CN215709891U - Motor stator shaping structure - Google Patents

Abstract

The utility model discloses a motor stator shaping structure which comprises a bottom plate, wherein a sliding block plate fixedly connected with a translation cylinder slides on the top of the bottom plate, a conveying device is further arranged on the top of the bottom plate, a first clamping cylinder and a second clamping cylinder are symmetrically and fixedly arranged on the front and back of the top of the sliding block plate, piston rods of the first clamping cylinder and the second clamping cylinder are respectively connected with a first material clamping plate and a second material clamping plate, a first proximity switch and a second proximity switch are arranged on the first material clamping plate, guide plates are sleeved on the outer side surfaces of two support columns symmetrically arranged on the front and back of the top of the bottom plate, a first pressing plate matched with a product for shaping is fixedly arranged at the bottom of each guide plate, and a second pressing plate, a third pressing plate and two positioning cores which are matched and punched with the guide plates are arranged above the guide plates. The automatic guiding feeding device can automatically guide and feed products, is a full-automatic flow production line, saves labor cost and improves production efficiency.

Description

Motor stator shaping structure

Technical Field

The utility model belongs to the technical field of motor stator shaping, and particularly relates to a motor stator shaping structure.

Background

The existing motor stator and rotor shaping is mostly a semi-automatic production line, and the defects that manual intervention or product placement is needed, automatic guiding and feeding of products cannot be achieved, the automation degree is low, the labor cost required by production is increased, and the production efficiency is low.

Therefore, the motor stator shaping structure capable of automatically guiding and feeding the products is a full-automatic flow production line, labor cost is saved, and production efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a motor stator shaping structure to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a motor stator shaping structure comprises a bottom plate, a sliding block plate is connected to two sliding rails symmetrically arranged in front and back of the top of the bottom plate in a sliding mode, a rectangular support plate is fixedly arranged on the top of the bottom plate, a piston rod of a translation cylinder on the top of the rectangular support plate is fixedly connected with the middle of the left end face of the sliding block plate, a support which penetrates through an opening in the sliding block plate and is fixedly connected with a conveying device at the upper end of the rectangular support plate is fixedly arranged on the top of the bottom plate, a first clamping cylinder and a second clamping cylinder are symmetrically and fixedly arranged on the front and back of the top of the sliding block plate, a first material clamping plate matched with a product on the conveying device is fixedly arranged at the end of a piston rod of the first clamping cylinder, a second material clamping plate matched with the first material clamping plate for clamping the product is fixedly arranged at the end of a piston rod of the second clamping cylinder, and a first proximity switch and a second proximity switch are arranged on the first material clamping plate, the guide plate is sleeved on the outer side surfaces of two struts symmetrically arranged in the front-back direction of the top of the bottom plate, a first pressing plate matched with and shaping a product is fixedly arranged at the bottom of the guide plate, a second pressing plate matched with and punching the guide plate is arranged above the guide plate, a third pressing plate is fixedly arranged at the bottom of the second pressing plate, and two positioning cores are symmetrically arranged at the left and right sides of the bottom of the third pressing plate.

Preferably, the front end and the rear end of the bottom of the sliding block plate are respectively connected with the two sliding rails in a sliding mode through the two sliding blocks.

This set up slider board through two slider and two slide rail sliding connection, when translation cylinder promoted slider board left and right translation, improved slider board's stability.

Preferably, the conveying device is located above the translation cylinder.

Preferably, the conveying device is symmetrically provided with two limiting plates in front and back.

This set up two L shape limiting plate and carry out spacing direction material loading to the product.

Preferably, the first clamping cylinder and the second clamping cylinder are respectively and correspondingly arranged at the top of the first base plate and the top of the second base plate, and the first base plate and the second base plate are fixedly arranged at the top of the slider plate.

The first base plate and the second base plate are used for supporting and fixing the first clamping cylinder and the second clamping cylinder respectively.

Preferably, the spring is arranged on the outer side face of the strut and located between the guide plate and the bottom plate.

Preferably, the guide plate is provided with two circular positioning grooves which are matched with the two positioning cores for splicing and positioning.

When this set up the baffle and move down along the pillar, the location core can be pegged graft to mutually with circular constant head tank, can promote the direction of first clamp plate and move down.

