CN214672204U - Automatic production line for pressing ferrite into furnace - Google Patents

Abstract

The utility model discloses a ferrite suppression is to automation line of advancing stove, including built on stilts platform and the second floor platform of setting in built on stilts platform one side, the both sides of built on stilts platform are equipped with a plurality of press respectively, the top of built on stilts platform is equipped with the cartoning machine corresponding with the press, the bottom of built on stilts platform is connected with the transfer chain that corresponds with the cartoning machine, one side of transfer chain output is equipped with continuous lifting machine, the output of continuous lifting machine is located the second floor platform, the top of second floor platform is equipped with intelligent warehouse, be equipped with a plurality of climbing AGV between intelligent warehouse and the continuous lifting machine, the side that the top of second floor platform is located intelligent warehouse still is equipped with the kiln. The utility model has the characteristics of reduce artifical use amount, reduce workman intensity of labour, reduce the product defective rate, cancel the paper identification card, reduce product storage area.

Description

Automatic production line for pressing ferrite into furnace

Technical Field

The utility model belongs to the technical field of soft magnetic ferrite production, concretely relates to ferrite suppression is to advancing automatic production line of stove.

Background

The processes of producing the soft magnetic ferrite, such as forming, sintering, grinding, sorting, warehousing and the like, need to perform the work of arraying, boxing, carrying, warehousing and the like on the product.

At present, products are manually put into fixed product boxes one by one, then manually stored in a storage area, and then manually taken from the storage area and carried to a kiln mouth when needed, and manually lifted onto a kiln.

This method is very labor intensive. The product falls the angle easily to manual operation, and palm sweat adhesion causes the defective rate of next process to rise on the product, the circulation of product all uses the hand-written paper signboard, seeks and manages very chaotic, the regional many scheduling problems that take up an area of storage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a ferrite suppression is to advancing the automation line of stove to solve the problem that proposes among the above-mentioned background art. The utility model provides a pair of ferrite suppression is to advancing automatic production line of stove has and reduces artifical use amount, reduces workman intensity of labour, reduces the product defective rate, cancels paper identification card, reduces product storage area's characteristics.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a ferrite suppression is to automation line who advances stove, including built on stilts platform and the second floor platform of setting in built on stilts platform one side, the both sides of built on stilts platform are equipped with a plurality of press respectively, the top of built on stilts platform is equipped with the cartoning machine corresponding with the press, the bottom of built on stilts platform is connected with the transfer chain that corresponds with the cartoning machine, one side of transfer chain output is equipped with continuous lifting machine, the output of continuous lifting machine is located the second floor platform, the top of second floor platform is equipped with intelligent warehouse, be equipped with a plurality of climbing AGV between intelligent warehouse and the continuous lifting machine, the side that the top of second floor platform is located intelligent warehouse still is equipped with the kiln, be equipped with the work or material rest on the kiln, the cartoning machine, the transfer chain, continuous lifting machine, climbing AGV, intelligent warehouse and kiln respectively with controller signal connection.

The utility model discloses in further, cartoning machine includes the frame, wherein, rack-mounted is on aerial platform, the one end of frame top is equipped with separation conveying mechanism, separation conveying mechanism's top is equipped with empty box storehouse, one side of separation conveying mechanism is equipped with dress box lifting unit, the both sides that lie in dress box lifting unit tip in the frame are equipped with the location door closing assembly respectively, one side that lies in dress box lifting unit in the frame is equipped with the material loading subassembly, still be connected with turnover box inductor in the frame, turnover box inductor and controller signal connection.

The utility model discloses in furtherly, separation conveying mechanism is including separation conveyor belt, wherein, separation conveyor belt installs in the frame, separation conveyor belt's both sides are equipped with empty box storehouse supporting shoe respectively, separation conveyor belt's intermediate position is equipped with lift separation subassembly, lift separation subassembly includes the separation conveyor mechanism mounting panel, wherein, the separation conveyor mechanism mounting panel is connected on separation conveyor belt, the bottom of separation conveyor mechanism mounting panel is connected with the lift module, there is the roof top of separation conveyor mechanism mounting panel through locating lever sliding connection, the output and the roof of lift module are connected, one side of roof is equipped with the first sensor that targets in place, separation conveyor belt, first sensor and the lift module that targets in place respectively with controller signal connection.

The utility model discloses in furtherly, the location closes the door subassembly and closes the door the subassembly mount pad including the location, wherein, the location closes the door the subassembly mount pad and installs in the frame, and the top of the location subassembly mount pad of closing the door is connected with the location cylinder, is connected with the cylinder connecting plate on the output of location cylinder, is connected with revolving cylinder on the cylinder connecting plate, is connected with the thimble mounting panel on revolving cylinder's the output, is connected with the location thimble on the thimble mounting panel, and one side of location thimble is equipped with a plurality of baffle thimble.

