CN114955408B - Soft magnetic ferrite magnetic core blank arranging machine - Google Patents

Abstract

The invention relates to the technical field of magnetic ferrite core arrangement, and discloses a soft magnetic ferrite core blank arrangement machine which comprises a feeding conveying belt connected with a discharge port of a forming machine, wherein a blank arrangement mechanism is arranged at the conveying tail end of the feeding conveying belt, the blank arrangement mechanism comprises a first rotating disc, the first rotating disc is connected with a first rotating motor through a first driving shaft, a plurality of arrangement openings are arranged on the circumference of the first rotating disc, each arrangement opening extends along the first rotating disc in a straight radial direction to a circle center of the first rotating disc, the horizontal depth of each arrangement opening is sequentially increased along the rotating direction of the first rotating disc, the width of each arrangement opening is matched with the width of a blank, the length of each arrangement opening is a multiple of the length of the blank, the length difference between every two adjacent arrangement openings is equal to the length of one blank, a hollowed hole is arranged on one side of each arrangement opening close to the circle center of the first rotating disc, the length and the width of each hole are matched with the length and the width of the blank, and a blank arrangement disc for bearing the blank is arranged below the first rotating disc.

Description

Soft magnetic ferrite magnetic core blank arranging machine

Technical Field

The invention relates to the technical field of arrangement of magnetic ferrite cores, in particular to a soft magnetic ferrite core blank arranging machine.

Background

Ferrite cores are widely used in electronic information devices, and the production of ferrite cores is still currently labor intensive, especially domestically. For example, in the process of forming the magnetic core, the blank formed by a press is manually arranged and stacked on a plate or a support according to the process requirements, then is conveyed to a kiln, is arranged according to the process requirements, and enters the kiln for sintering.

The blank arranging process comprises arranging and moving the blanks, wherein on one hand, the blanks need to be manually arranged and stacked, a large amount of labor cost is input, the working efficiency is low, and the labor intensity is high; on the other hand, the blanks are difficult to ensure to be regularly arranged in the arranging process, so that the blanks are inconsistent in distance and are tightly attached to each other or have a certain gap, and the problem of uneven heating in the sintering process is caused.

Disclosure of Invention

The invention aims to provide a soft magnetic ferrite core green body arranging machine which has the advantages of high automation degree, high working efficiency and low labor intensity.

The technical purpose of the invention is realized by the following technical scheme:

a soft magnetic ferrite magnetic core blank arranging machine comprises a feeding conveying belt connected with a discharge port of a forming machine, wherein a blank arranging mechanism is arranged at the conveying tail end of the feeding conveying belt and comprises a first rotating disc, the first rotating disc is connected with a first rotating motor through a first driving shaft, a plurality of arranging openings are formed in the circumference of the first rotating disc and extend along the first rotating disc in the straight radial direction to the center of the first rotating disc, the horizontal depth of each arranging opening is sequentially increased along the rotating direction of the first rotating disc, the width of each arranging opening is matched with the width of a blank, the length of each arranging opening is a multiple of the length of the blank, the length difference between every two adjacent arranging openings is equal to the length of one blank, a hollowed hole is formed in one side, close to the center of the first rotating disc, the length and the width of the hole are matched with the length and the width of the blank, and a blank arranging disc used for bearing the blank is arranged below the first rotating disc.

By adopting the technical scheme, the blanks after being pressed by the forming machine are continuously conveyed to one end of the blank arranging mechanism through the feeding conveyer belt and are sequentially arranged on the blank arranging disc below through the first rotary disc in the blank arranging mechanism, the first rotary disc rotates at a high speed under the driving of the first rotary motor, when the arrangement port on the first rotary disc rotates to be opposite to the blanks on the feeding conveyer belt, the blanks on the feeding conveyer belt enter the arrangement port under the action of the friction force of the feeding conveyer belt and the extrusion force of the blanks below, the rear blanks continuously move towards the first rotary disc and sequentially enter each arrangement port along with the continuous rotation of the first rotary disc, so that the front blanks are continuously pushed and extruded, the foremost blanks are gradually moved to the holes on one side of the arrangement port close to the center of the first rotary disc and fall onto the blank arranging disc below from the holes, because the horizontal depth of the arrangement openings on the first rotary table is sequentially increased along the rotating direction of the first rotary table, the blanks in the next arrangement opening fall on one side of the last blank until the effect of transverse sequential arrangement is formed, after the first rotary table rotates for one circle, the blanks are arranged on the blank arrangement disc in one line, then the blank arrangement disc is pushed forward for a certain distance, the position of the next line to be arranged is opposite to the position of the feeding conveyer belt, the process is repeated, so that the continuous arrangement operation is realized, the automatic arrangement device has the advantages of high automation degree, high working efficiency and low labor intensity, the blanks are limited through the arrangement openings on the first rotary table, the blanks are enabled to move in a certain direction all the time and are arranged on the blank arrangement disc in a line, and the arrangement positions of the blanks are fixed by the positions of the holes in each arrangement opening, compared with the manual arrangement mode, the arrangement device is more neat after arrangement, and the distances between the adjacent blanks are the same, the heating is more uniform during sintering, and the sintering effect is better.

