CN108768095B - Shaping device - Google Patents

Abstract

The invention provides a shaping device. This shaping device, including plastic subassembly, drive arrangement, plastic subassembly includes layer board, rotor plate and the subassembly that slides, layer board, the subassembly that slides and rotor plate are combined in proper order, the subassembly activity that slides set up in the layer board, drive arrangement with the rotor plate is connected, the rotor plate has first stator through hole, works as when the drive arrangement operates, drive arrangement can drive the rotor plate rotation, and rotatory rotor plate can drive the subassembly that slides is followed the radial motion in first stator through hole realizes the shaping to motor stator end winding flower groove. According to the shaping device disclosed by the invention, the winding flower grooves at the end of the motor stator can be shaped automatically, the flying lines of the winding flower grooves are regulated to a specified insulation distance, the operation is more standard, the working efficiency is high, the labor cost is saved, and the quality of the motor stator is ensured.

Description

Shaping device

Technical Field

The invention belongs to the technical field of motor manufacturing, and particularly relates to a shaping device.

Background

Before the motor stator core is assembled on a shell, the procedures of embedding windings (enamelled wires) in the core embedding grooves and binding wires are needed, the embedded windings are provided with spline structures at the two axial ends of the stator, and it can be understood that the spline structures are formed by enamelled wire bundles, and due to the errors of the procedures, the abnormal flying lines of the spline structures (such as treading, loosening and binding leakage) appear after the stator is embedded and bound on the stator of the existing single-phase asynchronous motor, wherein the abnormal conditions refer to that the enamelled wires are directly contacted with the surface of the stator core or the distance between the enamelled wires and the surface of the end of the stator core is lower than 2.5mm (insulation distance is unqualified), so that poor withstand voltage occurs when the stator performance is detected, and aiming at the phenomenon, the current method adopted in the industry is as follows: the distance between the flying vertical line of the stator and the surface of the end head of the stator core is manually visually detected, the flying vertical line which is too close to the surface of the stator core is lifted by adopting a smooth bamboo stick, the distance between the flying vertical line and the surface of the stator core exceeds 2.5mm, the mode has the defects of large number of operators, low working efficiency, missed judgment and misjudgment of the distance of the flying vertical line caused by visual detection, irregular operation and incapability of ensuring the product quality.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to provide the shaping device which can automatically shape the winding flower grooves at the end of the motor stator, and the flying lines of the winding flower grooves are regulated to a specified insulation distance, so that the operation is more standard, the working efficiency is high, the labor cost is saved, and the quality of the motor stator is guaranteed.

In order to solve the problems, the invention provides a shaping device which comprises a shaping sub-assembly and a driving device, wherein the shaping sub-assembly comprises a supporting plate, a rotating plate and a sliding assembly, the supporting plate, the sliding assembly and the rotating plate are sequentially combined, the sliding assembly is movably arranged in the supporting plate, the driving device is connected with the rotating plate, the rotating plate is provided with a first stator passing hole, when the driving device operates, the driving device can drive the rotating plate to rotate, and the rotating plate can drive the sliding assembly to move along the radial direction of the first stator passing hole so as to shape a motor stator end winding flower groove.

Preferably, the sliding assembly comprises a plurality of sliding shaping needles, the supporting plate is further provided with an accommodating space, a plurality of sliding grooves are formed in the accommodating space, the sliding grooves extend along the radial direction of the first stator passing holes and are uniformly distributed in the circumferential direction of the first stator passing holes, the sliding shaping needles are installed in the sliding grooves in a matched mode, the rotating plate is movably connected with the sliding shaping needles, and the power output end of the driving device is connected with the rotating plate to drive the rotating plate to rotate so as to drive the sliding shaping needles to move along the sliding grooves along the radial direction of the first stator passing holes.

Preferably, the end of the sliding shaping needle facing the first stator passing hole is provided with a mouth, and the mouth is of a conical structure facing the first stator passing hole.

Preferably, the conical structure has a busbar, the busbar being an arc, the centre of the arc being located on one side of the centre line of the conical structure.

Preferably, the rotating plate is provided with a second stator through hole and a plurality of guide grooves, the second stator through hole and the first stator through hole are coaxially arranged, in a radial plane of the rotating plate 14, a central line of a midpoint of a length direction of the guide groove and a center line of the second stator through hole is a first straight line, a first included angle A is formed between the first straight line and an extending direction of the guide groove, the A is an acute angle, the sliding shaping needle is provided with a first connecting pin, and a free end of the first connecting pin is in clearance fit with the guide groove.

