CN112977899A - Ferrite plastic magnetic particle material automatic production line - Google Patents

Abstract

The invention relates to the technical field of ferrite plastic magnetic particle material processing, in particular to a ferrite plastic magnetic particle material automatic production line, which comprises a processing frame, a conveying pipe, a crushing assembly, a sealing assembly and a transferring assembly, wherein two push blocks can synchronously extrude a packaging bag by using a turntable and a transmission rod, so that the sealing effect of the automatic production line is improved, the two push blocks can move more stably by arranging a slide rod, the situation that the sealing is not tight due to deflection in the sealing extrusion process is avoided, so that the sealing effect of the automatic production line is further improved, a fourth motor is arranged, a rotating shaft is driven by the fourth motor, the rotating shaft drives a sliding plate, the angle of the sliding plate is adjusted, the conveying position and the height of the automatic production line on a ferrite plastic magnetic particle material product are favorably controlled by adjusting the inclination angle of the sliding plate, thereby improving the flexibility of the ferrite plastic magnetic particle material automatic production line.

Description

Ferrite plastic magnetic particle material automatic production line

Technical Field

The invention relates to the technical field of ferrite plastic magnetic particle material processing, in particular to an automatic production line of ferrite plastic magnetic particle materials.

Background

The ferrite plastic magnet is formed by fusing a plastic raw material and iron oxide magnetic powder, can work in an environment of 100-180 ℃, contains nylon and has the mechanical characteristic of difficult fragmentation, so the ferrite plastic magnet is more and more used in the fields of permanent magnet direct current motors, instrument motors, printers and the like, and the automatic production line of ferrite plastic magnet granules is more and more put into production along with the wide use of the ferrite plastic magnet.

However, the existing ferrite plastic magnetic particle automatic production line has great defects in the using process, the existing ferrite plastic magnetic particle automatic production line does not filter the raw materials in the process of filling the raw materials of the ferrite plastic magnetic particle, and a large object is easy to damage the conveying and crushing links of the automatic production line, so that the safety and reliability of the processing and production of the automatic production line are reduced, the existing ferrite plastic magnetic particle automatic production line is easy to deflect in the sealing and extruding process, so that the sealing is not tight, the sealing effect of the automatic production line is affected, the existing ferrite plastic magnetic particle automatic production line cannot check the feeding condition of the automatic production line timely and conveniently, so that the convenience of the automatic production line is reduced, and the existing ferrite plastic magnetic particle automatic production line cannot control the automatic production line to convey the ferrite plastic magnetic particle products The conveying position and the conveying height reduce the use flexibility of the ferrite plastic magnetic particle automatic production line.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an automatic production line for ferrite plastic magnetic granules.

The technical scheme adopted by the invention for solving the technical problems is as follows: an automatic production line for ferrite plastic magnetic particles comprises a processing frame, a conveying pipe, a crushing assembly, a sealing assembly and a transferring assembly, wherein the conveying pipe is obliquely arranged on one side of the processing frame, the crushing assembly, the sealing assembly and the transferring assembly are sequentially arranged on the processing frame from top to bottom, and the crushing assembly is positioned below the top of the conveying pipe;

the processing frame is provided with two supporting plates, the top of each supporting plate is provided with a crushing assembly, a sliding cylinder penetrates through each supporting plate, two first hydraulic cylinders are fixedly arranged on the inner wall of one end of the processing frame, one ends of the two first hydraulic cylinders are respectively provided with a first hydraulic rod, one ends of the two first hydraulic rods, which are far away from the first hydraulic cylinders, are fixedly connected with a movable plate, the movable plate is perpendicular to the two first hydraulic rods, one side of the movable plate is provided with a pressing block through a bolt, the inner walls of the two sides of the processing frame are respectively provided with a second hydraulic cylinder, one ends of the two second hydraulic cylinders are respectively provided with a second hydraulic rod, one ends of the two second hydraulic rods, which are far away from the second hydraulic cylinder, are respectively connected with a movable frame, one side of the movable frame is rotatably matched with two rotating wheels, the two rotating wheels, the teeth on the rotating wheel are meshed with the teeth on the crawler belt, the crawler belt is prevented from slipping in the transmission process by arranging the teeth on the rotating wheel and the crawler belt, so that the crawler belt can more stably drive the packaging bag to move downwards, and a fifth motor is arranged on one side of the movable frame, which is far away from the rotating wheel, and is connected with the rotating wheel;

the feeding pipe is of a hollow pipe body structure, a feeding box and a first motor are respectively installed at two ends of the feeding pipe, the feeding box is of a hollow box body structure, an opening is formed in the top of the feeding box, a filter plate is installed at the top of the feeding box, the filter plate is arranged at the top of the feeding box, so that during the process of loading ferrite plastic magnetic particle raw materials, the raw materials are filtered for one time, larger objects are prevented from entering the feeding box, meanwhile, the raw materials are filtered, larger objects such as packaging bags can be prevented from entering a production line, a rotating shaft is arranged at one end, close to the feeding pipe, of the first motor, the rotating shaft is located inside the feeding pipe, the length of the rotating shaft is equal to that of the feeding pipe, spiral blades are welded on the rotating shaft, and a feeding port is formed in the bottom, close to one end of the first motor, of;

the crushing assembly comprises fixed seats, a crushing box and a feeding hole, the two fixed seats are mounted at the top of the supporting plate through bolts, the crushing box is welded between the two fixed seats, the feeding hole is welded at the top of the crushing box, the section of the feeding hole is of an inverted trapezoidal structure, the feeding hole is positioned below the feeding hole, the bottom of the crushing box is provided with a grain outlet, and the grain outlet is positioned above the sliding barrel;