The invention is further configured as follows: the green blank arrangement disc is borne on an arrangement disc conveying belt, an arrangement disc feeding device is arranged at the conveying starting end of the arrangement disc conveying belt, and an arrangement disc discharging device is arranged at the conveying tail end of the arrangement disc conveying belt.

By adopting the technical scheme, the arrangement disc feeding device is used for conveying empty green blanks to the arrangement disc conveying belt, automatic feeding of the green blank arrangement discs is achieved, the arrangement disc discharging device is used for automatically storing the green blank arrangement discs full of green blanks on the arrangement disc conveying belt in sequence, automatic blanking of the green blank arrangement discs is achieved, the arrangement disc conveying belt is used for driving the green blank arrangement discs to move so that the green blank arrangement discs can feed forwards at a certain frequency, one-line arrangement on the green blank arrangement discs is achieved after the rotary disc rotates for one circle, then the green blank arrangement discs are automatically pushed forwards for a certain distance, manual operation is not needed, and labor intensity of people is further reduced.

The invention is further configured as follows: the arrangement disc feeding device comprises a frame body, wherein a group of synchronous belt assemblies are respectively arranged on two sides of the frame body, and the two groups of synchronous belt assemblies are synchronously connected.

Through adopting above-mentioned technical scheme, the support body is used for installing two sets of conveyer belts for two sets of synchronous belt subassembly are at the automatic empty arrangement dish of synchronous pivoted in-process and are carried to arranging on the dish conveyer belt, thereby realize arranging the automatic feeding process of dish, have further reduced people's intensity of labour.

The invention is further provided with: every group hold-in range subassembly all includes along vertical direction circulation pivoted hold-in range one and hold-in range two, hold-in range one is respectively through drive pulley one and driven pulley one tensioning and connection, two hold-in ranges are respectively through drive pulley two and driven pulley two tensioning and connection, drive pulley one and drive pulley two respectively with the both ends key-type connection of pivot one, driven pulley one and driven pulley two respectively with the both ends key-type connection of pivot two, still be equipped with on the support body with pivot one and two parallel pivots three of pivot two, pivot three passes through the drive belt with pivot one with the one end and is connected, the other end of pivot one is connected with the output shaft of driving motor two, the other end of pivot three is equipped with gear one, pivot one is equipped with gear two with three last gear one relative one end of pivot, gear one and two meshing.

Through adopting above-mentioned technical scheme, hold-in range one and hold-in range two among two sets of hold-in range subassemblies are all through two drives of driving motor to realize synchronous rising and synchronous decline, promptly: the first driving motor drives the first rotating shaft to rotate through the driving belt to drive the third rotating shaft to rotate, the first driving gear rotates when the first gear rotates, the second gear drives the second rotating shaft to rotate when the second gear rotates, and the first rotating shaft and the second rotating shaft rotate synchronously and reversely, so that the first synchronous belt and the second synchronous belt which are connected with the first driving pulley and the second driving pulley rotate synchronously and reversely up and down circularly around the first driven pulley and the second driven pulley respectively, one sides of the first synchronous belt and the second synchronous belt which are close to each other are enabled to ascend simultaneously or descend simultaneously, the first synchronous belt and the second synchronous belt are guaranteed to be horizontally borne on the first synchronous belt and the second synchronous belt all the time and move up and down along with the first synchronous belt and the second synchronous belt, the arrangement disc is continuously conveyed to a position opposite to the arrangement disc conveying belt in the process of moving up and down, automatic feeding of the arrangement disc is facilitated, in addition, the first synchronous belt and the second synchronous belt are driven by the second driving motor synchronously, stability in the conveying process of the arrangement disc can be effectively guaranteed, the vibration or the inclination of the arrangement disc in the conveying is avoided, and the reliability of the equipment is further improved.

