CN203470530U - Continuous drawing production line for strip products - Google Patents

Continuous drawing production line for strip products Download PDF

Info

Publication number
CN203470530U
CN203470530U CN201320577622.1U CN201320577622U CN203470530U CN 203470530 U CN203470530 U CN 203470530U CN 201320577622 U CN201320577622 U CN 201320577622U CN 203470530 U CN203470530 U CN 203470530U
Authority
CN
China
Prior art keywords
saw
goods
continuous
length
frame
Prior art date
Application number
CN201320577622.1U
Other languages
Chinese (zh)
Inventor
陈世雄
王振中
刘海艳
王尧
吉晓辉
王艳娟
秦金海
武丹
陈宁
Original Assignee
西安麦特沃金液控技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 西安麦特沃金液控技术有限公司 filed Critical 西安麦特沃金液控技术有限公司
Priority to CN201320577622.1U priority Critical patent/CN203470530U/en
Application granted granted Critical
Publication of CN203470530U publication Critical patent/CN203470530U/en

Links

Abstract

The utility model discloses a continuous drawing production line for strip products. The continuous drawing production line comprises an uncoiling machine, a straightening machine, a continuous drawing machine, a length measurement device and a sizing saw which are sequentially arranged; the continuous drawing production line also comprises a stacking device used for stacking the products cut by the saw, or a winding machine used for winding the products cut by the saw. After the continuous drawing production line is adopted, the occupied land area is reduced, the products are avoided being damaged and deformed when being lifted, and the material yield can be increased.

