Filing date: 2021-07-04
Publication date: 2021-11-26
Anticipated expiration: 2031-07-04

Abstract

The utility model discloses a forming die and forming mechanism of motor hairpin conductor, wherein, forming die is including the relative first mould body and the second mould body that set up when using, the relative one side of first mould body and second mould body is first forming surface and the second forming surface that is the wave crooked respectively, first forming surface and second forming surface are formed by crooked generating line along the extension of guide straight line, make first mould body and second mould body can follow guide straight line direction relative movement under first forming surface and the state of pressing close to of second forming surface; the utility model discloses a motor hairpin conductor forming die and forming mechanism have and combine design benefit, and the shaping is effectual, and is little to the wire damage, can reduce the breakdown hidden danger, is favorable to improving advantages such as motor reliability.

Description

Forming die and forming mechanism of motor hairpin conductor

Technical Field

The utility model relates to a motor production technical field, very much relate to a forming die and forming mechanism of motor hairpin conductor.

Background

The motor (including the motor and the generator) is a device for converting electric energy into mechanical energy (or converting mechanical energy into electric energy) according to the principle of electromagnetic induction, and can be used as a power source or a power generation device of various electric appliances such as household appliances, various machines such as electric vehicles and electric automobiles. The motors can be classified into dc motors and ac motors according to the kinds of their operating power sources, and the ac motors can be classified into single-phase motors and multi-phase motors (e.g., three-phase motors). The motor comprises a stator and a rotor, and a winding is arranged in a stator core slot of the stator. The traditional winding is formed by winding a round conducting wire, although the winding process is relatively simple, the space utilization rate in an iron core groove is low, useless copper at the end is wasted greatly, the power density is low, and the winding is gradually replaced by a flat copper wire or a rectangular-section copper wire.

At present, a winding of a flat copper wire or a rectangular-section copper wire is mainly formed by welding hairpin conductors which are integrally bent in a U shape in a sectional manner, and during assembly, the hairpin conductors bent in the U shape are sequentially inserted into a stator core slot, and then one end of the hairpin conductors penetrating through the stator core slot is integrally bent in place layer by layer in the circumferential direction and then welded. The overall shape of the hairpin conductor is as shown in fig. 1 to 3, and as can be seen from fig. 1 and 2, the hairpin conductor is bent in a U-shape as a whole, and as can be seen from fig. 3, the hairpin conductor has a wave-shaped bend in the width direction.

Chinese patent document discloses a new energy motor coil forming stamping mechanism, a lower die and a baffle plate before forming are used for extruding a lead into a plane U-shaped bent shape, then an upper die is used for applying pressure to the plane U-shaped bent lead, and a curved surface at the edge of a stamping head of the lower die is used for forming the plane U-shaped bent lead.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide a combination design benefit, shaping is effectual, and is little to the wire damage, can reduce the puncture hidden danger, is favorable to improving motor reliability's motor hairpin conductor's forming die and forming mechanism.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the forming die for the hairpin conductor of the motor is characterized by comprising a first die body and a second die body which are oppositely arranged in use, wherein one opposite sides of the first die body and the second die body are respectively a first forming surface and a second forming surface which are bent in a wave shape, and the first forming surface and the second forming surface are formed by extending bending bus bars along a guide straight line, so that the first die body and the second die body can relatively move along the direction of the guide straight line when the first forming surface and the second forming surface are in a state of being close to each other;

the first molding surface and the second molding surface are provided with a bending molding area and a bending molding area in the direction of the guide straight line, and the directions of the bending molding area and the bending molding area on the first molding surface are opposite to the directions of the bending molding area and the bending molding area on the second molding surface in the direction of the guide straight line;

the bending forming area of the first forming surface is provided with a first forming boss which is formed in a protruding mode, a forming groove which penetrates through towards the bending forming area along a guide linear direction is formed in the middle of the first forming boss, the shape of the side wall of the forming groove is consistent with the outline shape of the hairpin conductor to be formed, and the forming groove is bent towards the side wall of the bending forming area to form an arc-shaped guide portion; the top of the first molding boss is provided with a third molding surface matched with the shape of the second molding surface; the height of the first forming boss is matched with the thickness of the hairpin conductor to be formed;

