CN204672851U - A kind of automation blanking system for silicon steel sheet stamping line - Google Patents
A kind of automation blanking system for silicon steel sheet stamping line Download PDFInfo
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- CN204672851U CN204672851U CN201520304493.8U CN201520304493U CN204672851U CN 204672851 U CN204672851 U CN 204672851U CN 201520304493 U CN201520304493 U CN 201520304493U CN 204672851 U CN204672851 U CN 204672851U
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- 229910000976 Electrical steel Inorganic materials 0.000 title claims abstract description 49
- 239000002699 waste material Substances 0.000 claims abstract description 141
- 230000007246 mechanism Effects 0.000 claims abstract description 114
- 238000001179 sorption measurement Methods 0.000 claims abstract description 50
- 230000005540 biological transmission Effects 0.000 claims description 38
- 239000000872 buffer Substances 0.000 claims description 21
- 239000000463 material Substances 0.000 claims description 17
- 230000001360 synchronised effect Effects 0.000 claims description 12
- 229910000831 Steel Inorganic materials 0.000 claims description 8
- 238000013016 damping Methods 0.000 claims description 8
- 239000010959 steel Substances 0.000 claims description 8
- 239000007787 solid Substances 0.000 claims description 6
- 238000012856 packing Methods 0.000 claims description 3
- 238000004519 manufacturing process Methods 0.000 abstract description 19
- 230000008901 benefit Effects 0.000 abstract description 8
- 230000008859 change Effects 0.000 abstract description 7
- 238000004080 punching Methods 0.000 description 17
- 238000000034 method Methods 0.000 description 10
- 238000009434 installation Methods 0.000 description 8
- 230000008569 process Effects 0.000 description 7
- 238000010521 absorption reaction Methods 0.000 description 6
- 238000005096 rolling process Methods 0.000 description 6
- 239000003463 adsorbent Substances 0.000 description 3
- 238000010276 construction Methods 0.000 description 3
- 238000005520 cutting process Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 3
- 230000001105 regulatory effect Effects 0.000 description 3
- 238000013519 translation Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000006872 improvement Effects 0.000 description 2
- 239000000203 mixture Substances 0.000 description 2
- 230000032258 transport Effects 0.000 description 2
- 241000252254 Catostomidae Species 0.000 description 1
- 238000007630 basic procedure Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 230000003252 repetitive effect Effects 0.000 description 1
- 238000012546 transfer Methods 0.000 description 1
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Abstract
The utility model relates to punch press automatic field, particularly relate to a kind of automation blanking system for silicon steel sheet stamping line, comprise splicing system, adsorption system, handling system, supporting mechanism, palletizing system, waste material diced system and waste material paper-generating system; Described handling system is connected with adsorption system, described handling system is arranged on supporting mechanism, the below of described supporting mechanism is provided with palletizing system and splicing system, described palletizing system and splicing system are put side by side, described splicing system one end is provided with waste material diced system, and described waste material diced system is other is provided with waste material paper-generating system.The utility model topology layout is ingenious, efficiency is high, cost is low, handling system has the advantage such as high speed, high rigidity, high load capability, go for the silicon steel sheet of different size, do not need to do any change to existing punch press, be applicable to the automatic improving of various types of silicon steel disc production equipment.<b/>
Description
Technical field
The utility model relates to punch press automatic field, particularly relates to a kind of automation blanking system for silicon steel sheet stamping line.
Background technology
The production of silicon steel sheet completes primarily of punching equipment, comprises the basic procedures such as material loading, punching, feeding and piling.The production majority of existing silicon steel sheet adopts old-fashioned press machine, be not equipped with corresponding cutting agency, need staff to stretch into lathe and take off workpiece, and waste material need have special messenger to process.Long repetitive operation makes labor strength become large, easily produces the problems such as tired, there is serious potential safety hazard in process of production.On the other hand, this artificial cutting mode makes to realize night shift and produces, and has had a strong impact on production efficiency, has also been not easy to the automatic improving of silicon steel sheet subsequent production technique.
There are comparatively multi-expert and scholar, be devoted to the automatic improving of punch press peripheral equipment, if application number is 201220263193. 6, the applying date is 2012-06-06, the utility model patent that name is called " motor stator-rotor silicon steel sheet linkage punch production line ", is linked by the production equipment of motor stator and rotor silicon steel sheet, to improve its production efficiency, but for old-fashioned pressing equipment, although the production that can link, but still need the manual blanking of workman, piling, process waste material etc.
And for example application number is 201120134918. 7, and the applying date is 2011-04-30, the utility model patent that name is called " a kind of punch press automatic collecting device ", provide a kind of can automatically by the punch press automatic collecting device of bung good for punching press and bucket piling.This utility model can save manpower greatly, improves punch press operating efficiency, but be not suitable for there is plurality of specifications, silicon steel sheet production technology that shape and size change greatly.
In sum, the existing silicon steel sheet that the existence of punch press production equipment can not be applicable to plurality of specifications, shape and size change greatly is produced and still needs the problem of the manual blanking of workman, piling, process waste material.
Utility model content
For solve existing stamping line exist can not be applicable to plurality of specifications, silicon steel sheet that shape and size change greatly produces and still needs the problem of the manual blanking of workman, piling, process waste material, propose now a kind ofly to solve the potential safety hazard of silicon steel sheet workshop blanking, the life safety ensureing workman, the automation blanking system for silicon steel sheet stamping line that improves utilization rate of equipment and installations, reduce job-shop automation improvement cost, realize silicon steel sheet High-efficient Production.
For realizing above-mentioned technique effect, the technical solution of the utility model is as follows:
For an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system, adsorption system, handling system, supporting mechanism, palletizing system, waste material diced system and waste material paper-generating system;
Described handling system is connected with adsorption system, described handling system is arranged on supporting mechanism, the below of described supporting mechanism is provided with palletizing system and splicing system, described palletizing system and splicing system are put side by side, described splicing system one end is provided with waste material diced system, and described waste material diced system is other is provided with waste material paper-generating system.
