CN210225209U - Automatic series excited motor stator slot-entering paper machine - Google Patents

Abstract

The utility model discloses an automatic series excited motor stator slot-in paper machine, a stator transposition mechanism is provided with a stator conveying slide way, and the stator conveying slide way comprises a slide plate positioned at the bottom and slide bars positioned at the two sides of the slide plate; a stator transposition motor is arranged on the front side of the stator conveying slide way, and a stator transposition head comprises a positioning column and a positioning chuck; the slot paper forming mechanism is provided with a stator conveying claw, a slot paper forming part and a cutter; the stator conveying claw is arranged above the stator conveying slideway. The utility model discloses an unloading in the manipulator is automatic, and mechanical type removes the stator, and the debugging is convenient, and material loading and unloading department have all adopted no pole cylinder, and is convenient pleasing to the eye, removes stator mechanism and adopts a mouthful style of calligraphy moving means, send the stator to fixed position, and is accurate convenient, pushes down forming mechanism and pushes down by the cylinder, and the folded paper leads the paper, turns over on, pushes away paper and accomplishes, guarantees stator and insulating paper laminating, has realized the automatic feeding, shaping and the assembly of stator, has improved production quality and efficiency.

Description

Automatic series excited motor stator slot-entering paper machine

Technical Field

The utility model belongs to the automation equipment field especially relates to an automatic series excited motor stator goes into groove paper machine.

Background

On the stator core of motor, often set up a plurality of rule grooves and embedding excitation winding to guarantee that the motor can normally work, in order to avoid appearing the electrically conductive condition between excitation winding and the stator core, adopt the mode of moulding plastics to form one deck insulating layer on the rule groove of iron core and the surface of iron core usually, the process flow is complicated, and is with high costs.

SUMMERY OF THE UTILITY MODEL

For solving the current adoption mode of moulding plastics at the rule groove of iron core and the surface shaping one deck insulating layer of iron core, process flow is complicated, with high costs problem, the utility model provides an automatic series motor stator goes into groove paper machine.

The utility model discloses a realize like this, the utility model discloses an automatic series excited motor stator goes into groove paper machine includes the stator indexing mechanism that sets up with feed mechanism butt joint, the groove paper forming mechanism, the nipper that set up with this stator indexing mechanism butt joint, the paper feeding mechanism and the paper pushing mechanism that set up with the nipper butt joint, unloading mechanism;

the feeding mechanism comprises a dragging cylinder, a lifting cylinder and a pushing cylinder, wherein the dragging cylinder is positioned at the bottom and pushed forwards and backwards, the lifting cylinder is pushed vertically, and the pushing cylinder is pushed leftwards and rightwards;

the left-right moving motor drives the material suction plate to move left and right, the material suction plate is driven by the up-down moving motor to move up and down, the feeding sliding table cylinder drives the material suction plate to move back and forth, the bottom of the material suction plate is provided with a magnet mounting plate driven by the material suction cylinder to move up and down, and the magnet is mounted on the magnet mounting plate;

the bottom of the material suction plate is fixedly provided with a pre-guide pillar, the material suction pre-pressing plate is provided with a pre-guide sleeve sliding relative to the pre-guide pillar, a pre-pressing spring is arranged between the top of the pre-guide sleeve and the bottom of the material suction plate, the top of the material suction plate is provided with a limit screw and a pre-pressing floating screw, and the pre-pressing floating screw abuts against the pre-pressing spring.

Further, the stator indexing mechanism is provided with a stator conveying slideway, and the stator conveying slideway comprises a sliding plate positioned at the bottom and sliding strips positioned at two sides of the sliding plate;

a stator transposition motor which is driven by a back-and-forth movement transposition air cylinder to move back and forth is arranged on the front side of the stator conveying slide way, the stator transposition motor drives a stator transposition head to rotate, the stator transposition head comprises a positioning column connected with an output shaft of the stator transposition motor and a positioning chuck arranged on the outer surface of the positioning column, and the positioning chuck is matched with the stator;

the slot paper forming mechanism arranged at the other side of the stator conveying slideway is provided with a stator conveying claw, a slot paper forming part and a slot paper forming die arranged at the rear side of the slot paper forming part;

the stator conveying claw is arranged above the stator conveying slideway and is driven by a longitudinal conveying claw upper and lower cylinder arranged on the stator claw lower pressing guide plate and a conveying claw transverse electric cylinder.