the sealing assembly comprises a support, a third motor and push blocks, the support is welded on the inner side of the processing frame, the third motors are installed on two sides of the support, one ends, close to the support, of the two third motors are connected with rotary tables, the rotary tables are of an oval structure, two ends of each rotary table are hinged with transmission rods, one ends, far away from the rotary tables, of the transmission rods are hinged with the push blocks, two slide rods are welded on the inner wall of one end of the processing frame in a horizontal welding mode, the two push blocks are in sliding fit with the slide rods, one side of each push block is provided with a sealing block, and the two push blocks can synchronously extrude packaging bags through the rotary tables and the transmission rods, so that the sealing effect of the automatic production line is improved, and the two push blocks can move more stably through the slide rods;

the transport subassembly is including installation piece, fourth motor and slide, two the installation piece is all welded at processing frame one end inner wall, and two normal running fit has the axis of rotation between the installation piece, the fourth motor is installed in the one side that the axis of rotation was kept away from to the installation piece, the slide welding is in the centre of axis of rotation, just the backplate has all been welded to the both sides at slide top, through setting up the fourth motor to drive the axis of rotation through the fourth motor, the axis of rotation drives the slide, adjusts the angle of slide, through the inclination of adjusting the slide, helps controlling this automated production line to mould the conveyor position and the height of magnetic particle material product to the ferrite, and then has improved the flexibility that this ferrite moulded magnetic particle material automation line used.

Preferably, the processing frame is formed by three steel sheet welding, and the transversal "U" type structure of personally submitting of processing frame, and the inside weld of processing frame has two backup pads, and a plurality of supporting legs is installed to the bottom of processing frame, and the plastic pad has all been bonded to the bottom of a plurality of supporting legs, and the supporting legs plays a supporting role to the processing frame, through bonding the plastic pad in the supporting legs bottom, can increase the frictional force between supporting legs and the ground.

Preferably, two backup pads are parallel arrangement, and crushing unit fixed mounting is at the top of top backup pad, and seal subassembly and transportation subassembly all are located between two backup pads.

Preferably, the delivery box is located the bottom of conveying pipeline, and the inside of delivery box link up with the inside of conveying pipeline, and the bottom welding of delivery box has the supporting seat, and the supporting seat is "nearly" style of calligraphy structure, and has seted up a plurality of screw on the supporting seat, supports the delivery box through the supporting seat, through set up a plurality of screw on the supporting seat, makes the supporting seat can be connected with other equipment through the bolt.

Preferably, the viewing aperture has been seted up at the top of conveying pipeline, the viewing aperture is located the one end that the conveying pipeline is close to first motor, be provided with the viewing aperture through the top at the conveying pipeline, the pay-off condition to this automation line that can be timely convenient is looked over, thereby improve the convenience that this automation line used, and simultaneously, can solve the obstructed problem of pay-off through the viewing aperture, when the conveying pipeline of being convenient for blocks, dredge the conveying pipeline, thereby improve the reliability that this automation line used, it has the apron to articulate on the viewing aperture, apron cross-section size suits with viewing aperture cross-section size, the welding of one side of apron has the handle, through setting up the apron, opening and closing the viewing aperture that can be nimble, cover the viewing aperture through the apron, dust pollution in the raw materials can be reduced, through setting up the handle, the switch operation to the apron is convenient.

Preferably, the bottom welding of conveying pipeline has the support frame, and the support frame is located the one end that the conveying pipeline is close to first motor, and the bolt fastening is passed through at the processing frame top in the bottom of support frame, and the conveying pipeline passes through the support frame and is connected with the processing frame.

Preferably, the fixing base is kept away from one side of smashing the case and is installed the second motor, smash the inside normal running fit of case and have fixed tooth axle and activity tooth axle, the one end and the second motor of activity tooth axle are connected, the top welding of backup pad has the mount, the welding of one side of mount has the mounting panel, the one end that crushing case was kept away from to the second motor is passed through the bolt and is connected with the mounting panel, through welding mount and mounting panel, and with second motor and mounting panel fixed mounting, make the more stability of second motor, reduce the shake in the crushing process.

Preferably, the slide cartridge is located the backup pad on processing frame upper portion, the slide cartridge is hollow body structure, and the diameter length in slide cartridge top cross-section is greater than the diameter length in slide cartridge bottom cross-section, the snap ring has been cup jointed on the slide cartridge, the snap ring is located the top of backup pad, diameter length through with slide cartridge top cross-section is greater than the diameter length in slide cartridge bottom cross-section, make the slide cartridge can be more smooth connect the granule of getting crushing unit processing, reduce spilling of granule and leak, thereby save the cost, through setting up the snap ring, make the slide cartridge can directly block and put in the backup pad, it is convenient to dismantle the slide cartridge, and then conveniently change the slide cartridge of different models, so that be suitable for the wrapping bag of different models.

Preferably, first pneumatic cylinder, first hydraulic stem, second pneumatic cylinder and second hydraulic stem all are the level setting, and first pneumatic cylinder is perpendicular with the second pneumatic cylinder, first hydraulic stem, second hydraulic cylinder and second hydraulic stem are located the week side of slide cartridge respectively, the briquetting is vertical setting, and the briquetting bonds near one side of slide cartridge has the plastic pad, through setting up the plastic pad in one side of briquetting, increase the frictional force between briquetting and the wrapping bag, make the briquetting more firm to the fixed of wrapping bag.