Splicing system concrete structure:
Splicing system comprises mounting bracket, arrangement for adjusting height, chute, drawing and pulling type splicing plate and La Liao mechanism, the bottom of described mounting bracket is provided with described arrangement for adjusting height, inside the upper surface two of described mounting bracket, chute is installed, described drawing and pulling type splicing plate is arranged between two chutes, and described La Liao mechanism is arranged on the afterbody of described mounting bracket.
Arrangement for adjusting height comprises screw lift, and each leg of support respectively fills a screw lift, and described screw lift comprises screw mandrel and regulates the handwheel of screw mandrel height.
Described La Liao mechanism comprises draws material motor and two rollers, described in draw material driven by motor two roller turn.
Described two rollers are installed in parallel on the bearing block of mounting bracket both sides.
Described mounting bracket is welded by shaped steel.
Described splicing system for being taken out from punching machine mold together with waste material by silicon steel sheet, and is transported to the position of carrying and adsorption system grabbing workpiece.Be specially: under arrangement for adjusting height and the acting in conjunction of drawing and pulling type splicing plate, can ensure that drawing and pulling type splicing plate is concordant with punching machine lower mold tool discharge edge, and be in same level, workpiece and waste material are transported on drawing and pulling type splicing plate smoothly, and workpiece and waste material do not interlock.Described drawing and pulling type splicing plate is arranged in chute, can move, also can be convenient for changing along chute.Described La Liao mechanism is installed on mounting bracket afterbody, splicing plate is transported to by punching machine lower mold tool for auxiliary work-piece and waste material, La Liao mechanism drives two rollers to rotate by motor, utilize the frictional force between two rollers and workpiece waste material, pulling force is produced to workpiece and waste material, workpiece is pulled to the crawl position of adsorption system together with waste material.Waste material clamp, between two rollers, produces pulling force by the frictional force between roller and waste material to waste material.
Adsorption system concrete structure:
Adsorption system comprises sucker, height buffer, transverse cross beams and longitudinal crossbeam, described longitudinal crossbeam and transverse cross beams intersecting vertical arrange and are interconnected, described longitudinal crossbeam is positioned at the below of transverse cross beams, described height buffer is arranged on longitudinal crossbeam, and described sucker is arranged on height buffer end.
Described longitudinal crossbeam has multiple mounting hole, and described height buffer is arranged in the mounting hole of longitudinal crossbeam.
Described transverse cross beams is provided with T-slot, and described longitudinal crossbeam is arranged in the T-slot in transverse cross beams.
Described longitudinal crossbeam is provided with T-slot nut be stuck in described T-slot.
Described height buffer is furnished with for cushioning the spring damping structure of vertical motion mechanism to workpiece grabbing power.
Described sucker is positioned at the end of spring damping structure.
Adsorption system is arranged on handling system end, can realize crawl and the release of workpiece, and this adsorbent equipment can according to workpiece different size, reserved multiple sucker installation site, by regulating absorption position, can capture one or more pieces workpiece simultaneously.
Handling system concrete structure:
Described handling system comprises horicontal motion mechanism and vertical motion mechanism, and described vertical motion mechanism connects firmly on horicontal motion mechanism by screw;
Further, described horicontal motion mechanism comprises Timing Belt module, crossbeam, support frame, power transmission shaft and servo drive system, and two Timing Belt modules are installed in parallel in same level, and the two ends that two Timing Belt modules are adjacent connect respectively by crossbeam.
Described Timing Belt module includes Timing Belt and transmission case, and synchronous pulley is equipped with in described transmission case inside, and described synchronous pulley engages with described Timing Belt.
Synchronous pulley in described two Timing Belt module upper gear boxs is connected on same axle center by a power transmission shaft, and described power transmission shaft is driven by servo drive system.
Described power transmission shaft is connected with a servo drive system.
Described servo drive system refers to the motor or the decelerator that drive power transmission shaft rotation.
Described two transmission cases are equipped with the support frame doing rectilinear motion with transmission case along Timing Belt module.
Described support frame is rectangular configuration.
Further, described vertical motion mechanism comprises cylinder, the axis of guide, linear bearing, expansion sleeve and end support framework, the described axis of guide is vertically arranged, and be socketed in described linear bearing, do vertical direction for linearly bearing to move back and forth, the upper end of the described axis of guide is provided with limit damper, described axis of guide end is connected firmly by expansion sleeve and end support framework, an axle connected firmly with end support framework is equipped with at the center of described end support framework, and described axle and cylinder piston rod connect firmly.
The cylinder body of described cylinder is connected on the support frame of horicontal motion mechanism, and linear bearing is symmetrical centered by cylinder to be arranged on the support frame of horicontal motion mechanism.
The described axis of guide is four, and described linear bearing is four.
Described axle is connected firmly by flake joint and cylinder piston rod.
The depth of parallelism of many axis of guide axis can be ensured by expansion sleeve.
Described handling system is arranged on supporting mechanism, with adsorption system acting in conjunction, realizes being separated of workpiece and waste material, the carrying of workpiece and piling.Handling system is made up of twin shaft robot, this twin shaft robot has the advantage such as high speed, high rigidity, high load capability, the lifting that adsorption system can be driven to realize workplace vertical direction to realize being separated of workpiece and waste material, then by the translation of horizontal direction by above workpiece handling to work-piece pile system.
Supporting construction concrete structure:
Movable support mechanism comprises horicontal motion mechanism and installs crossbeam, column, mounting base and lowering or hoisting gear, the two ends that described horicontal motion mechanism installs crossbeam are respectively arranged with column, described column bottom is provided with for the mounting base affixed with ground, the column at guide rail beam two ends is connected with lowering or hoisting gear and crossbeam is installed, the below that crossbeam installed by described lowering or hoisting gear is provided with lowering or hoisting gear, and the end of described lowering or hoisting gear is equipped with roller.