a second forming boss which is arranged corresponding to the forming groove is formed in the bending forming area of the second forming surface in a protruding mode, the height of the second forming boss is matched with the depth of the forming groove, and a fourth forming surface which is matched with the first forming surface in shape is arranged at the top of the second forming boss; the bending forming end of the second forming boss is arranged towards the bending forming area along the direction of the guide straight line, and the shape of the outer wall of the second forming boss is consistent with the shape of the inner contour of the hairpin conductor to be formed, so that the gap between the second forming boss and the forming groove in the matching state is consistent with the forming shape of the hairpin conductor.

In the above structure, the first mold body and the second mold body may relatively move along the guiding straight line direction in a state where the first molding surface and the second molding surface are proximate to each other (i.e., mold press fit), that is, the first mold body and the second mold body may be press fit first and then relatively move along the guiding straight line direction. The bending forming areas on the first forming surface and the second forming surface are opposite in direction of the guide straight line, so that the bending forming areas of the first forming surface and the second forming surface are oppositely arranged, a straight flat wire of the hairpin conductor to be formed is placed between the first forming surface and the second forming surface along the direction perpendicular to the guide straight line, the first die body and the second die body are pressed, and the straight flat wire forms wavy bending under the action of the first forming surface and the second forming surface; and then relatively moving the first die body and the second die body along the direction of the guide straight line, pushing the bent straight flat wire into the forming groove by using the second forming boss, and gradually bending and forming the straight flat wire under the pre-bending guide effect of the arc-shaped guide parts at two sides of the forming groove until the second forming boss completely slides into the forming groove, thereby completing the forming of the hairpin conductor. By adopting the forming die, the bending of the width direction of the hairpin conductor is finished firstly, and then the bending of the end part of the hairpin conductor is finished, so that the flat wire cannot be stretched in the length direction in the whole forming process, the reduction of the diameter of the flat wire and the stretching damage of the insulating layer are avoided, the risk of the breakdown of the insulating layer is reduced, and the reliability of the motor is improved.

Further, the first die body comprises a first main die body and a first auxiliary die body, a first mounting groove with the shape consistent with that of the side wall of the forming groove is formed in the middle of the first main body, the first mounting groove is arranged in a penetrating mode towards the direction of the bending forming area, and the first auxiliary die body is mounted in the first mounting groove; the third molding surface is located on the first master mold body, and the first molding surface is located on the first slave mold body;

the second die body comprises a second main die body and a second auxiliary die body, a second mounting groove with the shape consistent with that of the outer wall of the second forming boss is formed in the middle of the second main die body, the second mounting groove is arranged in a penetrating mode towards the direction of the bending forming area, and the second auxiliary die body is mounted in the second mounting groove; the fourth molding surface is located on the second sub mold body, and the second molding surface is located on the second main mold body.

Because the first molding surface, the second molding surface, the third molding surface and the fourth molding surface are all curved surfaces, the first molding surface and the third molding surface, and the second molding surface and the fourth molding surface are respectively arranged on different die bodies, so that the curved surfaces can be conveniently machined.

A forming mechanism of a motor hairpin conductor is characterized by comprising a first horizontal plate and a first vertical plate, wherein the first horizontal plate is horizontally arranged;

a first linear guide mechanism is arranged on the first transverse plate, a first die holder is movably arranged on the first linear guide mechanism, and a first linear driving mechanism for driving the first die holder to horizontally move along the first linear guide mechanism is arranged between the first transverse plate and the first die holder;

the first vertical plate is provided with a vertically installed second linear guide mechanism, a second die holder is movably installed on the second linear guide mechanism, and a second linear driving mechanism used for driving the second die holder to vertically move along the second linear guide mechanism is further arranged between the first vertical plate and the second die holder;

the forming die for the motor hairpin conductor is further provided, the first die body and the second die body are vertically arranged oppositely, one of the first die body and the second die body is installed on the first die holder, and the other one of the first die body and the second die holder is installed on the second die holder; the guide direction of the first linear guide mechanism is consistent with the guide linear directions of the first die body and the second die body; the bending forming area of the first die body is vertically opposite to the bending forming area of the second die body.