Preferably, the working method of the automatic production line of ferrite plastic magnetic granules comprises the following steps:

the method comprises the following steps: the method comprises the following steps of loading raw materials of ferrite plastic magnetic particles into a feeding box, driving a rotating shaft to rotate through a first motor, driving a spiral blade through the rotating shaft, enabling the spiral blade to rotate in a conveying pipe, enabling the raw materials of the ferrite plastic magnetic particles in the feeding box to be conveyed upwards through the conveying pipe through the rotation of the spiral blade in the conveying pipe, adding the raw materials into a crushing assembly through a feeding hole in the bottom of the conveying pipe, and automatically feeding the automatic production line;

step two: the ferrite plastic magnetic particle raw material falling from the feeding port enters the crushing box through the feeding port, the movable gear shaft is driven by the second motor to rotate in the crushing box, and the rotating movable gear shaft and the fixed gear shaft extrude and crush the ferrite plastic magnetic particle raw material to generate the required ferrite plastic magnetic particles;

step three: the produced ferrite plastic magnetic particles are fed into a sliding barrel through a particle outlet, a packaging bag is sleeved on the sliding barrel, a first hydraulic cylinder drives a first hydraulic rod, the first hydraulic rod drives a sliding plate, a movable plate is enabled to move back and forth, the movable plate drives a pressing block, the pressing block is enabled to extrude the packaging bag and fix the packaging bag, the processed ferrite plastic magnetic particles are filled into the packaging bag through the sliding barrel, a second hydraulic cylinder drives a second hydraulic rod, the second hydraulic rod drives a movable frame, the movable frame is enabled to be close to the packaging bag, a fifth motor drives a rotating wheel, the crawler belt is enabled to rotate on the rotating wheel, the movable frame is controlled to enable the crawler belt to be tightly attached to the packaging bag, meanwhile, the first hydraulic cylinder drives the pressing block to loosen the packaging bag, the rotating crawler belt drives the packaging bag to move downwards, and automatic bagging operation is conducted on;

step four: through the drive of fifth motor, make the track transport downwards the wrapping bag of adorning the aggregate, drive through the third motor, make the carousel rotate, the carousel drives the transfer line at both ends, make two transfer lines be close to each other, two transfer lines drive the ejector pad respectively, make two ejector pads slowly be close to, send into between two ejector pads the wrapping bag of adorning the aggregate, through the drive of fifth motor, make two ejector pads be close to each other and extrude the wrapping bag, the realization is to the operation of sealing of ferrite plastic magnetic particle material packing, ferrite plastic magnetic particle material after the encapsulation passes through the slide and sends out this automation line.

The invention has the beneficial effects that:

(1) the automatic production line for ferrite plastic magnetic granules has the advantages that the filter plate is arranged at the top of the feeding box, so that the raw materials are filtered once in the process of loading the raw materials of the ferrite plastic magnetic granules, larger objects are prevented from entering the feeding box, the larger objects are prevented from damaging equipment in the conveying and crushing links of the automatic production line, the safety and the reliability of the processing and the production of the automatic production line are improved, meanwhile, the raw materials are filtered, larger objects such as packaging bags can be prevented from entering the production line, the cleanness of the raw materials is ensured, the purity of the ferrite plastic magnetic granules processed by the automatic production line is improved, the feeding condition of the automatic production line can be timely and conveniently checked through the observation port arranged at the top of the conveying pipe, and the use convenience of the automatic production line is improved, meanwhile, the problem of feeding blockage can be solved through the observation port, and the conveying pipe is dredged when the conveying pipe is blocked, so that the use reliability of the automatic production line is improved.

(2) The automatic production line of ferrite plastic magnetic granules of the invention comprises a fixed frame and a mounting plate, the second motor is fixedly arranged with the mounting plate, so that the second motor is more stable, the shake in the crushing process is reduced, thereby improving the uniformity of the processed particle size of the automatic production line, avoiding the slipping of the crawler belt in the transmission process by arranging the gear teeth on the rotating wheel and the crawler belt, leading the crawler belt to more stably drive the packaging bag to move downwards, thereby leading the bagged ferrite plastic magnetic granules to be more accurate, improving the use accuracy of the automatic production line, the plastic pad is arranged on one side of the pressing block, so that the friction force between the pressing block and the packaging bag is increased, the pressing block can be more firmly fixed on the packaging bag, the sliding cylinder is prevented from packing granules into the packaging bag, the accident of the package bag sliding down occurs, thereby improving the reliability of the automatic production line.

(3) According to the automatic production line for ferrite plastic magnetic particle materials, the rotary table and the transmission rod are used, so that the two push blocks can synchronously extrude a packaging bag, the sealing effect of the automatic production line is improved, the two push blocks can move more stably by arranging the slide rod, the situation that the sealing is not tight due to deflection in the sealing extrusion process is avoided, the sealing effect of the automatic production line is further improved, the fourth motor is arranged, the rotating shaft is driven by the fourth motor and drives the sliding plate, the angle of the sliding plate is adjusted, the conveying position and the conveying height of the automatic production line for ferrite plastic magnetic particle materials are favorably controlled by adjusting the inclination angle of the sliding plate, and the flexibility of the automatic production line for ferrite plastic magnetic particle materials is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the assembly of the feed delivery pipe and the feed box of the present invention.

Fig. 3 is a schematic structural diagram of a first motor according to the present invention.

Figure 4 is a schematic view of the shredder assembly of the present invention.

FIG. 5 is a top view of the feed inlet and crush box assembly of the present invention.

FIG. 6 is a schematic view of the structure of the slide cartridge of the present invention.

Fig. 7 is an enlarged view of a detail of the area a in fig. 1.

FIG. 8 is a schematic diagram of a second hydraulic cylinder according to the present invention.

FIG. 9 is a schematic view of the assembly of the wheel and track of the present invention.

Fig. 10 is a schematic view of the closure assembly of the present invention.

FIG. 11 is a schematic view of a transfer module according to the present invention.

