CN103144182A - Ferrite blank automatically shaping and arranging machine with centralized discharge function - Google Patents

Ferrite blank automatically shaping and arranging machine with centralized discharge function Download PDF

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Publication number
CN103144182A
CN103144182A CN2013100896170A CN201310089617A CN103144182A CN 103144182 A CN103144182 A CN 103144182A CN 2013100896170 A CN2013100896170 A CN 2013100896170A CN 201310089617 A CN201310089617 A CN 201310089617A CN 103144182 A CN103144182 A CN 103144182A
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China
Prior art keywords
ferrite blank
ferrite
supporting plate
drive
blank
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CN2013100896170A
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CN103144182B (en
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胡磊
丁新平
顾建华
马建青
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CHANGSHU XINLI MAGNETIC INDUSTRY Co Ltd
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CHANGSHU XINLI MAGNETIC INDUSTRY Co Ltd
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Priority to CN201310089617.0A priority Critical patent/CN103144182B/en
Publication of CN103144182A publication Critical patent/CN103144182A/en
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Publication of CN103144182B publication Critical patent/CN103144182B/en
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Abstract

The invention provides a ferrite blank automatically shaping and arranging machine with a centralized discharge function, and belongs to a ferrite blank stamping forming device. The ferrite blank automatically shaping and arranging machine comprises a base platform, a ferrite blank feeding mechanism, a ferrite blank discharging mechanism, a pair of ferrite blank moving guide rails, a pair of signal collectors and an electric control case, and is characterized by further comprising a ferrite blank centralized pushing mechanism, wherein a combustion loading plate support is arranged on the base platform; the ferrite blank feeding mechanism is fixedly arranged on the base platform; a ferrite blank moving channel is formed between the ferrite blank moving guide rails; the signal collectors are arranged on the ferrite blank discharging mechanism; the electric control case is arranged on the base platform or the ferrite blank feeding mechanism; the ferrite blank centralized pushing mechanism comprises a supporting arm, a pushing bar and an acting cylinder, the supporting arm is arranged on the ferrite blank discharging mechanism, the acting cylinder is fixedly arranged on the supporting arm, the tail ends of a pair of acting cylinder columns are fixedly provided with cylinder column connecting and supporting plates, the middle part of the pushing bar is fixedly connected with the cylinder column connecting and supporting plates, a first baffle sheet is fixedly arranged at one end of the pushing bar, a second baffle sheet is fixedly arranged at the other end of the pushing bar, and a sliding slot is arranged between a stamping forming machine and the ferrite blank moving guide rails. The ferrite blank automatically shaping and arranging machine disclosed by the invention has the advantages of reducing the labor strength and ensuring the product quality.

Description

Have and concentrate the ferrite blank machine for automatically shaping and arraying of releasing function
Technical field
The invention belongs to ferrite blank punch process building mortion technical field, be specifically related to a kind of ferrite blank machine for automatically shaping and arraying of concentrating the release function that has.
Background technology
At some electronic product particularly in the production of FERRITE CORE, ferrite powder material after batching, batch mixing, pre-burning, sand milling and granulation send into electronic kiln as tunnel kiln sintering before, need to strike out blank by press-forming machine, then base substrate is sent into to the kiln sintering, and must stamping blank is neat be arranged on load bearing board in an orderly manner before sending into the kiln sintering, enter the klining knot by load bearing board together with carrying ferrite blank.
As insiders know, due to the ferrite blank that comes from press-forming machine in disordered state, thereby the ferrite blank that can not use from press-forming machine automatically forms neat formation state, Here it is aforesaid must the neat reason place of arrangement in an orderly manner of stamping blank before sending into the kiln sintering.Under normal conditions, for the press-forming machine of a multistation, need to be equipped with have proficiency skills be gimmick flexibly more than 20 s workmans the ferrite blank of stamping machine shaping is discharged on Turnover Box or load bearing board.So produce following technical problem: one, because manual alignment efficiency is low and it is many to drop into manpower, therefore totally unfavorable for saving valuable human resources, especially increasingly deficient today in human resources, can't but be a kind of puzzlement; Its two, due to by workman's manual arrangement, so workman's labour intensity is large and the spirit workman is in tension all the time; Its three, have the situation affect stamping machine continuous operation, because, when the workman is not enough to consumption and comes from the ferrite blank of stamping machine, while having little time ferrite blank is arranged, just can only temporarily make press-forming machine in stopped status; Its four, therefore because the intensity of ferrite blank is very fragile, careless slightly meeting causes breakage.
For fear of above-mentioned shortcoming, can be seen in corresponding shaping and arrange machine in published Chinese patent literature, " machine for automatically shaping and arraying circular blank " typically recommended as invention patent mandate notification number CN100548573C, this patent scheme can embody the capable technique effect of its Instructions Page 2 15-16, but due to the shape of FERRITE CORE with the difference of purposes and application scenario difference, therefore this patent scheme can have been given play to ultimate attainment arrangement effect for the circular blank of abacus bead shape, yet the arrangement for the ferrite blank of other shape does not have referential meaning.
Again, the invention patent mandate notification number CN100534709C provide " machine for automatically shaping and arraying blank ", the blank that this patent scheme can will come from press-forming machine when gathering sill (this gathering sill is between press-forming machine and reshaping device) with vertical State-output to the conveyer belt of reshaping device (the 2nd section of Instructions Page 3), and complete shaping under the motion gone round and begun again of conveyer belt, then transferred on load bearing board by the workman.And invention patent mandate notification number CN101342592B introduces the ferrite blank that has " automatic reshaping and arranging apparatus for ferrite blank ", this patent scheme to be suitable for having center through hole and arranges; Also, invention patent mandate notification number CN102303354B discloses " being disposed at the automatic reshaping and arranging apparatus for ferrite blank on stamping machine ".