Gusset is welded with between described column and guide rail beam.
Described gusset has hole for hoist.
Described guide rail beam two ends are respectively provided with two root posts.
Described mounting base center has position, hole.
The end of described lowering or hoisting gear is equipped with the roller realizing packing up and put down function.
Described movable support mechanism is that shaped steel is welded.
Described guide rail beam is connected with two Timing Belt modules of horicontal motion mechanism.
Further, described supporting mechanism is for supporting handling system and adsorption system.
Palletizing system comprises piling dolly, charging tray and guide rail, and described piling dolly comprises scissor lift platform, and described charging tray is placed on piling dolly upper surface, and be provided with roller bottom described piling dolly, roller is arranged on guide rail.
Described piling dolly can with work-piece pile quantity automatic controlled height, and blanking Altitude control during guarantee work-piece pile within the specific limits, realizes the neat piling of workpiece.Described charging tray is placed on piling dolly upper surface, and for collecting the workpiece of piling, after piling completes, piling dolly moves along guide rail, is sent by the charging tray filling workpiece.
Described waste material diced system is arranged on splicing system end, after waste material is separated with workpiece, is continued to be transported to waste material diced system, cut off by waste material by waste material diced system by La Liao mechanism, is convenient to collect.
Described waste material paper-generating system is positioned at splicing system rear, primarily of automatic material receptacle composition, collects for waste material rolling.After waste material is separated with workpiece, be transported on automatic material receptacle through La Liao mechanism, automatic material receptacle drives main shaft to rotate by drive unit, is collected on main shaft, after reaching certain thickness, takes off the waste material spooled by waste material rolling.
Both waste material paper-generating system and waste material diced system can according to garbage collection way selection one of them.
The utility model has the advantage of:
1, the utility model topology layout is ingenious, efficiency is high, cost is low, handling system has the advantage such as high speed, high rigidity, high load capability, go for the silicon steel sheet of different size, do not need to do any change to existing punch press, be applicable to the automatic improving of various types of silicon steel disc production equipment.Therefore, the automation blanking system of silicon steel sheet stamping line described in the utility model can solve the automatic improving problem of silicon steel sheet production line, improves utilization rate of equipment and installations, reduces automatic improving cost, reduces labor strength, ensures workman's life safety.
2, splicing system is furnished with arrangement for adjusting height, can coordinate discharge height, ensures that workpiece and waste material are sent smoothly, does not interlock.Meanwhile, wear surface can be changed easily.
3, adsorption system can adjust absorption position according to the product of difformity and specification, and the scope of application is wide.
4, handling system has the characteristic of high speed, high rigidity, high load capability, transport distance length, and structure is simple, can carry multi-disc workpiece simultaneously.
5, supporting construction rigidity is large, mobile and easy for installation, is applicable to various working.
6, palletizing system adopts scissor lift platform, can control workpiece blanking height, ensures that work-piece pile is neat;
7, waste material diced system can be used for needing to be cut off by demand by waste material when cutting off process to waste material.
8, adopt waste material paper-generating system waste material rolling can be collected, improve waste utilization rate, avoid adopting additional waste material frame etc. simultaneously.
Accompanying drawing explanation
Fig. 1 is the utility model automation blanking system schematic diagram;
Fig. 2 is the utility model splicing system architecture schematic diagram.
Fig. 3 is the utility model transfer robot structural representation.
Fig. 4 is the utility model adsorption system structural representation.
Fig. 5 is the utility model movable support mechanism structure schematic diagram.
In figure, 1 is splicing system, and 2 is adsorption systems, and 3 is handling systems, and 4 is supporting mechanisms, 5 is palletizing systems, and 6 is waste material diced systems, and 7 is waste material paper-generating systems, and 8 is mounting brackets, 9 Shi Laliao mechanisms, 10 is drawing and pulling type splicing plates, and 11 is chutes, 12 arrangement for adjusting height.
16 is height buffers, and 17 is suckers, and 18 is transverse cross beams, and 19 is longitudinal crossbeams, and 20 is that horicontal motion mechanism installs crossbeam, and 21 is gussets, and 22 is columns, and 23 is that crossbeam installed by lowering or hoisting gear, and 24 is lowering or hoisting gears, and 25 is mounting bases, and 26 is rollers.
34 is Timing Belt modules, and 35 is support frames, and 36 is cylinders, and 37 is linear bearings, and 38 is axis of guides, and 39 is end support frameworks, and 310 is expansion sleeves, and 311 is servo drive systems, and 312 is transmission cases, 313 limit dampers, and 314 is power transmission shafts.
Detailed description of the invention
Embodiment 1
For an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system 1, adsorption system 2, handling system 3, supporting mechanism 4, palletizing system 5, waste material diced system 6 and waste material paper-generating system 7;
Described handling system 3 is connected with adsorption system 2, described handling system 3 is arranged on supporting mechanism 4, the below of described supporting mechanism 4 is provided with palletizing system 5 and splicing system 1, described palletizing system 5 and splicing system 1 are put side by side, described splicing system 1 one end is provided with waste material diced system 6, and described waste material diced system 6 is other is provided with waste material paper-generating system 7.
The utility model topology layout is ingenious, efficiency is high, cost is low, handling system 3 has the advantage such as high speed, high rigidity, high load capability, go for the silicon steel sheet of different size, do not need to do any change to existing punch press, be applicable to the automatic improving of various types of silicon steel disc production equipment.Therefore, the automation blanking system of silicon steel sheet stamping line described in the utility model can solve the automatic improving problem of silicon steel sheet production line, improves utilization rate of equipment and installations, reduces automatic improving cost, reduces labor strength, ensures workman's life safety.