The invention is further provided with: synchronous belt one and the two hold-in ranges in every group hold-in range subassembly all lie in the same one side that the dish was arranged to the embryo, and two sets of hold-in ranges subassembly are located the both sides that the dish was arranged to the embryo respectively, and synchronous belt one and two hold-in ranges in two sets of hold-in ranges subassembly all set up through a plurality of equidistant from top to bottom and the backup pad of perpendicular to hold-in range one and the outer surface of hold-in range is connected.

Through adopting above-mentioned technical scheme, the backup pad is used for treating the blank arrangement dish of material loading and supports for a plurality of unburned bricks are arranged the dish and can be along with hold-in range one and hold-in range two move in proper order to the position relative with arranging the dish conveyer belt, thereby realize the material loading in proper order of blank arrangement dish, make the people arrange the dish with a plurality of blanks in proper order and prevent in each backup pad, greatly reduced the material loading frequency that the dish was arranged to the blank.

The invention is further configured as follows: the structure of the arrangement disc discharging device is the same as that of the arrangement disc feeding device.

By adopting the technical scheme, the arrangement disc discharging device is used for automatically and sequentially storing the green blank arrangement discs full of green blanks on the arrangement disc conveying belt, so that automatic blanking of the green blank arrangement discs is realized, and the labor intensity of people is further reduced.

The invention is further configured as follows: arrange a set feed arrangement and keep away from one side of arranging a set conveyer belt and still be equipped with feeding drive arrangement, feeding drive arrangement includes the push pedal, the one end at the actuating lever is fixed to the push pedal, actuating lever and support body sliding connection, the other end of actuating lever is articulated with the one end of connecting rod, the other end of connecting rod is articulated with the terminal surface of carousel two, the connecting rod is located axis one side of carousel two with two pin joints of carousel, the axis of carousel two is parallel with the axis of carousel one, carousel two rotates with the support body through the drive shaft two coaxial with carousel two to be connected, the lower extreme of drive shaft two is fixed on carousel two, the upper end of drive shaft two is passed through aggregate unit and is connected with drive shaft one.

Through adopting above-mentioned technical scheme, feeding drive arrangement is used for arranging the blank on the dish feed arrangement propelling movement to arranging on the dish conveyer belt with arranging, drive shaft two passes through the aggregate unit and is connected with drive shaft one among the feeding drive arrangement, make drive shaft two synchronous rotations of drive shaft when rotating, thereby make two fixed carousel two synchronous rotations of lower extreme of drive shaft, the circular motion is made around its and two articulated points of carousel to the pulling connecting rod when carousel two rotates, thereby drive and the articulated actuating lever of connecting rod other end are for support body reciprocating sliding connection, actuating lever reciprocating sliding's in-process promotes the push pedal constantly with the relative supporting plate of push pedal position on the blank arrangement dish propelling movement to arranging on the dish conveyer belt, thereby realize the automatic feeding operation of blank arrangement dish.

The invention is further provided with: the actuating lever passes through uide bushing and support body sliding connection, the uide bushing is fixed on the support body, actuating lever and uide bushing sliding connection, the actuating lever is equipped with reset spring with connecting rod articulated one end, reset spring's one end is fixed on the actuating lever, reset spring's the other end is fixed on the inner wall of uide bushing.

Through adopting above-mentioned technical scheme, the uide bushing is used for leading to the reciprocating motion of actuating lever for the actuating lever carries out reciprocating motion with the same orbit all the time, has further improved the material loading effect of blank arrangement dish, and reset spring is used for buffering actuating lever reciprocating motion, makes the material loading in-process stable form better.

The invention is further provided with: the linkage device comprises a sector gear fixed at the upper end of a driving shaft II and a driving gear meshed with the sector gear, the driving gear is connected with a driving shaft triple key, a driving shaft triple is connected with the frame body in a rotating mode, a transmission gear I is arranged on the driving shaft triple, a transmission gear II opposite to the transmission gear I in position is arranged on the driving shaft I, the transmission gear I and the transmission gear II are respectively in key connection with the driving shaft triple and the driving shaft I, and the transmission gear I and the transmission gear II are connected through a transmission chain.