There is common strong point although be not limited to the above-mentioned patent scheme exemplified, that is exactly the ferrite blank one by one that comes from press-forming machine to be ranked into to row (industry claims one continuous line), for example tens of pieces of ferrite blanks are arranged on same straight line, so that the workman transfers to it on load bearing board once with manual mode.But there is following logical fraud in above-mentioned patent: one, because the ferrite blank that need to will be arranged in row with manual mode by the workman is transferred on load bearing board, therefore still is not enough to significantly alleviate workman's labour intensity; Its two, be transferred in the process on load bearing board and exist and undermine the anxiety of ferrite blank because the ferrite by lining up is manual, thereby be difficult to fully to ensure the ferritic product quality after sintering.
For above-mentioned prior art, the applicant has done useful design, has finally formed technical scheme described below, and is taking to the experiment proved that it is practicable under secrecy provision.
Summary of the invention
Task of the present invention be to provide a kind of contribute to automated manner will form queue and ferrite blank that be located along the same line transfer on load bearing board and use the labour intensity that significantly alleviates the workman and avoid because of manual grab to pinch undermine ferrite blank and concentrate to guarantee having of product quality the ferrite blank machine for automatically shaping and arraying of releasing function.
Task of the present invention completes like this, a kind of ferrite blank machine for automatically shaping and arraying with concentrated release function, comprise a base station, this base station is disposed at a side of press-forming machine under the use state, and is provided with a load bearing board carriage with airborne on this base station, the one ferrite blank input mechanism of carrying towards the direction of carriage for ferrite blank that will be stamping by press-forming machine, this ferrite blank input mechanism is fixed on described base station with airborne equally, one is fixed on the ferrite blank output mechanism for a side of obtaining the ferrite blank that comes from described ferrite blank input mechanism and the width that the ferrite blank of obtaining is transplanted on to described load bearing board carriage on described base station, and this ferrite blank output mechanism and ferrite blank input mechanism not only are held in same straight line but also are held in sustained height, a pair of for guiding come from the ferrite blank stamping by described press-forming machine under the state of lining up towards the direction row of described ferrite blank output mechanism move and with the fixing capable guide rail that moves of ferrite blank of described ferrite blank input mechanism, capable the moving between guide rail of this pair of ferrite blank is formed with the capable Mobile Communication of a ferrite blank road, and the capable top of an end of guide rail corresponding to the ferrite blank input mechanism of moving of this pair of ferrite blank, and the other end extends and extends to the position be bordered with described load bearing board carriage towards the direction of described ferrite blank output mechanism, a pair of signal picker, this pair of signal picker is arranged on described ferrite blank output mechanism, and corresponding with the capable described other end that moves guide rail of described a pair of ferrite blank, one electric control box, this electric control box is arranged on described base station or described ferrite blank input mechanism, and the ferrite blank input mechanism, described ferrite blank output mechanism all is connected with the electric control box electrical control with a pair of signal picker, be characterised in that also including a ferrite blank automatically pushed towards described load bearing board carriage once for the ferrite blank that will line up on described ferrite blank output mechanism concentrates delivery device, this ferrite blank concentrates delivery device to comprise trailing arm, push away bar and acting cylinder, trailing arm is arranged on described ferrite blank output mechanism, and corresponding towards a side of ferrite blank output mechanism with described load bearing board carriage, acting cylinder is fixed on trailing arm, and be connected with described electric control box electrical control, this acting cylinder has a pair of parallel acting cylinder post, end at this pair of acting cylinder post is fixed with cylinder post connection support plate, push away bar length direction middle part and be connected support plate towards the side that the cylinder post connects support plate with the cylinder post and fix, an end end that pushes away bar is fixed with one for stoping capable the first catch that goes out the capable Mobile Communication of described ferrite blank road of ferrite blank, this first catch and a pair of ferrite blank be capable, and to move guide rail corresponding towards the end of an end of described ferrite blank output mechanism, and the other end that pushes away bar is fixed with one for stoping ferrite blank to be escaped in the second catch of ferrite blank output mechanism, first, the direction of the second catch is opposite each other and corresponding towards a side of ferrite blank output mechanism with described load bearing board carriage, wherein: at described press-forming machine and capable the moving between guide rail of described a pair of ferrite blank, be provided with one and direct into the chute in the capable Mobile Communication of described ferrite blank road for the ferrite blank after will be stamping by press-forming machine.
In a specific embodiment of the present invention, described load bearing board carriage has one group of support column, and this group support column and described base station are fixed, and by this group support column by the load bearing board carriage with airborne the top corresponding to base station.