Embodiment 2
For an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system 1, adsorption system 2, handling system 3, supporting mechanism 4, palletizing system 5, waste material diced system 6 and waste material paper-generating system 7;
Described handling system 3 is connected with adsorption system 2, described handling system 3 is arranged on supporting mechanism 4, the below of described supporting mechanism 4 is provided with palletizing system 5 and splicing system 1, described palletizing system 5 and splicing system 1 are put side by side, described splicing system 1 one end is provided with waste material diced system 6, and described waste material diced system 6 is other is provided with waste material paper-generating system 7.
Splicing system 1 comprises mounting bracket 8, arrangement for adjusting height 12, chute 11, drawing and pulling type splicing plate 10 and La Liao mechanism 9, the bottom of described mounting bracket 8 is provided with described arrangement for adjusting height 12, inside the upper surface two of described mounting bracket 8, chute 11 is installed, described drawing and pulling type splicing plate 10 is arranged between two chutes 11, and described La Liao mechanism 9 is arranged on the afterbody of described mounting bracket 8.Arrangement for adjusting height 12 comprises screw lift, and each leg of support respectively fills a screw lift, and described screw lift comprises screw mandrel and regulates the handwheel of screw mandrel height.
Described La Liao mechanism 9 comprises draws material motor and two rollers, described in draw material driven by motor two roller turn.Described two rollers are installed in parallel on the bearing block of mounting bracket 8 both sides.Described mounting bracket 8 is welded by shaped steel.
Described splicing system 1 for being taken out from punching machine mold together with waste material by silicon steel sheet, and is transported to the position of carrying and adsorption system 2 grabbing workpiece.Be specially: under arrangement for adjusting height 12 and the acting in conjunction of drawing and pulling type splicing plate 10, can ensure that drawing and pulling type splicing plate 10 is concordant with punching machine lower mold tool discharge edge, and be in same level, workpiece and waste material are transported on drawing and pulling type splicing plate 10 smoothly, and workpiece and waste material do not interlock.Described drawing and pulling type splicing plate 10 is arranged in chute 11, can move, also can be convenient for changing along chute 11.Described La Liao mechanism 9 is installed on mounting bracket 8 afterbody, splicing plate is transported to by punching machine lower mold tool for auxiliary work-piece and waste material, La Liao mechanism 9 drives two rollers to rotate by motor, utilize the frictional force between two rollers and workpiece waste material, pulling force is produced to workpiece and waste material, workpiece is pulled to the crawl position of adsorption system 2 together with waste material.Waste material clamp, between two rollers, produces pulling force by the frictional force between roller and waste material to waste material.
Embodiment 3
For an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system 1, adsorption system 2, handling system 3, supporting mechanism 4, palletizing system 5, waste material diced system 6 and waste material paper-generating system 7;
Described handling system 3 is connected with adsorption system 2, described handling system 3 is arranged on supporting mechanism 4, the below of described supporting mechanism 4 is provided with palletizing system 5 and splicing system 1, described palletizing system 5 and splicing system 1 are put side by side, described splicing system 1 one end is provided with waste material diced system 6, and described waste material diced system 6 is other is provided with waste material paper-generating system 7.
The utility model topology layout is ingenious, efficiency is high, cost is low, handling system 3 has the advantage such as high speed, high rigidity, high load capability, go for the silicon steel sheet of different size, do not need to do any change to existing punch press, be applicable to the automatic improving of various types of silicon steel disc production equipment.Therefore, the automation blanking system of silicon steel sheet stamping line described in the utility model can solve the automatic improving problem of silicon steel sheet production line, improves utilization rate of equipment and installations, reduces automatic improving cost, reduces labor strength, ensures workman's life safety.
Adsorption system 2 comprises sucker 17, height buffer 16, transverse cross beams 18 and longitudinal crossbeam 19, described longitudinal crossbeam 19 and transverse cross beams 18 intersecting vertical arrange and are interconnected, described longitudinal crossbeam 19 is positioned at the below of transverse cross beams 18, described height buffer 16 is arranged on longitudinal crossbeam 19, and described sucker 17 is arranged on height buffer 16 end.
Described longitudinal crossbeam 19 has multiple mounting hole, and described height buffer 16 is arranged in the mounting hole of longitudinal crossbeam 19.Described transverse cross beams 18 is provided with T-slot, and described longitudinal crossbeam 19 is arranged in the T-slot in transverse cross beams 18.Described longitudinal crossbeam 19 is provided with T-slot nut be stuck in described T-slot.Described height buffer 16 is furnished with for cushioning the spring damping structure of vertical motion mechanism to workpiece grabbing power.Described sucker 17 is positioned at the end of spring damping structure.
Adsorption system 2 is arranged on handling system 3 end, can realize crawl and the release of workpiece, and this adsorbent equipment can according to workpiece different size, reserved multiple sucker 17 installation site, by regulating absorption position, can capture one or more pieces workpiece simultaneously.
Embodiment 4
For an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system 1, adsorption system 2, handling system 3, supporting mechanism 4, palletizing system 5, waste material diced system 6 and waste material paper-generating system 7;
Described handling system 3 is connected with adsorption system 2, described handling system 3 is arranged on supporting mechanism 4, the below of described supporting mechanism 4 is provided with palletizing system 5 and splicing system 1, described palletizing system 5 and splicing system 1 are put side by side, described splicing system 1 one end is provided with waste material diced system 6, and described waste material diced system 6 is other is provided with waste material paper-generating system 7.
Splicing system 1 comprises mounting bracket 8, arrangement for adjusting height 12, chute 11, drawing and pulling type splicing plate 10 and La Liao mechanism 9, the bottom of described mounting bracket 8 is provided with described arrangement for adjusting height 12, inside the upper surface two of described mounting bracket 8, chute 11 is installed, described drawing and pulling type splicing plate 10 is arranged between two chutes 11, and described La Liao mechanism 9 is arranged on the afterbody of described mounting bracket 8.Arrangement for adjusting height 12 comprises screw lift, and each leg of support respectively fills a screw lift, and described screw lift comprises screw mandrel and regulates the handwheel of screw mandrel height.