Description

Tape article continuous drawing production line
Technical field
The utility model relates to a kind of drawing production line, particularly relates to a kind of tape article continuous drawing production line.
Background technology
At present, the tape article especially production of copper, aluminium row blank is generally used " up-drawing method foundry engieering "+" continuously extruded technology ", copper, aluminium row's production efficiency and lumber recovery are greatly improved, yet the production line of copper, aluminium row end article be still traditional copper, aluminium row production model: uncoiling, aligning, cutting die, handling, head processed, handling, lubricate, the interrupted drawing of single, handling, cleaning, handling, crop end scale, finished product.
The intermediate blank that traditional handicraft is produced " up-drawing method foundry engieering "+" continuously extruded technology ", through first cutting off, carry out again the interrupted drawing of single, produce, it after secondary crop end scale, is just finished product, this process route is complicated, there is following shortcoming: 1, continuously extruded very long intermediate blank is first cut off to the processing of drawing again, can not be produced continuously; 2, adopt the interrupted vertical bar drawing of single, production efficiency is low; 3, from blank to product needed, minimum each sawing all has a clamping to cause damaged stub bar, and waste material is many, and the lumber recovery of product is low; 4, production equipment is many, and middle turnover aided process is many, temporarily deposits that station is many, production efficiency is low, cost is high; 5, in the middle of product, handling often, is easily damaged and is out of shape, and quality is stable not; 6, production scene floor space is large, and workshop plane utilization rate is low; 7, producers are many, and production cost is high.8, equipment dispersion, long flow path, production management difficulty is large.
Utility model content
The purpose of this utility model is to overcome above-mentioned deficiency of the prior art, and a kind of tape article continuous drawing production line is provided.This tape article continuous drawing production line has overcome and in prior art, blank is first cut off to drawing again, centre and need the shortcomings such as repeatedly handling, floor space be large, improved production efficiency, improved output, reduced floor space, that while avoiding handling, goods are caused damages and is out of shape, and has improved lumber recovery.
For achieving the above object, the technical solution adopted in the utility model is: tape article continuous drawing production line, it is characterized in that: what comprise order laying will coil the uncoiler of development to linear state, the straightener of aligning being expanded to the blank of linear state, blank through aligning is carried out to the continuous drawing device that continuous drawing is processed to form goods, according to preset length, goods are carried out to the measuring motion of linear measure longimetry and according to preset length by the length saw of goods sawing, and for the goods after sawing are piled up pile up device or for by the winder of the goods rolling after sawing.
Above-mentioned tape article continuous drawing production line, is characterized in that: between described uncoiler and straightener, be provided with for carrying out to being expanded to the blank of linear state the centering clamping and conveying device that centering pinches.
Above-mentioned tape article continuous drawing production line, it is characterized in that: described length saw comprises length saw frame, the first vehicle guide arranging along length saw frame length direction, be arranged on length saw dolly and the first driving mechanism for driving length saw dolly to move along the first vehicle guide on the first vehicle guide, the top of described length saw dolly is provided with the protection collecting hood passing for goods, in described protection collecting hood, be provided with for carrying the adapting table of goods, on described length saw dolly, be provided with second vehicle guide perpendicular with the first vehicle guide, on described the second vehicle guide, be provided with movable block, on described protection collecting hood, be provided with the second driving mechanism for driving movable block to move along the second vehicle guide, the top of described movable block is connected with bracing frame and first fluid cylinder, on support frame as described above, be hinged with and fly to saw fork, described one end that flies to saw fork is connected with circular saw, the described other end that flies to saw fork is connected with the piston rod of first fluid cylinder, described fly to saw the circular saw motor rotating for driver plate saw is installed on fork.
Above-mentioned tape article continuous drawing production line, it is characterized in that: described in pile up device and comprise and pile up device frame, material rotating plate and a plurality of charge plate that is all " L " type, the middle part of described material rotating plate is hinged on piles up device frame top, described piling up in device frame is provided with for driving the stirring cylinder of material rotating plate upset, described pile up in device frame and be positioned at material rotating plate away from a side of stirring cylinder, be provided with a plurality of charge panel guides, the upper end of a plurality of described charge panel guides is all to the lopsidedness away from stirring cylinder, a plurality of described charge plates are laid along a plurality of described charge panel guides interval, described piling up is provided with the charge plate driving mechanism for driving charge plate to move along charge panel guide in device frame.
Above-mentioned tape article continuous drawing production line, is characterized in that: between described straightener and continuous drawing device, be provided with for spray the lubricating arrangement of lubricating oil to blank.
Above-mentioned tape article continuous drawing production line, is characterized in that: between described continuous drawing device and measuring motion, be provided with the cleaning device for goods are cleaned.
The utility model compared with prior art has the following advantages:
1, of the present utility model simple in structure, rationally novel in design, be easy to install.
2, the utility model adopts this continuous drawing production line, overcome completely and in prior art, blank has first been cut off to drawing again, centre and need the shortcomings such as repeatedly handling, floor space be large, improved production efficiency, improved output, reduced floor space, that while avoiding handling, goods are caused damages and is out of shape, and has improved lumber recovery.