Preferably, a transmission shaft is arranged on one side of the rotating plate, the driving device comprises an air cylinder and a connector, the free end of a piston rod of the air cylinder is connected with the connector, and the transmission shaft is inserted into a connecting hole formed in the connector.

Preferably, the driving device further comprises a mounting seat, and the mounting seat is used for fixedly combining the shell of the air cylinder and the supporting plate into a whole.

Preferably, the shaping subassembly comprises a first shaping subassembly and a second shaping subassembly, wherein the supporting plates in the first shaping subassembly and the supporting plates in the second shaping subassembly are relatively arranged in parallel and are connected into a whole through a connecting piece, so that the winding flower grooves at two ends of the motor stator are simultaneously shaped.

Preferably, a predetermined space is provided between the support plate in the first shaping subassembly and the support plate in the second shaping subassembly, and a stator fixing member is mounted on the support plate in the first shaping subassembly to fix the position of the motor stator placed in the first stator passing hole, and/or mounted on the support plate in the second shaping subassembly to fix the position of the motor stator placed in the first stator passing hole.

Preferably, the shaping device further comprises a placeholder, which is located in the predetermined space.

Preferably, the placeholder is sleeved or clamped on the connecting piece.

Preferably, the shaping device further comprises a cover plate, the cover plate is provided with a third stator passing hole, the third stator passing hole is coaxially arranged with the first stator passing hole, the cover plate is arranged on one side of the rotating plate in the first shaping subassembly, which is far away from the sliding assembly, and is connected with the supporting plate in the first shaping subassembly, and/or the cover plate is arranged on one side of the rotating plate in the second shaping subassembly, which is far away from the sliding assembly, and is connected with the supporting plate in the second shaping subassembly.

According to the shaping device, the rotating plate is driven by the driving device capable of being automatically controlled, so that the sliding assembly is forced to generate the action of regular flight lines, the distance between the flight lines and the end face of the motor stator is adjusted to be the insulation safety distance, the thread picking operation is not required to be carried out in the original mode of manually holding bamboo sticks in the prior art, the operation is more standard, the working efficiency is high, the labor cost is saved, and the quality of the motor stator is guaranteed.

Drawings

FIG. 1 is a schematic front view of a shaping device according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the U-U direction of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the Y-Y direction of FIG. 1;

FIG. 4 is a schematic diagram of an exploded structure of a shaping device according to an embodiment of the present invention;

FIG. 5 is a schematic elevational view of the pallet of FIG. 4;

FIG. 6 is a schematic elevational view of the rotating plate of FIG. 4;

FIG. 7 is a schematic elevational view of the cover plate of FIG. 4;

FIG. 8 is a schematic elevational view of the slip shaper pin of FIG. 4;

fig. 9 is a schematic perspective view of the stator fixing member of fig. 4.

The reference numerals are expressed as:

11. a supporting plate; 111. a first stator passing hole; 112. a chute; 113. an accommodation space; 114. a notch; 115. a peripheral wall; 13. a sliding shaping needle; 131. a first connecting pin; 132. a mouth; 135. a connection hole; 14. a rotating plate; 141. a second stator pass-through hole; 142. a guide groove; 143. a transmission shaft; 2. a driving device; 21. a cylinder; 22. a connector; 23. a mounting base; 3. a cover plate; 31. a third stator passing hole; 5. a stator fixing member; 51. a convex portion; 52. a second connection hole; 6. a space occupying member; 7. and a connecting piece.

Detailed Description

Referring to fig. 1 to 9, according to an embodiment of the present invention, a shaping device is provided, including a shaping subassembly, a driving device 2, where the shaping subassembly includes a supporting plate 11, a rotating plate 14, and a sliding component, the supporting plate 11, the sliding component, and the rotating plate 14 are sequentially combined, the sliding component is movably disposed in the supporting plate 11, the driving device 2 is connected with the rotating plate 14, the rotating plate 14 has a first stator passing hole 111, when the driving device 2 operates, the driving device 2 can drive the rotating plate 14 to rotate, and the rotating plate 14 can drive the sliding component to move along a radial direction of the first stator passing hole 111, so as to shape a winding slot at an end of a motor stator, thereby realizing trimming a sagging wire in the winding slot (i.e. what is called a picking wire in the industry). The driving device 2 may adopt a motor, at this time, an output shaft of the motor is connected with the rotating plate 14, and the rotation motion of the motor drives the rotating plate 14 to rotate around the geometric center of the first stator passing hole 111, so as to drive the sliding component connected with the sliding component to move along the radial direction (reciprocating motion) of the first stator passing hole 111, thereby regulating the flyer to the winding flower groove. According to the technical scheme, the rotating plate 14 is driven through the driving device 2 capable of being automatically controlled, so that the sliding assembly is forced to generate the action of regular flight lines, the distance between the flight lines and the end face of the motor stator is adjusted to be an insulation safety distance, the original mode of manually holding bamboo sticks in the prior art is not needed for carrying out thread picking operation, the operation is more standard, the working efficiency is high, the labor cost is saved, and the quality of the motor stator is guaranteed.