The utility model discloses in further, empty box storehouse includes empty box storehouse bottom plate, wherein, empty box storehouse bottom plate is installed on empty box storehouse supporting shoe, empty box storehouse support is connected to the top of empty box storehouse bottom plate, the both sides that lie in empty box storehouse support on the empty box storehouse bottom plate are connected with empty box branch material cylinder respectively, empty box divides to be connected with the empty box layer board on the output of material cylinder, a plurality of turnover box has been placed to the inside of empty box storehouse support, be connected with empty box starved sensor on the lower extreme of empty box storehouse support, empty box divides material cylinder and empty box starved sensor to be connected with controller signal respectively.

The utility model discloses a further, dress box lifting unit includes dress box lifting unit installing support, wherein, dress box lifting unit installing support is installed in the frame, one side of dress box lifting unit installing support is connected with the slider guide rail, be connected with the elevating platform support on the slider of slider guide rail, the top of elevating platform support is connected with the electric roller platform, the top of dress box lifting unit installing support is connected with the lift cylinder, the output end of lift cylinder is connected with elevating platform support, one side of electric roller platform is connected with the turnover box sensor; the feeding assembly comprises a feeding conveying belt, wherein the feeding conveying belt is installed on the rack, one end of the feeding conveying belt is connected with a guide chute used for being connected with the output end of the press, two sides of the upper portion of the feeding conveying belt are respectively connected with product separation blades, a full material sensor is connected onto the feeding conveying belt, a material blocking cylinder and a material pushing cylinder are further connected onto the feeding conveying belt, the material pushing cylinder is located on one side of the material blocking cylinder, a material pushing plate is connected onto the output end of the material pushing cylinder, a material blocking plate is connected onto the output end of the material blocking cylinder, a lifting cylinder, the material blocking cylinder, the material pushing cylinder, a turnover box sensor, an electric roller table, the feeding conveying belt and the full material sensor are respectively connected with a controller signal.

The utility model discloses in furtherly, the top of turnover box one side is connected with the fixed plate, is equipped with the two-dimensional code on the fixed plate, and one side of turnover box is open structure, and the both sides of turnover box open structure are connected with the fixed block respectively, rotate on the fixed block and are connected with the movable block, still are equipped with the locating hole on the fixed block, are equipped with the rotatory hole of a plurality of on the movable block, and the inside of fixed block is equipped with the slide bar corresponding with rotatory hole, passes through spring coupling between slide bar and the turnover box.

The utility model discloses in further, the transfer chain includes middle cylinder line, and the both sides of middle cylinder line are connected with left cylinder line and right cylinder line that correspond with cartoning machine respectively, and middle cylinder line, left cylinder line and right cylinder line all pass through the installing support and are connected with aerial platform, are connected with the supplied materials sensor on left cylinder line and the right cylinder line respectively, are connected with middle cylinder line sensor on the middle cylinder line, and the below of middle cylinder line and left cylinder line and right cylinder line junction is equipped with middle overlap-connection subassembly; the middle connection assembly comprises an installation bottom plate, wherein the installation bottom plate is connected to the middle roller line through an installation rod, a connection conveying line is connected to the top of the installation bottom plate through a guide rod in a sliding mode, the bottom of the installation bottom plate is connected with a lifting cylinder, the output end of the lifting cylinder is connected with the connection conveying line, a second in-place sensor is connected to the connection conveying line, the middle roller line, a middle roller line sensor, a feeding sensor, a left roller line, a discharging sensor, a right roller line, the second in-place sensor, the connection conveying line and the lifting cylinder are respectively connected with a controller through signals.

The utility model discloses in furtherly, the top of continuous elevator discharge end is connected with two-dimensional code scanning gun, and the inboard of going up the work or material rest is connected with the climbing chain, two-dimensional code scanning gun and controller signal connection.

The utility model discloses in furtherly, ferrite suppression to the realization method of advancing the automatic production line of stove, including following step:

manually stacking and placing each two-dimensional code of the empty turnover boxes in an empty box bin, wherein the empty turnover boxes are separated by a separating and conveying mechanism and are conveyed to an electric roller table of a boxing lifting assembly;

secondly, positioning a positioning hole and a rotating hole on the turnover box by the positioning door-closing assembly, arranging products into the turnover box by the feeding assembly, rotating a movable plate on the turnover box by ninety degrees by the positioning door-closing assembly after the turnover box is filled with the products to block the products by the movable plate, and preventing the products from falling off;

thirdly, the boxing lifting assembly drives the turnover box to fall below the overhead platform, and the electric roller table conveys the turnover box to a left roller line of the conveying line;