Further, four paper pushing semi-through holes which are arranged up and down are symmetrically arranged on the left side and the right side of the stator forming die; the slot paper forming part comprises a slot paper forming die, the slot paper upturning forming cylinder is driven by a slot paper folding cylinder to move left and right, and the stator forming die, the paper pressing upper die and the slot paper forming lower die are butted up and down to form a paper pushing through hole.

Further, the paper pressing mechanism is arranged above the slot paper forming die and comprises a paper pressing upper die which is driven by a lower slot paper pressing cylinder to move longitudinally relative to the slot paper pressing mechanism and a paper guiding die which is driven by a paper guiding cylinder and moves transversely relative to the slot paper forming die.

Furthermore, the paper pushing mechanism adopts four paper pushing needles aligned with the paper pressing upper die and the slot paper forming lower die of the slot paper forming die, and the four paper pushing needles are driven by the paper pushing cylinder to move the paper pushing needles back and forth to penetrate through the paper pushing through holes.

Further, the paper feeding mechanism is arranged at the rear part of the paper pushing mechanism and is provided with an upper and a lower group of tensioning mechanisms, an upper paper pressing wheel and a lower paper pressing wheel, and the paper feeding motor drives the lower paper pressing wheel through a belt.

The utility model adopts the mechanical arm to automatically feed and discharge, the mechanical moving stator, the paper feeding mechanism and the downward pressing forming mechanism; the manipulator mechanism adopts a servo motor, so that the moving data is accurate, the debugging is convenient, rodless cylinders are adopted at the feeding and discharging positions, the convenience and the attractiveness are realized, and the debugging is simple; the paper feeding mechanism adopts a stepping motor to feed paper, the length and the size are digitally input, and the transformation is convenient; the movable stator mechanism adopts a square-shaped moving mode to convey the stator to a fixed position, the operation is accurate and convenient, the downward pressing and forming mechanism is completed by downward pressing, paper folding, paper guiding, upward turning and paper pushing of the cylinder, the lamination of the stator and insulating paper is ensured, the automatic feeding, forming and assembling of the stator are realized through the mutual matching of the above mechanisms, the production quality and efficiency are improved, and the production cost is reduced.

Drawings

Fig. 1 is a schematic perspective view of an automatic series motor stator slot-feeding machine provided by an embodiment of the present invention;

fig. 2 is a left side view of an automatic series motor stator slot-in paper machine provided by the embodiment of the present invention;

fig. 3 is a main side view of an automatic series motor stator slot-in paper machine according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a stator indexing mechanism and a slide according to an embodiment of the present invention;

fig. 5 is a perspective view of a slot paper forming mechanism provided in an embodiment of the present invention;

fig. 6 is a front view of a slot paper forming mechanism provided by the embodiment of the present invention;

fig. 7 is a perspective view of a paper pressing mechanism provided in the embodiment of the present invention;

FIG. 8 is a perspective view of a paper feeding mechanism according to an embodiment of the present invention;

fig. 9 is a perspective view of a paper pushing mechanism provided in the embodiment of the present invention;

fig. 10 is a perspective view of a feeding mechanism provided in the embodiment of the present invention;

fig. 11 is a front view of a paper feeding mechanism provided in an embodiment of the present invention;

fig. 12 is a perspective view of a blanking mechanism provided in the embodiment of the present invention;

fig. 13 is a layout diagram of a paper pushing punch hole provided in an embodiment of the present invention;

FIG. 14 is a schematic view of a suction pre-press plate according to an embodiment of the present invention;