In another specific embodiment of the present invention, described ferrite blank input mechanism comprises support plate, first, the second supporting plate, the first motor, the first reduction box, the first drive roll, the first driven voller, entrance conveyor and the first driving-belt, support plate is fixed on described base station, the first supporting plate and the second supporting plate support parallelly and are fixed on support plate, and an end of this first supporting plate and the second supporting plate leans out the direction stretching, extension of base station towards described press-forming machine with the horizontal boom state, the other end of the first supporting plate is fixed with one first roll shaft bearing pedestal, and the other end of the second supporting plate is fixed with a second roller bearing housing, first, the second roller bearing housing corresponds to each other, the first driven voller spindle nose of one end of the first driven voller is bearing in a described end of the first supporting plate rotationally, and the first driven voller spindle nose of the other end of the first live-roller is bearing in a described end of the second supporting plate rotationally, the first motor coordinates with the first reduction box transmission, and be fixed on base station together with the first motor by the first reduction box, be fixed with one first drive on the first reduction gearbox output shaft of the first reduction box, one end of the first initiative roll shaft of the first drive roll is bearing in an end of the first roll shaft bearing pedestal rotationally, and the other end of the first drive roll of the first drive roll is bearing in an end of second roller bearing housing rotationally, and be fixed with one second drive, one end of the first entrance conveyor is nested with on the first driven voller, and the other end is nested with on the first drive roll, one end of the first driving-belt is nested with on the first drive, the other end is nested with on the first drive, the capable top of guide rail corresponding to described entrance conveyor of moving of described a pair of ferrite blank, and fix with the top of described support plate, described ferrite blank output mechanism comprises the 3rd, the 4th supporting plate, the second motor, the second reduction box, the second drive roll, the second driven voller, exit conveyor and the second driving-belt, the 3rd supporting plate and described load bearing board carriage are fixed, the 4th supporting plate is connected with the 3rd supporting plate and is parallel with the 3rd supporting plate, the second motor coordinates with the second reduction box transmission, and be fixed on base station together with the second motor by the second reduction box, be fixed with one the 3rd drive on the second reduction gearbox output shaft of the second reduction box, one end of the second initiative roll shaft of the second drive roll is bearing in the other end of described the first roll shaft bearing pedestal rotationally, and be fixed with one the 4th drive, the other end of the second initiative roll shaft of the second drive roll is bearing in the other end of described second roller bearing housing rotationally, the second driven voller spindle nose of one end of the second driven voller is bearing on the 3rd supporting plate rotationally, and the second driven voller spindle nose of the other end is bearing on the 4th supporting plate rotationally, one end of exit conveyor is nested with on the second drive roll, the other end is nested with on the second driven voller, one end of the second driving-belt is nested with on the 4th drive, the other end is nested with on the 3rd drive, ferrite blank corresponding to the described side of the width of described load bearing board carriage concentrates delivery device to be fixed on the side of described the 4th supporting plate back to the 3rd supporting plate, described the first motor and the second motor all are connected with described electric control box electrical control, move the described other end of guide rail and respectively offer a signals collecting hole in position to correspond to each other described a pair of ferrite blank is capable, one of them signal picker in described a pair of signal picker is fixed on described the 3rd supporting plate, and corresponding with the signals collecting hole, and another signal picker in a pair of signal picker is fixed on described the 4th supporting plate, and same corresponding with the signals collecting hole.
In another specific embodiment of the present invention, the setting party of described first, second motor is contrary towards each other.
In another specific embodiment of the present invention, when described the first drive and the second drive are belt pulley, described the first driving-belt is driving belt; When the first drive and the second drive are sprocket wheel, described the first driving-belt is driving chain.
Also have a specific embodiment of the present invention, when described the 3rd drive and the 4th drive are belt pulley, described the second driving-belt is driving belt; When the 3rd drive and the 4th drive are sprocket wheel, described the second driving-belt is driving chain.
More of the present invention and, in specific embodiment, described acting cylinder is cylinder or oil cylinder.
In of the present invention and then specific embodiment, described a pair of signal picker is infrared probe.
Of the present invention again more and in specific embodiment, be fixed with one for making ferrite blank be transitioned into the rebound described exit conveyor from described entrance conveyor between described first, second roll shaft bearing pedestal, this rebound is corresponding between entrance conveyor and exit conveyor, and the surface of this rebound keeps concordant with the surface of entrance conveyor and exit conveyor simultaneously.
Technical scheme provided by the invention is concentrated ejecting mechanism owing to having set up ferrite blank, the disposable automatic direction towards the load bearing board carriage of the formation queue and ferrite blank that be located along the same line that therefore can will be positioned on the ferrite blank output mechanism pushes, without resembling prior art, by the workman, shifted by hand, not only can alleviate workman's labour intensity ultimate attainmently, and can avoid manual grabbing to pinch, can not undermine ferrite blank, with products quality guarantee.
The accompanying drawing explanation
Fig. 1 is the embodiments of the invention structure chart.
Fig. 2 is application examples schematic diagram of the present invention.
The specific embodiment
For the auditor that the makes Patent Office especially public can be expressly understood technical spirit of the present invention and beneficial effect more, the applicant general elaborates in the mode of embodiment below, but the description to embodiment is not all the restriction to the present invention program, any according to the present invention design, done only for pro forma but not substantial equivalent transformation all should be considered as technical scheme category of the present invention.
Refer to Fig. 1, provided a base station 1, this base station 1 also can be described as workbench, and under the use state, this base station 1 is followed in the press-forming machine 9(Fig. 2 for stamping to ferrite blank and shown), that is to say that this base station 1 is arranged on press-forming machine 9 places under the use state.This base station 1 towards on a side surface be provided with a load bearing board carriage 11 by one group of support column 111 with airborne.Understanding for the ease of the public, the applicant has illustrated a load bearing board 112 on this load bearing board carriage 11, when being positioned at ferrite blank 1 on load bearing board 112 with neat state and being accumulated to required degree completely during plate, by online assignment personnel (workman), load bearing board 112 is withdrawn in load bearing board carriage 11 together with the ferrite blank 10 on it so, and empty load bearing board 112 is changed on load bearing board carriage 11.