(IV) the turnover box is conveyed towards the direction of the middle roller line by the left roller line, when the turnover box is conveyed to the tail end of the left roller line, the discharging sensor senses the turnover box, the lifting cylinder on the middle connection assembly is pushed out to push the connection conveying line to rise to the height of the left roller line, the turnover box is conveyed onto the connection conveying line, meanwhile, the connection conveying line drives the turnover box to move to the tail end, the second in-place sensor senses the turnover box, then the lifting cylinder drives the connection conveying line to descend to the position where the upper surface of the connection conveying line is lower than the middle roller line, and then the middle roller line drives the turnover box to move towards the direction of the continuous lifting machine;

lifting the turnover box from the tail end of the conveying line to a second floor platform by a continuous lifting machine, reading out information in the two-dimensional code on the turnover box by a two-dimensional code scanning gun, and transmitting the information to a warehousing management system;

the warehouse management system sends an instruction to the climbing AGV, so that the climbing AGV is connected with the turnover box and is sent to an appointed goods shelf of the intelligent warehouse;

arranging a storage management system to issue an instruction according to a production order so that the climbing AGV can take the products with the corresponding models from the intelligent warehouse and send the products to the front end of the kiln, and then the climbing AGV sends the turnover boxes to the kiln through a loading frame at the front end of the kiln; all the above operations are performed circularly.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model realizes the storage of the empty turnover box through the empty box bin, and realizes the automatic feeding of the empty turnover box by matching with the separation conveying mechanism;

2. one side of the turnover box is of an open structure, so that the product can be pushed into the turnover box by the feeding assembly conveniently, and the movable plate is arranged, so that the movable plate can be automatically closed after the product is filled with the product under the matching of the positioning door closing assembly, and the product is prevented from falling;

3. the utility model discloses the automatic dress box of product is realized to the material loading subassembly;

4. the utility model conveys the turnover boxes filled with products to the conveying line through the box packing lifting component and conveys the turnover boxes to the continuous hoister through the conveying line;

5. the utility model reads out and transmits the information in the two-dimensional code on the turnover box to the storage management system through the two-dimensional code scanning gun, and realizes intelligent storage through the cooperation with the climbing AGV;

6. the utility model moves the products in the intelligent warehouse to the kiln by climbing the AGV, thus realizing the automatic firing of the products;

7. the utility model has the characteristics of reduce artifical use amount, reduce workman intensity of labour, reduce the product defective rate, cancel the paper identification card, reduce product storage area.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic front view of the structure of the present invention;

FIG. 3 is a schematic structural view of the boxing machine of the present invention;

fig. 4 is a schematic structural view of the separating and conveying mechanism of the present invention;

fig. 5 is a schematic structural view of the lifting and separating assembly of the present invention;

fig. 6 is a schematic structural view of the positioning door closing assembly of the present invention;

FIG. 7 is a schematic structural view of the empty box magazine of the present invention;

fig. 8 is a schematic structural view of the matching between the boxing lifting assembly and the feeding assembly of the present invention;

fig. 9 is a schematic structural view of the turnover box of the present invention;

fig. 10 is an enlarged schematic view of a portion a of fig. 9 according to the present invention;

fig. 11 is a schematic structural view of the conveying line of the present invention;

fig. 12 is a schematic structural view of the intermediate connection assembly of the present invention;

fig. 13 is a schematic structural view of the continuous elevator of the present invention;

fig. 14 is a schematic structural view of the feeding frame of the present invention;

in the figure: 1. a press; 2. an overhead platform; 3. a boxing machine; 31. a frame; 32. a separation conveying mechanism; 321. an empty box bin supporting block; 322. separating the conveyor belt; 323. a lift separator assembly; 324. a separation conveying mechanism mounting plate; 325. a top plate; 326. a first in-position sensor; 327. a lifting module; 328. positioning a rod; 33. an empty box bin; 331. an empty box bin bottom plate; 332. an empty box distributing cylinder; 333. an empty box pallet; 334. empty box starvation sensor; 335. a turnover box; 3351. a movable plate; 3352. a fixing plate; 3353. two-dimensional codes; 3354. a spring; 3355. a movable block; 3356. positioning holes; 3357. a fixed block; 3358. rotating the hole; 3359. a slide bar; 336. an empty magazine holder; 34. a boxing elevating assembly; 341. a boxing lifting assembly mounting bracket; 342. a lifting platform support; 343. a lifting cylinder; 344. a tote sensor; 345. an electric roller table; 346. a slider guide rail; 35. positioning a door closing assembly; 351. a positioning door closing assembly mounting seat; 352. positioning the air cylinder; 353. a cylinder connecting plate; 354. a rotating cylinder; 355. a thimble mounting plate; 356. positioning the thimble; 357. a baffle thimble; 36. a feeding assembly; 361. a feeding conveyor belt; 362. a full material sensor; 363. a material pushing plate; 364. a material blocking cylinder; 365. a material pushing cylinder; 366. a striker plate; 367. a product baffle plate; 368. a material guide chute; 37. a turnover box sensor; 4. a conveying line; 41. a middle roller line; 42. a mid-drum line sensor; 43. a feed sensor; 44. mounting a bracket; 45. a left drum line; 46. a discharge sensor; 47. an intermediate docking assembly; 471. mounting a bottom plate; 472. mounting a rod; 473. a second in-position sensor; 474. connecting a conveying line; 475. a guide bar; 476. a lifting cylinder; 48. a right drum line; 5. a continuous elevator; 51. a two-dimensional code scanning gun; 6. climbing an AGV; 7. an intelligent warehouse; 8. a second floor platform; 9. a feeding frame; 91. climbing chains; 10. a kiln.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-14, the present invention provides the following technical solutions: an automatic production line for pressing ferrite into a furnace comprises an overhead platform 2 and a second floor platform 8 arranged on one side of the overhead platform 2, wherein a plurality of presses 1 are respectively arranged on two sides of the overhead platform 2, a box packing machine 3 corresponding to the presses 1 is arranged above the overhead platform 2, a conveying line 4 corresponding to the box packing machine 3 is connected to the bottom of the overhead platform 2, a continuous lifting machine 5 is arranged on one side of the output end of the conveying line 4, the output end of the continuous lifting machine 5 is positioned on the second floor platform 8, an intelligent warehouse 7 is arranged above the second floor platform 8, a plurality of climbing AGVs 6 are arranged between the intelligent warehouse 7 and the continuous lifting machine 5, a kiln 10 is also arranged on the side surface of the intelligent warehouse 7 above the second floor platform 8, a feeding rack 9 is arranged on the kiln 10, the box packing machine 3, the conveying line 4 and the continuous lifting machine 5, climbing AGV6, intelligent warehouse 7 and kiln 10 are in signal connection with the controller respectively.