As a specific embodiment, preferably, the slip assembly includes a plurality of slip shaping needles 13, the supporting plate 11 further has an accommodating space 113, the accommodating space 113 may be formed by extending from a peripheral wall 115 of the supporting plate 11 toward a direction of placing the slip assembly, a plurality of sliding grooves 112 are disposed in the accommodating space 113, the plurality of sliding grooves 112 extend along a radial direction of the first stator passing hole 111, and are uniformly distributed in a circumferential direction of the first stator passing hole 111, the plurality of slip shaping needles 13 are installed in the sliding grooves 112 in a matching manner, the rotating plate 14 is movably connected with the plurality of slip shaping needles 13, specifically, the plurality of sliding grooves 112 may extend to a hole wall of the first stator passing hole 111 along the radial direction of the first stator passing hole 111, a power output end of the driving device 2 is connected with the rotating plate 14, so as to drive the plurality of slip shaping needles 13 to generate a movement along the radial direction of the first stator passing hole 111, and the number of the sliding grooves 112 is 24, i.e. the number of the sliding grooves is equal to that of the number of the corresponding stator winding grooves 13, i.e. 24, and the number of the sliding grooves is equal to that of the number of the sliding grooves of the stator grooves 13 are matched with that is 24, and the number of the sliding grooves of the stator grooves 13 are generally equal to 24. Because the number of the sliding shaping needles 13 is matched with the number of the winding flower grooves, when shaping is performed, the movement of the rotating plate 14 drives all the sliding shaping needles 13 to move towards or away from the first stator passing holes 111, namely, the tail ends of the sliding shaping needles 13 penetrate into all the flower grooves to form an effect of 'one-hundred-movement', and the working efficiency is greatly improved.

In order to enable the sliding and shaping needle 13 to be inserted into each flower groove more smoothly, preferably, one end of the sliding and shaping needle 13 facing the first stator passing hole 111 is provided with a mouth 132, and the mouth 132 is a tapered structure facing the first stator passing hole 111, and it is understood that the tapered structure at this time is matched with the internal dimension of the flower groove in terms of external dimension so as to ensure the regular dimension after the shaping of the flower groove. In order to further improve the smoothness of the insertion of the sliding shaping needle 13, preferably, the conical structure has a bus, the bus is an arc line, the center of the arc line is located at one side of the center line of the conical structure, and the conical structure with the bus being the arc line can protect the plumb line to the greatest extent and prevent damage phenomena such as broken line of the plumb line.

As an optimized embodiment of the rotating plate 14 for driving the slip shaping needle 13, the rotating plate 14 has a second stator through hole 141 and a plurality of guide grooves 142, the second stator through hole 141 is coaxially disposed with the first stator through hole 111, in a radial plane of the rotating plate 14, a central line of a length direction of the guide groove 142 and a center of the second stator through hole 141 is a first straight line, the first straight line and an extending direction of the guide groove 142 form a first included angle a, the a is an acute angle, that is, the plurality of guide grooves 142 are obliquely disposed around the second stator through hole 141, the slip shaping needle 13 has a first connecting pin 131, a free end of the first connecting pin 131 is in clearance fit with the guide groove 142, and the first connecting pin 131 may be disposed in a connecting hole 135 of the slip shaping needle 13, or the first connecting pin 131 and the slip shaping needle 13 are integrally formed.

As described above, the driving device 2 may be driven by a motor, but when the driving device is driven by a motor, the rotation of the output shaft of the motor needs to be limited by angular displacement, and the driving device should be bi-directional rotation, so as to ensure that the reciprocating motion of the sliding shaping needle 13 is controlled, while as another simpler embodiment of the driving device 2, preferably, one side of the rotating plate 14 is provided with a transmission shaft 143, the driving device 2 includes a cylinder 21 and a connector 22, the free end of the piston rod of the cylinder 21 is connected with the connector 22, further, the outer peripheral side of the rotating plate 14 is provided with a connecting arm extending along the radial direction of the second stator passing hole 141, the transmission shaft 143 is arranged on the connecting arm, and since the free end of the transmission shaft 143 is inserted into the connecting hole of the connector 22, the motion of the cylinder 21 is linear reciprocating motion, and at this time, the eccentric angular displacement driving of the rotating plate 14 is performed by the transmission shaft 143, which is similar to the cam motion control principle, so that the control of the rotating plate 14 is further simplified.