3, length saw of the present utility model, it is applicable to tape article continuous drawing production line, while having guaranteed cutting on line, has reduced sawing cycle time, has guaranteed that the otch of goods is neat.
4, the device of piling up of the present utility model has solved Traditional Man and has piled up that the caused operating personnel of goods are many, labour intensity is large, production efficiency is low, produce unsafe problem.
5, the utility model sprays lubricating oil by lubricating arrangement to blank, make blank successfully plastic deformation in drawing mould become goods, reduce blank to the friction of drawing mould, wearing and tearing, improve products surface quality, reduce the consumption of deformation energy, improve the service life of drawing mould.
6, the oil film that the utility model carries goods surrounded surface by cleaning device cleans up, and makes product surface clean, dry.
7, of the present utility model to realize cost low, and result of use is good, is convenient to promote the use of.
In sum, the utility model tape article continuous drawing production line simple in structure, rationally novel in design, saved floor space, improved drawing efficiency, be convenient to promote the use of.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the structural representation of the utility model centering clamping and conveying device.
Fig. 3 is the annexation schematic diagram of the utility model length saw and measuring motion.
Fig. 4 is A place enlarged drawing in Fig. 3.
Fig. 5 is the left view of Fig. 3.
Fig. 6 is the schematic diagram of the utility model length saw circular saw running orbit.
Fig. 7 is the schematic block circuit diagram of the utility model SAWING CONTROL system.
Fig. 8 is the structural representation that the utility model is piled up device.
Fig. 9 is the left view of Fig. 8.
Figure 10 is the schematic block circuit diagram that the utility model is piled up control system.
Description of reference numerals:
1-uncoiler; 2-centering clamping and conveying device; 2-1-the first fixed wheel;
2-2-the second fixed wheel; 2-3-three fixed wheel; 2-4-four fixed wheel;
2-5-the first correcting axle; 2-6-the second correcting axle; 2-7-three correcting axle;
2-8-four correcting axle; 2-9-the first correcting connecting rod; 2-10-fairlead;
2-11-correcting Connection Block; 2-12-correcting cylinder; 2-13-the second correcting connecting rod;
3-straightener; 4-lubricating arrangement; 5-continuous drawing device;
6-cleaning device; 7-measuring motion; 7-1-montant;
7-2-fixed idler whell; 7-3-roller floats; The long cylinder of 7-4-survey;
7-5-the first encoder; 8-length saw; 8-1-length saw frame;
8-2-the first vehicle guide; 8-4-length saw dolly; 8-5-protection collecting hood;
8-6-support connects material; 8-7-fly to saw fork; 8-8-binder dish;
8-9-second fluid cylinder; 8-10-circular saw; 8-11-adapting table;
8-12-circular saw motor; 8-13-bracing frame; 8-16-movable block;
8-17-limited block; 8-18-the second vehicle guide; 8-19-driven sprocket;
8-20-rear limit switch; 8-21-chain; 8-22-front limit switch;
8-23-drive sprocket; 8-24-sprocket shaft; 8-25-sprocket motors;
8-26-spindle motor; 8-27-first fluid cylinder; 8-28-leading screw;
8-29-shower nozzle; 8-31-the second encoder; 8-32-three encoder;
8-33-the first approach switch; 8-34-the second approach switch; 8-35-frequency converter;
8-36-the first motor starter;
8-37-the second motor starter; 8-38-the first magnetic valve;
8-39-the second magnetic valve; 8-40-SAWING CONTROL device; 9-pile up device;
9-1-pile up device frame; 9-2-power transmission shaft; 9-2-1-minor axis;
9-2-2-shaft coupling; 9-3-large pulley; 9-4-connection cord;
9-5-the second inductive switch; 9-6-three inductive switch; 9-7-pusher cylinder;
9-8-scraping wings; 9-10-fixed pulley; 9-11-material rotating plate;
9-12-charge plate; 9-13-charge panel guide; 9-14-the first inductive switch;
9-15-directive wheel; 9-16-stirring cylinder; 9-17-hoist cylinder;
9-19-displacement transducer; 9-21-pile up controller; 9-22-three magnetic valve;
9-23-four magnetic valve; 10-winder; 11-goods;
12-blank.
The specific embodiment
A kind of tape article continuous drawing production line as shown in Figure 1, comprise the uncoiler 1 that is expanded to linear state by coiling blank 12 that order lays, to be expanded to straightener 3 that the blank 12 of linear state aligns, to the blank 12 through aligning carry out continuous drawing be processed to form the continuous drawing device 5 of goods 11, according to preset length, goods 11 are carried out to the measuring motion 7 of linear measure longimetry and according to preset length by the length saw 8 of goods 11 sawings, and for the goods after sawing 11 are piled up pile up device 9 or for by the winder 10 of 11 rollings of the goods after sawing.When the goods 11 after sawing are vertical bar, goods 11 are piled up to rear handling, while being mosquito repellent coil disc as fruit product 11, carry out rolling.
In the present embodiment, by by uncoiler 1, straightener 3, continuous drawing device 5, measuring motion 7 and length saw 8, by blank 12 from launching, aligning, to continuous drawing form goods 11, to goods 11 linear measure longimetrys and scale sawing, middle each operation free of discontinuities, realizes continuous drawing operation.Adopt this continuous drawing production line, overcome completely and in prior art, blank has first been cut off to drawing again, centre and need the shortcomings such as repeatedly handling, floor space be large, improved production efficiency, improved output, reduced floor space, that while avoiding handling, goods 11 are caused damages and is out of shape, and has improved lumber recovery.Wherein, described uncoiler 1 can adopt motor reducer uncoiler of the prior art, hydraulic motor uncoiler or automatic centering uncoiler etc., adopts automatic centering uncoiler in the present embodiment; Described centering clamping and conveying device 2 is referred to as CPC system, can adopt gas-liquid SERVO CONTROL CPC system of the prior art, photoelectricity SERVO CONTROL CPC system, machinery servo control CPC system or hydraulic connecting rod structure centering clamping and conveying device etc., in the present embodiment, adopt hydraulic connecting rod structure centering clamping and conveying device; Described straightener 3 can adopt multi-roll straightening machine of the prior art, and its drive form has hand, fluid cylinder formula, electrodynamic type etc., adopts Driven by Hydraulic Cylinder four connecting rod synchronous mode five-roll machines in the present embodiment; Described continuous drawing device 5 can adopt mechanical cam formula continuous drawing device of the prior art, mechanical crawler type continuous drawing device or hydraulic continuous drawing machine etc., adopts hydraulic continuous drawing machine in the present embodiment; Described length saw 8 can adopt online flying shear of the prior art, online scale goose saw and the synchronous saw of online scale etc., adopts online scale synchronously to saw in the present embodiment; The described device 9 of piling up can adopt flexible-belt gathering-device of the prior art, oblique bin gathering-device and stacking device etc., adopts stacking device in the present embodiment; Described winder 10 can adopt multi-layer multi-row rewinding machine or single multiple field winder etc., adopts single multiple field winder in the present embodiment.