Further, cartoning machine 3 includes frame 31, wherein, frame 31 installs on overhead platform 2, the one end of frame 31 top is equipped with separation conveying mechanism 32, separation conveying mechanism 32's top is equipped with empty box storehouse 33, one side of separation conveying mechanism 32 is equipped with dress box lifting unit 34, the both sides that lie in dress box lifting unit 34 tip on the frame 31 are equipped with the location respectively and close the door subassembly 35, one side that lies in dress box lifting unit 34 on the frame 31 is equipped with material loading subassembly 36, still be connected with turnover box inductor 37 on the frame 31, turnover box inductor 37 and controller signal connection.

Through adopting above-mentioned technical scheme, dress box operation is carried out to the product of press 1 extrusion through cartoning machine 3.

Further, separation conveying mechanism 32 includes separation conveying belt 322, wherein, separation conveying belt 322 is installed in frame 31, the both sides of separation conveying belt 322 are equipped with empty box storehouse supporting shoe 321 respectively, the intermediate position of separation conveying belt 322 is equipped with lift separator 323, lift separator 323 includes separation conveying mechanism mounting panel 324, wherein, separation conveying mechanism mounting panel 324 is connected on separation conveying belt 322, the bottom of separation conveying mechanism mounting panel 324 is connected with lift module 327, there is roof 325 above separation conveying mechanism mounting panel 324 through locating lever 328 sliding connection, the output of lift module 327 is connected with roof 325, one side of roof 325 is equipped with first sensor 326 that targets in place, separation conveying belt 322, first sensor 326 and lift module 327 that targets in place are respectively with controller signal connection.

Through adopting above-mentioned technical scheme, separate out one with empty turnover box 335 in empty box storehouse 33 to carry to on dress box lifting unit 34.

Further, the positioning door-closing assembly 35 includes a positioning door-closing assembly mounting seat 351, wherein the positioning door-closing assembly mounting seat 351 is mounted on the frame 31, a positioning cylinder 352 is connected above the positioning door-closing assembly mounting seat 351, a cylinder connecting plate 353 is connected to an output end of the positioning cylinder 352, a rotary cylinder 354 is connected to the cylinder connecting plate 353, a thimble mounting plate 355 is connected to an output end of the rotary cylinder 354, a positioning thimble 356 is connected to the thimble mounting plate 355, and a plurality of baffle thimbles 357 are disposed on one side of the positioning thimble 356.

By adopting the above technical scheme, after the products of the empty turnover box 335 are full, the movable plate 3351 on the turnover box 335 is rotated ninety degrees by the positioning door closing assembly 35 to block the products, so that the products are prevented from falling.

Further, empty box storehouse 33 includes empty box storehouse bottom plate 331, wherein, empty box storehouse bottom plate 331 is installed on empty box storehouse supporting shoe 321, empty box storehouse support 336 is connected to the top of empty box storehouse bottom plate 331, the both sides that lie in empty box storehouse support 336 on empty box storehouse bottom plate 331 are connected with empty box branch material cylinder 332 respectively, be connected with empty box layer board 333 on the output of empty box branch material cylinder 332, a plurality of turnover box 335 has been placed to the inside of empty box storehouse support 336, be connected with empty box starvation sensor 334 on the lower extreme of empty box storehouse support 336, empty box starvation sensor 334 and controller signal connection.