In the figure: 1. processing a frame; 101. a support plate; 102. supporting legs; 2. a delivery pipe; 201. a support frame; 202. a viewing port; 203. a feed port; 204. a cover plate; 3. a feeding box; 301. a supporting seat; 302. filtering the plate; 4. a first motor; 401. a rotating shaft; 402. a helical blade; 5. a size reduction assembly; 501. a fixed seat; 502. a crushing box; 503. a feed inlet; 504. a grain outlet; 505. a second motor; 506. fixing the gear shaft; 507. a movable gear shaft; 6. a first hydraulic cylinder; 601. a first hydraulic lever; 7. a second hydraulic cylinder; 701. a second hydraulic rod; 8. a seal assembly; 801. a support; 802. a third motor; 803. a turntable; 804. a transmission rod; 805. a push block; 806. a sealing block; 9. a transfer assembly; 901. mounting blocks; 902. a fourth motor; 903. a rotating shaft; 904. a slide plate; 10. a fixed mount; 11. mounting a plate; 12. a slide cylinder; 13. a snap ring; 14. a movable plate; 15. briquetting; 16. a movable frame; 17. a rotating wheel; 18. a crawler belt; 19. a fifth motor; 20. a slide bar.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-11, the automatic production line for ferrite plastic magnetic granules according to the present invention comprises a processing frame 1, a material conveying pipe 2, a crushing assembly 5, a sealing assembly 8 and a transferring assembly 9, wherein the material conveying pipe 2 is obliquely arranged on one side of the processing frame 1, the crushing assembly 5, the sealing assembly 8 and the transferring assembly 9 are sequentially installed on the processing frame 1 from top to bottom, and the crushing assembly 5 is located below the top of the material conveying pipe 2;

the processing frame 1 is provided with two supporting plates 101, the top of the supporting plate 101 is provided with a crushing component 5, a sliding cylinder 12 penetrates through the supporting plate 101, two first hydraulic cylinders 6 are fixedly arranged on the inner wall of one end of the processing frame 1, one ends of the two first hydraulic cylinders 6 are respectively provided with a first hydraulic rod 601, one ends of the two first hydraulic rods 601 far away from the first hydraulic cylinders 6 are fixedly connected with a movable plate 14, the movable plate 14 is vertical to the two first hydraulic rods 601, one side of the movable plate 14 is provided with a pressing block 15 through a bolt, the inner walls of two sides of the processing frame 1 are respectively provided with a second hydraulic cylinder 7, one ends of the two second hydraulic cylinders 7 are respectively provided with a second hydraulic rod 701, one ends of the two second hydraulic rods 701 far away from the second hydraulic cylinder 7 are respectively connected with a movable frame 16, one side of the movable frame 16 is rotatably matched with two rotating wheels 17, the two rotating wheels 17 are sleeved, the gear teeth on the rotating wheel 17 are meshed with the gear teeth on the crawler belt 18, the gear teeth are arranged on the rotating wheel 17 and the crawler belt 18, so that the crawler belt 18 is prevented from slipping in the transmission process, the crawler belt 18 can more stably drive the packaging bag to move downwards, the packaged ferrite plastic magnetic particles are more accurate, and the use accuracy of the automatic production line is improved, a fifth motor 19 is arranged on one side, away from the rotating wheel 17, of the upper movable frame 16, and the fifth motor 19 is connected with the rotating wheel 17;

the conveying pipe 2 is of a hollow pipe body structure, a feeding box 3 and a first motor 4 are respectively installed at two ends of the conveying pipe 2, the feeding box 3 is of a hollow box body structure, an opening is formed in the top of the feeding box 3, a filter plate 302 is installed at the top of the feeding box 3, the filter plate 302 is arranged at the top of the feeding box 3, so that in the process of loading the ferrite plastic magnetic particle raw material, the raw material is filtered once, a large object is prevented from entering the feeding box 3, the large object is prevented from damaging equipment in the conveying and crushing links of the automatic production line, the safety and reliability of the processing and production of the automatic production line are improved, meanwhile, the raw material is filtered, a large object such as a packaging bag can be prevented from entering the production line, the cleanness of the raw material is ensured, the purity of the ferrite plastic magnetic particles processed by the automatic production line is improved, a rotating shaft 401 is arranged at one end, close to the conveying pipe 2, of, the rotating shaft 401 is positioned inside the material conveying pipe 2, the length of the rotating shaft 401 is equal to that of the material conveying pipe 2, the rotating shaft 401 is welded with a helical blade 402, and the bottom of the material conveying pipe 2 close to one end of the first motor 4 is provided with a material feeding opening 203;

the crushing assembly 5 comprises fixing seats 501, a crushing box 502 and a feeding hole 503, the two fixing seats 501 are mounted at the top of the supporting plate 101 through bolts, the crushing box 502 is welded between the two fixing seats 501, the feeding hole 503 is welded at the top of the crushing box 502, the section of the feeding hole 503 is of an inverted trapezoidal structure, the feeding hole 503 is positioned below the feeding hole 203, the bottom of the crushing box 502 is provided with a grain outlet 504, and the grain outlet 504 is positioned above the sliding barrel 12;

the sealing assembly 8 comprises a bracket 801, a third motor 802 and a pushing block 805, the bracket 801 is welded on the inner side of the processing frame 1, the third motor 802 is installed on both sides of the bracket 801, one ends of the two third motors 802 close to the bracket 801 are both connected with a turntable 803, the turntable 803 is in an oval structure, two ends of the turntable 803 are both hinged with a transmission rod 804, one end of the transmission rod 804 far away from the turntable 803 is hinged with a pushing block 805, the inner wall of one end of the processing frame 1 is horizontally welded with two sliding rods 20, the two pushing blocks 805 are in sliding fit on the sliding rods 20, one side of the pushing block 805 is provided with a sealing block 806, the two pushing blocks 805 can synchronously extrude the packaging bags by using the turntable 803 and the transmission rod 804, so that the sealing effect of the automatic production line is improved, the two pushing blocks 805 can move more stably by arranging the sliding rods 20, and skew in the extruding and sealing, the situation that the seal is not tight is caused, so that the sealing effect of the automatic production line is further improved;

transport subassembly 9 is including installing piece 901, fourth motor 902 and slide 904, two installation pieces 901 all weld at 1 one end inner wall of processing frame, and normal running fit has axis of rotation 903 between two installation pieces 901, fourth motor 902 installs the one side of keeping away from axis of rotation 903 at installation piece 901, slide 904 welds in the centre of axis of rotation 903, and the both sides at slide 904 top all weld the backplate, through setting up fourth motor 902, and drive axis of rotation 903 through fourth motor 902, axis of rotation 903 drives slide 904, adjust slide 904's angle, inclination through adjusting slide 904, help controlling this automated production line to the transport position and the height of ferrite moulding magnetic particle material product, and then improved the flexibility that this ferrite moulding magnetic particle material automation line used.