Provided a ferrite blank input mechanism 2, this ferrite blank input mechanism 2 comprises support plate 21, first, the second supporting plate 22, 23, the first motor 24, the first reduction box 25, the first drive roll 26, the first driven voller 27, entrance conveyor 28 and the first driving-belt 29, support plate 21 is fixed on aforementioned base station 1, shown in figure, form a supporting cavity 211 is arranged on the top of this support plate 21, first, the second supporting plate 22, 23 keep parallel at length direction each other, and fixing in the position corresponding to supporting cavity 211 and support plate 21, also show the first supporting plate 22 situation fixing by carriage hold-down screw 222 and support plate 21 in figure.One end of the first supporting plate 22 and the second supporting plate 23 is that the left end of location status shown in Fig. 1 leans out the direction stretching, extension of base station 1 towards the press-forming machine 9 by Fig. 2 signal with the horizontal boom state, more particularly lean out support plate 21 and stretch towards the direction of press-forming machine 9, the other end of the first supporting plate 22 is that the right-hand member of location status shown in Fig. 1 is fixed with one first roll shaft bearing pedestal 221 by hold-down screw 223, and the other end of the second supporting plate 23 is fixed with a second roller bearing housing 231 by corresponding hold-down screw (not shown) equally, first, second roller bearing housing 221, 231 correspond to each other.The first driven voller spindle nose 271 of one end of the first driven voller 27 is bearing on the first driven voller bearing block 2711 rotationally by clutch shaft bearing 2713, and these the first driven voller bearing block 2711 capable of regulatings or title are fixed on an end of aforementioned the first supporting plate 22 movably, and be positioned at the side of the first supporting plate 22 back to the second supporting plate 23; The first driven voller spindle nose 271 of the other end of the first live-roller 27 is bearing on the second driven voller bearing block 2712 rotationally by clutch shaft bearing 2713 equally, and these the second driven voller bearing block 2712 capable of regulatings or title are fixed on an end of the second supporting plate 23 movably, and be positioned at the side of the second supporting plate 23 back to the first supporting plate 22.The first motor 24 coordinates with the first reduction box 25 transmissions, and be fixed on reduction box supporting base 252 together with the first motor 24 by the first reduction box 25, and reduction box supporting base 252 is fixed on base station 1, and a side (diagram left side) face corresponding to the length direction of aforesaid load bearing board supporting plate 11 is fixed with one first drive 2511 on the first reduction gearbox output shaft 251 of the first reduction box 25.One end of the first initiative roll shaft 261 of the first drive roll 26 is bearing in an end of aforesaid the first roll shaft bearing pedestal 221 rotationally by the second bearing 2612, and the other end of the first drive roll 261 of the first drive roll 26 is bearing in an end of aforesaid second roller bearing housing 231 equally rotationally by the second bearing 2612, and be fixed with one second drive 2611.One end of the first entrance conveyor 28 is nested with on the first driven voller 27, and the other end is nested with on the first drive roll 26.One end of the first driving-belt 29 is nested with on the first drive 2511, and the other end is nested with on the first drive 2611.
When the first motor 24 work, drive the first reduction box 25 by the first motor 24, the first reduction gearbox output shaft 251 by the first reduction box 25 after the first reduction box 25 slows down drives the first drive 2511 be fixed thereon, because the two ends of the first driving-belt 29 are placed on respectively first, the second drive 2511, on 2611, therefore drive the second drive 2611 by the first driving-belt 29, again because the second drive 2611 is fixed on the first initiative roll shaft 261 of the first drive roll 26, therefore drive the first drive roll 26 motions by the second drive 2611, thereby it is main around first to make to input driving-belt 28, driven voller 26, 27 motions again and again, ferrite blank 10 is carried towards the direction of ferrite blank output mechanism 3.
Above mentioned ferrite blank output mechanism 3 preferably but not the structure definitely be limited to is as follows: comprise the 3rd, the 4th supporting plate 31, 32, the second motor 33, the second reduction box 34, the second drive roll 35, the second driven voller 36, exit conveyor 37 and the second driving-belt 38, the 3rd supporting plate 31 is fixing with aforesaid load bearing board carriage 11, the 4th supporting plate 32 is connected with the 3rd supporting plate 31 and is parallel with the 3rd supporting plate 31, wherein: the 3rd supporting plate 31 is held on same straight line with aforesaid the first supporting plate 22, the 4th supporting plate and aforesaid the second supporting plate 23 are held on same straight line.The second motor 33 coordinates with the second reduction box 34 transmissions, and is fixed on aforesaid reduction box bearing 252 together with the second motor 33 by the second reduction box 34, is fixed with one the 3rd drive 3411 on the second reduction gearbox output shaft 341 of the second reduction box 34.One end of the second initiative roll shaft 351 of the second drive roll 35 is bearing in the other end of aforesaid the first roll shaft bearing pedestal 221 rotationally by the 3rd bearing 3512, and the other end that is fixed with the second initiative roll shaft 351 of one the 4th drive 3511, the second drive rolls 35 is bearing in the other end of described second roller bearing housing 231 equally rotationally by the 3rd bearing 3512.The second driven voller spindle nose 361 of one end of the second driven voller 36 is bearing on the 3rd driven voller bearing block 3611 rotationally, and the 3rd driven voller bearing block 3611 is arranged on the side of the 3rd supporting plate 31 back to the 4th supporting plate 32 adjustably, the second driven voller spindle nose 361 of the other end of the second driven voller 36 is bearing on the 4th driven voller bearing block 3612 rotationally, and the 4th driven voller bearing block 3612 is arranged on the side of the 4th supporting plate 32 back to the 3rd supporting plate 31 adjustably.One end of exit conveyor 37 is nested with on the second drive roll 35, and the other end is nested with on the second driven voller 36.One end of the second driving-belt 38 is nested with on the 4th drive 3511, and the other end is nested with on the 3rd drive 3411.Ferrite blank 10 press-forming machine 9 is stamping by the entrance conveyor 28 of aforesaid ferrite blank input mechanism 2 is transported to exit conveyor 37, and by the following ferrite blank that also will describe, concentrates delivery device 4 to push and pass on the load bearing board 112 be placed on load bearing board carriage 11.
As shown in Figure 1, due to the opposite direction that arranges of aforesaid first, second motor 24,33, so the direction of first, second reduction gearbox output shaft 251,241 is opposite each other.
When the second motor 33 work, drive the second reduction box 34, the second reduction gearbox output shaft 341 by this second reduction box 34 drives the 3rd drive 3411, drive the 4th drive 2511 through the second driving-belt 38, make the second drive roll 35 motions, finally make exit conveyor 37 move again and again around the second driving and driven roller 35,36.
Due to first, the second drive roll 36, there is gap between 35, more precisely owing to there being the gap produced because of cornerite between entrance conveyor 28 and exit conveyor 37, therefore aforesaid first, second roller bearing housing 221, be provided with a rebound 8 between 231, by this rebound 8, make ferrite blank be transitioned into exit conveyor 37 from entrance conveyor 28, the surface of this rebound 8 is with the surface of entrance conveyor 28 and keep concordant with the surface of exit conveyor 37, transfer to exit conveyor 37 from entrance conveyor 28 reposefully in order to ferrite blank.