By adopting the technical scheme, when one driving shaft rotates, the driving gear II is driven to synchronously rotate, when the driving gear II rotates, the driving gear I meshed with the driving gear II is driven to rotate, when the driving shaft III rotates, the driving gear is driven to rotate, when the driving gear rotates, the driving gear is meshed with or separated from the sector gear, when the driving gear is meshed with the sector gear, the sector gear synchronously rotates along with the driving gear, so that the driving shaft II is driven to synchronously rotate, the rotary disc II fixed at the lower end of the driving shaft II rotates synchronously, the rotary disc II rotates, the connecting rod is pushed to rotate towards one side close to the driving rod around the point hinged with the rotary disc II, so that the driving rod stretches the reset spring and continuously moves towards one side close to the arrangement disc conveying belt, when the driving rod moves, the push plate pushes the green blank arrangement disc on the supporting plate opposite to the arrangement disc conveying belt with the position of the push plate, thereby realizing the automatic feeding operation of the green blank arrangement disc, when the green blank arrangement disc is pushed to the arrangement disc conveying belt, the sector gear rotates to be separated from the driving rod to the driving gear to the driving shaft to the driving rod, when the driving rod drives the driving shaft II to reversely rotate reversely and drives the driving shaft to reversely rotate with the driving gear, and the driving shaft to reversely rotate under the action of the sector gear, so that the driving shaft II rotates under the driving shaft, when the driving rod drives the driving shaft to reversely and the driving shaft to reversely rotate under the driving shaft to reversely rotate, guarantee that second drive shaft just with drive shaft corotation when needs arrange the dish to the green body and carry out the material loading, two automatic counter-rotations of drive shaft to initial position after the material loading is accomplished have realized the effect that the action of two different frequencies goes on in coordination, and the structure is ingenious, and the practicality is good.

The invention is further provided with: the conveying end of the feeding conveying belt is provided with arc guide plates on two sides, the arc guide plates are concentric with the first rotating disc, and the arc face of each arc guide plate is attached to the arc side wall of the corresponding first rotating disc.

By adopting the technical scheme, the arc-shaped cutting board is used for guiding the green blanks entering the arrangement opening on the first rotary table, so that the green blanks can smoothly enter the arrangement opening, and the arrangement reliability of the green blanks is further improved.

The invention has the beneficial effects that:

1. the invention continuously conveys the green blanks pressed by a forming machine to one end of a green blank arrangement mechanism through a feeding conveyer belt, the green blanks are sequentially arranged on a green blank arrangement disc below through a first rotary disc in the green blank arrangement mechanism, the first rotary disc is driven by a first rotary motor to rotate at a high speed, when an arrangement opening on the first rotary disc rotates to be opposite to the green blanks on the feeding conveyer belt, the green blanks on the feeding conveyer belt enter the arrangement opening under the action of the friction force of the feeding conveyer belt and the extrusion force of the green blanks below, the rear green blanks continuously move towards the first rotary disc and sequentially enter each arrangement opening along with the continuous rotation of the first rotary disc, so that the green blanks in front of the rotary disc are continuously extruded, the front green blanks are gradually moved to a hole at one side of the arrangement opening, which is close to the center of a circle of the rotary disc, and fall onto the green blank arrangement disc below from the hole, because the horizontal depth of the arrangement openings on the first rotary table is sequentially increased along the rotating direction of the first rotary table, the blanks in the next arrangement opening fall on one side of the last blank until the effect of transverse sequential arrangement is formed, after the first rotary table rotates for one circle, the blanks are arranged on the blank arrangement disc in one line, then the blank arrangement disc is pushed forward for a certain distance, the position of the next line to be arranged is opposite to the position of the feeding conveyer belt, the process is repeated, so that the continuous arrangement operation is realized, the continuous arrangement device has the advantages of high automation degree, high working efficiency and low labor intensity, the blanks are limited through the arrangement openings on the first rotary table, the blanks are enabled to move in a certain direction all the time and are arranged in a row on the blank arrangement disc, and the arrangement positions of the blanks are fixed by the positions of the holes in the arrangement openings, compared with the manual arrangement mode, the blanks are more orderly after arrangement, and the distances between the adjacent blanks are the same, the heating is more uniform during sintering, and the sintering effect is better.

