CN110639388A

CN110639388A - Ferrite core is with high-efficient processing equipment

Info

Publication number: CN110639388A
Application number: CN201910836826.4A
Authority: CN
Inventors: 祁林忠; 汤利明
Original assignee: SANLIN ELECTRONIC CO Ltd HAINING CITY
Current assignee: SANLIN ELECTRONIC CO Ltd HAINING CITY
Priority date: 2019-09-05
Filing date: 2019-09-05
Publication date: 2020-01-03

Abstract

The invention provides high-efficiency processing equipment for a ferrite core, which comprises a base, wherein a stirring box is fixed on the base through a mounting frame, the upper part of the stirring box is provided with a feeding port, a first electromagnetic valve is arranged at the feeding port, the lower part of the stirring box is provided with a discharging port, a second electromagnetic valve is arranged at the discharging port, a driving shaft is horizontally and rotatably arranged on the stirring box and is connected with a power structure capable of driving the driving shaft to rotate, a first rotating disc and a second rotating disc are fixed on the driving shaft, the outer side part of the first rotating disc is provided with a plurality of first stirring sheets, the outer side part of the second rotating disc is provided with a plurality of second stirring sheets, and. The invention has the advantage of rapid processing.

Description

Ferrite core is with high-efficient processing equipment

Technical Field

The invention belongs to the technical field of magnetic core processing, relates to high-efficiency processing equipment, and particularly relates to high-efficiency processing equipment for a ferrite magnetic core.

Background

A ferrite core is a metal oxide having ferromagnetism. The ferrite core is mainly used for manufacturing various inductors, transformers, filters and choke coils, and is widely applied to the field of modern electronic information, such as computers and external equipment thereof, office automation equipment, digital communication and analog communication equipment, the internet, household appliances, electromagnetic compatibility equipment, green lighting devices, industrial automation and the fields of automobiles, aviation, aerospace and military. The process flow of the ferrite magnetic core is as follows: weighing according to a predetermined formula, uniformly mixing high-purity powdery oxides (such as Fe2O3, Mn3O4, ZnO, NiO, MgO and the like), presintering, crushing, granulating, carrying out compression molding to form a blank, sintering at high temperature (1200-1400 ℃), grinding, inspecting and packaging to obtain a finished product.

Through retrieval, as chinese patent literature discloses a rabbling mechanism for ferrite granule material [ application number: 201420610199.5, respectively; publication No.: CN 204322274U ]. This kind of an rabbling mechanism for ferrite granule material, its characterized in that includes: the stand is used for supporting the stirring mechanism; the stirring tank body is arranged on the machine frame and is used for filling the ferrite particles; the support is arranged on the stirring tank body and used for driving the stirring tank body to overturn up and down through self up-down overturning so as to realize feeding and discharging; the overturning motor is arranged on the bracket and is used for driving the bracket to overturn up and down; and the stirring motor is arranged on the support and used for driving the stirring tank body to rotate.

Although the stirring quality can be guaranteed by the stirring mechanism disclosed in the patent, the structure of the stirring mechanism is too simple, various raw materials cannot be quickly and uniformly stirred, and the processing speed is slow, so that the design of the efficient processing equipment for the ferrite core is necessary.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides high-efficiency processing equipment for a ferrite core, which has the characteristic of quick processing.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a ferrite core is with high-efficient processing equipment, the on-line screen storage device comprises a base, a serial communication port, be fixed with the agitator tank through the mounting bracket on the base, agitator tank upper portion has the charge door, charge door department is provided with solenoid valve one, the agitator tank lower part has the discharge gate, discharge gate department is provided with solenoid valve two, the agitator tank is improved level and is rotated and be provided with the drive shaft, the drive shaft can drive its pivoted power structure with one and link to each other, be fixed with carousel one and carousel two in the drive shaft, the outside portion of carousel one has a plurality of stirring pieces one, the outside portion of carousel two has a plurality of stirring pieces two, still have supplementary conveying mechanism between carousel.

The working principle of the invention is as follows: drive the drive shaft through power structure and rotate, the drive shaft drives carousel one and carousel two rotates, and stirring piece one and stirring piece two can stir the raw materials in the agitator tank repeatedly, simultaneously, can carry the agitator tank top with the raw materials of agitator tank bottom through supplementary conveying mechanism to can be with raw materials rapid mixing even, the processing is quick.

The auxiliary conveying mechanism comprises a plurality of conveying frames, the conveying frames are connected to the second rotary table through a positioning rotary shaft, the conveying frames comprise a frame body and a bottom plate, the frame body is connected with the positioning rotary shaft, one end of the bottom plate is hinged to one end of the frame body, the other end of the bottom plate is connected with the other end of the frame body through a reset spring, a balancing weight is further fixed to the bottom plate, and a regulation and control structure capable of enabling the bottom plate to be separated from the frame body is further arranged in the.