FIG. 15 is a schematic view of another perspective installation of a suction pre-compression plate according to an embodiment of the present invention;

in the figure: 1. a stator indexing mechanism; 1-1, a stator conveying slideway; 1-2, a stator indexing motor; 1-3, an upper dragging position cylinder and a lower dragging position cylinder; 1-4, a stator slot paper flattening cylinder; 1-5, moving the transposition air cylinder back and forth; 1-6, a positioning column; 1-7, positioning the chuck; 1-8 sliding plates; 1-9, a slide bar; 2. a slot paper forming mechanism; 2-1, vertically conveying the upper and lower cylinders of the claw; 2-2, pressing a slot paper cylinder; 2-3, a paper-cut cylinder; 2-4, a transverse electric cylinder of the conveying claw; 2-5, a slot paper folding cylinder; 2-6, turning up the slot paper to form a cylinder; 2-7, stator conveying claws; 2-8, stator claw guide plate; 2-9, pressing the guide plate by the stator claw; 2-10, forming a stator forming die; 2-11, forming the slot paper; 2-12, forming a lower die for slot paper; 3. a paper pressing mechanism; 3-1, a paper guide die; 3-2, a paper guide cylinder; 3-3, pressing an upper die; 4. a paper feeding mechanism; 4-1, a paper feeding motor; 4-2, feeding a paper pressing wheel; 4-3, feeding a paper pressing wheel; 4-4, upper and lower groups of tensioning mechanisms; 5. a paper pushing mechanism; 5-1, a paper pushing cylinder; 5-2, paper pushing pins; 6. a feeding mechanism; 6-1, a left-right moving motor; 6-2, moving a motor up and down; 6-3, a feeding sliding table cylinder; 6-4, a material suction cylinder; 6-5, a material lifting cylinder; 6-6, a material dragging cylinder; 6-7, a material pushing cylinder; 6-8, sucking and pre-pressing plates; 6-9, a material suction plate; 6-10 parts of stator peripheral turntable; 6-11, a chute; 6-12, a limit screw; 6-13, prepressing a spring; 6-14, pre-guiding the sleeve; 6-15, pre-guide post; 6-16, prepressing the floating screw; 6-17, mounting a magnet; 6-18, a magnet; 7. a blanking mechanism; 7-1, feeding, grabbing, and arranging an upper cylinder and a lower cylinder; 7-2, discharging, and moving the air cylinder left and right; 7-3, adjusting a stator height cylinder; 7-4, a stator clamping jaw cylinder; 8. and (5) pushing paper and punching.

Detailed Description

In order to further understand the contents, features and functions of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

The structure of the present invention will be described in detail with reference to the accompanying drawings.

The utility model discloses an automatic series excited motor stator slot-in paper machine, which comprises a stator indexing mechanism 1, a slot paper forming mechanism 2, a paper pressing mechanism 3, a paper feeding mechanism 4, a paper pushing mechanism 5, a feeding mechanism 6 and a discharging mechanism 7;

the feeding mechanism 6 comprises a dragging cylinder 6-6 which is positioned at the bottom and pushed forwards and backwards, a lifting cylinder 6-5 which is pushed vertically, and a pushing cylinder 6-7 which is pushed leftwards and rightwards;

the left-right moving motor 6-1 drives the material suction plate 6-9 to move left and right, the material suction plate 6-9 is driven by the up-down moving motor 6-2 to move up and down, the feeding sliding table cylinder 6-3 drives the material suction plate 6-9 to move back and forth, the bottom of the material suction plate 6-9 is provided with a magnet mounting plate 6-17 driven by the material suction cylinder 6-4 to move up and down, and the magnet 6-18 is arranged on the magnet mounting plate 6-17;

the bottom of the material suction plate 6-9 is fixedly provided with a pre-guide post 6-15, the material suction pre-pressing plate 6-8 is provided with a pre-guide sleeve 6-14 which slides relative to the pre-guide post 6-15 in a sleeved mode, a pre-pressing spring 6-13 is arranged between the top of the pre-guide sleeve 6-14 and the bottom of the material suction plate 6-9, the top of the material suction plate 6-9 is provided with a limiting screw 6-12 and a pre-pressing floating screw 6-16, and the pre-pressing floating screw 6-16 abuts against the pre-pressing spring 6-13 to adjust the pre;

the stator indexing mechanism 1 is provided with a stator conveying slideway 1-1, and the stator conveying slideway 1-1 comprises a sliding plate 1-8 positioned at the bottom and sliding strips 1-9 positioned at two sides of the sliding plate;