In conjunction with Fig. 1 and Fig. 2, between described uncoiler 1 and straightener 3, be provided with for carrying out to being expanded to the blank 12 of linear state the centering clamping and conveying device 2 that centering pinches.
As shown in Figure 2, the centering clamping and conveying device 2 that the present embodiment adopts comprises the first fixed wheel 2-1, the second fixed wheel 2-2, the 3rd fixed wheel 2-3, the 4th fixed wheel 2-4, correcting Connection Block 2-11 and correcting cylinder 2-12, described the first fixed wheel 2-1 and the 4th fixed wheel 2-4 are symmetrical to be laid, the 3rd fixed wheel 2-3 and the second fixed wheel 2-2 are symmetrical to be laid, blank 12 passes between the first fixed wheel 2-1 and the 4th fixed wheel 2-4, between the 3rd fixed wheel 2-3 and the second fixed wheel 2-2, pass again, the central shaft of described the first fixed wheel 2-1 is vertically connected with the first correcting axle 2-5, the central shaft of described the second fixed wheel 2-2 is vertically connected with the second correcting axle 2-6, the central shaft of described the 3rd fixed wheel 2-3 is vertically connected with the 3rd correcting axle 2-7, the central shaft of described the 4th fixed wheel 2-8 is vertically connected with the 4th correcting axle 2-8, one end of described the first correcting axle 2-5 and the 4th correcting axle 2-8 is all hinged by one end of the first correcting connecting rod 2-9 and correcting Connection Block 2-11, one end of described the 3rd correcting axle 2-7 and the second correcting axle 2-6 is all hinged by the other end of the second correcting connecting rod 2-13 and correcting Connection Block 2-11, the piston rod of described correcting cylinder 2-12 is connected with correcting Connection Block 2-11, described the first correcting axle 2-5, the second correcting axle 2-6, on the 3rd correcting axle 2-7 and the 4th correcting axle 2-8, all cover has fairlead 2-10.During use, when blank 12 enters between the first fixed wheel 2-1 and the 4th fixed wheel 2-4, correcting cylinder 2-12 is moved to the left by piston rod, correcting Connection Block 2-11 drives the first correcting axle 2-5 by the first correcting connecting rod 2-9 and the second correcting connecting rod 2-13, the second correcting axle 2-6, the 3rd correcting axle 2-7 and the 4th correcting axle 2-8, described the first correcting axle 2-5, the second correcting axle 2-6, the 3rd correcting axle 2-7 and the 4th correcting axle 2-8 drive respectively the first fixed wheel 2-1, the second fixed wheel 2-2, the 3rd fixed wheel 2-3 and the 4th fixed wheel 2-4 draw close and extrusion billet 12 to blank 12, the centering of realization to blank 12, and blank 12 is pinched to next manufacturing procedure.
As shown in Figure 3 and Figure 5, described length saw 8 comprises length saw frame 8-1, the the first vehicle guide 8-2 arranging along length saw frame 8-1 length direction, be arranged on length saw dolly 8-4 and the first driving mechanism for driving length saw dolly 8-4 to move along the first vehicle guide 8-2 on the first vehicle guide 8-2, the top of described length saw dolly 8-4 is provided with the protection collecting hood 8-5 passing for goods 11, in described protection collecting hood 8-5, be provided with for carrying the adapting table 8-11 of goods 11, on described length saw dolly 8-4, be provided with the second vehicle guide 8-18 perpendicular with the first vehicle guide 8-2, on described the second vehicle guide 8-18, be provided with movable block 8-16, on described protection collecting hood 8-5, be provided with the second driving mechanism for driving movable block 8-16 to move along the second vehicle guide 8-18, the top of described movable block 8-16 is connected with bracing frame 8-13 and first fluid cylinder 8-27, on support frame as described above 8-13, be hinged with and fly to saw fork 8-7, described one end that flies to saw fork 8-7 is connected with circular saw 8-10, the described other end that flies to saw fork 8-7 is connected with the piston rod of first fluid cylinder 8-27, described fly to saw the circular saw motor 8-12 rotating for driver plate saw 8-10 is installed on fork 8-7.
As shown in Figure 5, on described protection collecting hood 8-5, be provided with for spray the shower nozzle 8-29 of lubricating fluid and cooling medium to circular saw 8-10.
As shown in Figure 3, the two sides of described protection collecting hood 8-5 are provided with for carrying the support 8-6 that connects material of goods 11.
In conjunction with Fig. 3 and Fig. 5, described the first driving mechanism comprises drive sprocket 8-23, driven sprocket 8-19, chain 8-21 and sprocket motors 8-25, described sprocket motors 8-25 is arranged in length saw frame 1, the output shaft of described sprocket motors 8-25 is connected with sprocket shaft 8-24, described drive sprocket 8-23 is arranged on sprocket shaft 8-24, described driven sprocket 8-19 is hinged on length saw frame 8-1, one end of described chain 8-21 is connected with a side of length saw dolly 8-4 and walks around successively drive sprocket 8-23 and driven sprocket 8-19 and be connected on the another side of length saw dolly 8-4, described the second driving mechanism comprises leading screw 8-28 and the spindle motor 8-26 for driving described leading screw 8-28 to rotate be arrangeding in parallel with the second vehicle guide 8-18, offers the screwed hole with leading screw 8-28 threaded engagement on described movable block 8-16.
As shown in Figure 4, described measuring motion 7 comprises the montant 7-1 being arranged on measuring motion frame 7-1, on described montant 7-1, be provided with fixed idler whell 7-2 and the unsteady roller 7-3 that is positioned at fixed idler whell 7-2 top, on described unsteady roller 7-3, the first encoder 7-5 is installed, described goods 11 pass between fixed idler whell 7-2 and unsteady roller 7-3, described fixed idler whell 7-2 and unsteady roller 7-3 all fit tightly with goods 11, the upper end of described montant 7-1 is provided with surveys long cylinder 7-4, and the piston rod of the long cylinder 7-4 of described survey and unsteady roller 7-3 are hinged.By the first encoder 7-5, goods 11 are carried out to linear measure longimetry.