Through adopting above-mentioned technical scheme for place empty turnover box 335, realize the automatic feeding of empty turnover box 335.

Further, the cartoning lifting assembly 34 comprises a cartoning lifting assembly mounting bracket 341, wherein the cartoning lifting assembly mounting bracket 341 is mounted on the frame 31, one side of the cartoning lifting assembly mounting bracket 341 is connected with a slider guide rail 346, a lifting table bracket 342 is connected to a slider of the slider guide rail 346, an electric roller table 345 is connected above the lifting table bracket 342, a lifting cylinder 343 is connected above the cartoning lifting assembly mounting bracket 341, an output end of the lifting cylinder 343 is connected with the lifting table bracket 342, and a turnover box sensor 344 is connected to one side of the electric roller table 345; the feeding assembly 36 comprises a feeding conveying belt 361, wherein the feeding conveying belt 361 is installed on the machine frame 31, one end of the feeding conveying belt 361 is connected with a guide chute 368 used for being connected with the output end of the press 1, two sides above the feeding conveying belt 361 are respectively connected with product blocking pieces 367, a full material sensor 362 is connected onto the feeding conveying belt 361, the feeding conveying belt 361 is further connected with a material blocking cylinder 364 and a material pushing cylinder 365, the material pushing cylinder 365 is located on one side of the material blocking cylinder 364, the output end of the material pushing cylinder 365 is connected with a material pushing plate 363, the output end of the material blocking cylinder 364 is connected with a material blocking plate 366, and the turnover box sensor 344, the electric roller table 345, the feeding conveying belt 361 and the full material sensor 362 are respectively connected with a controller through signals.

By adopting the technical scheme, the products pressed by the press 1 are placed into the empty turnover box 335 through the feeding assembly 36; the turnover box 335 filled with the product is conveyed to the conveying line 4 by the box loading lift assembly 34.

Furthermore, a fixing plate 3352 is connected to the upper side of one side of the turnover box 335, a two-dimensional code 3353 is arranged on the fixing plate 3352, one side of the turnover box 335 is of an open structure, two sides of the open structure of the turnover box 335 are respectively connected with a fixing block 3357, a movable block 3355 is rotatably connected to the fixing block 3357, a positioning hole 3356 is further arranged on the fixing block 3357, a plurality of rotating holes 3358 are arranged on the movable block 3355, a sliding rod 3359 corresponding to the rotating holes 3358 is arranged in the fixing block 3357, and the sliding rod 3359 is connected with the turnover box 335 through a spring 3354.

Through adopting above-mentioned technical scheme, be convenient for put the product on turnover box 335, and the product can prevent after filling with the product that the product from dropping.

Further, the conveying line 4 comprises a middle roller line 41, two sides of the middle roller line 41 are respectively connected with a left roller line 45 and a right roller line 48 corresponding to the boxing machine 3, the middle roller line 41, the left roller line 45 and the right roller line 48 are connected with the overhead platform 2 through mounting brackets 44, the left roller line 45 and the right roller line 48 are respectively connected with a feeding sensor 43, the middle roller line 41 is connected with a middle roller line sensor 42, and a middle connection component 47 is arranged below the connection position of the middle roller line 41 and the left roller line 45 and the right roller line 48; the intermediate connection assembly 47 comprises an installation base plate 471, wherein the installation base plate 471 is connected to the intermediate roller line 41 through an installation rod 472, a connection conveying line 474 is connected to the upper portion of the installation base plate 471 in a sliding mode through a guide rod 475, a lifting cylinder 476 is connected to the bottom of the installation base plate 471, the output end of the lifting cylinder 476 is connected with the connection conveying line 474, a second in-place sensor 473 is connected to the connection conveying line 474, and the intermediate roller line 41, the intermediate roller line sensor 42, the incoming material sensor 43, the left roller line 45, the discharging sensor 46, the right roller line 48, the second in-place sensor 473 and the connection conveying line 474 are respectively in signal connection with a controller.

By adopting the technical scheme, the turnover box 335 filled with the products is moved to the continuous elevator 5 through the conveying line 4.

Further, the two-dimensional code scanning gun 51 is connected above the discharging end of the continuous elevator 5, the climbing chain 91 is connected to the inner side of the feeding frame 9, and the two-dimensional code scanning gun 51 is in signal connection with the controller.

By adopting the technical scheme, the information in the two-dimensional code 3353 on the turnover box 335 is read out and transmitted to the warehouse management system through the two-dimensional code scanning gun 51; climbing chain 91 facilitates climbing AGV6 to transport turnover box 335 filled with products into kiln 10.