In the present embodiment, aforesaid first, second drive 2511,2611 is drive sprocket, and the first driving-belt 29 is driving chain; Equally, aforesaid the 3rd, the 4th drive 3411,3511 is drive sprocket, and the second driving-belt 38 is driving chain.Yet, if change first, second, third, fourth drive 2511,2611,3411,3511 into belt pulley, and change first, second driving-belt 29,38 into driving belt, should be considered as so equivalence and substitute and still belong to technology category disclosed by the invention.
Preferably, for operation (motion) effect or the title tensioner effect that ensures aforesaid entrance conveyor 28, therefore be provided with first a tensioner adjusting device 224 for the first driven voller bearing block 2711 is adjusted on aforesaid the first supporting plate 22, this the first tensioner adjusting device 224 comprise one first fixedly ear 2241 and one first adjust screw 2242 and first and adjust hold-down screw 2243, first fixedly ear 2241 be fixed on the side of the first supporting plate 22 back to the second supporting plate 23, first adjusts screw 2242 screws first fixedly on ear 2241, and be connected with the first driven voller bearing block 2711, first adjusts hold-down screw 2243 fixes in the position corresponding to being preset in the adjustment tank 27111 on the first driven voller bearing block 2711 and the first supporting plate 22, and simultaneously fixing to the first driven voller bearing block 2711.For aforesaid the second driven voller bearing block 2712, by the tensioner adjusting device that is equivalent to the first tensioner adjusting device 224, it is adjusted equally, owing to being understood by the reason of drawing inferences about other cases from one instance, so the applicant repeats no more.
Preferably, for operation (motion) effect or the title tensioner effect that ensures aforesaid entrance conveyor 28, therefore be provided with first a tensioner adjusting device 224 for the first driven voller bearing block 2711 is adjusted on aforesaid the first supporting plate 22, this the first tensioner adjusting device 224 comprise a pair of first fixedly ear 2241 and one first adjust screw 2242 and first and adjust hold-down screw 2243, a pair of first fixedly ear 2241 be fixed on the side of the first supporting plate 22 back to the second supporting plate 23, first adjusts screw 2242 screws first fixedly on ear 2241, and be connected with the first driven voller bearing block 2711, first adjusts hold-down screw 2243 fixes in the position corresponding to being preset in the adjustment tank 27111 on the first driven voller bearing block 2711 and the first supporting plate 22, and simultaneously fixing to the first driven voller bearing block 2711.For aforesaid the second driven voller bearing block 2712, by the tensioner adjusting device that is equivalent to the first tensioner adjusting device 224, it is adjusted equally, owing to being understood by the reason of drawing inferences about other cases from one instance, so the applicant repeats no more.
Preferably, for operation (motion) effect or the title tensioner effect that ensures aforesaid exit conveyor 37, therefore be provided with one second a tensioner adjusting device 311 for the 3rd driven voller bearing block 3611 is adjusted on aforesaid the 3rd supporting plate 31, this the second tensioner adjusting device 311 comprises one second fixing ear 3111, one second adjusts screw 3112 and second adjusts hold-down screw 3113, second fixedly ear 3111 be fixed on the side of the 3rd supporting plate 31 back to the 4th supporting plate 32, second adjusts screw 3112 screws a pair of second fixedly on ear 3111, and be connected with the 3rd driven voller bearing block 3611, second adjusts hold-down screw 3113 fixes in the position corresponding to being preset in the adjustment tank 36111 on the 3rd driven voller bearing block 3611 and the 3rd supporting plate 31, and simultaneously fixing to the 3rd driven voller bearing block 3611.For aforesaid the 4th driven voller bearing block 3612, by the tensioner adjusting device that is equivalent to the second tensioner adjusting device 311, it is adjusted equally, owing to being understood by the reason of drawing inferences about other cases from one instance, so the applicant repeats no more.
Please continue to see Fig. 1, provided and a pair ofly for guiding, come from the capable guide rail 5 that moves of ferrite blank that the stamping ferrite blank of press-forming machine 9 10 is being lined up under (forming row) state to follow the direction row of aforesaid entrance conveyor 28 to exit conveyor 37 and moved, the capable guide rail 5 that moves of this pair of ferrite blank is fixed with ferrite blank input mechanism 2, more particularly fixing with aforementioned support plate 21, specifically as shown in Figure 1, the capable guide rail 5 that moves of this pair of ferrite blank is respectively fixed by a guide rail hold-down screw 53 and the top of support plate 21, and in order to increase the capable stability of moving guide rail 5 of a pair of ferrite blank, also fixing with aforesaid the second supporting plate 23 by a rail brackets 54, specifically: rail brackets 54(is L-shaped) fixing with the second supporting plate 23, pair of brackets screw 541 on rail brackets 54 is fixed with the capable guide rail 5 that moves of a pair of ferrite blank respectively.The capable end that moves guide rail 5 of a pair of ferrite blank is the direction stretching, extension of illustrated left end towards aforesaid the first driven voller 27, and the other end is towards the direction stretching, extension of aforementioned ferrite blank output mechanism 3, and be stretched over a pair of ferrite blank and concentrate delivery device 4 towards the position of a side of ferrite blank input mechanism 2, move the aforementioned other end (diagram right-hand member) of guide rail 5 and respectively offer signals collecting hole 52 in position to correspond to each other a pair of ferrite blank is capable.Maintain a space capable the moving between guide rail 5 of a pair of ferrite blank, by this space, be configured to the capable Mobile Communication of ferrite blank road 51.
Between aforesaid press-forming machine 9 and the capable left end that moves guide rail 5 of a pair of ferrite blank, a chute 91 is set, by press-forming machine 9, stamping ferrite blank 10 chute 91 that circulating is slipped in the capable Mobile Communication of aforesaid ferrite blank road 51.Therefore move the top of guide rail 5 corresponding to entrance conveyor 28 because a pair of ferrite blank is capable, enter ferrite blank 10 in the capable Mobile Communication of ferrite blank road 51 under the motion of entrance conveyor 28 and form a queue under the capable control that moves guide rail 5 of a pair of ferrite blank and carry to exit conveyor 37 to be arranged in streamlined mode.