As shown in Figure 7, this length saw also comprises SAWING CONTROL system, described SAWING CONTROL system comprises SAWING CONTROL device 8-40, the input of described SAWING CONTROL device 8-40 and the first encoder 7-5, the second encoder 8-31, the 3rd encoder 8-32, the first approach switch 8-33, the second approach switch 8-34, front limit switch 8-22 and rear limit switch 8-20 join, the output of described SAWING CONTROL device 8-40 is connected to frequency converter 8-35, the first motor starter 8-36 and the second motor starter 8-37, described frequency converter 8-35 and sprocket motors 8-25 join, described the first motor starter 8-36 and spindle motor 8-26 join, described the second motor starter 8-37 and circular saw motor 8-12 join, the output of described SAWING CONTROL device 8-40 also joins with the first magnetic valve 8-38 and the second magnetic valve 8-39.Described SAWING CONTROL device 8-40 is PLC controller.It is upper that described the second encoder 8-31 is arranged on sprocket motors 8-25, and described the 3rd encoder 8-32 is arranged on spindle motor 8-26.
During use, when the first encoder 7-5 obtains when measuring length value and reaching scale data continuously, SAWING CONTROL device 8-40 sends instruction and starts by frequency converter 8-35 Quality Initiative turbin generator 8-25, after starting, described sprocket motors 8-25 drive length saw dolly 8-4 to doing accelerated motion away from the direction of measuring motion 8-15 by chain 8-21, when the speed of length saw dolly 8-4 reaches the speed of goods 11, the position at circular saw 8-10 place overlaps with saw kerf position, the synchronous uniform motion that continues of length saw dolly 8-4 and goods 11, now, SAWING CONTROL device 8-40 carries fluid by the second magnetic valve 8-39 to the rodless cavity of second fluid cylinder 8-9, the piston rod of second fluid cylinder 8-9 stretches out, be connected to descending being pressed on goods 11 of binder dish 8-8 on second fluid cylinder 8-9 piston rod, and travel forward with goods 11, whether now can detect binder dish 8-8 by the second approach switch 8-34 pushes down goods 11, then by SAWING CONTROL device 8-40, by the second motor starter 8-37, controlling circular saw motor 8-12 drives circular saw 8-10 to rotate, by the first magnetic valve 8-38, control first fluid cylinder 8-27 moves simultaneously, under the drive of fork 8-7, circular saw 8-10 is lifted, be that in Fig. 4, circular saw 8-10 runs to second place II from initial position I, then behind circular saw 8-10 holding position, carry out sawing action, described sawing action is: SAWING CONTROL device 8-40 controls spindle motor 8-26 by the first motor starter 8-36 and rotates, spindle motor 8-26 is by leading screw 8-28, movable block 8-16 drives circular saw 8-10 perpendicular to goods 11 length direction motions, when circular saw 8-10 advances to the 3rd position III under the control of SAWING CONTROL device 8-40, fork 8-7 drives circular saw 8-10 to fall fast and arrives the 4th position IV, now length saw dolly 4 is still synchronizeed with goods 11, constant speed travels forward, binder dish 8-8 still compresses goods 11, goods 11 between two binder dish 8-8 have cut off, next under the effect of SAWING CONTROL device 8-40, make binder dish 8-8 unclamp goods 11, the goods 11 that the cut off discharging that travels forward, finally returning of length saw dolly 8-4 and returning of circular saw 8-10, circular saw 8-10 returns when circular saw 8-10 arrives the 4th position IV and is positioned at below goods 11, directly return to initial position I.When length saw dolly 8-4 obtains SAWING CONTROL device 8-40 return instruction, be that SAWING CONTROL device 8-40 first does retarded motion until stop by frequency converter 8-35 Quality Initiative turbin generator 8-25, and then counter motion arrival original position is done in Quality Initiative turbin generator 8-25 reversion, be to stop after length saw dolly 8-4 contacts with limited block 8-17, and length saw dolly 8-4 is at the extreme position of both direction operation, SAWING CONTROL device 8-40 is by obtaining respectively the signal of front limit switch 8-22 and rear limit switch 8-20, control frequency converter 8-35 sprocket motors 8-25 is carried out to halt command, repeat above action, goods 11 are carried out to the sawing of on-line continuous scale.
In conjunction with Fig. 6, the circular saw 8-10 of this length saw is under the acting in conjunction of first fluid cylinder 8-27 and fork 8-7, carry out following do action: from initial position I, then arrive second place II, arrive again the 3rd position III, next arrive the 4th position IV, finally return to again initial position I, thereby goods 11 are cut, after cutting, from the below of goods 11, return, avoid circular saw 8-10 to return from the saw kerf of goods 11, reduced sawing cycle time, the otch that has guaranteed goods 11 is neat, described length saw dolly 8-4 is under the drive of described the first driving mechanism, realize following do action: the first step starts to accelerate to advance from original position, second step at the uniform velocity advances, the 3rd step is slowed down and is stopped, the 4th step is oppositely accelerated, the 5th step is slowed down and is stopped to original position, thereby realize the continuous cutting on line of goods 11, be applicable to the tinuous production that automaticity is high.And the effect due to protection collecting hood 8-5, increases sawdust collection function, make working environment clean, production safety.While having guaranteed cutting on line by described length saw 8 is used in to tape article continuous drawing production line, reduced sawing cycle time, guaranteed that the otch of goods 11 is neat.
As shown in Figure 8 and Figure 9, the described device 9 of piling up comprises and piles up device frame 9-1, material rotating plate 9-11 and a plurality of charge plate 9-12 that is all " L " type, the middle part of described material rotating plate 9-11 is hinged on piles up device frame 9-1 top, described piling up on device frame 9-1 is provided with for driving the stirring cylinder 9-16 of material rotating plate 9-11 upset, the described device frame 9-1 that piles up is upper and be positioned at material rotating plate 9-11 and be provided with a plurality of charge panel guide 9-13 away from a side of stirring cylinder 9-16, the upper end of a plurality of described charge panel guide 9-13 is all to the lopsidedness away from stirring cylinder 9-16, a plurality of described charge plate 9-12 lay along a plurality of described charge panel guide 9-13 interval, described piling up is provided with the charge plate driving mechanism for driving charge plate 9-12 to move along charge panel guide 9-13 on device frame 9-1.