Example 2

Further, the ferrite pressing method for realizing the automatic production line of the furnace comprises the following steps:

firstly, manually stacking and placing the empty turnover boxes 335 in the empty box bin 33 after scanning the two-dimensional codes, wherein the empty turnover boxes 335 are separated by the separation conveying mechanism 32 and conveyed to the electric roller table 345 of the boxing lifting assembly 34;

secondly, the positioning door-closing assembly 35 positions the positioning hole 3356 and the rotating hole 3358 on the turnover box 335, the loading assembly 36 arranges the products into the turnover box 335, the positioning door-closing assembly 35 rotates the movable plate 3351 on the turnover box 335 by ninety degrees after the loading assembly is filled to make the movable plate 3351 block the products, so as to prevent the products from falling off, and then the positioning cylinder 352 of the positioning door-closing assembly 35 retreats to release the turnover box 335;

thirdly, the boxing lifting assembly 34 drives the turnover box 335 to descend below the overhead platform 2, and the electric roller table 345 conveys the turnover box 335 to the left roller line 45 of the conveying line 4;

fourthly, the turnover box 335 is conveyed towards the direction of the middle roller line 41 by the left roller line 45, when the turnover box 335 is conveyed to the tail end of the left roller line 45, after the discharging sensor 46 senses the tail end of the left roller line, the lifting cylinder 476 on the middle connection assembly 47 pushes out to push the connection conveying line 474 to rise to the height of the left roller line 45, the turnover box 335 is conveyed onto the connection conveying line 474, meanwhile, the connection conveying line 474 drives the turnover box 335 to move to the tail end, after the second in-place sensor 473 senses the tail end, the lifting cylinder 476 drives the connection conveying line 474 to descend until the upper surface of the connection conveying line 474 is lower than the surface of the middle roller line 41, and then the middle roller line 41 drives the turnover box 335 to move towards the direction of the continuous elevator 5;

fifthly, the continuous elevator 5 lifts the turnover box 335 from the tail end of the conveyor line 4 to the second floor platform 8, and the two-dimensional code scanning gun 51 reads out the information in the two-dimensional code 3353 on the turnover box 335 and transmits the information to the warehousing management system;

the warehouse management system sends an instruction to the climbing AGV6, so that the climbing AGV6 is connected with the turnover box 335 and is sent to a designated shelf of the intelligent warehouse 7;

arranging a warehouse management system to give an instruction according to a production order, enabling the climbing AGV6 to take products of corresponding models from the intelligent warehouse 7 and send the products to the front end of the kiln 10, and then enabling the climbing AGV6 to send the turnover box 335 to the kiln 10 through a loading frame 9 at the front end of the kiln 10; all the above operations are performed circularly.

All be equipped with the solenoid valve in this application on all cylinders, solenoid valve and controller signal connection.

In the application, the separation conveying belt 322 is selected from KQP01-B430-L600-120-TA220-SCM-100-D-T sold by Yiheda company; the first in-place sensor 326 is selected from model PM-L45 sold by Sonar corporation; the lifting module 327 is 2TNF10-3 sold by Dongli corporation; the empty box distributing cylinder 332 is selected from WGU02-50-50-2 sold by Yihe company; the empty box starvation sensor 334 is selected from model ZJG03-F-1.5-M8 sold by Yiheda corporation; the lifting cylinder 343 is selected from MDBF63-700Z-W-M9P sold by SMC company; the turnover box sensor 344 is selected from model ZKJ01 sold by the company yiheda; the electric roller table 345 adopts MOR38-300-20 model sold by Misimi company; the positioning cylinder 352 is selected from the WGU02-25-30-2 model sold by Yiheda corporation; the rotary cylinder 354 is of CDRQ2BX20-90-A90 type sold by SMC company; the feeding conveying belt 361 is of KPK51-B70-L1000-25-SA200-INV-5-A-T type sold by Yihe company; the fullness sensor 362 is selected from ZJH10-2 sold by Yiheda company; the material blocking cylinder 364 is selected from WGU02-12-20-2 sold by Yiheda company; the material pushing cylinder 365 is selected from WGU02-12-50-2 sold by Yihe company; the turnover box sensor 37 is selected from ZKJ01 sold by Yihe company; the middle roller line 41 is selected from KSH01-50-B400-D60-20-N60-F-A sold by Yihe company; the mid-roll line sensor 42 is of the type ZJH10-2 sold by yiheda corporation; the incoming material sensor 43 is selected from a model ZJH10-2 sold by Yiheda company; the left roller line 45 and the right roller line 48 are made of KSH01-50-B400-D60-20-N20-F-A sold by Yihe company; the discharge sensor 46 is selected from ZJH10-2 sold by Yiheda corporation; the second reach sensor 473 is selected from model ZKJ01 sold by yiheda corporation; the connecting conveying line 474 is of a KQH01-B300-L255-25-SA200-INV-25-K-S type sold by Yihe company; the lift cylinder 476 is selected from model WGJ06-100-50-Y-2 sold by Lehe company; the continuous elevator 5 is of YJ-TSJ type sold by Yujian company; the two-dimensional code scanning gun 51 is in OH430 type sold by Honeywell; the climbing AGV6 is made of SPP00 type sold by Hefeijingsong Intelligent science and technology corporation; the intelligent warehouse 7 selects SPP002 type sold by Hefeijingsong Intelligent science and technology corporation; the controller was selected from FX3U-128MT/ES-A sold by Mitsubishi corporation.