By adopting the structure, the raw materials at the bottom of the stirring box can be conveyed from bottom to top through the conveying frame, and the raw materials conveyed by the conveying frame can fall out through the regulating and controlling structure after the conveying frame is positioned at the highest position.

The regulating and controlling structure comprises an arc-shaped guide rod and a linkage block, the arc-shaped guide rod is installed in the stirring box through a support rod, a plurality of guide wheels are arranged on the arc-shaped guide rod, the linkage block is fixed at the other end of the bottom plate, and the linkage block can be in contact with the guide wheels.

The structure more than adopting, contact with the arc guide arm through linkage block, under the effect of arc guide arm, make bottom plate and framework break away from mutually to can make the raw materials in the transport frame drop out.

The power structure comprises a power motor, a driving wheel, a driven wheel and a belt, wherein the power motor is fixed on the mounting frame, an output shaft of the power motor is horizontally arranged, the driving wheel is fixed at the end part of the output shaft of the power motor, the driven wheel is fixed at the end part of the driving shaft, and the belt is sleeved between the driving wheel and the driven wheel.

By adopting the structure, the output shaft of the power motor is controlled to rotate, the output shaft of the power motor drives the driving wheel to rotate, the driving wheel drives the driven wheel to rotate through the belt, and the driven wheel drives the driving shaft to rotate, so that the driving shaft can rotate.

And a forward spiral sheet and a reverse spiral sheet are further fixed on the driving shaft, the forward spiral sheet is close to the first rotating disc, and the reverse spiral sheet is close to the second rotating disc.

With the adoption of the structure, the driving shaft drives the forward spiral piece and the reverse spiral piece to rotate, and under the action of the forward spiral piece and the reverse spiral piece, the raw materials in the middle of the stirring box are conveyed to two sides.

Still be provided with unloading mechanism on the base, unloading mechanism includes locating rack, mobile station, guide rail and slider, and the guide rail level is fixed on the base, and the slider setting is on the guide rail, and the mobile station is fixed on the slider, and the locating rack is fixed on the mobile station, and the locating rack is located the discharge gate below, has a plurality of constant head tanks that are used for fixing a position the stock bucket on the locating rack, still is provided with the drive structure that can drive slider round trip movement on the base.

By adopting the structure, the driving structure drives the sliding block to move back and forth, the sliding block drives the moving platform to move back and forth, and the moving platform drives the positioning frame to move back and forth, so that the stirred mixture can be conveniently put into each material storage barrel.

The driving structure comprises a driving gear, a rack and a driving motor, the rack is horizontally fixed on the base and parallel to the guide rail, the driving motor is fixed on the sliding block, an output shaft of the driving motor is horizontally arranged, the driving gear is fixed at the end part of the output shaft of the driving motor, and the driving gear is meshed with the rack.

By adopting the structure, the output shaft of the driving motor is controlled to rotate, the output shaft of the driving motor drives the driving gear to rotate, the driving gear is meshed with the rack, the sliding block moves back and forth along the guide rail, and therefore the sliding block can move back and forth.

Compared with the prior art, this ferrite core uses high-efficient processing equipment has this advantage:

according to the invention, the driving shaft is driven to rotate by the power structure, the driving shaft drives the first rotating disc and the second rotating disc to rotate, the first stirring sheet and the second stirring sheet can repeatedly stir raw materials in the stirring box, and meanwhile, the raw materials at the bottom of the stirring box can be conveyed to the top of the stirring box by the auxiliary conveying mechanism, so that the raw materials can be quickly and uniformly stirred and quickly treated.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a perspective view of the present invention with parts broken away.

Fig. 3 is a schematic perspective view of the conveying frame of the present invention.

Fig. 4 is a schematic plan view of a removed portion of the present invention.