In the structure, the bending forming area of the first die body is vertically opposite to the bending forming area of the second die body, the straight flat wire is placed between the first die body and the second die body along the width direction, the second linear driving mechanism is started to drive the second die holder to vertically move, the first die body and the second die body are pressed, the straight flat wire is bent by the first forming surface and the second forming surface, then the first linear driving mechanism is started to drive the first die holder to horizontally move, the bent straight flat wire is pushed and extruded into the forming groove by the second forming boss, the straight flat wire is under the pre-bending guiding effect of the arc guiding parts on two sides of the forming groove, the straight flat wire is gradually bent and formed until the second forming boss completely slides into the forming groove, and therefore the forming of the hairpin conductor is completed.

Further, the second die holder is located under the first die holder, and both sides in the moving direction of the second die holder are provided with brackets for horizontally placing to-be-formed flat wires, the projection of the article placing part of the bracket on the vertical direction is located in the bending forming area of the first die body and the second die body, the height of the article placing part is located between the first die body and the second die body, and a space for the to-be-formed flat wires to move along with the first linear driving mechanism and the second linear driving mechanism is arranged above the bracket.

Due to the fact that the first forming surface and the second forming surface of the bending forming area are both wavy, the flat wire (straight flat wire) to be formed is not easy to horizontally and stably place between the first die body and the second die body, the flat wire to be formed is placed on the placing portion of the bracket by adopting the structure, the flat wire to be formed is horizontally and stably placed between the first die body and the second die body, the second linear driving mechanism drives the second die holder to move upwards, meanwhile, the flat wire to be formed is pushed to move upwards, bending of the flat wire to be formed is completed when the first die body and the second die body are pressed, and then bending is completed under the effect of the first linear driving mechanism.

Furthermore, the bracket is a vertical plate vertically installed on the first transverse plate, and the lower end of the vertical plate protrudes along the bending forming direction of the first linear driving mechanism to form the object placing part.

The bending forming direction of the first linear driving mechanism is the action direction of the first linear driving mechanism driving the first die holder to move to complete bending forming.

Furthermore, a barrier strip which is vertically arranged is arranged at the end part of the object placing part, a guide groove is formed between the barrier strip and the vertical plate, and the width of the guide groove is matched with the width of the flat wire to be formed; the upper end of the blocking strip is lower than the lowest height of the first die body or the second die body arranged on the first die holder.

Therefore, the flat wire to be formed is always guided by the guide groove in the process of moving upwards along with the second linear driving mechanism, so that the flat wire to be formed is prevented from swinging in the horizontal direction.

Furthermore, one side of the first transverse plate or the first vertical plate is also provided with a limit baffle plate which is vertically arranged, so that one end of the to-be-molded flat wire which is placed on the bracket placing part can be abutted against the limit baffle plate.

Therefore, the uniform placement positions of the flat wires to be molded can be guaranteed through the limiting baffle, so that the bending and bending positions can be controlled, and the consistency of the molded hairpin conductor is better.

Furthermore, two sides of the first linear guide mechanism are respectively provided with a limiting block, and the limiting blocks are opposite to the first die holder in the guide direction of the first linear guide mechanism.

Furthermore, the limiting block is provided with a threaded hole which faces the first die holder and is arranged in a penetrating mode, the threaded hole is provided with a limiting stud, and the limiting stud is further provided with a locking nut.

Further, the first linear guide mechanism and the second linear guide mechanism are both linear guide rails; the first linear driving mechanism and the second linear driving mechanism are both cylinders; the other end of the first transverse plate is also provided with a second vertical plate which is arranged in parallel with the first vertical plate, and the lower ends of the first vertical plate and the second vertical plate are provided with a second transverse plate; the first linear driving mechanism is installed on the second vertical plate, and the second linear driving mechanism is installed on the second transverse plate.