The ferrite blank of the above mentioned technical essential as technical scheme provided by the invention concentrates delivery device 4 to comprise trailing arm 41, push away bar 42 and acting cylinder 43, trailing arm 41 adopts trailing arm hold-down screw 411 to be fixed on the side of described the 4th supporting plate 32 back to described the 3rd supporting plate 31, and corresponding with a described side of the width of aforesaid load bearing board carriage 11, acting cylinder 43 is fixed on trailing arm 41 by one group of acting cylinder hold-down screw 432, the end that pushes away the acting cylinder post 431 of the middle part of bar 42 and acting cylinder 43 is fixed, because acting cylinder 43 is the twin columns acting cylinder, there is a pair of acting cylinder post 431, therefore fix a cylinder post at the end of a pair of acting cylinder post 431 and connect support plate 4311, the middle part that makes to push away bar 42 is connected support plate 4311 with the cylinder post fixing, an end (diagram left end) that pushes away bar 42 is fixed with one first catch 421, this first catch 421 and a pair of ferrite blank be capable, and to move the end of the aforementioned other end of guide rail 5 corresponding, and the other end (diagram right-hand member) that pushes away bar 42 is fixed with one second catch 422, due to first, the second catch 421, 422 direction is opposite each other, therefore make the whole shape that pushes away bar 42 be configured to the zigzag that trends towards English alphabet.As shown in Figure 1, the whole top of bar 42 corresponding to aforementioned exit conveyor 37 that push away.
Aforesaid acting cylinder 43 is selected in the present embodiment and is used cylinder, yet, if adopt oil cylinder, should be considered as so equivalence and replace.
Show a pair of signal picker 6, one of them signal picker 6 in this pair of signal picker 6 is arranged on (being fixed on) aforesaid the 3rd supporting plate 31, and corresponding with the capable wherein capable aforementioned signals collecting hole 52 of moving on guide rail 5 of ferrite blank of moving in guide rail 5 of a pair of ferrite blank, and another signal picker 6 in a pair of signal picker 6 is fixed on the 4th supporting plate 32, and corresponding with the capable capable signals collecting hole 52 of moving on guide rail 5 of another root ferrite blank of moving in guide rail 5 of a pair of ferrite blank, more particularly the probe 61 of a pair of signal picker 6 is corresponding with a pair of signals collecting hole 52 respectively.In the present embodiment, signal picker 6 is infrared probe, that is, and and the infrared signal collector.
Also show in the drawings an electric control box 7, in the present embodiment, the first supporting leg 71 of electric control box 7 and the second supporting plate 23 is fixing, the second leg 72 of electric control box 7 and the 4th supporting plate 32 is fixing, yet also can electric control box 7 is whole fixing with the second supporting plate 23, perhaps fixing with the 4th supporting plate 32, or fixing with base station 1.The first motor 24 of aforesaid ferrite blank input mechanism 2, the second motor 33 of ferrite blank output mechanism 3, ferrite blank concentrate the acting cylinder 43 of delivery device 4 all to be connected with electric control box 7 electrical controls with a pair of signal picker 6.
Refer to Fig. 2 and in conjunction with Fig. 1, the applicant describes the course of work of the present invention, under press-forming machine 9 is in running order, by it, stamping ferrite blank 10 is arranged on shape that pushing hands 92 on press-forming machine 9 pushes chute 91(chute 91 to according to the variation of ferrite blank 10 and can makes adaptive change, specifically can be understood by the reading to aforementioned CN100534709U), now, due to first, the second motor 24, 33 is all in running order, entrance conveyor 28, exit conveyor 37 is in motion state ceaselessly, so entering the ferrite blank 10 of chute 91 one by one is slipped in the capable capable Mobile Communication of the ferrite blank road 51 that moves guide rail 5 of a pair of ferrite blank one by one, and enter and transfer on exit conveyor 37 after aforesaid rebound 8 so that the mode that forms a queue is in transit under the motion of entrance conveyor 28, now push away the top of bar 42 corresponding to exit conveyor 37, and due to the top of the second catch 42 corresponding to exit conveyor 37, therefore the capable ferrite blank 10 moved on on exit conveyor 37 can not produce because of the motion of exit conveyor 37 to escape and fall phenomenon.Along with ferrite blank 10 is constantly gone and moved on exit conveyor 37, until when being positioned at the ferrite blank 10 in the capable Mobile Communication of ferrite blank road 51 and the capable Mobile Communication of ferrite blank road 51 occurring being stranded in because going out, by a pair of signal picker 6, by signals collecting hole 52, collect signal, and by signal feedback to electric control box 7, now by electric control box 7, send instruction to the second motor 33 and acting cylinder 43 simultaneously, the second motor 33 break-ofves, and acting cylinder 43 work, acting cylinder post 431 stretches outside cylinder body, drive pushes away the direction displacement of bar 42 towards load bearing board 112, to line up corresponding to being of the zone that pushes away bar 42 the concentrated load bearing board 112 that is pushed into of ferrite blank 10 of form by pushing away bar 42, in this process, pushing away during bar 42 pushes ferrite blank 10 process of load bearing board 10 to, outlet position sealing (playing closing passage) by the 41 pairs of capable Mobile Communication of ferrite blank roads 51 of the first catch, acting cylinder 3 reverse operations then, the second motor 33 enters work, repeatedly ferrite blank 10 is concentrated on load bearing board 112 with neat direction thus.
In sum, technical scheme provided by the invention has made up the shortcoming in the prior art, has completed the invention task, has embodied the described technique effect of applicant.