Described La Liao mechanism 9 comprises draws material motor and two rollers, described in draw material driven by motor two roller turn.Described two rollers are installed in parallel on the bearing block of mounting bracket 8 both sides.Described mounting bracket 8 is welded by shaped steel.
Described splicing system 1 for being taken out from punching machine mold together with waste material by silicon steel sheet, and is transported to the position of carrying and adsorption system 2 grabbing workpiece.Be specially: under arrangement for adjusting height 12 and the acting in conjunction of drawing and pulling type splicing plate 10, can ensure that drawing and pulling type splicing plate 10 is concordant with punching machine lower mold tool discharge edge, and be in same level, workpiece and waste material are transported on drawing and pulling type splicing plate 10 smoothly, and workpiece and waste material do not interlock.Described drawing and pulling type splicing plate 10 is arranged in chute 11, can move, also can be convenient for changing along chute 11.Described La Liao mechanism 9 is installed on mounting bracket 8 afterbody, splicing plate is transported to by punching machine lower mold tool for auxiliary work-piece and waste material, La Liao mechanism 9 drives two rollers to rotate by motor, utilize the frictional force between two rollers and workpiece waste material, pulling force is produced to workpiece and waste material, workpiece is pulled to the crawl position of adsorption system 2 together with waste material.Waste material clamp, between two rollers, produces pulling force by the frictional force between roller and waste material to waste material.
Described handling system 3 comprises horicontal motion mechanism and vertical motion mechanism, and described vertical motion mechanism connects firmly on horicontal motion mechanism by screw;
Further, described horicontal motion mechanism comprises Timing Belt module 34, crossbeam, support frame 35, power transmission shaft 314 and servo drive system 311, two Timing Belt modules 34 are installed in parallel in same level, and the two ends that two Timing Belt modules 34 are adjacent connect respectively by crossbeam.
Described Timing Belt module 34 includes Timing Belt and transmission case 312, and synchronous pulley is equipped with in described transmission case 312 inside, and described synchronous pulley engages with described Timing Belt.
Synchronous pulley in described two Timing Belt module 34 upper gear boxs 312 is connected on same axle center by a power transmission shaft 314, and described power transmission shaft 314 is driven by servo drive system 311.
Described power transmission shaft 314 is connected with a servo drive system 311.
Described servo drive system 311 refers to the motor or the decelerator that drive power transmission shaft 314 rotation.
Described two transmission cases 312 are equipped with the support frame 35 doing rectilinear motion with transmission case 312 along Timing Belt module 34.
Described support frame 35 is rectangular configuration.
Further, described vertical motion mechanism comprises cylinder 36, the axis of guide 38, linear bearing 37, expansion sleeve 310 and end support framework 39, the described axis of guide 38 is vertically arranged, and be socketed in described linear bearing 37, do vertical direction for linearly bearing 37 to move back and forth, the upper end of the described axis of guide 38 is provided with limit damper 313, the described axis of guide 38 end is connected firmly by expansion sleeve 310 and end support framework 39, an axle connected firmly with end support framework 39 is equipped with at the center of described end support framework 39, described axle and cylinder 36 solid rod joint.
The cylinder body of described cylinder 36 is connected on the support frame 35 of horicontal motion mechanism, and linear bearing 37 is symmetrical centered by cylinder 36 to be arranged on the support frame 35 of horicontal motion mechanism.
The described axis of guide 38 is four, and described linear bearing 37 is four.
Described axle is by flake joint and cylinder 36 solid rod joint.
The depth of parallelism of the many axis of guides 38 axis can be ensured by expansion sleeve 310.
Described handling system 3 is arranged on supporting mechanism 4, with adsorption system 2 acting in conjunction, realizes being separated of workpiece and waste material, the carrying of workpiece and piling.Handling system 3 is made up of twin shaft robot, this twin shaft robot has the advantage such as high speed, high rigidity, high load capability, the lifting that adsorption system 2 can be driven to realize workplace vertical direction to realize being separated of workpiece and waste material, then by the translation of horizontal direction by above workpiece handling to work-piece pile system 5.
Embodiment 5
For an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system 1, adsorption system 2, handling system 3, supporting mechanism 4, palletizing system 5, waste material diced system 6 and waste material paper-generating system 7;
Described handling system 3 is connected with adsorption system 2, described handling system 3 is arranged on supporting mechanism 4, the below of described supporting mechanism 4 is provided with palletizing system 5 and splicing system 1, described palletizing system 5 and splicing system 1 are put side by side, described splicing system 1 one end is provided with waste material diced system 6, and described waste material diced system 6 is other is provided with waste material paper-generating system 7.
Splicing system 1 concrete structure:
Splicing system 1 comprises mounting bracket 8, arrangement for adjusting height 12, chute 11, drawing and pulling type splicing plate 10 and La Liao mechanism 9, the bottom of described mounting bracket 8 is provided with described arrangement for adjusting height 12, inside the upper surface two of described mounting bracket 8, chute 11 is installed, described drawing and pulling type splicing plate 10 is arranged between two chutes 11, and described La Liao mechanism 9 is arranged on the afterbody of described mounting bracket 8.
Arrangement for adjusting height 12 comprises screw lift, and each leg of support respectively fills a screw lift, and described screw lift comprises screw mandrel and regulates the handwheel of screw mandrel height.Described La Liao mechanism 9 comprises draws material motor and two rollers, described in draw material driven by motor two roller turn.Described two rollers are installed in parallel on the bearing block of mounting bracket 8 both sides.Described mounting bracket 8 is welded by shaped steel.