In the present embodiment, this is piled up device 9 and drives material rotating plate 9-11 to overturn by stirring cylinder 9-16, goods 11 are delivered on charge plate 9-12, described charge plate driving mechanism drives charge plate 9-12 equidistantly to decline along charge panel guide 9-13, when goods 11 equal difference are fallen, after having piled up the goods 11 of some, described charge plate driving mechanism drives charge plate 9-12 to rise, manually the goods of piling up 11 are taken away, it has solved Traditional Man and has piled up that the caused operating personnel of goods 11 are many, labour intensity is large, production efficiency is low, produce unsafe problem again.
As 8 and Fig. 9 as shown in, described charge plate driving mechanism comprises being hinged on piles up device frame 9-1 bottom and along piling up the power transmission shaft 9-2 that device frame 9-1 length direction lays and being arranged on a plurality of large pulley 9-3 on power transmission shaft 9-2, on a plurality of described charge panel guide 9-13, be provided with fixed pulley 9-10, a plurality of described large pulley 9-3 connect one to one by the fixed pulley 9-10 on connection cord 9-4 and a plurality of charge panel guide 9-13, one end of described connection cord 9-4 is fixed on large pulley 9-3, the other end of described connection cord 9-4 is walked around successively large pulley 9-3 and is connected with fixed pulley 9-10 and with charge plate 9-12, described piling up on device frame 9-1 is provided with at least one for driving hoist cylinder 9-17 of large pulley 9-3 rotation.Described power transmission shaft 9-2 has a plurality of minor axis 9-2-1 to form, and adjacent two minor axis 9-2-1 connect by shaft coupling 9-2-2.
As shown in Figure 9, the bottom of described charge plate 12 is provided with for the directive wheel 15 along guide rail 13 walkings.
As shown in figure 10, the described control system of piling up comprises the first inductive switch 9-14 that enters material rotating plate 9-11 for detection of goods 11, displacement transducer 9-19 for detection of charge plate 9-12 lifting displacement, and for receiving the first inductive switch 9-14 and displacement transducer 9-19 output signal and to stirring cylinder 9-16, hoist cylinder 9-17 and pusher cylinder 9-7 control piles up controller 21, the described input of piling up controller 9-21 joins with the first inductive switch 14 and displacement transducer 9-19, the described output of piling up controller 9-21 is connected to for controlling to rodless cavity or the rod chamber of stirring cylinder 9-16 and carries the 3rd magnetic valve 9-22 of gas and join for controlling to the rodless cavity of hoist cylinder 9-17 or the 4th magnetic valve 9-23 of rod chamber discharge pressure oil.
In the present embodiment, when this piles up device 9 use, the first step, stirring action automatically: material rotating plate 9-11 is level usually, when the goods 11 after sawing enter material rotating plate 9-11 completely, the first inductive switch 9-14 sender, signal is reached and piles up controller 9-21, piling up controller 9-21 moves by the 3rd magnetic valve 9-22 control stirring cylinder 9-16, rotate around pin joint at the middle part of material rotating plate 9-11, goods 11 are routed up and are slipped to charge plate 9-12 above, after material rotating plate 9-11 time delay, turn back to again home position.Second step, automatic equidistant stepping down maneuver: after goods 11 are slipped on charge plate 9-12, pile up controller 9-21 and by the 4th magnetic valve 9-23, control the rod chamber oil-feed of hoist cylinder 9-17, pull large pulley 9-3 to clockwise rotate, charge plate 9-12 is steel wire rope by connection cord 9-4() according to automatically stopping after the displacement decline of setting, the equidistant stepping of charge plate 9-12 is declined, described equidistant stepping declines while being exactly charge plate 9-12 decline, displacement transducer 9-19 detects its real-time shift value, when the displacement of stock supporting plate 9-12 decline reaches h, the piston rod stop motion of hoist cylinder 9-17, stock supporting plate 9-13 locates after this decline displacement h, the drop distance h that can effectively guarantee like this each goods 11 is constant, the 3rd step, automatic stocking alignment action: after charge plate 9-12 decline stops automatically, the rodless cavity air inlet of pusher cylinder 9-7, the left end that promotes goods 11 by scraping wings 9-8 moves right, displacement S exhaust hood commutation motion, described displacement S is determined by the second inductive switch 9-5 and the 3rd inductive switch 9-6, after described piston rod drive scraping wings 9-8 time delay, returns, the 4th step, goods pile with automatic-ascending action: this is to hang for convenient packing, according to the setting value of piling up controller 9-21, when the displacement accumulative total of charge plate 9-12 decline reaches nh, be while having (n+1) individual goods 11 on charge plate 9-12, the rodless cavity oil-feed of hoist cylinder 9-17, to promote charge plate 9-12 rises together with (n+1) individual goods 11, when displacement transducer 9-19 detects its shift value and is nh, hoist cylinder 9-17 stop motion, charge plate 9-12 and (n+1) individual goods 11 are in this location, the 5th step, goods packing hang action:, when goods 11 neatly stack, manually without arrangement, only need packing fast, then the goods of bundling 11 are hung to charge plate 9-12.This piles up device 9 can carry out next one circulation.In foregoing description, S is the stroke of pusher cylinder 9-7.
As shown in Figure 1, between described straightener 3 and continuous drawing device 5, be provided with for blank 12 being sprayed to the lubricating arrangement 4 of lubricating oil.By 4 pairs of blanks of lubricating arrangement, spray lubricating oil, make blank successfully plastic deformation in drawing mould become goods, reduce blank to the friction of drawing mould, wearing and tearing, improve products surface quality, reduce the consumption of deformation energy, improve the service life of drawing mould.In the present embodiment, the shower nozzle of described lubricating arrangement 4 for being communicated with the container that holds lubricating oil.
As shown in Figure 1, between described continuous drawing device 5 and measuring motion 7, be provided with the cleaning device 6 for cleaning to goods 11.Oil film goods 11 surrounded surfaces being carried by cleaning device 6 cleans up, and makes goods 11 surface cleaning, dry.In the present embodiment, described cleaning device 6 can be casing immersion type, also can adopt manual wipping.
The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every any simple modification, change and equivalent structure transformation of above embodiment being done according to the utility model technical spirit, all still belongs in the protection domain of technical solutions of the utility model.