In the figure, 1, a base; 2. a mounting frame; 3. a stirring box; 3a, a feed inlet; 3b, a discharge hole; 4. a power motor; 5. a driving wheel; 6. a belt; 7. a driven wheel; 8. a guide rail; 9. a rack; 10. a slider; 11. a drive motor; 12. a drive gear; 13. a mobile station; 14. a positioning frame; 15. a second electromagnetic valve; 16. a drive shaft; 17. a first electromagnetic valve; 18. stirring a first stirring sheet; 19. a forward flight; 20. positioning the rotating shaft; 21. a conveying frame; 21a, a frame body; 21b, a bottom plate; 21c, a return spring; 21d, a linkage block; 22. a balancing weight; 23. a reverse flight; 24. a second stirring sheet; 25. a second rotating disc; 26. a first rotating disc; 27. an arc-shaped guide rod; 28. a guide wheel; 29. a support rod.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-4, the efficient processing equipment for the ferrite core comprises a base 1, wherein a stirring box 3 is fixed on the base 1 through a mounting frame 2, a feeding port 3a is formed in the upper part of the stirring box 3, a first electromagnetic valve 17 is arranged at the feeding port 3a, a discharging port 3b is formed in the lower part of the stirring box 3, a second electromagnetic valve 15 is arranged at the discharging port 3b, a driving shaft 16 is horizontally and rotatably arranged on the stirring box 3, the driving shaft 16 is connected with a power structure capable of driving the driving shaft to rotate, a first rotating disc 26 and a second rotating disc 25 are fixed on the driving shaft 16, a plurality of first stirring blades 18 are arranged on the outer side part of the first rotating disc 26, and in the embodiment, the number of; the outer side part of the second rotating disc 25 is provided with a plurality of second stirring blades 24, and in the embodiment, the number of the second stirring blades 24 is ten; an auxiliary conveying mechanism is arranged between the first rotating disc 26 and the second rotating disc 25.

The auxiliary conveying mechanism comprises a plurality of conveying frames 21, and in the embodiment, the number of the conveying frames 21 is six; the conveying frame 21 is connected to the second rotary table 25 through a positioning rotating shaft 20, the conveying frame 21 comprises a frame body 21a and a bottom plate 21b, the frame body 21a is connected with the positioning rotating shaft 20, one end of the bottom plate 21b is hinged to one end of the frame body 21a, the other end of the bottom plate 21b is connected with the other end of the frame body 21a through a return spring 21c, a balancing weight 22 is further fixed on the bottom plate 21b, and a regulating structure capable of enabling the bottom plate 21b to be separated from the frame body 21a is further arranged in the stirring box 3.

The regulating structure comprises an arc-shaped guide rod 27 and a linkage block 21d, the arc-shaped guide rod 27 is installed in the stirring box 3 through a support rod 29, and a plurality of guide wheels 28 are arranged on the arc-shaped guide rod 27, in the embodiment; the link block 21d is fixed to the other end of the base plate 21b, and the link block 21d can be in contact with the guide wheel 28.

The power structure comprises a power motor 4, a driving wheel 5, a driven wheel 7 and a belt 6, wherein the power motor 4 is fixed on the mounting frame 2, and in the embodiment, the power motor 4 is fixed on the mounting frame 2 in a bolt connection mode; an output shaft of the power motor 4 is horizontally arranged, the driving wheel 5 is fixed at the end part of the output shaft of the power motor 4, the driven wheel 7 is fixed at the end part of the driving shaft 16, and the belt 6 is sleeved between the driving wheel 5 and the driven wheel 7.

The driving shaft 16 is also fixed with a forward spiral piece 19 and a reverse spiral piece 23, the forward spiral piece 19 is close to the first rotating disc 26, and the reverse spiral piece 23 is close to the second rotating disc 25.

The base 1 is also provided with a blanking mechanism, the blanking mechanism comprises a positioning frame 14, a moving platform 13, a guide rail 8 and a sliding block 10, the guide rail 8 is horizontally fixed on the base 1, the sliding block 10 is arranged on the guide rail 8, the moving platform 13 is fixed on the sliding block 10, and in the embodiment, the moving platform 13 is fixed on the sliding block 10 in a bolt connection mode; the positioning frame 14 is fixed on the mobile station 13, and in the embodiment, the positioning frame 14 is fixed on the mobile station 13 by means of bolt connection; the positioning frame 14 is positioned below the discharge port 3b, and the positioning frame 14 is provided with a plurality of positioning grooves for positioning the storage barrel, wherein in the embodiment, the number of the positioning grooves is three; the base 1 is also provided with a driving structure which can drive the sliding block 10 to move back and forth; by adopting the structure, the output shaft of the driving motor 11 is controlled to rotate, the output shaft of the driving motor 11 drives the driving gear 12 to rotate, the driving gear 12 is meshed with the rack 9, the sliding block 10 moves back and forth along the guide rail 8, the sliding block 10 drives the moving platform 13 to move back and forth, and the moving platform 13 drives the positioning frame 14 to move back and forth, so that the stirred mixture can be conveniently put into each material storage barrel.

The driving structure comprises a driving gear 12, a rack 9 and a driving motor 11, the rack 9 is horizontally fixed on the base 1, the rack 9 is parallel to the guide rail 8, the driving motor 11 is fixed on the sliding block 10, and in the embodiment, the driving motor 11 is fixed on the sliding block 10 in a bolt connection mode; the output shaft of the driving motor 11 is horizontally arranged, the driving gear 12 is fixed at the end part of the output shaft of the driving motor 11, and the driving gear 12 is meshed with the rack 9.