In summary, the utility model realizes the storage of the empty turnover box 335 through the empty box bin 33, and realizes the automatic feeding of the empty turnover box 335 by matching with the separation conveying mechanism 32; one side of the turnover box 335 of the utility model is an open structure, which is convenient for the feeding component 36 to push the product into the turnover box 335, and the movable plate 3351 is arranged, so that the movable plate 3351 can be automatically closed after the product is filled with the product under the cooperation of the positioning door closing component 35, thereby preventing the product from falling; the feeding assembly 36 of the utility model realizes the automatic boxing of the product; the utility model conveys the turnover box 335 filled with products to the conveying line 4 through the box packing lifting component 34, and conveys the turnover box 335 to the continuous elevator 5 through the conveying line 4; the utility model reads out and transmits the information in the two-dimension code 3353 on the turnover box 335 to the storage management system through the two-dimension code scanning gun 51, and realizes intelligent storage by matching with the climbing AGV 6; the utility model realizes the automatic firing of products by climbing AGV6 to move the products in the intelligent warehouse 7 into the kiln 10; the utility model has the characteristics of reduce artifical use amount, reduce workman intensity of labour, reduce the product defective rate, cancel the paper identification card, reduce product storage area.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a ferrite suppression is to advancing automation line of stove, includes built on stilts platform (2) and sets up second floor platform (8) in built on stilts platform (2) one side, its characterized in that: the two sides of the overhead platform (2) are respectively provided with a plurality of presses (1), a box packing machine (3) corresponding to the presses (1) is arranged above the overhead platform (2), the bottom of the overhead platform (2) is connected with a conveying line (4) corresponding to the box packing machine (3), one side of the output end of the conveying line (4) is provided with a continuous elevator (5), the output end of the continuous elevator (5) is positioned on a second floor platform (8), an intelligent warehouse (7) is arranged above the second floor platform (8), a plurality of climbing AGVs (6) are arranged between the intelligent warehouse (7) and the continuous elevator (5), a kiln (10) is also arranged on the side surface of the intelligent warehouse (7) above the second floor platform (8), and a feeding frame (9) is arranged on the kiln (10), the boxing machine (3), the conveying line (4), the continuous elevator (5), the climbing AGV (6), the intelligent warehouse (7) and the kiln (10) are respectively in signal connection with the controller.

2. The automatic production line for ferrite pressing into a furnace as claimed in claim 1, wherein: cartoning machine (3) are including frame (31), wherein, frame (31) is installed on built on stilts platform (2), the one end of frame (31) top is equipped with separation conveying mechanism (32), the top of separation conveying mechanism (32) is equipped with empty box storehouse (33), one side of separation conveying mechanism (32) is equipped with dress box lifting unit (34), the both sides that lie in dress box lifting unit (34) tip on frame (31) are equipped with location door closing assembly (35) respectively, one side that lie in dress box lifting unit (34) on frame (31) is equipped with material loading subassembly (36), still be connected with turnover box inductor (37) on frame (31), turnover box inductor (37) and controller signal connection.

3. The automatic production line for ferrite pressing into a furnace as claimed in claim 2, wherein: separation conveying mechanism (32) is including separation conveyor belt (322), wherein, separation conveyor belt (322) are installed in frame (31), the both sides of separation conveyor belt (322) are equipped with empty box storehouse supporting shoe (321) respectively, the intermediate position of separation conveyor belt (322) is equipped with lift separator (323), lift separator (323) are including separation conveyor mounting panel (324), wherein, separation conveyor mounting panel (324) are connected on separation conveyor belt (322), the bottom of separation conveyor mounting panel (324) is connected with lift module (327), there is roof (325) top of separation conveyor mounting panel (324) through locating lever (328) sliding connection, the output and roof (325) of lift module (327) are connected, one side of roof (325) is equipped with first sensor (326) that targets in place, separation conveyor belt (322), The first in-place sensor (326) and the lifting module (327) are respectively in signal connection with the controller.

4. The automatic production line for ferrite pressing into a furnace as claimed in claim 2, wherein: the location door closing assembly (35) is including location door closing assembly mount pad (351), wherein, the location door closing assembly mount pad (351) is installed in frame (31), the top of location door closing assembly mount pad (351) is connected with location cylinder (352), be connected with cylinder connecting plate (353) on the output of location cylinder (352), be connected with revolving cylinder (354) on cylinder connecting plate (353), be connected with thimble mounting panel (355) on the output of revolving cylinder (354), be connected with location thimble (356) on thimble mounting panel (355), one side of location thimble (356) is equipped with a plurality of baffle thimble (357).