Processing frame 1 is formed by three steel sheet welding, and the transversal "U" type structure of personally submitting of processing frame 1, the internal weld of processing frame 1 has two backup pads 101, a plurality of supporting legs 102 is installed to the bottom of processing frame 1, the bottom of a plurality of supporting legs 102 has all bonded the plastic pad, supporting legs 102 plays a supporting role to processing frame 1, through bonding the plastic pad in supporting legs 102 bottom, can increase the frictional force between supporting legs 102 and the ground, improve the stability of supporting legs 102 to processing frame 1 support, and then improve the stationarity of this automation line operation.

The two support plates 101 are arranged in parallel, the crushing assembly 5 is fixedly arranged at the top of the upper support plate 101, and the sealing assembly 8 and the transferring assembly 9 are both positioned between the two support plates 101.

Pay-off case 3 is located the bottom of conveying pipeline 2, and the inside of pay-off case 3 link up with the inside of conveying pipeline 2, the bottom welding of pay-off case 3 has supporting seat 301, supporting seat 301 is "nearly" style of calligraphy structure, and a plurality of screw has been seted up on supporting seat 301, support pay-off case 3 through supporting seat 301, through set up a plurality of screw on supporting seat 301, make supporting seat 301 can be connected with other equipment through the bolt, the fastness that supporting seat 301 supported has been improved, and then guarantee is provided for carrying the raw materials smoothly.

The top of the conveying pipe 2 is provided with an observation port 202, the observation port 202 is positioned at one end of the conveying pipe 2 close to the first motor 4, the observation port 202 is arranged at the top of the conveying pipe 2, the feeding condition of the automatic production line can be checked timely and conveniently, so that the use convenience of the automatic production line is improved, meanwhile, the problem of feeding blockage can be solved through the observation port 202, the conveying pipe 2 is convenient to dredge when the conveying pipe 2 is blocked, so that the use reliability of the automatic production line is improved, the observation port 202 is hinged with a cover plate 204, the size of the cross section of the cover plate 204 is matched with that of the observation port 202, one side of the cover plate 204 is welded with a handle, the observation port 202 can be opened and closed flexibly through the cover plate 204, the use convenience of the observation port 202 is ensured, the observation port 202 is covered through the cover plate 204, dust pollution in raw materials can be reduced, by providing a handle, the cover plate 204 is conveniently opened and closed.

The bottom welding of conveying pipeline 2 has support frame 201, and support frame 201 is located conveying pipeline 2 and is close to the one end of first motor 4, and the bolt fastening is passed through at the top of processing frame 1 in the bottom of support frame 201, and conveying pipeline 2 is connected with processing frame 1 through support frame 201.

Second motor 505 is installed to one side that crushing case 502 was kept away from to fixing base 501, the inside normal running fit of crushing case 502 has fixed pinion 506 and movable pinion 507, the one end and the second motor 505 of movable pinion 507 are connected, the top welding of backup pad 101 has mount 10, the welding of one side of mount 10 has mounting panel 11, the one end that crushing case 502 was kept away from to second motor 505 passes through the bolt and is connected with mounting panel 11, through welding mount 10 and mounting panel 11, and with second motor 505 and mounting panel 11 fixed mounting, make second motor 505 more stable, reduce the shake in the crushing process, thereby improve this automation line processing granule size degree of consistency.

The slide cylinder 12 is located on a supporting plate 101 on the upper portion of the processing frame 1, the slide cylinder 12 is of a hollow pipe body structure, the diameter length of the top cross section of the slide cylinder 12 is larger than that of the bottom cross section of the slide cylinder 12, a clamping ring 13 is sleeved on the slide cylinder 12 and located above the supporting plate 101, the diameter length of the top cross section of the slide cylinder 12 is larger than that of the bottom cross section of the slide cylinder 12, the slide cylinder 12 can more smoothly receive and take particles processed by the crushing assembly 5, particle leakage is reduced, cost is saved, the slide cylinder 12 can be directly clamped on the supporting plate 101 through the clamping ring 13, the slide cylinder 12 is convenient to detach, slide cylinders of different models are convenient to replace, packaging bags of different models are convenient to use, and the automatic production line is more flexible to use by replacing the slide cylinder 12.

First pneumatic cylinder 6, first hydraulic stem 601, second pneumatic cylinder 7 and second hydraulic stem 701 all are the level setting, and first pneumatic cylinder 6 is perpendicular with second pneumatic cylinder 7, first pneumatic cylinder 6, first hydraulic stem 601, second pneumatic cylinder 7 and second hydraulic stem 701 are located the week side of slide cartridge 12 respectively, briquetting 15 is vertical setting, and briquetting 15 is close to one side of slide cartridge 12 and bonds there is the plastic pad, through set up the plastic pad in one side of briquetting 15, increase the frictional force between briquetting 15 and the wrapping bag, make briquetting 15 more firm to the fixed of wrapping bag, avoid slide cartridge 12 in to the in-process of wrapping bag granule, the accident of wrapping bag landing takes place, thereby improve the reliability that this automation line used.