Further, providing a notch 114 in the peripheral wall 115 of the supporting plate 11, the connecting arm being receivable in the notch 114, which will make the shaping device more compact, it will be appreciated that the notch 114 extends in the circumferential direction of the first stator passing hole 111 for a length adapted to the angular displacement of the rotating plate 14.

The driving device 2 may be connected and fixed to an external installation object, but this may result in poor flexibility of the shaping device in terms of selection of the application occasion, so preferably, the driving device 2 further includes a mounting seat 23, where the mounting seat 23 integrally fixes the housing of the cylinder 21 and the pallet 11, and at this time, the fixing of the driving device 2 and the shaping subassembly are formed as an organic whole, so that the shaping device can be flexibly applied to various different occasions.

According to the technical scheme, when the motor stator shaping device is used, the motor stator is fixedly arranged in an axial space formed by the first stator passing hole 111 and the second stator passing hole 141, after the winding sliding groove at one end of the motor stator is aligned with the mouth 132 of the sliding shaping needle 13, the driving device 2 is started to achieve shaping of the winding flower groove at one end of the motor stator, and after shaping of the winding flower groove at one end of the motor stator is completed, only the motor stator is required to be adjusted to be at the upper and lower positions, so that shaping of the winding flower groove at the other end of the motor stator is achieved.

In order to further improve the shaping efficiency of the shaping device, preferably, the shaping sub-assembly includes a first shaping sub-assembly and a second shaping sub-assembly, the supporting plate 11 in the first shaping sub-assembly and the supporting plate 11 in the second shaping sub-assembly are relatively parallel, and are connected into a whole through the connecting piece 7, at this time, the shaping device can be operated once to simultaneously shape the winding flower grooves at two ends of the motor stator, and in theory, the shaping speed is twice that of a single shaping sub-assembly.

Of course, as mentioned above, external means may be used for fixing the position of the motor stator in the first stator passing hole 111 and the second stator passing hole 141, for example, a cylinder due to a step, but this is not sufficient in terms of compactness of the device, and as a possible implementation, it is preferable that the support plate 11 of the first shaping subassembly and the support plate 11 of the second shaping subassembly have a predetermined space therebetween, and a stator fixing member 5 is further included, the stator fixing member 5 is mounted on the support plate 11 of the first shaping subassembly to fix the position of the motor stator placed in the first stator passing hole 111, and/or the stator fixing member 5 is mounted on the support plate 11 of the second shaping subassembly to fix the position of the motor stator placed in the first stator passing hole 111, that is, the positioning of the motor stator is implemented more conveniently and rapidly by the stator fixing member 5 connected with the support plate 11, specifically, the stator fixing member 5 may have a protruding portion 52 connected with the stator fixing member for inserting the side wall 51 through the second shaping member, and thus fixing the side wall 51 may have a predetermined space toward the side wall 51.

Because the motor stator has the axial length in the actual process that the stacking thickness is different, in order to improve the commonality of shaping device, preferably, shaping device still includes occupation piece 6, occupation piece 6 is in predetermined space is interior, still further, occupation piece 6 suit or cartridge in on connecting piece 7, occupation piece 6 can include a plurality of occupation pieces, and a plurality of occupation pieces stack together, can select the stacking of occupation piece of different quantity according to motor stator's thickness demand, has higher high adaptability.

Since the shaping subassembly has a movable sliding component, in order to ensure the safety of the shaping device, and in addition, in order to prevent external dust and the like from falling into a sliding groove 112 formed in the supporting plate 11 to form dust accumulation and form a jam for the reciprocating movement of the sliding shaping needle 13, the shaping device preferably further comprises a cover plate 3, wherein the cover plate 3 has a third stator through hole 31, the third stator through hole 31 is coaxially arranged with the first stator through hole 111, the cover plate 3 is arranged on the side of the rotating plate 14 in the first shaping subassembly, which is far away from the sliding component, and is connected with the supporting plate 11 in the first shaping subassembly, and/or the cover plate 3 is arranged on the side of the rotating plate 14 in the second shaping subassembly, which is far away from the sliding component, and is connected with the supporting plate 11 in the second shaping subassembly.