To sum up, the utility model discloses a motor hairpin conductor forming die and forming mechanism have following advantage: simple structure, installation are fixed convenient, shaping efficiency height/fast, intensity is good, longe-lived, many hairpin conductors of shaping simultaneously, and the mode of bending earlier and bending again can avoid the drawing of copper line moreover, can not lead to the drawing of lacquer coat and attenuation, makes the lacquer coat be difficult for being punctured, is favorable to improving motor reliability.

Drawings

Fig. 1 to 3 are schematic structural diagrams of hairpin conductors.

Fig. 4 is an exploded view of the forming die.

Fig. 5 is a schematic structural view of the second mold body.

Fig. 6 to 8 are schematic structural views of the molding mechanism.

Detailed Description

The present invention will be described in further detail with reference to examples.

In the specific implementation: as shown in fig. 6 to 8, a forming mechanism for a motor hairpin conductor includes a first horizontal plate 3 horizontally disposed and a first vertical plate 4 vertically disposed, a second vertical plate 8 parallel to the first vertical plate 4 is further provided at the other end of the first horizontal plate 3, and a second horizontal plate 9 is installed at the lower ends of the first vertical plate 4 and the second vertical plate 8.

The first transverse plate 3 is provided with a first linear guide mechanism 31, the first linear guide mechanism 31 is movably provided with a first die holder 32, a first linear driving mechanism 33 used for driving the first die holder 32 to horizontally move along the first linear guide mechanism 31 is further arranged between the first transverse plate 3 and the first die holder 32, and the first linear driving mechanism 33 is arranged on the second vertical plate 4. The first vertical plate 4 is provided with a second linear guide mechanism 41 which is vertically installed, the second linear guide mechanism 41 is movably installed with a second die holder 42, a second linear driving mechanism 43 which is used for driving the second die holder 42 to vertically move along the second linear guide mechanism 41 is further arranged between the first vertical plate 4 and the second die holder 42, and the second linear driving mechanism 43 is installed on the second transverse plate 9.

In this embodiment, the first linear guide mechanism 31 and the second linear guide mechanism 41 are both linear guide rails, and are both provided with two linear guide rails, and the first die holder 32 and the second die holder 42 are installed on the linear guide rails through sliders. The first linear driving mechanism 33 and the second linear driving mechanism 43 are both air cylinders.

The first die holder 32 and the second die holder 42 are further provided with forming dies for motor hairpin conductors, as shown in fig. 4 and 5, the forming dies comprise a first die body 1 and a second die body 2 which are vertically arranged in an opposite manner, one of the forming dies is arranged on the first die holder 32, and the other forming die is arranged on the second die holder 42; the opposite sides of the first die body 1 and the second die body 2 are respectively provided with a first forming surface 11 and a second forming surface 21 which are bent in a wave shape, the first forming surface 11 and the second forming surface 21 are formed by extending bending generatrices along a guide straight line, so that the first die body 1 and the second die body 2 can relatively move along the direction of the guide straight line under the state that the first forming surface 11 and the second forming surface 21 are close to each other;

the first molding surface 11 and the second molding surface 21 are respectively provided with a bending molding area B and a bending molding area A in the direction of the guide straight line, and in the direction of the guide straight line, the directions of the bending molding area B and the bending molding area A on the first molding surface 11 are opposite to the directions of the bending molding area B and the bending molding area A on the second molding surface 21;

the bending forming area A of the first forming surface 11 is provided with a first forming boss 12 which is formed in a protruding mode, a forming groove 13 which penetrates through towards the bending forming area B along the direction of a guide straight line is formed in the middle of the first forming boss 12, the shape of the side wall of the forming groove 13 is consistent with the shape of the outline of the hairpin conductor to be formed, and the side wall of the forming groove 13, which faces towards the bending forming area B, is bent outwards to form an arc-shaped guide portion 15; the top of the first forming boss 12 has a third forming surface 14 matching the shape of the second forming surface 21; the height of the first forming boss 12 is matched with the thickness of the hairpin conductor to be formed. In specific implementation, the thickness of the hairpin conductor to be formed is an integral multiple of the thickness of a single hairpin conductor, for example, the height of the first forming boss 12 is matched with the sum of the thicknesses of the 5 hairpin conductors, so that the 5 hairpin conductors can be formed at one time after being stacked, that is, the 5 stacked hairpin conductors are 1 hairpin conductor to be formed.