The working method of the automatic production line of the ferrite plastic magnetic granules comprises the following steps:

the method comprises the following steps: the method comprises the following steps of (1) loading raw materials of ferrite plastic magnetic particles into a feeding box 3, driving a rotating shaft 401 to rotate through a first motor 4, driving a spiral blade 402 through the rotating shaft 401, enabling the spiral blade 402 to rotate in a conveying pipe 2, enabling the raw materials of the ferrite plastic magnetic particles in the feeding box 3 to be conveyed upwards through the conveying pipe 2 through the rotation of the spiral blade 402 in the conveying pipe 2, adding the raw materials into a crushing assembly 5 through a feeding port 203 at the bottom of the conveying pipe 2, and automatically feeding the automatic production line;

step two: the ferrite plastic magnetic particle raw material falling from the feeding port 203 enters the crushing box 502 through the feeding port 503, is driven by the second motor 505 to enable the movable gear shaft 507 to rotate in the crushing box 502, and the rotating movable gear shaft 507 and the fixed gear shaft 506 extrude and crush the ferrite plastic magnetic particle raw material to generate the required ferrite plastic magnetic particles;

step three: the produced ferrite plastic magnetic particles are sent into the sliding barrel 12 through the particle outlet 504, a packaging bag is sleeved on the sliding barrel 12, the first hydraulic cylinder 6 drives the first hydraulic rod 601, the first hydraulic rod 601 drives the sliding plate 14 to move the movable plate 14 back and forth, the movable plate 14 drives the pressing block 15, the pressing block 15 presses the packaging bag, the packaging bag is fixed, processed ferrite plastic magnetic particles are filled into the packaging bag through the sliding cylinder 12, the second hydraulic cylinder 7 drives the second hydraulic rod 701, the second hydraulic rod 701 drives the movable frame 16, the movable frame 16 is close to the packaging bag, the fifth motor 19 drives the rotating wheel 17 to enable the crawler belt 18 to rotate on the rotating wheel 17, the movable frame 16 is controlled to enable the crawler belt 18 to be tightly attached to the packaging bag, meanwhile, the first hydraulic cylinder 6 drives the pressing block 15 to loosen the packaging bag, so that the rotating crawler belt 18 drives the packaging bag to move downwards, and the ferrite plastic magnetic granules are automatically bagged;

step four: the packaging bag filled with the granules is conveyed downwards by the crawler belt 18 under the drive of the fifth motor 19, the turntable 803 is driven by the third motor 802 to rotate, the turntable 803 drives the transmission rods 804 at two ends, the two transmission rods 804 are close to each other, the two transmission rods 804 respectively drive the push blocks 805, the two push blocks 805 are slowly close to each other, the packaging bag filled with the granules is conveyed between the two push blocks 805, the packaging bag is extruded by the two push blocks 805 close to each other under the drive of the fifth motor 19, the sealing operation of the packaging bag of the ferrite molding magnetic granules is realized, and the packaged ferrite molding magnetic granules are conveyed out of the automatic production line through the sliding plate 904.

When in use, firstly, raw materials of ferrite plastic magnetic particles are loaded into a feeding box 3, a rotating shaft 401 is driven to rotate by a first motor 4, the rotating shaft 401 drives a helical blade 402, the helical blade 402 rotates in a conveying pipe 2, the helical blade 402 rotates in the conveying pipe 2, the ferrite plastic magnetic particles in the feeding box 3 are upwards conveyed by the conveying pipe 2, and the raw materials are added to a crushing assembly 5 through a feeding port 203 at the bottom of the conveying pipe 2, so that the automatic feeding function of the automatic production line is realized, the filter plate 302 is arranged at the top of the feeding box 3, so that the raw materials are once filtered in the process of loading the ferrite plastic magnetic particles, larger objects are prevented from entering the feeding box 3, the larger objects are prevented from damaging equipment in the conveying and crushing links of the automatic production line, and the safety and reliability of the automatic production line are improved, meanwhile, the raw materials are filtered, so that larger objects such as packaging bags and the like can be prevented from entering the production line, the cleanness of the raw materials is ensured, the purity of the ferrite plastic magnetic particles processed by the automatic production line is improved, the feeding condition of the automatic production line can be checked timely and conveniently by arranging the observation port 202 at the top of the conveying pipe 2, so that the use convenience of the automatic production line is improved, meanwhile, the problem of feeding blockage can be solved by the observation port 202, the conveying pipe 2 is convenient to dredge when the conveying pipe 2 is blocked, so that the use reliability of the automatic production line is improved, then, the ferrite plastic magnetic particle raw materials falling from the feeding port 203 enter the crushing box 502 through the feeding port 503, the movable toothed shaft 507 rotates in the crushing box 502 through the driving of the second motor 505, and the rotating movable toothed shaft 507 and the fixed toothed shaft 506 extrude and crush the ferrite plastic magnetic particle raw materials, the required ferrite plastic magnetic particles are generated, the produced ferrite plastic magnetic particles are sent into a sliding barrel 12 through a particle outlet 504, a packaging bag is sleeved on the sliding barrel 12, a first hydraulic cylinder 6 drives a first hydraulic rod 601, the first hydraulic rod 601 drives a sliding plate 14, the movable plate 14 moves back and forth, the movable plate 14 drives a pressing block 15, the pressing block 15 extrudes the packaging bag to fix the packaging bag, the processed ferrite plastic magnetic particles are filled into the packaging bag through the sliding barrel 12, a second hydraulic cylinder 7 drives a second hydraulic rod 701, the second hydraulic rod 701 drives a movable frame 16, the movable frame 16 is close to the packaging bag, a fifth motor 19 drives a rotating wheel 17, a crawler 18 rotates on the rotating wheel 17, the movable frame 16 is controlled, the crawler 18 is tightly attached to the packaging bag, meanwhile, the packaging bag is controlled to be loosened through the driving of the first hydraulic cylinder 6, the rotating crawler 18 drives the packaging bag to move downwards, therefore, the processing and automatic bagging operation of the ferrite plastic magnetic particle material automatic production line are realized, the second motor 505 and the mounting plate 11 are fixedly mounted by welding the fixing frame 10 and the mounting plate 11, so that the second motor 505 is more stable, the shake in the crushing process is reduced, the uniformity of the processed particle size of the automatic production line is improved, the wheel teeth are arranged on the rotating wheel 17 and the crawler belt 18, the crawler belt 18 is prevented from slipping in the transmission process, the crawler belt 18 can more stably drive the packaging bag to move downwards, the packaged ferrite plastic magnetic particle material is more accurate, the use accuracy of the automatic production line is improved, the plastic pad is arranged on one side of the pressing block 15, the friction force between the pressing block 15 and the packaging bag is increased, the pressing block 15 is more firmly fixed on the packaging bag, and the sliding cylinder 12 is prevented from being packaged into the packaging particle material, the accident of falling of the packaging bag occurs, thereby improving the reliability of the automatic production line, finally, the fifth motor 19 drives the caterpillar track 18 to convey the packaging bag filled with the granules downwards, the third motor 802 drives the rotary disc 803 to rotate, the rotary disc 803 drives the transmission rods 804 at two ends to enable the two transmission rods 804 to approach each other, the two transmission rods 804 respectively drive the push block 805 to enable the two push blocks 805 to approach slowly, the packaging bag filled with the granules is sent between the two push blocks 805, the fifth motor 19 drives the two push blocks 805 to approach each other to extrude the packaging bag, thereby realizing the sealing operation of the packaging bag of the ferrite molding magnetic granules, the packaged ferrite molding magnetic granules are sent out of the automatic production line through the sliding plate 904, the two push blocks 805 can synchronously extrude the packaging bag by using the rotary disc 803 and the transmission rods 804, thereby improving the sealing effect of the automatic production line, through setting up slide bar 20, make more steady that two ejector pads 805 can remove, avoid sealing extrusion in-process and take place crooked, lead to sealing not tight condition and take place, thereby further improved this automation line's the effect of sealing, through setting up fourth motor 902, and drive axis of rotation 903 through fourth motor 902, axis of rotation 903 drives slide 904, adjust slide 904's angle, through adjusting slide 904's inclination, help controlling this automation line to the transport position and the height of ferrite plastic magnetic particle material product, and then improved the flexibility that this ferrite plastic magnetic particle material automation line used.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a ferrite is moulded magnetic particle material automation line, includes processing frame (1), conveying pipeline (2), crushing unit (5), seals subassembly (8) and transports subassembly (9), its characterized in that: the conveying pipe (2) is obliquely arranged on one side of the processing frame (1), the crushing assembly (5), the sealing assembly (8) and the transferring assembly (9) are sequentially arranged on the processing frame (1) from top to bottom, and the crushing assembly (5) is positioned below the top of the conveying pipe (2);