Described splicing system 1 for being taken out from punching machine mold together with waste material by silicon steel sheet, and is transported to the position of carrying and adsorption system 2 grabbing workpiece.Be specially: under arrangement for adjusting height 12 and the acting in conjunction of drawing and pulling type splicing plate 10, can ensure that drawing and pulling type splicing plate 10 is concordant with punching machine lower mold tool discharge edge, and be in same level, workpiece and waste material are transported on drawing and pulling type splicing plate 10 smoothly, and workpiece and waste material do not interlock.Described drawing and pulling type splicing plate 10 is arranged in chute 11, can move, also can be convenient for changing along chute 11.Described La Liao mechanism 9 is installed on mounting bracket 8 afterbody, splicing plate is transported to by punching machine lower mold tool for auxiliary work-piece and waste material, La Liao mechanism 9 drives two rollers to rotate by motor, utilize the frictional force between two rollers and workpiece waste material, pulling force is produced to workpiece and waste material, workpiece is pulled to the crawl position of adsorption system 2 together with waste material.Waste material clamp, between two rollers, produces pulling force by the frictional force between roller and waste material to waste material.
Adsorption system 2 concrete structure:
Adsorption system 2 comprises sucker 17, height buffer 16, transverse cross beams 18 and longitudinal crossbeam 19, described longitudinal crossbeam 19 and transverse cross beams 18 intersecting vertical arrange and are interconnected, described longitudinal crossbeam 19 is positioned at the below of transverse cross beams 18, described height buffer 16 is arranged on longitudinal crossbeam 19, and described sucker 17 is arranged on height buffer 16 end.Described longitudinal crossbeam 19 has multiple mounting hole, and described height buffer 16 is arranged in the mounting hole of longitudinal crossbeam 19.Described transverse cross beams 18 is provided with T-slot, and described longitudinal crossbeam 19 is arranged in the T-slot in transverse cross beams 18.Described longitudinal crossbeam 19 is provided with T-slot nut be stuck in described T-slot.Described height buffer 16 is furnished with for cushioning the spring damping structure of vertical motion mechanism to workpiece grabbing power.Described sucker 17 is positioned at the end of spring damping structure.
Adsorption system 2 is arranged on handling system 3 end, can realize crawl and the release of workpiece, and this adsorbent equipment can according to workpiece different size, reserved multiple sucker 17 installation site, by regulating absorption position, can capture one or more pieces workpiece simultaneously.
Handling system 3 concrete structure:
Described handling system 3 comprises horicontal motion mechanism and vertical motion mechanism, and described vertical motion mechanism connects firmly on horicontal motion mechanism by screw; Described horicontal motion mechanism comprises Timing Belt module 34, crossbeam, support frame 35, power transmission shaft 314 and servo drive system 311, two Timing Belt modules 34 are installed in parallel in same level, and the two ends that two Timing Belt modules 34 are adjacent connect respectively by crossbeam.
Timing Belt module 34 includes Timing Belt and transmission case 312, and synchronous pulley is equipped with in described transmission case 312 inside, and described synchronous pulley engages with described Timing Belt.
Synchronous pulley in two Timing Belt module 34 upper gear boxs 312 is connected on same axle center by a power transmission shaft 314, and described power transmission shaft 314 is driven by servo drive system 311.Described power transmission shaft 314 is connected with a servo drive system 311.Described servo drive system 311 refers to the motor or the decelerator that drive power transmission shaft 314 rotation.Described two transmission cases 312 are equipped with the support frame 35 doing rectilinear motion with transmission case 312 along Timing Belt module 34.Described support frame 35 is rectangular configuration.
Vertical motion mechanism comprises cylinder 36, the axis of guide 38, linear bearing 37, expansion sleeve 310 and end support framework 39, the described axis of guide 38 is vertically arranged, and be socketed in described linear bearing 37, do vertical direction for linearly bearing 37 to move back and forth, the upper end of the described axis of guide 38 is provided with limit damper 313, the described axis of guide 38 end is connected firmly by expansion sleeve 310 and end support framework 39, an axle connected firmly with end support framework 39 is equipped with at the center of described end support framework 39, described axle and cylinder 36 solid rod joint.
The cylinder body of cylinder 36 is connected on the support frame 35 of horicontal motion mechanism, and linear bearing 37 is symmetrical centered by cylinder 36 to be arranged on the support frame 35 of horicontal motion mechanism.The described axis of guide 38 is four, and described linear bearing 37 is four.Axle is by flake joint and cylinder 36 solid rod joint.The depth of parallelism of the many axis of guides 38 axis can be ensured by expansion sleeve 310.
Described handling system 3 is arranged on supporting mechanism 4, with adsorption system 2 acting in conjunction, realizes being separated of workpiece and waste material, the carrying of workpiece and piling.Handling system 3 is made up of twin shaft robot, this twin shaft robot has the advantage such as high speed, high rigidity, high load capability, the lifting that adsorption system 2 can be driven to realize workplace vertical direction to realize being separated of workpiece and waste material, then by the translation of horizontal direction by above workpiece handling to work-piece pile system 5.
Supporting construction concrete structure:
Movable support mechanism 4 comprises horicontal motion mechanism and installs crossbeam 20, column 22, mounting base 25 and lowering or hoisting gear 24, the two ends that described horicontal motion mechanism installs crossbeam 20 are respectively arranged with column 22, be provided with for the mounting base 25 affixed with ground bottom described column 22, the column 22 at guide rail beam two ends is connected with lowering or hoisting gear and crossbeam 23 is installed, the below that crossbeam 23 installed by described lowering or hoisting gear is provided with lowering or hoisting gear 24, and the end of described lowering or hoisting gear 24 is equipped with roller 26.
Gusset 21 is welded with between column 22 and guide rail beam.Gusset 21 has hole for hoist.Guide rail beam two ends are respectively provided with two root posts 22.Mounting base 25 center has position, hole.The end of lowering or hoisting gear 24 is equipped with the roller 26 realizing packing up and put down function.Movable support mechanism 4 is welded for shaped steel.Guide rail beam is connected with two Timing Belt modules 34 of horicontal motion mechanism.Described supporting mechanism 4 is for supporting handling system 3 and adsorption system 2.