A second forming boss 22 corresponding to the forming groove 13 is formed in the bending forming area a of the second forming surface 21 in a protruding manner, the height of the second forming boss 22 is matched with the depth of the forming groove 13, and a fourth forming surface 23 matched with the shape of the first forming surface 11 is arranged at the top of the second forming boss 22; the bending forming end of the second forming boss 22 is arranged towards the bending forming area B along the direction of the guide straight line, and the shape of the outer wall of the second forming boss 22 is consistent with the shape of the inner contour of the hairpin conductor to be formed, so that the clearance between the second forming boss 22 and the forming groove 13 in the matching state is consistent with the forming shape of the hairpin conductor.

The bending forming area B of the first die body 1 is vertically opposite to the bending forming area B of the second die body 2, and the guide direction of the first linear guide mechanism 31 is consistent with the guide linear direction of the first die body 1 and the guide linear direction of the second die body 2.

The first die body and the second die body can relatively move along the direction of the guide straight line when the first molding surface and the second molding surface are close to each other (namely, the die is pressed), namely, the first die body and the second die body can be pressed firstly and then relatively move along the direction of the guide straight line. The bending forming area B and the bending forming area A on the first forming surface and the second forming surface are opposite in direction of the guide straight line, so that the bending forming area B of the first forming surface and the second forming surface are oppositely arranged, a straight flat wire of a hairpin conductor to be formed is placed between the first forming surface and the second forming surface in the direction perpendicular to the guide straight line, the second straight line driving mechanism is started to drive the second die holder to move vertically, the first die body and the second die body are pressed, the straight flat wire is bent by the first forming surface and the second forming surface, then the first straight line driving mechanism is started to drive the first die holder to move horizontally, the second forming boss pushes the bent straight flat wire into the forming groove, the straight flat wire is gradually bent and formed under the pre-bending guide effect of the arc-shaped guide parts on two sides of the forming groove until the second forming boss completely slides into the forming groove, thereby completing hairpin conductor formation. In the forming process, the bending of the width direction of the hairpin conductor is finished firstly, and then the bending of the end part of the hairpin conductor is finished, so that the flat wire cannot be stretched in the length direction in the whole forming process, the reduction of the diameter of the flat wire and the stretching damage of the insulating layer are avoided, the risk of the breakdown of the insulating layer is reduced, and the improvement of the reliability of the motor is facilitated.

During implementation, the second die holder 42 is located under the first die holder 32, and the two sides in the moving direction are provided with the bracket 5 for horizontally placing the flat wire to be formed, the projection of the object placing part of the bracket 5 in the vertical direction is located in the bending forming area B of the first die body 1 and the second die body 2, the height of the object placing part is located between the first die body 1 and the second die body 2, and a space for the flat wire to be formed to move along with the first linear driving mechanism and the second linear driving mechanism is arranged above the bracket 5.

The first forming surface and the second forming surface of the bending forming area B are both wavy, so that a flat wire (straight flat wire) to be formed is not easy to be horizontally and stably placed between the first forming surface and the second forming surface.

In practice, the bracket 5 is a vertical plate 51 vertically mounted on the first horizontal plate 3, and the lower end of the vertical plate 51 protrudes in the bending direction of the first linear driving mechanism to form the storage portion 52.

When the forming machine is used, the end part of the object placing part 51 is provided with a barrier strip 53 which is vertically arranged, a guide groove is formed between the barrier strip 53 and the vertical plate 51, and the width of the guide groove is matched with the width of a flat wire to be formed; the upper end of the barrier 53 is lower than the lowest height of the first mold body or the second mold body mounted on the first mold base 32.

When the forming device is used, one side of the first transverse plate 3 or the first vertical plate 4 is also provided with a limit baffle 6 which is vertically arranged, so that one end of a flat wire to be formed which is placed on the placing part of the bracket 5 can be abutted against the limit baffle 6.