5. The automatic production line for ferrite pressing into a furnace as claimed in claim 3, wherein: empty box storehouse (33) are including empty box storehouse bottom plate (331), wherein, empty box storehouse bottom plate (331) are installed on empty box storehouse supporting shoe (321), empty box storehouse support (336) are connected to the top of empty box storehouse bottom plate (331), the both sides that lie in empty box storehouse support (336) on empty box storehouse bottom plate (331) are connected with empty box branch material cylinder (332) respectively, be connected with empty box layer board (333) on the output of empty box branch material cylinder (332), a plurality of turnover box (335) have been placed to the inside of empty box storehouse support (336), be connected with empty box scarce material sensor (334) on the lower extreme of empty box storehouse support (336), empty box branch material cylinder (332) and empty box scarce material sensor (334) respectively with controller signal connection.

6. The automatic production line for ferrite pressing into a furnace as claimed in claim 2, wherein: the boxing lifting assembly (34) comprises a boxing lifting assembly mounting bracket (341), wherein the boxing lifting assembly mounting bracket (341) is mounted on the rack (31), one side of the boxing lifting assembly mounting bracket (341) is connected with a slider guide rail (346), a slider of the slider guide rail (346) is connected with a lifting platform bracket (342), an electric roller table (345) is connected above the lifting platform bracket (342), a lifting cylinder (343) is connected above the boxing lifting assembly mounting bracket (341), the output end of the lifting cylinder (343) is connected with the lifting platform bracket (342), and one side of the electric roller table (345) is connected with a turnover box sensor (344); the feeding assembly (36) comprises a feeding conveying belt (361), wherein the feeding conveying belt (361) is installed on the rack (31), one end of the feeding conveying belt (361) is connected with a guide chute (368) used for being connected with the output end of the press (1), two sides above the feeding conveying belt (361) are respectively connected with a product blocking sheet (367), a full material sensor (362) is connected onto the feeding conveying belt (361), a material blocking cylinder (364) and a material pushing cylinder (365) are further connected onto the feeding conveying belt (361), the material pushing cylinder (365) is located on one side of the material blocking cylinder (364), a material pushing plate (363) is connected onto the output end of the material pushing cylinder (365), a material blocking plate (366) is connected onto the output end of the material blocking cylinder (364), a lifting cylinder (343), the material blocking cylinder (364), the material pushing cylinder (365), a turnover box sensor (344), an electric roller table (345), The feeding conveying belt (361) and the full-material sensor (362) are respectively connected with the controller through signals.

7. The automatic production line for ferrite pressing into a furnace as claimed in claim 5, wherein: the top of turnover box (335) one side is connected with fixed plate (3352), be equipped with two-dimensional code (3353) on fixed plate (3352), one side of turnover box (335) is open structure, the both sides of turnover box (335) open structure are connected with fixed block (3357) respectively, it is connected with movable block (3355) to rotate on fixed block (3357), still be equipped with locating hole (3356) on fixed block (3357), be equipped with a plurality of rotatory hole (3358) on movable block (3355), the inside of fixed block (3357) is equipped with slide bar (3359) corresponding with rotatory hole (3358), be connected through spring (3354) between slide bar (3359) and turnover box (335).

8. The automatic production line for ferrite pressing into a furnace as claimed in claim 1, wherein: the conveying line (4) comprises a middle roller line (41), the two sides of the middle roller line (41) are respectively connected with a left roller line (45) and a right roller line (48) corresponding to the boxing machine (3), the middle roller line (41), the left roller line (45) and the right roller line (48) are connected with the overhead platform (2) through mounting brackets (44), the left roller line (45) and the right roller line (48) are respectively connected with a feeding sensor (43), the middle roller line (41) is connected with a middle roller line sensor (42), and a middle connection assembly (47) is arranged below the connection part of the middle roller line (41) and the left roller line (45) and the right roller line (48); middle connection subassembly (47) includes mounting plate (471), wherein, mounting plate (471) is connected on middle roller line (41) through installation pole (472), there is connection transfer line (474) top through guide arm (475) sliding connection of mounting plate (471), the bottom of mounting plate (471) is connected with lifting cylinder (476), the output of lifting cylinder (476) is connected with connection transfer line (474), it targets in place sensor (473) to be connected with the second on transfer line (474), middle roller line (41), middle roller line sensor (42), incoming material sensor (43), left side roller line (45), ejection of compact sensor (46), right side roller line (48), second targets in place sensor (473), it connects transfer line (474) and lifting cylinder (476) respectively with controller signal connection.

9. The automatic production line for ferrite pressing into a furnace as claimed in claim 1, wherein: the upper part of the discharge end of the continuous elevator (5) is connected with a two-dimensional code scanning gun (51), the inner side of the feeding frame (9) is connected with a climbing chain (91), and the two-dimensional code scanning gun (51) is in signal connection with a controller.

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