The working principle of the invention is as follows: the output shaft of the power motor 4 is controlled to rotate, the output shaft of the power motor 4 drives the driving wheel 5 to rotate, the driving wheel 5 drives the driven wheel 7 to rotate through the belt 6, the driven wheel 7 drives the driving shaft 16 to rotate, the driving shaft 16 drives the first rotating disc 26 and the second rotating disc 25 to rotate, the first stirring sheet 18 and the second stirring sheet 24 can repeatedly stir the raw materials in the stirring box 3, meanwhile, the raw materials at the bottom of the stirring box 3 can be conveyed from bottom to top through the conveying frame 21, after the conveying frame 21 is positioned at the highest position, the conveying frame is contacted with the arc-shaped guide rod 27 through the linkage block 21d, under the action of the arc-shaped guide rod 27, the bottom plate 21b is separated from the frame body 21a, so that the raw materials of the conveying frame 21 can fall out, the forward spiral piece 19 and the reverse spiral piece 23 are driven to rotate by the driving shaft 16, the material in the middle of the stirring tank 3 is conveyed to both sides by the forward screw flight 19 and the reverse screw flight 23.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. The utility model provides a ferrite core is with high-efficient processing equipment, including the base seat, a serial communication port, be fixed with the agitator tank through the mounting bracket on the base, agitator tank upper portion has the charge door, charge door department is provided with solenoid valve one, the agitator tank lower part has the discharge gate, discharge gate department is provided with solenoid valve two, the agitator tank is improved level and is rotated and be provided with the drive shaft, the drive shaft can drive its pivoted power structure with one and link to each other, be fixed with carousel one and carousel two in the drive shaft, the outside portion of carousel one has a plurality of stirring vane one, the outside portion of carousel two has a plurality of stirring vane two, still have supplementary conveying mechanism between carousel one and the carousel two.

2. The efficient processing equipment for the ferrite core according to claim 1, wherein the auxiliary conveying mechanism comprises a plurality of conveying frames, the conveying frames are connected to the second rotating disc through a positioning rotating shaft, each conveying frame comprises a frame body and a bottom plate, the frame bodies are connected with the positioning rotating shaft, one end of each bottom plate is hinged to one end of each frame body, the other end of each bottom plate is connected with the other end of each frame body through a return spring, a balancing weight is further fixed on each bottom plate, and a regulating structure capable of enabling the bottom plates to be separated from the frame bodies is further arranged in the stirring box.

3. The efficient processing equipment for the ferrite core according to claim 2, wherein the regulating structure comprises an arc-shaped guide rod and a linkage block, the arc-shaped guide rod is installed in the stirring box through a support rod, a plurality of guide wheels are arranged on the arc-shaped guide rod, the linkage block is fixed at the other end of the bottom plate, and the linkage block can be in contact with the guide wheels.

4. The efficient machining equipment for the ferrite magnetic core according to claim 1, wherein the power structure comprises a power motor, a driving wheel, a driven wheel and a belt, the power motor is fixed on the mounting frame, an output shaft of the power motor is horizontally arranged, the driving wheel is fixed at the end part of the output shaft of the power motor, the driven wheel is fixed at the end part of the driving shaft, and the belt is sleeved between the driving wheel and the driven wheel.

5. The efficient machining device for the ferrite core according to claim 1, wherein a forward spiral piece and a reverse spiral piece are further fixed to the driving shaft, the forward spiral piece is close to the first rotating disc, and the reverse spiral piece is close to the second rotating disc.

6. The efficient machining equipment for the ferrite core according to claim 1, wherein the base is further provided with a blanking mechanism, the blanking mechanism comprises a positioning frame, a moving table, a guide rail and a sliding block, the guide rail is horizontally fixed on the base, the sliding block is arranged on the guide rail, the moving table is fixed on the sliding block, the positioning frame is fixed on the moving table and located below the discharge port, the positioning frame is provided with a plurality of positioning grooves for positioning the material storage barrel, and the base is further provided with a driving structure capable of driving the sliding block to move back and forth.

7. The efficient machining equipment for the ferrite magnetic core as claimed in claim 1, wherein the driving structure comprises a driving gear, a rack and a driving motor, the rack is horizontally fixed on the base and parallel to the guide rail, the driving motor is fixed on the slider, an output shaft of the driving motor is horizontally arranged, the driving gear is fixed at an end portion of the output shaft of the driving motor, and the driving gear is meshed with the rack.