During implementation, two sides of the first linear guide mechanism 31 are respectively provided with a limiting block 7, and the limiting blocks 7 are opposite to the first die holder 32 in the guide direction of the first linear guide mechanism 31.

During implementation, the limiting block 7 is provided with a threaded hole which is formed by penetrating the first die holder 32, the threaded hole is provided with a limiting stud, and the limiting stud is further provided with a locking nut.

In implementation, the first die body 1 includes a first main die body 16 and a first sub die body 17, a first mounting groove having a shape identical to that of a side wall of the forming groove 13 is formed in the middle of the first main body 16, the first mounting groove is arranged to penetrate in a direction of a bending forming area B, and the first sub die body 17 is mounted in the first mounting groove; said third molding surface 14 is located on said first master mold 16 and said first molding surface 11 is located on said first slave mold 17;

the second mold body 2 comprises a second main mold body 24 and a second auxiliary mold body 25, a second mounting groove with the same shape as the outer wall of the second forming boss 22 is formed in the middle of the second main mold body 24, the second mounting groove is arranged in a penetrating manner in the direction of the bending forming area B, and the second auxiliary mold body 25 is mounted in the second mounting groove; the fourth molding surface 23 is located on the second sub-mold 25, and the second molding surface 21 is located on the second main mold 24.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The forming die for the hairpin conductor of the motor is characterized by comprising a first die body (1) and a second die body (2) which are oppositely arranged in use, wherein one opposite sides of the first die body (1) and the second die body (2) are respectively a first forming surface (11) and a second forming surface (21) which are bent in a wave shape, the first forming surface (11) and the second forming surface (21) are formed by extending bending bus bars along a guide straight line, and the first die body (1) and the second die body (2) can relatively move along the direction of the guide straight line when the first forming surface (11) and the second forming surface (21) are in a state of being close to each other;

the first molding surface (11) and the second molding surface (21) are provided with a bending molding area and a bending molding area in the direction of the guide straight line, and the directions of the bending molding area and the bending molding area on the first molding surface (11) are opposite to the directions of the bending molding area and the bending molding area on the second molding surface (21) in the direction of the guide straight line;

the bending forming area of the first forming surface (11) is provided with a first forming boss (12) which is formed in a protruding mode, a forming groove (13) which penetrates through towards the bending forming area along a guide linear direction is formed in the middle of the first forming boss (12), the shape of the side wall of the forming groove (13) is consistent with the shape of the outline of the hairpin conductor to be formed, and the forming groove (13) is bent towards the side wall of the bending forming area to form an arc-shaped guide portion (15); the top of the first forming boss (12) is provided with a third forming surface (14) matched with the shape of the second forming surface (21); the height of the first forming boss (12) is matched with the thickness of the hairpin conductor to be formed;

a second forming boss (22) which is arranged corresponding to the forming groove (13) is formed in the bending forming area of the second forming surface (21) in a protruding mode, the height of the second forming boss (22) is matched with the depth of the forming groove (13), and a fourth forming surface (23) which is matched with the shape of the first forming surface (11) is arranged at the top of the second forming boss (22); the bending forming end of the second forming boss (22) is arranged towards the bending forming area along the direction of a guide straight line, the shape of the outer wall of the second forming boss (22) is consistent with the shape of the inner contour of the hairpin conductor to be formed, and the gap between the second forming boss (22) and the forming groove (13) in the matching state is consistent with the forming shape of the hairpin conductor.

2. The molding die for the motor hairpin conductor according to claim 1, wherein the first die body (1) includes a first main die body (16) and a first sub die body (17), a first mounting groove having a shape identical to a side wall of the molding groove (13) is formed in a middle portion of the first main die body (16), the first mounting groove is disposed to penetrate in a direction of a press bending molding area, and the first sub die body (17) is mounted in the first mounting groove; -said third molding surface (14) is located on said first master mould body (16), said first molding surface (11) is located on said first slave mould body (17);

the second die body (2) comprises a second main die body (24) and a second auxiliary die body (25), a second mounting groove which is consistent with the outer wall of the second forming boss (22) in shape is formed in the middle of the second main die body (24), the second mounting groove is arranged in a penetrating mode towards the direction of a bending forming area, and the second auxiliary die body (25) is mounted in the second mounting groove; the fourth molding surface (23) is located on the second sub-mold body (25), and the second molding surface (21) is located on the second main mold body (24).