the processing frame is characterized in that two supporting plates (101) are arranged on the processing frame (1), a crushing assembly (5) is installed at the top of each supporting plate (101), a sliding cylinder (12) penetrates through each supporting plate (101), two first hydraulic cylinders (6) are fixedly installed on the inner wall of one end of the processing frame (1), one ends of the two first hydraulic cylinders (6) are respectively provided with a first hydraulic rod (601), one ends, far away from the first hydraulic cylinders (6), of the two first hydraulic rods (601) are fixedly connected with a movable plate (14), the movable plates (14) are perpendicular to the two first hydraulic rods (601), one sides of the movable plates (14) are respectively provided with a pressing block (15) through bolts, the inner walls of two sides of the processing frame (1) are respectively provided with a second hydraulic cylinder (7), one ends, far away from the second hydraulic cylinders (7), of the two second hydraulic rods (701) are respectively connected with a movable frame (16), two rotating wheels (17) are rotatably matched on one side of the movable frame (16), a crawler belt (18) is sleeved on the two rotating wheels (17), gear teeth are arranged on the outer side of each rotating wheel (17) and the inner side of each crawler belt (18), the gear teeth on the rotating wheels (17) are meshed with the gear teeth on the crawler belt (18), a fifth motor (19) is installed on one side, far away from the rotating wheels (17), of the movable frame (16), and the fifth motor (19) is connected with the rotating wheels (17);

the feeding pipe (2) is of a hollow pipe body structure, a feeding box (3) and a first motor (4) are respectively installed at two ends of the feeding pipe (2), the feeding box (3) is of a hollow box body structure, an opening is formed in the top of the feeding box (3), a filter plate (302) is installed at the top of the feeding box (3), a rotating shaft (401) is arranged at one end, close to the feeding pipe (2), of the first motor (4), the rotating shaft (401) is located inside the feeding pipe (2), the length of the rotating shaft (401) is equal to that of the feeding pipe (2), a spiral blade (402) is welded on the rotating shaft (401), and a feeding opening (203) is formed in the bottom of one end, close to the first motor (4), of the feeding pipe (2);

the crushing assembly (5) comprises fixing seats (501), crushing boxes (502) and a feeding hole (503), the two fixing seats (501) are mounted at the top of a supporting plate (101) through bolts, the crushing boxes (502) are welded between the two fixing seats (501), the feeding hole (503) is welded at the top of the crushing boxes (502), the section of the feeding hole (503) is of an inverted trapezoidal structure, the feeding hole (503) is located below a feeding hole (203), the bottom of each crushing box (502) is provided with a grain outlet (504), and the grain outlet (504) is located above a sliding barrel (12);

the sealing assembly (8) comprises a support (801), third motors (802) and pushing blocks (805), the support (801) is welded on the inner side of the processing frame (1), the third motors (802) are installed on two sides of the support (801), one ends, close to the support (801), of the two third motors (802) are connected with rotary tables (803), the rotary tables (803) are of an oval structure, two ends of each rotary table (803) are hinged with a transmission rod (804), one end, far away from the rotary tables (803), of each transmission rod (804) is hinged with a pushing block (805), two sliding rods (20) are welded on the inner wall of one end of the processing frame (1) in a horizontal welding mode, the two pushing blocks (805) are in sliding fit on the sliding rods (20), and one side of each pushing block (805) is provided with a sealing block (806);

transport subassembly (9) including installation piece (901), fourth motor (902) and slide (904), two installation piece (901) all welds at processing frame (1) one end inner wall, and two normal running fit has axis of rotation (903) between installation piece (901), one side of axis of rotation (903) is kept away from in installation piece (901) is installed in fourth motor (902), slide (904) welding is in the centre of axis of rotation (903), just the backplate has all been welded to the both sides at slide (904) top.

2. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: processing frame (1) is formed by three steel sheet welding, and the transversal "U" type structure of personally submitting of processing frame (1), and the inside weld of processing frame (1) has two backup pads (101), and a plurality of supporting legs (102) are installed to the bottom of processing frame (1), and the bottom of a plurality of supporting legs (102) all bonds and has the plastic pad.

3. The automatic production line of ferrite molding magnetic granules according to claim 2, characterized in that: two backup pads (101) are parallel arrangement, and crushing unit (5) fixed mounting is at the top of top backup pad (101), seals subassembly (8) and transports subassembly (9) and all is located in the middle of two backup pads (101).

4. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: feeding box (3) are located the bottom of conveying pipeline (2), and the inside of feeding box (3) link up with the inside of conveying pipeline (2), and the bottom welding of feeding box (3) has supporting seat (301), and supporting seat (301) are "nearly" style of calligraphy structure, and have seted up a plurality of screw on supporting seat (301).

5. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: viewing aperture (202) have been seted up at the top of conveying pipeline (2), and viewing aperture (202) are located conveying pipeline (2) and are close to the one end of first motor (4), and it has apron (204) to articulate on viewing aperture (202), and apron (204) cross-section size suits with viewing aperture (202) cross-section size, and the welding of one side of apron (204) has the handle.

6. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: the bottom welding of conveying pipeline (2) has support frame (201), and support frame (201) are located conveying pipeline (2) and are close to the one end of first motor (4), and the bolt fastening is passed through at processing frame (1) top in the bottom of support frame (201), and conveying pipeline (2) are connected with processing frame (1) through support frame (201).

7. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: one side of the fixing seat (501) far away from the crushing box (502) is provided with a second motor (505), the inside of the crushing box (502) is matched with a fixed gear shaft (506) and a movable gear shaft (507) in a rotating mode, one end of the movable gear shaft (507) is connected with the second motor (505), a fixing frame (10) is welded at the top of the supporting plate (101), a mounting plate (11) is welded at one side of the fixing frame (10), and one end of the second motor (505) far away from the crushing box (502) is connected with the mounting plate (11) through a bolt.

8. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: the sliding barrel (12) is located on a supporting plate (101) at the upper part of the processing frame (1), the sliding barrel (12) is of a hollow pipe body structure, the diameter length of the top section of the sliding barrel (12) is larger than that of the bottom section of the sliding barrel (12), a clamping ring (13) is sleeved on the sliding barrel (12), and the clamping ring (13) is located above the supporting plate (101).

9. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: first pneumatic cylinder (6), first hydraulic stem (601), second pneumatic cylinder (7) and second hydraulic stem (701) all are the level setting, and first pneumatic cylinder (6) are perpendicular with second pneumatic cylinder (7), and first pneumatic cylinder (6), first hydraulic stem (601), second pneumatic cylinder (7) and second hydraulic stem (701) are located the week side of slide cartridge (12) respectively, and briquetting (15) are vertical setting, and briquetting (15) are close to one side bonding of slide cartridge (12) and have the plastic pad.

10. The automatic production line of ferrite molding magnetic granules according to claim 1, characterized in that: the working method of the automatic production line of the ferrite plastic magnetic granules comprises the following steps:

the method comprises the following steps: the method comprises the steps that raw materials of ferrite plastic magnetic particles are loaded into a feeding box (3), a rotating shaft (401) is driven to rotate through a first motor (4), the rotating shaft (401) drives a spiral blade (402), the spiral blade (402) rotates in a conveying pipe (2), the spiral blade (402) rotates in the conveying pipe (2), the ferrite plastic magnetic particle raw materials in the feeding box (3) are conveyed upwards through the conveying pipe (2), the raw materials are added into a crushing assembly (5) through a feeding hole (203) in the bottom of the conveying pipe (2), and automatic feeding is conducted on an automatic production line;

step two: ferrite plastic magnetic particle raw materials falling from a feeding port (203) enter a crushing box (502) through a feeding port (503), a second motor (505) drives the crushing box to rotate a movable gear shaft (507) in the crushing box (502), and the rotating movable gear shaft (507) and a fixed gear shaft (506) extrude and crush the ferrite plastic magnetic particle raw materials to generate required ferrite plastic magnetic particles;

step three: the produced ferrite plastic magnetic particles are conveyed into a sliding barrel (12) through a particle outlet (504), a packaging bag is sleeved on the sliding barrel (12), a first hydraulic cylinder (6) drives a first hydraulic rod (601), the first hydraulic rod (601) drives a sliding plate (14), so that a movable plate (14) moves back and forth, the movable plate (14) drives a pressing block (15), the pressing block (15) extrudes the packaging bag to fix the packaging bag, the processed ferrite plastic magnetic particles are filled into the packaging bag through the sliding barrel (12), a second hydraulic rod (701) is driven through a second hydraulic cylinder (7), the second hydraulic rod (701) drives a movable frame (16), so that the movable frame (16) is close to the packaging bag, a fifth motor (19) drives a rotating wheel (17), so that the crawler belt (18) rotates on the rotating wheel (17), the movable frame (16) is controlled, and the crawler belt (18) is tightly attached to the packaging bag, the first hydraulic cylinder (6) is used for driving, the pressing block (15) is controlled to loosen the packaging bag, the rotating crawler belt (18) drives the packaging bag to move downwards, and the ferrite plastic magnetic particles are automatically bagged;

step four: the packaging bags filled with the granules are conveyed downwards by the track (18) driven by the fifth motor (19), the third motor (802) drives the turntable (803) to rotate, the turntable (803) drives the transmission rods (804) at two ends, the two transmission rods (804) are close to each other, the two transmission rods (804) respectively drive the push block (805), the two push blocks (805) are slowly close to each other, the packaging bags filled with the granules are sent between the two push blocks (805), the five motor (19) drives the two push blocks (805) to close to each other to extrude the packaging bags, the sealing operation of the ferrite molding magnetic granule packages is realized, and the packaged ferrite molding magnetic granules are sent out of the automatic production line through the sliding plate (904).

Images