2. According to the invention, empty green body arrangement discs are conveyed to the arrangement disc conveying belt through the arrangement disc feeding device, so that automatic feeding of the green body arrangement discs is realized, the green body arrangement discs which are fully filled with green bodies and arranged on the arrangement disc conveying belt are automatically and sequentially stored through the arrangement disc discharging device, so that automatic blanking of the green body arrangement discs is realized, the arrangement disc conveying belt is used for driving the green body arrangement discs to move, so that the green body arrangement discs are fed forwards at a certain frequency, so that after one turn of the rotary disc, one row of arrangement on the green body arrangement discs is completed, then the green body arrangement discs are automatically pushed forwards for a certain distance, manual operation is not needed, and the labor intensity of people is further reduced.

3. The linkage device realizes the intermittent connection between the driving shaft II and the driving shaft I by utilizing the meshing or separation of the driving gear and the sector gear during the rotation of the driving gear, so that the driving shaft II rotates forward and backward under the combined action of the driving shaft I and the return spring when the driving shaft I rotates continuously in the same direction and at high speed, the driving shaft II is ensured to rotate in the same direction with the driving shaft only when the blank arrangement disc needs to be loaded, and the driving shaft II automatically rotates in the reverse direction to the initial position after the loading is finished, thereby realizing the effect of linkage of two actions with different frequencies, and having ingenious structure and good practicability.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall structure of a soft magnetic ferrite core blank arranging machine according to the present invention.

Fig. 2 is a schematic diagram of a raw blank arranging mechanism and an arranging disc feeding device in the soft magnetic ferrite core raw blank arranging machine.

FIG. 3 is a schematic diagram of the connection and structure of a feeding driving device and a linkage device in the soft magnetic ferrite core green body arranging machine according to the present invention.

Fig. 4 is a schematic structural diagram of a feeding driving device in a soft magnetic ferrite core green embryo arrangement machine according to the present invention.

FIG. 5 is a top view of a green body arranging mechanism in the soft magnetic ferrite core green body arranging machine according to the present invention.

In the figure, 1, a feeding conveyer belt; 2. a green body arranging mechanism; 201. a first rotating disc; 202. a first driving shaft; 203. a first rotating motor; 204. an arrangement port; 205. an aperture; 206. arranging a plate for the green blanks; 207. an arrangement tray conveyor belt; 3. performing embryo production; 4. an arrangement tray feeding device; 401. a frame body; 402. a first synchronous belt; 403. a second synchronous belt; 404. a first driving belt wheel; 405. a driven belt wheel I; 408. a second driving belt wheel; 409. a driven belt wheel II; 410. a first rotating shaft; 411. a second rotating shaft; 412. a third rotating shaft; 413. a transmission belt; 414. a first gear; 415. a second gear; 416. a second driving motor; 417. a support plate; 5. an arrangement tray discharging device; 6. A feed drive; 601. pushing the plate; 602. a drive rod; 603. a connecting rod; 604. a second rotating disc; 605. a second driving shaft; 607. A guide sleeve; 608. a return spring; 7. a linkage device; 701. a sector gear; 702. a drive gear; 703. a third driving shaft; 704. a first transmission gear; 705. a second transmission gear; 706. a drive chain; 8. an arc-shaped guide plate.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to specific embodiments. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

Referring to fig. 1 to 5, a soft magnetic ferrite core green body arranging machine comprises a feeding conveyer belt 1 connected with a discharge port of a forming machine, a green body arranging mechanism 2 is arranged at the conveying end of the feeding conveyer belt 1, the green body arranging mechanism 2 comprises a first rotating disc 201, the first rotating disc 201 is connected with a first rotating motor 203 through a first driving shaft 202, a plurality of arranging ports 204 are arranged on the circumference of the first rotating disc 201, each arranging port 204 extends to the circle center of the first rotating disc 201 along the diameter of the first rotating disc 201, the horizontal depth of each arranging port 204 is sequentially increased along the rotating direction of the first rotating disc 201, the width of each arranging port 204 is matched with the width of a green body 3, the length of each arranging port 204 is a multiple of the length of the green body 3, the length difference between adjacent arranging ports 204 is equal to the length of the green body 3, a hollowed-out hole 205 is arranged on one side of each arranging port 204 close to the circle center of the first rotating disc 201, the length and the width of the hole 205 are matched with the length and the width of the green body 3, and a green body arranging disc 206 for bearing the green body 3 is arranged below the first rotating disc 201.