Palletizing system 5 comprises piling dolly, charging tray and guide rail, and described piling dolly comprises scissor lift platform, and described charging tray is placed on piling dolly upper surface, and be provided with roller 26 bottom described piling dolly, roller 26 is arranged on guide rail.
Described piling dolly can with work-piece pile quantity automatic controlled height, and blanking Altitude control during guarantee work-piece pile within the specific limits, realizes the neat piling of workpiece.Described charging tray is placed on piling dolly upper surface, and for collecting the workpiece of piling, after piling completes, piling dolly moves along guide rail, is sent by the charging tray filling workpiece.
Described waste material diced system 6 is arranged on splicing system 1 end, after waste material is separated with workpiece, is continued to be transported to waste material diced system 6 by La Liao mechanism 9, is cut off by waste material by waste material diced system 6, is convenient to collect.
Described waste material paper-generating system 7 is positioned at splicing system 1 rear, primarily of automatic material receptacle composition, collects for waste material rolling.After waste material is separated with workpiece, be transported on automatic material receptacle through La Liao mechanism 9, automatic material receptacle drives main shaft to rotate by drive unit, is collected on main shaft, after reaching certain thickness, takes off the waste material spooled by waste material rolling.
Both waste material paper-generating system 7 and waste material diced system 6 can according to garbage collection way selection one of them.Waste material paper-generating system 7 and waste material diced system 6 to be in prior art structure.
Embodiment 6
Below in conjunction with accompanying drawing, the utility model is described further.
As shown in the figure, splicing system 1 is installed on the ground by the foundation bolt on arrangement for adjusting height 12, vertical height and the horizontal level of drawing and pulling type splicing plate 10 is adjusted by arrangement for adjusting height 12 and drawing and pulling type splicing plate 10, ensure that drawing and pulling type splicing plate 10 aligns with punching machine lower mold tool discharge edge, and be maintained at the same horizontal plane, be convenient to workpiece and be transported to smoothly on drawing and pulling type splicing plate 10 by punching machine lower mold tool together with waste material.Simultaneously, by La Liao mechanism 10, workpiece and waste material are transported to the absorption position of adsorption system 2, adsorption system 2 is by after workpiece grabbing, and drive adsorption system 2 and workpiece vertical-lift by handling system 3, workpiece is separated with waste material, level is carried to directly over palletizing system 5 again, then adsorption system 2 discharges workpiece, and workpiece is fallen on palletizing system 5, and handling system 3 returns along original route together with adsorption system again, carry out absorption next time and carrying, its frequency is consistent with punch press frequency.Palletizing system 5 is along with the increase of work-piece pile quantity, and automatic controlled height, after reaching predetermined piling quantity, piling dolly is along rail moving, and the workpiece good by piling, transports together with charging tray, and piling dolly returns to piling position again.After waste material is separated with workpiece, in La Liao mechanism 9 under its pulling force effect produced, continue to be delivered to forward on waste material diced system 6 or waste material paper-generating system 7.Waste material diced system 6 pairs of waste materials adopt the mode cut off to recycle, and waste material is cut to segment, then puts into scrap collecting tank; Waste material paper-generating system 7 pairs of waste materials adopt the mode of rolling to collect, and waste material is rolled into entire volume; Waste material diced system 6 and waste material paper-generating system 7 can be selected according to needing the process of waste material.
Last it is noted that the foregoing is only preferred embodiment of the present utility model and oneself, be not limited to the utility model, although be described in detail the utility model with reference to previous embodiment, for a person skilled in the art, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (10)
1. for an automation blanking system for silicon steel sheet stamping line, it is characterized in that: comprise splicing system (1), adsorption system (2), handling system (3), supporting mechanism (4), palletizing system (5), waste material diced system (6) and waste material paper-generating system (7); Described handling system (3) is connected with adsorption system (2), described handling system (3) is arranged on supporting mechanism (4), the below of described supporting mechanism (4) is provided with palletizing system (5) and splicing system (1), described palletizing system (5) and splicing system (1) are put side by side, described splicing system (1) one end is provided with waste material diced system (6), and described waste material diced system (6) is other is provided with waste material paper-generating system (7).
2. a kind of automation blanking system for silicon steel sheet stamping line according to claim 1, it is characterized in that: splicing system (1) comprises mounting bracket (8), arrangement for adjusting height (12), chute (11), drawing and pulling type splicing plate (10) and La Liao mechanism (9), the bottom of described mounting bracket (8) is provided with described arrangement for adjusting height (12), chute (11) is installed inside the upper surface two of described mounting bracket (8), described drawing and pulling type splicing plate (10) is arranged between two chutes (11), described La Liao mechanism (9) is arranged on the afterbody of described mounting bracket (8).
3. a kind of automation blanking system for silicon steel sheet stamping line according to claim 2, it is characterized in that: arrangement for adjusting height (12) comprises screw lift, each leg of support respectively fills a screw lift, and described screw lift comprises screw mandrel and regulates the handwheel of screw mandrel height; Described La Liao mechanism (9) comprises draws material motor and two rollers, described in draw material driven by motor two roller turn; Described two rollers are installed in parallel on the bearing block of mounting bracket (8) both sides; Described mounting bracket (8) is welded by shaped steel.
4. a kind of automation blanking system for silicon steel sheet stamping line according to claim 1-3 any one, it is characterized in that: adsorption system (2) comprises sucker (17), height buffer (16), transverse cross beams (18) and longitudinal crossbeam (19), described longitudinal crossbeam (19) and transverse cross beams (18) intersecting vertical arrange and are interconnected, described longitudinal crossbeam (19) is positioned at the below of transverse cross beams (18), described height buffer (16) is arranged on longitudinal crossbeam (19), described sucker (17) is arranged on height buffer (16) end, described longitudinal crossbeam (19) has multiple mounting hole, and described height buffer (16) is arranged in the mounting hole of longitudinal crossbeam (19), (18) are provided with T-slot to described transverse cross beams, and described longitudinal crossbeam (19) is arranged in the T-slot in transverse cross beams (18), described longitudinal crossbeam (19) is provided with T-slot nut to be stuck in described T-slot, described height buffer (16) is furnished with for cushioning the spring damping structure of vertical motion mechanism to workpiece grabbing power, described sucker (17) is positioned at the end of spring damping structure.