It will be readily appreciated by those skilled in the art that the above advantageous ways can be freely combined and superimposed without conflict.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention. The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (10)

1. The shaping device is characterized by comprising a shaping sub-assembly and a driving device (2), wherein the shaping sub-assembly comprises a supporting plate (11), a rotating plate (14) and a sliding assembly, the supporting plate (11), the sliding assembly and the rotating plate (14) are sequentially combined, the sliding assembly is movably arranged in the supporting plate (11), the driving device (2) is connected with the rotating plate (14), the rotating plate (14) is provided with a first stator passing hole (111), when the driving device (2) operates, the driving device (2) can drive the rotating plate (14) to rotate, and the rotating plate (14) can drive the sliding assembly to move along the radial direction of the first stator passing hole (111) so as to shape a motor stator end winding flower groove; the sliding assembly comprises a plurality of sliding shaping needles (13), the supporting plate (11) is further provided with an accommodating space (113), a plurality of sliding grooves (112) are formed in the accommodating space (113), the sliding grooves (112) extend along the radial direction of the first stator passing holes (111) and are uniformly distributed in the circumferential direction of the first stator passing holes (111), the sliding shaping needles (13) are arranged in the sliding grooves (112) in a matching manner, the rotating plate (14) is movably connected with the sliding shaping needles (13), the power output end of the driving device (2) is connected with the rotating plate (14) so as to drive the rotating plate (14) to rotate and further drive the sliding shaping needles (13) to move along the radial direction of the first stator passing holes (111) along the sliding grooves (112); the shaping subassembly comprises a first shaping subassembly and a second shaping subassembly, wherein the supporting plates (11) in the first shaping subassembly and the supporting plates (11) in the second shaping subassembly are relatively arranged in parallel and are connected into a whole through connecting pieces (7), so that the winding flower grooves at two ends of the motor stator are shaped simultaneously.

2. Shaping device according to claim 1, wherein the end of the sliding shaping needle (13) facing the first stator passing bore (111) has a mouth (132), the mouth (132) being of a conical configuration facing the first stator passing bore (111).

3. The shaping device of claim 2 wherein the cone structure has a generatrix that is an arc with a center on a side of a centerline of the cone structure.

4. The shaping device according to claim 1, characterized in that the rotating plate (14) has a second stator through hole (141) and a plurality of guide grooves (142), the second stator through hole (141) is coaxially arranged with the first stator through hole (111), in a radial plane of the rotating plate (14), a central line of a midpoint of a length direction of the guide groove (142) and a center of the second stator through hole (141) is a first straight line, the first straight line and an extending direction of the guide groove (142) form a first included angle a, the a is an acute angle, the sliding shaping needle (13) has a first connecting pin (131), and a free end of the first connecting pin (131) is in clearance fit with the guide groove (142).

5. Shaping device according to claim 1, characterized in that the rotary plate (14) has a drive shaft (143) on one side, the drive device (2) comprises a cylinder (21), a connector (22), the free end of the piston rod of the cylinder (21) is connected with the connector (22), and the drive shaft (143) is inserted into a connecting hole provided in the connector (22).

6. Shaping device according to claim 5, characterized in that the driving device (2) further comprises a mounting (23), which mounting (23) consolidates the housing of the cylinder (21) with the pallet (11).

7. Shaping device according to claim 1, characterized in that the pallet (11) in the first shaping subassembly and the pallet (11) in the second shaping subassembly have a predetermined space between them, further comprising a stator fixture (5), which stator fixture (5) is mounted on the pallet (11) in the first shaping subassembly for fixing the position of the motor stator placed in the first stator passing hole (111) and/or that the stator fixture (5) is mounted on the pallet (11) in the second shaping subassembly for fixing the position of the motor stator placed in the first stator passing hole (111).

8. Shaping device according to claim 7, further comprising a placeholder (6), said placeholder (6) being within said predetermined space.

9. Shaping device according to claim 8, characterized in that the placeholder (6) is fitted or snapped onto the connection piece (7).

10. Shaping device according to claim 9, characterized in that it further comprises a cover plate (3), said cover plate (3) having a third stator passing hole (31), said third stator passing hole (31) being arranged coaxially with said first stator passing hole (111), said cover plate (3) being arranged on the side of said first shaping subassembly where said rotating plate (14) is remote from said slip assembly and connected with said pallet (11) in said first shaping subassembly, and/or said cover plate (3) being arranged on the side of said second shaping subassembly where said rotating plate (14) is remote from said slip assembly and connected with said pallet (11) in said second shaping subassembly.