The utility model has the technical effects and advantages that: the motor stator shaping structure is characterized in that when products are automatically fed, the products are placed at the top of a conveying device and limited between two L-shaped limiting plates, the conveying device conveys the products to move forwards, a first product is stopped when moving to the right ends of a first material clamping plate and a second material clamping plate, (the first clamping cylinder and the second clamping cylinder are in a clamping state at the moment), a first proximity switch arranged on the first material clamping plate is triggered at the same time, an in-place signal is sent to a control circuit PLC, similarly, a second product is stopped when being stopped by the tail end of the first product, a second proximity switch arranged on the first material clamping plate is also triggered, an in-place signal is sent to the control circuit PLC, a signal for driving a translation cylinder is sent, the translation cylinder receives the signal to inflate to push a sliding block plate to move rightwards to a designated position to stop, and a third pressing plate, a second pressing plate and two positioning cores are pressed down on a guide plate, the guide plate moves downwards along the support column, and the first pressing plate presses the product;

first clamp plate is when not compressing tightly two products, and first die clamping cylinder and second die clamping cylinder aerify and loosen the tight product state of clamp, and translation gas exhaust moves left, drives the slider board and moves left, accomplishes a process, and so recirculation can carry out automatic material loading and carry to the product, can carry out automatic direction feeding to the product, for full-automatic water production line, both practices thrift the human cost, improves production efficiency again.

Drawings

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

FIG. 2 is a top view of a first material clamping plate and a second material clamping plate according to the present invention;

FIG. 3 is a top view of FIG. 1 in accordance with the present invention;

FIG. 4 is a left side view of FIG. 1 in accordance with the present invention;

FIG. 5 is a view of the clamping plate of the present invention in preparation for clamping a product;

FIG. 6 is a view of the material clamping plate release product of the present invention;

FIG. 7 is a schematic view of the pressing structure of the second pressing plate according to the present invention;

FIG. 8 is a schematic diagram of the second platen lift configuration of the present invention.

In the figure: 1. a base plate; 2. a slide rail; 3. a slider plate; 4. a slider; 501. a first backing plate; 502. a second backing plate; 601. a first clamping cylinder; 602. a second clamping cylinder; 701. a first proximity switch; 702. a second proximity switch; 801. a first material clamping plate; 802. a second material clamping plate; 9. a guide plate; 10. a positioning core; 11. a first platen; 12. a third press plate; 13. a second platen; 14. a translation cylinder; 15. a conveying device; 16. producing a product; 17. a rectangular support plate; 18. a support; 19. a limiting plate; 20. a spring; 21. a circular positioning groove; 22. and a support pillar.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a motor stator shaping structure as shown in fig. 1-8, which comprises a bottom plate 1, wherein two sliding rails 2 symmetrically arranged at the front and back of the top of the bottom plate 1 are connected with sliding block plates 3 in a sliding manner, the front and back ends of the bottom of each sliding block plate 3 are respectively connected with the two sliding rails 2 in a sliding manner through two sliding blocks 4, a rectangular support plate 17 is fixedly arranged at the top of the bottom plate 1, a piston rod of a translation cylinder 14 at the top of the rectangular support plate 17 is fixedly connected with the middle part of the left end surface of the sliding block plate 3, a support 18 penetrating through an opening in the sliding block plate 3 and fixedly connected with a conveying device 15 at the upper end of the rectangular support plate 17 is fixedly arranged at the top of the bottom plate 1, the conveying device 15 is positioned above the translation cylinder 14, and two limiting plates 19 are symmetrically arranged at the front and back on the conveying device 15;

a first clamping cylinder 601 and a second clamping cylinder 602 are symmetrically and fixedly arranged at the front and back of the top of the slide plate 3, a first material clamping plate 801 matched with a product 16 on the conveying device 15 is fixedly arranged at the end of a piston rod of the first clamping cylinder 601, a second material clamping plate 802 matched with the first material clamping plate 801 and used for clamping the product 16 is fixedly arranged at the end of a piston rod of the second clamping cylinder 602, the first clamping cylinder 601 and the second clamping cylinder 602 are respectively and correspondingly arranged at the top of a first backing plate 501 and a second backing plate 502, the first backing plate 501 and the second backing plate 502 are fixedly arranged at the top of the slide plate 3, a first proximity switch 701 and a second proximity switch 702 are arranged on the first material clamping plate 801, guide plates 9 are sleeved on the outer side surfaces of two support columns 22 symmetrically arranged at the front and back of the top of the bottom plate 1, and springs 20 positioned between the guide plates 9 and the bottom plate 1 are arranged on the outer side surfaces of the support columns 22, a first pressing plate 11 matched with and shaped by a product 16 is fixedly arranged at the bottom of the guide plate 9, a second pressing plate 13 matched with and stamped on the guide plate 9 is arranged above the guide plate 9, a third pressing plate 12 is fixedly arranged at the bottom of the second pressing plate 13, two positioning cores 10 are symmetrically arranged at the left and right sides of the bottom of the third pressing plate 12, and two circular positioning grooves 21 matched with and spliced with the two positioning cores 10 are formed in the guide plate 9;