a stator transposition motor 1-2 which is driven by a back-and-forth movement transposition air cylinder 1-5 to move back and forth is arranged at the front side of a stator conveying slideway 1-1, the stator transposition motor 1-2 drives a stator transposition head to rotate, the stator transposition head comprises a positioning column 1-6 connected with an output shaft of the stator transposition motor 1-2 and a positioning chuck 1-7 arranged on the outer surface of the positioning column 1-6, the positioning chuck 1-7 is matched with a stator to be arranged, the positioning chuck 1-7 drives the stator to be transposed, so that transposition adjustment of stator wire embedding slots with different angles can be conveniently realized, and paper can be conveniently inserted into the slots;

the slot paper forming mechanism 2 arranged at the other side of the stator conveying slideway 1-1 is provided with a stator conveying claw 2-7, a slot paper forming part and a slot paper forming die 2-11 arranged at the rear side of the slot paper forming part;

the stator conveying claw 2-7 is arranged above the stator conveying slideway 1-1 and is driven by a longitudinal conveying claw upper and lower cylinder 2-1 arranged on a stator claw lower pressing guide plate 2-9 and a conveying claw transverse electric cylinder 2-4 and matched with a slide rail arranged longitudinally and transversely to realize the conveying of the stator on the stator conveying slideway 1-1, specifically, a longitudinal conveying claw upper and lower cylinder 2-1 drives a stator claw lower pressing guide plate 2-9 to move longitudinally along a stator conveying claw 2-7 (provided with a slide rail), a conveying claw transverse electric cylinder 2-4 drives the stator conveying claw 2-7 to move transversely along a stator claw guide plate 2-8 (provided with a slide rail), and the top of the stator conveying claw 2-7 is clamped with a stator arranged at the end part of a stator conveying slide rail 1-1 and then is conveyed transversely to the front end of a positioning column 1-6;

in order to ensure the accurate matching of the slot paper and the slot embedding slot and prevent the slot paper from being pushed to be deviated, four paper pushing semi-through holes which are arranged up and down are symmetrically arranged on the left side and the right side of the stator forming die 2-10; the slot paper forming part comprises slot paper forming dies 2-11, wherein a slot paper upturning forming cylinder 2-6 is driven to move left and right by a slot paper folding cylinder 2-5, a stator forming die 2-10, a paper pressing upper die 3-3 and a slot paper forming lower die 2-12 are butted up and down to form a paper pushing through hole 8;

in order to ensure that the formed slot paper can be accurately attached to the stator core, a stretching body matched with the stator core slot is arranged in front of the slot paper forming die 2-11;

the paper pressing mechanism 3 is arranged above the slot paper forming die 2-11 and comprises a paper pressing upper die 3-3 which is driven by a lower slot paper pressing cylinder 2-2 to move longitudinally relative to the slot paper pressing mechanism and a paper guide die 3-1 which is driven by a paper guide cylinder 3-2 and moves transversely relative to the slot paper forming die 2-11, so that the paper feeding mechanism 4 can smoothly feed slot paper into the paper pressing mechanism 3 and stably press down through the lower slot paper pressing cylinder 2-2.

In order to ensure that the formed slot paper can be accurately fed into the stator slot embedding grooves, the paper pushing mechanism 5 adopts a paper pushing semi-through hole aligned with a slot paper forming die 2-11, four paper pushing needles 5-2 aligned with a slot paper forming lower die 2-12, the four paper pushing needles 5-2 are driven by a paper pushing cylinder 5-1 to move back and forth, and the paper pushing needles 5-2 penetrate through a paper pushing through hole 8 to push the slot paper formed between the paper pushing needle and the paper pushing lower die into the stator slot embedding grooves;

the paper feeding mechanism 4 is arranged at the rear part of the paper pushing mechanism 5 and is provided with an upper and a lower groups of tensioning mechanisms 4-4, an upper paper pressing wheel 4-2 and a lower paper pressing wheel 4-3, a paper feeding motor 4-1 drives the upper paper pressing wheel 4-2 through a belt, and the size of the slot paper is determined by setting the pulse number and the conversion length of the motor. The upper paper pressing wheel 4-2 and the lower paper pressing wheel 4-3 rotate oppositely to feed slot paper into the slot paper forming mechanism 2 and the paper pressing mechanism 3;