Claims (9)

1. a kind of ferrite blank machine for automatically shaping and arraying with concentrated release function, comprise a base station (1), this base station (1) is disposed at a side of press-forming machine (9) under the use state, and above with airborne, is provided with a load bearing board carriage (11) at this base station (1), the one ferrite blank input mechanism (2) of carrying towards the direction of carriage (11) for ferrite blank that will be stamping by press-forming machine (9), this ferrite blank input mechanism (2) is fixed on described base station (1) with airborne equally, one is fixed on the ferrite blank output mechanism (3) for a side of obtaining the ferrite blank that comes from described ferrite blank input mechanism (2) and the width that the ferrite blank of obtaining is transplanted on to described load bearing board carriage (11) on described base station (1), and this ferrite blank output mechanism (3) not only is held in same straight line but also is held in sustained height with ferrite blank input mechanism (2), a pair of for guiding come from the ferrite blank stamping by described press-forming machine (9) under the state of lining up towards the direction row of described ferrite blank output mechanism (3) move and with the fixing capable guide rail (5) that moves of ferrite blank of described ferrite blank input mechanism (2), capable the moving between guide rail (5) of this pair of ferrite blank is formed with a capable Mobile Communication of ferrite blank road (51), and the capable top of an end of guide rail (5) corresponding to ferrite blank input mechanism (2) of moving of this pair of ferrite blank, and the other end extends and extends to the position be bordered with described load bearing board carriage (11) towards the direction of described ferrite blank output mechanism (3), a pair of signal picker (6), it is upper that this pair of signal picker (6) is arranged on described ferrite blank output mechanism (3), and corresponding with the capable described other end that moves guide rail (5) of described a pair of ferrite blank, one electric control box (7), this electric control box (7) is arranged on described base station (1) or described ferrite blank input mechanism (2), and ferrite blank input mechanism (2), described ferrite blank output mechanism (3) all is connected with electric control box (7) electrical control with a pair of signal picker (6), characterized by further comprising a ferrite blank automatically pushed towards described load bearing board carriage (11) once for the ferrite blank that will line up on described ferrite blank output mechanism (3) and concentrate delivery device (4), this ferrite blank concentrates delivery device (4) to comprise trailing arm (41), push away bar (42) and acting cylinder (43), trailing arm (41) is arranged on described ferrite blank output mechanism (3), and corresponding towards a side of ferrite blank output mechanism (3) with described load bearing board carriage (11), acting cylinder (43) is fixed on trailing arm (41), and be connected with described electric control box (7) electrical control, this acting cylinder (43) has a pair of parallel acting cylinder post (431), end at this pair of acting cylinder post (431) is fixed with cylinder post connection support plate (4311), push away bar (42) length direction middle part and be connected support plate (4311) with the cylinder post towards the side that the cylinder post connects support plate (4311) and fix, an end end that pushes away bar (42) is fixed with one for stoping capable the first catch (421) that goes out the capable Mobile Communication of described ferrite blank road (51) of ferrite blank, this first catch (421) and a pair of ferrite blank be capable, and to move guide rail (5) corresponding towards the end of an end of described ferrite blank output mechanism (3), and the other end that pushes away bar (42) is fixed with one for stoping ferrite blank to be escaped in second catch (422) of ferrite blank output mechanism (3), first, the second catch (421,422) direction is opposite each other and corresponding towards a side of ferrite blank output mechanism (3) with described load bearing board carriage (11), wherein: at described press-forming machine (9) and capable the moving between guide rail (5) of described a pair of ferrite blank, be provided with one and direct into the chute (91) in the capable Mobile Communication of described ferrite blank road (51) for the ferrite blank after will be stamping by press-forming machine (9).
2. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 1, it is characterized in that described load bearing board carriage (11) has one group of support column (111), this group support column (111) is fixing with described base station (1), and by this group support column (111) by load bearing board carriage (11) with airborne the top corresponding to base station (1).
3. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 1, it is characterized in that described ferrite blank input mechanism (2) comprises support plate (21), first, the second supporting plate (22, 23), the first motor (24), the first reduction box (25), the first drive roll (26), the first driven voller (27), entrance conveyor (28) and the first driving-belt (29), support plate (21) is fixed on described base station (1), the first supporting plate (22) and the second supporting plate (23) support parallelly and are fixed on support plate (21), and an end of this first supporting plate (22) and the second supporting plate (23) leans out the direction stretching, extension of base station (1) towards described press-forming machine (9) with the horizontal boom state, the other end of the first supporting plate (22) is fixed with one first roll shaft bearing pedestal (221), and the other end of the second supporting plate (23) is fixed with a second roller bearing housing (231), first, second roller bearing housing (221, 231) correspond to each other, the first driven voller spindle nose (271) of one end of the first driven voller (27) is bearing in a described end of the first supporting plate (22) rotationally, and the first driven voller spindle nose (271) of the other end of the first live-roller (27) is bearing in a described end of the second supporting plate (23) rotationally, the first motor (24) coordinates with the first reduction box (25) transmission, and be fixed on base station (1) together with the first motor (24) by the first reduction box (25), be fixed with one first drive (2511) on first reduction gearbox output shaft (251) of the first reduction box (25), one end of first initiative roll shaft (261) of the first drive roll (26) is bearing in an end of the first roll shaft bearing pedestal (221) rotationally, and the other end of first drive roll (261) of the first drive roll (26) is bearing in an end of second roller bearing housing (231) rotationally, and be fixed with one second drive (2611), one end of the first entrance conveyor (28) is nested with on the first driven voller (27), and the other end is nested with on the first drive roll (26), one end of the first driving-belt (29) is nested with on the first drive (2511), the other end is nested with on the first drive (2611), the capable top of guide rail (5) corresponding to described entrance conveyor (28) of moving of described a pair of ferrite blank, and fix with the top of described support plate (21), described ferrite blank output mechanism (3) comprises the 3rd, the 4th supporting plate (31, 32), the second motor (33), the second reduction box (34), the second drive roll (35), the second driven voller (36), exit conveyor (37) and the second driving-belt (38), the 3rd supporting plate (31) is fixing with described load bearing board carriage (11), the 4th supporting plate (32) is connected with the 3rd supporting plate (31) and is parallel with the 3rd supporting plate (31), the second motor (33) coordinates with the second reduction box (34) transmission, and be fixed on base station (1) together with the second motor (33) by the second reduction box (34), be fixed with one the 3rd drive (3411) on second reduction gearbox output shaft (341) of the second reduction box (34), one end of second initiative roll shaft (351) of the second drive roll (35) is bearing in the other end of described the first roll shaft bearing pedestal (221) rotationally, and be fixed with one the 4th drive (3511), the other end of second initiative roll shaft (351) of the second drive roll (35) is bearing in the other end of described second roller bearing housing (231) rotationally, the second driven voller spindle nose (361) of one end of the second driven voller (36) is bearing on the 3rd supporting plate (31) rotationally, and the second driven voller spindle nose (361) of the other end is bearing on the 4th supporting plate (32) rotationally, one end of exit conveyor (37) is nested with on the second drive roll (35), the other end is nested with on the second driven voller (36), one end of the second driving-belt (38) is nested with on the 4th drive (3511), the other end is nested with on the 3rd drive (3411), ferrite blank corresponding to the described side of the width of described load bearing board carriage (11) concentrates delivery device (4) to be fixed on the side of described the 4th supporting plate (31) back to the 3rd supporting plate (31), described the first motor (24) and the second motor (33) all are connected with described electric control box (7) electrical control, move the described other end of guide rail (5) and respectively offer a signals collecting hole (52) in position to correspond to each other described a pair of ferrite blank is capable, one of them signal picker (6) in described a pair of signal picker (6) is fixed on described the 3rd supporting plate (31), and corresponding with signals collecting hole (52), and another signal picker (6) in a pair of signal picker (6) is fixed on described the 4th supporting plate (32), and same corresponding with signals collecting hole (52).
4. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 3, is characterized in that the setting party of described first, second motor (24,33) is contrary towards each other.
5. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 3, it is characterized in that when described the first drive (2511) and the second drive (2611) described the first driving-belt (29) is driving belt during for belt pulley; When the first drive (2511) and the second drive (2611) are sprocket wheel, described the first driving-belt (29) is driving chain.
6. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 3, it is characterized in that when described the 3rd drive (3411) and the 4th drive (3511) described the second driving-belt (38) is driving belt during for belt pulley; When the 3rd drive (3411) and the 4th drive (3511) are sprocket wheel, described the second driving-belt (38) is driving chain.
7. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 1, is characterized in that described acting cylinder (43) is cylinder or oil cylinder.
8. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 3, is characterized in that described a pair of signal picker (6) is infrared probe.
9. ferrite blank machine for automatically shaping and arraying with concentrated release function according to claim 3, it is characterized in that being fixed with one for making ferrite blank be transitioned into the rebound (8) described exit conveyor (37) from described entrance conveyor (28) between described first, second roll shaft bearing pedestal (221,231), this rebound (8) is corresponding between entrance conveyor (28) and exit conveyor (37), and the surface of this rebound (8) keeps concordant with the surface of entrance conveyor (28) and exit conveyor (37) simultaneously.
CN201310089617.0A 2013-03-20 2013-03-20 Ferrite blank automatically shaping and arranging machine with centralized discharge function Expired - Fee Related CN103144182B (en)

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Publication number Priority date Publication date Assignee Title
CN104259490A (en) * 2014-07-30 2015-01-07 临海市劳尔机械有限公司 Automatic feeding device of edging machine
CN104392837A (en) * 2014-10-31 2015-03-04 湖州南浔嘉科电子科技有限公司 Production method of manganese-zinc ferrite magnetic core
CN104647451A (en) * 2015-01-30 2015-05-27 无锡惠发特精密机械有限公司 Compression/recovery valve sheet cutting device for automobile inflatable shock absorber
CN110608608A (en) * 2019-10-08 2019-12-24 海宁凌通磁业科技有限公司 Sintering production line for ferrite

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CN201275625Y (en) * 2008-08-19 2009-07-22 常熟皮爱尔奇磁性科技有限公司 Automatic reshaping and arranging apparatus for ferrite blank
CN101798016A (en) * 2010-01-08 2010-08-11 包训权 Automatic conveyor of baking-free brick supporting plate
CN203158782U (en) * 2013-03-20 2013-08-28 常熟市信立磁业有限公司 Ferrite blank automatically shaping and arranging machine with intensively pushing function

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Publication number Priority date Publication date Assignee Title
JP2003136297A (en) * 2001-11-06 2003-05-14 Sugawara Seiki Kk Pressure mechanism in rotary press
CN101274412A (en) * 2008-05-07 2008-10-01 苏州冠达磁业有限公司 Machine for automatically shaping and arraying circular blank
CN201275625Y (en) * 2008-08-19 2009-07-22 常熟皮爱尔奇磁性科技有限公司 Automatic reshaping and arranging apparatus for ferrite blank
CN101798016A (en) * 2010-01-08 2010-08-11 包训权 Automatic conveyor of baking-free brick supporting plate
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104259490A (en) * 2014-07-30 2015-01-07 临海市劳尔机械有限公司 Automatic feeding device of edging machine
CN104392837A (en) * 2014-10-31 2015-03-04 湖州南浔嘉科电子科技有限公司 Production method of manganese-zinc ferrite magnetic core
CN104647451A (en) * 2015-01-30 2015-05-27 无锡惠发特精密机械有限公司 Compression/recovery valve sheet cutting device for automobile inflatable shock absorber
CN104647451B (en) * 2015-01-30 2016-06-15 无锡惠发特精密机械有限公司 Automobile inflating amortisseur compression/rebuilt valve valve block cuts out device
CN110608608A (en) * 2019-10-08 2019-12-24 海宁凌通磁业科技有限公司 Sintering production line for ferrite
CN110608608B (en) * 2019-10-08 2024-02-20 海宁凌通磁业科技有限公司 Sintering production line for ferrite

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