Claims (6)

1. tape article continuous drawing production line, it is characterized in that: what comprise order laying will coil the uncoiler (1) that blank (12) is expanded to linear state, the straightener (3) of aligning being expanded to the blank (12) of linear state, blank (12) through aligning is carried out to the continuous drawing device (5) that continuous drawing is processed to form goods (11), according to preset length, goods (11) are carried out to the measuring motion (7) of linear measure longimetry and according to preset length by the length saw (8) of goods (11) sawing, and for the goods after sawing (11) are piled up pile up device (9) or for by the winder (10) of the goods after sawing (11) rolling.
2. tape article continuous drawing production line according to claim 1, is characterized in that: between described uncoiler (1) and straightener (3), be provided with for carrying out to being expanded to the blank (12) of linear state the centering clamping and conveying device (2) that centering pinches.
3. tape article continuous drawing production line according to claim 1, it is characterized in that: described length saw (8) comprises length saw frame (8-1), the first vehicle guide (8-2) arranging along length saw frame (8-1) length direction, be arranged on length saw dolly (8-4) and the first driving mechanism for driving length saw dolly (8-4) to move along the first vehicle guide (8-2) on the first vehicle guide (8-2), the top of described length saw dolly (8-4) is provided with the protection collecting hood (8-5) passing for goods (11), in described protection collecting hood (8-5), be provided with the adapting table (8-11) for carrying goods (11), on described length saw dolly (8-4), be provided with second vehicle guide (8-18) perpendicular with the first vehicle guide (8-2), on described the second vehicle guide (8-18), be provided with movable block (8-16), on described protection collecting hood (8-5), be provided with for driving movable block (8-16) along the second mobile driving mechanism of the second vehicle guide (8-18), the top of described movable block (8-16) is connected with bracing frame (8-13) and first fluid cylinder (8-27), on support frame as described above (8-13), be hinged with and fly to saw fork (8-7), described one end that flies to saw fork (8-7) is connected with circular saw (8-10), the described other end that flies to saw fork (8-7) is connected with the piston rod of first fluid cylinder (8-27), described fly to saw the circular saw motor (8-12) rotating for driver plate saw (8-10) is installed on fork (8-7).
4. tape article continuous drawing production line according to claim 1, it is characterized in that: described in pile up device (9) and comprise and pile up device frame (9-1), material rotating plate (9-11) and a plurality of charge plate (9-12) that is all " L " type, the middle part of described material rotating plate (9-11) is hinged on piles up device frame (9-1) top, described piling up in device frame (9-1) is provided with for driving the stirring cylinder (9-16) of material rotating plate (9-11) upset, the described device frame (9-1) of piling up is upper and be positioned at material rotating plate (9-11) and be provided with a plurality of charge panel guides (9-13) away from a side of stirring cylinder (9-16), the upper end of a plurality of described charge panel guides (9-13) is all to the lopsidedness away from stirring cylinder (9-16), a plurality of described charge plates (9-12) are laid along a plurality of described charge panel guides (9-13) interval, described piling up in device frame (9-1) is provided with for driving charge plate (9-12) along the mobile charge plate driving mechanism of charge panel guide (9-13).
5. tape article continuous drawing production line according to claim 1, is characterized in that: between described straightener (3) and continuous drawing device (5), be provided with for spray the lubricating arrangement (4) of lubricating oil to blank (12).
6. according to the tape article continuous drawing production line described in arbitrary claim in claim 1 to 5, it is characterized in that: between described continuous drawing device (5) and measuring motion (7), be provided with the cleaning device (6) for goods (11) are cleaned.
CN201320577622.1U 2013-09-17 2013-09-17 Continuous drawing production line for strip products CN203470530U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201320577622.1U CN203470530U (en) 2013-09-17 2013-09-17 Continuous drawing production line for strip products