Further, the green compact arranging tray 206 is carried on an arranging tray conveyor belt 207, an arranging tray feeding device 4 is arranged at the conveying starting end of the arranging tray conveyor belt 207, and an arranging tray discharging device 5 is arranged at the conveying tail end of the arranging tray conveyor belt 207.

Further, arrange a set feed arrangement 4 and include support body 401, support body 401 both sides respectively are equipped with a set of hold-in range subassembly, two sets of hold-in range subassembly synchronous connection.

Further, every group hold-in range subassembly all includes along vertical direction endless rotation's hold-in range 402 and hold-in range two 403, hold-in range 402 is respectively through the tensioning of a driving pulley 404 and a driven pulley 405 and is connected, two 403 of hold-in range pass through the tensioning of driving pulley two 408 and driven pulley two 409 respectively and are connected, driving pulley 404 and driving pulley two 408 respectively with the both ends key-type connection of pivot a 410, driven pulley a 405 and driven pulley two 409 respectively with the both ends key-type connection of pivot two 411, still be equipped with on the support body 401 with pivot a 410 and the parallel pivot three 412 of pivot two 411, pivot three 412 is connected through drive belt 413 with the same end of pivot a 410, the other end of pivot a 410 and the output shaft of driving motor two 416, the other end of pivot three 412 is equipped with gear a 414, the relative one end of pivot a 410 and pivot three 412 is equipped with gear two 415, gear 414 and gear two 415 mesh.

Further, hold-in range one 402 and hold-in range two 403 in every group hold-in range subassembly all are located the same one side that the dish 206 was arranged to the blank, and two sets of hold-in range subassemblies are located the both sides that the dish 206 was arranged to the blank respectively, and hold-in range one 402 and hold-in range two 403 in two sets of hold-in range subassemblies are all connected through the backup pad 417 of a plurality of equidistant settings from top to bottom and perpendicular to hold-in range one 402 and two 403 outer surfaces of hold-in range.

Further, the arrangement disc discharging device 5 and the arrangement disc feeding device 4 are identical in structure.

Further, a feeding driving device 6 is further arranged on one side, away from the arrangement disc conveying belt 207, of the arrangement disc feeding device 4, the feeding driving device 6 comprises a push plate 601, the push plate 601 is fixed at one end of a driving rod 602, the driving rod 602 is connected with the frame body 401 in a sliding mode, the other end of the driving rod 602 is hinged to one end of a connecting rod 603, the other end of the connecting rod 603 is hinged to the end face of a second rotating disc 604, a hinged point of the connecting rod 603 and the second rotating disc 604 is located on one side of the axis of the second rotating disc 604, the axis of the second rotating disc 604 is parallel to the axis of the first rotating disc 201, the second rotating disc 604 is rotatably connected with the frame body 401 through a second driving shaft 605 which is coaxial with the second rotating disc 604, the lower end of the second driving shaft 605 is fixed on the second rotating disc 604, and the upper end of the second driving shaft 605 is connected with the first driving shaft 202 through a linkage device 7.

Further, the driving rod 602 is connected with the frame body 401 in a sliding manner through a guide sleeve 607, the guide sleeve 607 is fixed to the frame body 401, the driving rod 602 is connected with the guide sleeve 607 in a sliding manner, a return spring 608 is arranged at one end of the driving rod 602 hinged to the connecting rod 603, one end of the return spring 608 is fixed to the driving rod 602, and the other end of the return spring 608 is fixed to the inner wall of the guide sleeve 607.

Further, the linkage device 7 comprises a sector gear 701 fixed at the upper end of a second driving shaft 605 and a driving gear 702 meshed with the sector gear 701, the driving gear 702 is in key connection with a third driving shaft 703, the third driving shaft 703 is in rotary connection with the frame body 401, a first transmission gear 704 is arranged on the third driving shaft 703, a second transmission gear 705 opposite to the first transmission gear 704 is arranged on the first driving shaft 202, the first transmission gear 704 and the second transmission gear 705 are in key connection with the third driving shaft 703 and the first driving shaft 202 respectively, and the first transmission gear 704 and the second transmission gear 705 are connected through a transmission chain 706.