the automatic series motor stator slot-feeding machine is also provided with a feeding mechanism 6, a left-right moving motor 6-1 drives a material suction cylinder 6-4, a material suction prepressing plate 6-8 arranged on the material suction cylinder 6-4 and a material suction plate 6-9 drive the material suction plate 6-9 to suck the stator after pressing down certain data, and stator feeding is completed through matching;

the utility model discloses an automatic series excited motor stator goes into groove paper machine's working process does:

step one, the left-right moving motor 6-1 and the up-down moving motor 6-2 move left and right and up and down respectively, move to the positions of one row and two rows of rubber frames of the stator circumference turntable 6-10 according to the machine program,

the up-down moving motor 6-2 drives the material suction plate 6-9 to move up and down, the material suction prepressing plate 6-8 generates prepressing force on the stator through the prepressing spring 6-13 after contacting a product, the magnet mounting plate 1-17 is driven to extend out through the material suction cylinder 6-4 after the material suction prepressing plate 6-8 contacts the limiting screw 6-12, the magnet 6-18 is adsorbed after contacting the product, and the magnet mounting plate 1-17 is driven to return through the material suction cylinder 6-4 after the stator is sent to a specified position;

secondly, the feeding sliding table cylinder 6-3 sends the stator to the sliding chute 6-11, the material dragging cylinder 6-6 is pulled backwards, the material lifting cylinder 6-5 lifts the stator to the stator conveying slide way 1-1, and the stator is pushed to the position where the upper cylinder 2-1 and the lower cylinder 2-1 of the longitudinal conveying claw are pressed downwards by the material pushing cylinder 6-7;

driving a stator claw guide plate 2-8 to longitudinally move along a stator claw lower pressing guide plate 2-9 (provided with a slide rail) by a longitudinal conveying claw upper and lower cylinder 2-1, driving a stator conveying claw 2-7 to transversely move along the stator claw guide plate 2-8 (provided with the slide rail) by a conveying claw transverse electric cylinder 2-4, and transversely conveying the stator conveying claw 2-7 to the front end of a positioning column 1-6 after the top of the stator conveying claw is clamped with a stator arranged at the end part of a stator conveying slide way 1-1;

fourthly, the front-back moving transposition air cylinder 1-5 drives the positioning column 1-6 and the positioning chuck 1-7 to move forwards to position the stator;

step five, the paper feeding motor 4-1 drives the upper paper pressing wheel 4-2 to feed the slot paper into the paper guiding mold 3-1;

cutting off the slot paper through the paper cutting cylinder 2-3;

seventhly, pressing the slot paper on the stator forming die 2-10 through the slot paper pressing down cylinder 2-2 to keep stable, and folding the slot paper upwards through the slot paper folding cylinder 2-5 moving left and right and the slot paper turning up forming cylinder 2-6;

eighthly, driving the four paper pushing needles 5-2 to move back and forth by the paper pushing cylinder 5-1, and pushing the paper pushing needles 5-2 into the stator wire embedding grooves by penetrating the paper pushing through holes 8;

step nine, the stator transposition motor 1-2 drives the positioning column 1-6 and the positioning chuck 1-7 to transpose the stator, and the step five to the step eight are repeated;

step ten, conveying the processed stator to a blanking mechanism 7 through a stator conveying slide way 1-1, and placing the stator to a next step conveying position through the cooperative action of a blanking grabbing upper cylinder 7-1, a blanking left-right moving cylinder 7-2, a stator height adjusting cylinder 7-3 and a stator clamping jaw cylinder 7-4.