3. A forming mechanism of a motor hairpin conductor is characterized by comprising a first horizontal plate (3) and a first vertical plate (4), wherein the first horizontal plate is horizontally arranged;

a first linear guide mechanism (31) is installed on the first transverse plate (3), a first die holder (32) is movably installed on the first linear guide mechanism (31), and a first linear driving mechanism (33) used for driving the first die holder (32) to horizontally move along the first linear guide mechanism (31) is further arranged between the first transverse plate (3) and the first die holder (32);

a second linear guide mechanism (41) which is vertically installed is arranged on the first vertical plate (4), a second die holder (42) is movably installed on the second linear guide mechanism (41), and a second linear driving mechanism (43) which is used for driving the second die holder (42) to vertically move along the second linear guide mechanism (41) is further arranged between the first vertical plate (4) and the second die holder (42);

-a forming die further comprising a motor hairpin conductor according to claim 1 or 2, the first die body (1) and the second die body (2) being arranged vertically opposite one another and one being mounted on the first die holder (32) and the other on the second die holder (42); the guiding direction of the first linear guiding mechanism (31) is consistent with the guiding linear direction of the first die body (1) and the second die body (2); the bending forming area of the first die body (1) is vertically opposite to the bending forming area of the second die body (2).

4. The forming mechanism of the motor hairpin conductor of claim 3 wherein the second die holder (42) is located directly below the first die holder (32), and two sides in the moving direction of the second die holder and the first die holder are provided with brackets (5) for horizontally placing the flat wire to be formed, the projection of the placement part of the brackets (5) in the vertical direction is located in the bending forming area of the first die body (1) and the second die body (2), the height of the placement part is located between the first die body (1) and the second die body (2), and a space for the flat wire to be formed to move along with the first linear driving mechanism and the second linear driving mechanism is located above the brackets (5).

5. The forming mechanism of the motor hairpin conductor of claim 4 wherein the bracket (5) is a vertical plate (51) vertically mounted on the first horizontal plate (3), and the lower end of the vertical plate (51) protrudes in the bending forming direction of the first linear drive mechanism to form the placement portion (52).

6. The forming mechanism of the motor hairpin conductor of claim 5 wherein the end of the placement part (52) has a vertically disposed bar (53), a guide groove is formed between the bar (53) and the vertical plate (51), and the width of the guide groove matches with the width of the flat wire to be formed; the upper end of the barrier strip (53) is lower than the lowest height of the first die body or the second die body arranged on the first die holder (32).

7. The forming mechanism of the motor hairpin conductor of claim 4, characterized in that one side of the first horizontal plate (3) or the first vertical plate (4) is further provided with a vertically arranged limit baffle (6), so that one end of the flat wire to be formed placed on the placing part of the bracket (5) can be abutted against the limit baffle (6).

8. The forming mechanism of the motor hairpin conductor of claim 4 wherein the first straight guide mechanism (31) is provided with a stopper (7) on each side, the stopper (7) facing the first die holder (32) in the direction of the first straight guide mechanism (31).

9. The forming mechanism of the motor hairpin conductor of claim 8 wherein the stopper (7) has a threaded hole through toward the first die holder (32), the threaded hole is provided with a stopper stud, and the stopper stud is further provided with a lock nut.

10. The apparatus for forming hair-pins for electric machines according to claim 4, characterized in that the first linear guide (31) and the second linear guide (41) are linear guides; the first linear driving mechanism (33) and the second linear driving mechanism (43) are both cylinders; the other end of the first transverse plate (3) is also provided with a second vertical plate (8) which is arranged in parallel with the first vertical plate (4), and the lower ends of the first vertical plate (4) and the second vertical plate (8) are provided with a second transverse plate (9); the first linear driving mechanism (33) is installed on the second vertical plate (8), and the second linear driving mechanism (43) is installed on the second transverse plate (9).