Further, the conveying end of the feeding conveying belt 1 is provided with arc-shaped guide plates 8 on two sides, the arc-shaped guide plates 8 are concentric with the first rotating disc 201, and the arc-shaped surface of the arc-shaped guide plates 8 is attached to the arc-shaped side wall of the first rotating disc 201.

The working principle of the invention is as follows: the blank 3 pressed by the forming machine is continuously conveyed to one end of the blank arranging mechanism 2 through the feeding conveyer belt 1 and is sequentially arranged on a blank arranging disc 206 below through a first rotating disc 201 in the blank arranging mechanism 2, the first rotating disc 201 rotates at a high speed under the driving of a first rotating motor 203, when an arranging port 204 on the first rotating disc 201 rotates to be opposite to the blank 3 on the feeding conveyer belt 1, the blank 3 on the feeding conveyer belt 1 enters the arranging port 204 under the action of the friction force of the feeding conveyer belt 1 and the extrusion force of the blank 3 below, the rear blank 3 continuously moves towards the first rotating disc 201 and sequentially enters each arranging port 204 along with the continuous rotation of the first rotating disc 201, so that the blank 3 in front is continuously extruded, the foremost blank 3 gradually moves to a hole 205 on one side of the arranging port 204 close to the center of the first rotating disc 201, and falls onto the blank arranging disc 206 below from the hole 205, because the horizontal depth of the arrangement openings 204 on the first rotary table 201 is sequentially increased along the rotating direction of the first rotary table 201, the blanks 3 in the next arrangement opening 204 fall on one side of the last blank 3 until the effect of transverse sequential arrangement is formed, after the first rotary table 201 rotates for one circle, the blanks are arranged on the blank arrangement disc 206 in a row, then the blank arrangement disc 206 is pushed forward for a distance, the position of the next row to be arranged is opposite to the position of the feeding conveyer belt 1, the process is repeated to realize continuous arrangement operation, the automatic degree is high, the working efficiency is high, and the labor intensity is low, and the blanks 3 are limited by the arrangement openings 204 on the first rotary table 201, so that the blanks 3 move in a certain direction and are always arranged in a row on the blank arrangement disc 206, and the arrangement position of the blanks 3 is fixed by the position of the hole 205 in each arrangement opening 204, compared with a manual placing mode, the green bodies are more orderly arranged, the distance between every two adjacent green bodies is the same, heating is more uniform during sintering, and the sintering effect is better.

Claims (9)

1. A soft magnetic ferrite core blank arranging machine is characterized in that: the blank arranging device comprises a feeding conveyer belt (1) connected with a discharge port of a forming machine, a blank arranging mechanism (2) is arranged at the conveying tail end of the feeding conveyer belt (1), the blank arranging mechanism (2) comprises a first rotating disc (201), the first rotating disc (201) is connected with a first rotating motor (203) through a first driving shaft (202), a plurality of arranging openings (204) are formed in the circumference of the first rotating disc (201), each arranging opening (204) extends towards the circle center of the first rotating disc (201) along the diameter of the first rotating disc (201), the horizontal depth of each arranging opening (204) is sequentially increased along the rotating direction of the first rotating disc (201), the width of each arranging opening (204) is matched with the width of a blank (3), the length of each arranging opening (204) is multiple of the length of the blank (3), the length difference between every two adjacent arranging openings (204) is equal to the length of one blank (3), a hollowed-out hole (205) is formed in one side, the length and the width of the hole (205) are matched with the length of the blank (3) and the circle center of the blank (3), and a blank arranging opening (206) is arranged below the rotating disc (201);

the green body arrangement disc (206) is borne on an arrangement disc conveying belt (207), an arrangement disc feeding device (4) is arranged at the conveying starting end of the arrangement disc conveying belt (207), and an arrangement disc discharging device (5) is arranged at the conveying tail end of the arrangement disc conveying belt (207).

2. The soft ferrite core green body arranging machine according to claim 1, wherein: the arrangement disc feeding device (4) comprises a frame body (401), a group of synchronous belt assemblies are arranged on two sides of the frame body (401) respectively, and the two groups of synchronous belt assemblies are connected in a synchronous mode.