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320577622.1U CN203470530U (en) 2013-09-17 2013-09-17 Continuous drawing production line for strip products

Publications (1)

Publication Number Publication Date
CN203470530U true CN203470530U (en) 2014-03-12

Family

ID=50218944

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201320577622.1U CN203470530U (en) 2013-09-17 2013-09-17 Continuous drawing production line for strip products

Country Status (1)

Country Link
CN (1) CN203470530U (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103447347A (en) * 2013-09-17 2013-12-18 西安麦特沃金液控技术有限公司 Continuous drawing production line and production method of strip product
CN106955900A (en) * 2017-05-11 2017-07-18 洛阳聚瑞昌电气工程材料有限公司 Horizontal volume arranges plate drawing machine
CN110153207A (en) * 2018-12-04 2019-08-23 上海北特科技股份有限公司 Bar vertical bar continuous draw-off gear and the bar drawing method realized using it

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103447347A (en) * 2013-09-17 2013-12-18 西安麦特沃金液控技术有限公司 Continuous drawing production line and production method of strip product
CN103447347B (en) * 2013-09-17 2016-06-29 西安麦特沃金液控技术有限公司 Tape article continuous drawing production line and production method
CN106955900A (en) * 2017-05-11 2017-07-18 洛阳聚瑞昌电气工程材料有限公司 Horizontal volume arranges plate drawing machine
CN110153207A (en) * 2018-12-04 2019-08-23 上海北特科技股份有限公司 Bar vertical bar continuous draw-off gear and the bar drawing method realized using it

Similar Documents

Publication Publication Date Title
CN202148052U (en) Automatic stacking device
CN103600171B (en) The method and system of a kind of metallic plate loading and unloading and cutting
CN201592347U (en) Numerical control metal coil slitting production line
CN108819269B (en) Intelligent sheet metal part production system capable of automatically spraying
CN201530636U (en) Automatic conveying and stacking machine for corrugated board
CN202449672U (en) Automatic enameled wire coiling machine
CN101707857B (en) PCB welding machine and welding method
CN102319786B (en) Swing stamping mechanism
CN104773432B (en) Automatic warehouse output and input device and method of plate production line
CN103801583B (en) Large gauge directly becomes square tube processing technology
CN102328458B (en) Tape threading machine for paper box handle
CN1231307C (en) Continuous steel belt punching production line
CN202784801U (en) Plate conveying machine
CN2918318Y (en) Apparatus for finishing and aligning bobbin
CN102642718B (en) Track sucking disk type gripping device
CN102814839A (en) Board edge cutting machine
CN104648931B (en) Fully-automatic laser cutting production line
CN202336703U (en) Automatic sawing device for aluminum bars
CN101181775A (en) Method for manufacturing container side board and front wall plate
CN102152110B (en) Jib assembling system and assembling method
CN104759515A (en) Novel punching production line
CN103964212B (en) An a kind of pallet high position changes stacker
CN203751698U (en) Processing production line for lift car wall and door plate
CN204622293U (en) Full-automatic light wall board product line
CN204310521U (en) Shaped steel automatic stacking system

Legal Events

Date Code Title Description
GR01 Patent grant