when products 16 are automatically loaded, the products 16 are placed at the top of the conveying device 15 and limited between the two limiting plates 19, the conveying device 15 conveys the products 16 to move forwards, the first product 16 is stopped when moving to the right ends of the first material clamping plate 801 and the second material clamping plate 802 (at this time, the first clamping cylinder 601 and the second clamping cylinder 602 are in a clamping state), the first proximity switch 701 arranged on the first material clamping plate 801 is triggered, a signal for the control circuit PLC to go to the right is sent, similarly, the second product 16 is stopped when being stopped by the end of the first product 16, the second proximity switch 702 arranged on the first material clamping plate 801 is also triggered, a signal for the control circuit PLC to go to the right is sent, a signal for driving the translation cylinder 14 is sent, the translation cylinder 14 receives the signal to inflate to push the slider plate 3 to move rightwards to a designated position to stop, the third press plate 12, the second press plate 13 and the two positioning cores 10 are pressed down onto the guide plate 9, the guide plate 9 moves down along the support posts 22, and the first press plate 11 presses the product 16;

when the first pressing plate 11 does not press two products 16 tightly, the first clamping cylinder 601 and the second clamping cylinder 602 are inflated to loosen the state of clamping the products 16, the translation cylinder 14 exhausts and moves leftwards to drive the slider plate 3 to move leftwards to complete a process, and the repeated circulation can automatically feed and convey the products 16, can automatically guide and feed the products, is a full-automatic assembly line, saves labor cost and improves production efficiency.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a motor stator plastic structure, includes bottom plate (1), its characterized in that: the material clamping device is characterized in that sliding block plates (3) are connected to two sliding rails (2) symmetrically arranged in front and back of the top of the bottom plate (1) in a sliding mode, a rectangular support plate (17) is fixedly arranged at the top of the bottom plate (1), piston rods of translation cylinders (14) at the top of the rectangular support plate (17) are fixedly connected with the middle of the left end face of each sliding block plate (3), a support (18) penetrating through an opening in the sliding block plate (3) and fixedly connected with a conveying device (15) at the upper end of the rectangular support plate (17) is fixedly arranged at the top of the bottom plate (1), a first clamping cylinder (601) and a second clamping cylinder (602) are fixedly arranged at the front and back of the top of the sliding block plate (3) in a symmetrical mode, a first material clamping plate (801) matched with a product (16) on the conveying device (15) is fixedly arranged at the end of a piston rod of the first clamping cylinder (601), and a second material clamping plate (801) matched with the first material clamping plate (16) is fixedly arranged at the end of the piston rod of the second clamping cylinder (602) Plate (802), be equipped with first proximity switch (701) and second proximity switch (702) on first clamp flitch (801), baffle (9) have been cup jointed to two pillar (22) lateral surfaces that bottom plate (1) top front and back symmetry set up, the fixed first clamp plate (11) that are equipped with product (16) cooperation plastic in bottom of baffle (9), the top of baffle (9) is equipped with second clamp plate (13) rather than the punching press that cooperatees, the fixed third clamp plate (12) that are equipped with in bottom of second clamp plate (13), the bottom bilateral symmetry of third clamp plate (12) is equipped with two location cores (10).

2. The motor stator shaping structure according to claim 1, wherein: the front end and the rear end of the bottom of the sliding block plate (3) are respectively connected with the two sliding rails (2) in a sliding mode through the two sliding blocks (4).

3. The motor stator shaping structure according to claim 1, wherein: the conveying device (15) is positioned above the translation air cylinder (14).

4. The motor stator shaping structure according to claim 1, wherein: two limiting plates (19) are symmetrically arranged on the conveying device (15) front and back.

5. The motor stator shaping structure according to claim 1, wherein: the first clamping cylinder (601) and the second clamping cylinder (602) are respectively and correspondingly arranged at the tops of the first base plate (501) and the second base plate (502), and the first base plate (501) and the second base plate (502) are fixedly arranged at the top of the sliding block plate (3).

6. The motor stator shaping structure according to claim 1, wherein: and the spring (20) is arranged on the outer side surface of the strut (22) and is positioned between the guide plate (9) and the bottom plate (1).

7. The motor stator shaping structure according to claim 1, wherein: the guide plate (9) is provided with two circular positioning grooves (21) which are matched with the two positioning cores (10) for splicing and positioning.

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