3. The soft ferrite core green body arranging machine according to claim 2, wherein: every group synchronous belt subassembly all includes along vertical direction endless rotation's hold-in range one (402) and hold-in range two (403), hold-in range one (402) respectively through drive pulley one (404) and driven pulley one (405) tensioning and connection, hold-in range two (403) respectively through drive pulley two (408) and driven pulley two (409) tensioning and connection, drive pulley one (404) and drive pulley two (408) respectively with the both ends key-type connection of pivot one (410), driven pulley one (405) and driven pulley two (409) respectively with the both ends key-type connection of pivot two (411), still be equipped with on support body (401) with pivot three (412) parallel with pivot one (410) and pivot two (411), pivot three (412) are passed through drive belt (413) with the same end of pivot one (410) and are connected, the other end of pivot one (410) and the output shaft of driving motor two (416), the other end of pivot three (412) is equipped with gear one (410) and the relative gear (415) and two (414) on the pivot three (412) the gear (415), gear (414) and two (414) meshes.

4. The soft ferrite core green body arranging machine according to claim 3, wherein: synchronous belt one (402) and synchronous belt two (403) in every group synchronous belt subassembly all lie in the same one side that dish (206) was arranged to the embryo, and two groups synchronous belt subassembly are located the both sides that dish (206) was arranged to the embryo respectively, and synchronous belt one (402) and synchronous belt two (403) in two groups synchronous belt subassembly are all connected through backup pad (417) of a plurality of equidistant settings from top to bottom and perpendicular to synchronous belt one (402) and synchronous belt two (403) surfaces.

5. The soft ferrite core green body arranging machine according to claim 4, wherein: the arrangement disc discharging device (5) and the arrangement disc feeding device (4) are identical in structure.

6. The soft ferrite core green body arranging machine as claimed in claim 5, wherein: the side, far away from the arrangement disc conveying belt (207), of the arrangement disc feeding device (4) is further provided with a feeding driving device (6), the feeding driving device (6) comprises a push plate (601), the push plate (601) is fixed at one end of a driving rod (602), the driving rod (602) is connected with the rack body (401) in a sliding mode, the other end of the driving rod (602) is hinged to one end of a connecting rod (603), the other end of the connecting rod (603) is hinged to the end face of a second rotating disc (604), the hinged point of the connecting rod (603) and the second rotating disc (604) is located on one side of the axis of the second rotating disc (604), the axis of the second rotating disc (604) is parallel to the axis of the first rotating disc (201), the second rotating disc (604) is connected with the rack body (401) in a rotating mode through a second driving shaft (605) coaxial with the second rotating disc (604), the lower end of the second driving shaft (605) is fixed to the second rotating disc (604), and the upper end of the second driving shaft (605) is connected with the first driving shaft (202) through a linkage device (7).

7. The soft ferrite core green body arranging machine as claimed in claim 6, wherein: the utility model discloses a support body, including support body (401), actuating lever (602), driving lever (607), guide sleeve (607), actuating lever (602) and guide sleeve 607 sliding connection, guide sleeve (607) are fixed on support body (401), actuating lever (602) and guide sleeve 607 sliding connection, actuating lever (602) and connecting rod (603) articulated one end are equipped with reset spring (608), reset spring (608)'s one end is fixed on actuating lever (602), reset spring (608)'s the other end is fixed on the inner wall of guide sleeve (607).

8. The soft ferrite core green body arranging machine according to claim 6, wherein: the linkage device (7) comprises a sector gear (701) fixed to the upper end of a second driving shaft (605) and a driving gear (702) meshed with the sector gear (701), the driving gear (702) is in key connection with a third driving shaft (703), the third driving shaft (703) is in rotary connection with a frame body (401), a first transmission gear (704) is arranged on the third driving shaft (703), a second transmission gear (705) opposite to the first transmission gear (704) is arranged on the first driving shaft (202), the first transmission gear (704) and the second transmission gear (705) are in key connection with the third driving shaft (703) and the first driving shaft (202) respectively, and the first transmission gear (704) and the second transmission gear (705) are connected through a transmission chain (706).

9. The soft ferrite core green body arranging machine according to claim 1, wherein: the conveying end of the feeding conveying belt (1) is provided with arc-shaped guide plates (8) on two sides, the arc-shaped guide plates (8) are concentric with the first rotating disc (201), and the arc-shaped surface of the arc-shaped guide plates (8) is attached to the arc-shaped side wall of the first rotating disc (201).

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