The utility model adopts the mechanical arm to automatically feed and discharge, the mechanical moving stator, the paper feeding mechanism, the mouth shearing mechanism and the downward pressing forming mechanism; the manipulator mechanism adopts a servo motor, so that the moving data is accurate, the debugging is convenient, rodless cylinders are adopted at the feeding and discharging positions, the convenience and the attractiveness are realized, and the debugging is simple; the paper feeding mechanism adopts a stepping motor to feed paper, the length and the size are digitally input, and the transformation is convenient; the movable stator mechanism adopts a square-shaped moving mode to convey the stator to a fixed position, is accurate and convenient, and the mouth shearing mechanism consists of an upper die and a lower die, is customized in size according to the needs of products and meets the needs of the products; the lower pressing forming mechanism is pressed down by the cylinder, folds paper, guides paper, turns over and pushes paper, ensures the lamination of the stator and the insulating paper, realizes the automatic feeding, forming and assembling of the stator through the mutual matching of the above mechanisms, improves the production quality and efficiency, and reduces the production cost.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all the modifications and equivalents of the technical spirit of the present invention to any simple modifications of the above embodiments are within the scope of the technical solution of the present invention.

Claims (6)

1. An automatic series excitation motor stator slot-in paper machine comprises a stator indexing mechanism, a slot paper forming mechanism, a paper pressing mechanism, a paper feeding mechanism, a paper pushing mechanism and a discharging mechanism, wherein the stator indexing mechanism is in butt joint with a feeding mechanism; the left-right moving motor drives the material suction plate to move left and right, the material suction plate is driven by the up-down moving motor to move up and down, the feeding sliding table cylinder drives the material suction plate to move back and forth, the bottom of the material suction plate is provided with a magnet mounting plate driven by the material suction cylinder to move up and down, and the magnet is mounted on the magnet mounting plate;

the bottom of the material suction plate is fixedly provided with a pre-guide pillar, the material suction pre-pressing plate is provided with a pre-guide sleeve sliding relative to the pre-guide pillar, a pre-pressing spring is arranged between the top of the pre-guide sleeve and the bottom of the material suction plate, the top of the material suction plate is provided with a limit screw and a pre-pressing floating screw, and the pre-pressing floating screw abuts against the pre-pressing spring.

2. The automatic series motor stator slot-in paper machine as claimed in claim 1, wherein the stator indexing mechanism has a stator conveying slide, the stator conveying slide comprises a sliding plate at the bottom and sliding bars at both sides of the sliding plate;

a stator transposition motor which is driven by a back-and-forth movement transposition air cylinder to move back and forth is arranged on the front side of the stator conveying slide way, the stator transposition motor drives a stator transposition head to rotate, the stator transposition head comprises a positioning column connected with an output shaft of the stator transposition motor and a positioning chuck arranged on the outer surface of the positioning column, and the positioning chuck is matched with the stator;

the slot paper forming mechanism arranged at the other side of the stator conveying slideway is provided with a stator conveying claw, a slot paper forming part and a slot paper forming die arranged at the rear side of the slot paper forming part;

the stator conveying claw is arranged above the stator conveying slideway and is driven by a longitudinal conveying claw upper and lower cylinder arranged on the stator claw lower pressing guide plate and a conveying claw transverse electric cylinder.

3. The automatic series motor stator slot-in paper machine according to claim 2, characterized in that the stator forming die is symmetrically provided with four paper-pushing half-through holes arranged up and down on the left side and the right side; the slot paper forming part comprises a slot paper forming die, the slot paper upturning forming cylinder is driven by a slot paper folding cylinder to move left and right, and the stator forming die, the paper pressing upper die and the slot paper forming lower die are butted up and down to form a paper pushing through hole.

4. The automatic series motor stator slot feeder of claim 3, wherein the platen mechanism is mounted above the slot forming die and includes a platen die driven by the lower platen cylinder to move longitudinally relative to the slot forming die and a paper guide die driven by the paper guide cylinder to move transversely relative to the slot forming die.

5. The automatic series motor stator slot-in paper machine of claim 4, characterized in that the paper pushing mechanism uses four paper pushing pins aligned with the upper paper pressing die and the lower slot paper forming die of the slot paper forming die, and the four paper pushing pins are driven by the paper pushing cylinder to move back and forth through the paper pushing through hole.

6. The automatic series motor stator slot-in paper machine as claimed in any one of claims 1 to 5, characterized in that the paper feeding mechanism is arranged at the rear part of the paper pushing mechanism and is provided with an upper and a lower group of tensioning mechanisms, an upper paper pressing wheel and a lower paper pressing wheel, and the paper feeding motor drives the lower paper pressing wheel through a belt.

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