5. a kind of automation blanking system for silicon steel sheet stamping line according to claim 1-3 any one, it is characterized in that: described handling system (3) comprises horicontal motion mechanism and vertical motion mechanism, described vertical motion mechanism connects firmly on horicontal motion mechanism by screw; Described horicontal motion mechanism comprises Timing Belt module (34), crossbeam, support frame (35), power transmission shaft (314) and servo drive system (311), two Timing Belt modules (34) are installed in parallel in same level, and the adjacent two ends of two Timing Belt modules (34) connect respectively by crossbeam.
6. a kind of automation blanking system for silicon steel sheet stamping line according to claim 5, it is characterized in that: described Timing Belt module (34) includes Timing Belt and transmission case (312), synchronous pulley is equipped with in described transmission case (312) inside, and described synchronous pulley engages with described Timing Belt; Synchronous pulley in described two Timing Belt modules (34) upper gear box (312) is connected on same axle center by a power transmission shaft (314), and described power transmission shaft (314) is driven by servo drive system (311); Described power transmission shaft (314) is connected with a servo drive system (311); Described servo drive system (311) refers to the motor that driving power transmission shaft (314) rotates or decelerator; Described two transmission cases (312) are equipped with the support frame (35) doing rectilinear motion with transmission case (312) along Timing Belt module (34); Described support frame (35) is rectangular configuration.
7. a kind of automation blanking system for silicon steel sheet stamping line according to claim 6, it is characterized in that: described vertical motion mechanism comprises cylinder (36), the axis of guide (38), linear bearing (37), expansion sleeve (310) and end support framework (39), the described axis of guide (38) is vertically arranged, and be socketed in described linear bearing (37), do vertical direction for linearly bearing (37) to move back and forth, the upper end of the described axis of guide (38) is provided with limit damper (313), the described axis of guide (38) end is connected firmly by expansion sleeve (310) and end support framework (39), an axle connected firmly with end support framework (39) is equipped with at the center of described end support framework (39), described axle and cylinder (36) solid rod joint, the cylinder body of described cylinder (36) is connected on the support frame (35) of horicontal motion mechanism, and linear bearing (37) is symmetrical centered by cylinder (36) to be arranged on the support frame (35) of horicontal motion mechanism, the described axis of guide (38) is four, and described linear bearing (37) is four, described axle is by flake joint and cylinder (36) solid rod joint, the depth of parallelism of the many axis of guides (38) axis can be ensured by expansion sleeve (310).
8. a kind of automation blanking system for silicon steel sheet stamping line according to claim 1-3 any one, it is characterized in that: supporting mechanism (4) comprises horicontal motion mechanism and installs crossbeam (20), column (22), mounting base (25) and lowering or hoisting gear (24), the two ends that described horicontal motion mechanism installs crossbeam (20) are respectively arranged with column (22), described column (22) bottom is provided with for the mounting base (25) affixed with ground, the column (22) at guide rail beam two ends is connected with lowering or hoisting gear and crossbeam (23) is installed, the below that crossbeam (23) installed by described lowering or hoisting gear is provided with lowering or hoisting gear (24), the end of described lowering or hoisting gear (24) is equipped with roller (26).
9. a kind of automation blanking system for silicon steel sheet stamping line according to claim 8, is characterized in that: be welded with gusset (21) between described column (22) and guide rail beam; (21) have hole for hoist to described gusset; Described guide rail beam two ends are respectively provided with two root posts (22); Described mounting base (25) center has position, hole; The end of described lowering or hoisting gear (24) is equipped with the roller (26) realizing packing up and put down function; Movable support mechanism (4) is welded for shaped steel; Described guide rail beam is connected with two Timing Belt modules (34) of horicontal motion mechanism; Described supporting mechanism (4) is for supporting handling system (3) and adsorption system (2).
10. a kind of automation blanking system for silicon steel sheet stamping line according to claim 1-3 any one, it is characterized in that: palletizing system (5) comprises piling dolly, charging tray and guide rail, described piling dolly comprises scissor lift platform, described charging tray is placed on piling dolly upper surface, be provided with roller (26) bottom described piling dolly, roller (26) is arranged on guide rail.
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104801624A (en) * | 2015-05-13 | 2015-07-29 | 中国东方电气集团有限公司 | Automatic blanking system for silicon steel sheet stamping production line |
CN106001205A (en) * | 2016-07-27 | 2016-10-12 | 珠海市英利特机电工程有限公司 | Automatic feeding mechanism of bending machine |
CN106238976A (en) * | 2016-08-30 | 2016-12-21 | 昆山利玛赫自动化科技有限公司 | Silicon steel sheet welds with anti-fracture floating type track pay-off |
CN107309944A (en) * | 2017-07-27 | 2017-11-03 | 东莞市皇盈自动化设备有限公司 | A kind of waste material automatic separating apparatus |
CN107322684A (en) * | 2017-07-27 | 2017-11-07 | 东莞市皇盈自动化设备有限公司 | A kind of intelligence molding production equipment |
CN108328290A (en) * | 2018-01-30 | 2018-07-27 | 蚌埠市金盾电子有限公司 | A kind of material collecting device for containing sheet devices automatically for chip device |
CN108772502A (en) * | 2018-07-06 | 2018-11-09 | 辽宁光阳换热设备制造有限公司 | The feed device and feeding method of heat exchanger plate forming |
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2015
- 2015-05-13 CN CN201520304493.8U patent/CN204672851U/en not_active Withdrawn - After Issue
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104801624A (en) * | 2015-05-13 | 2015-07-29 | 中国东方电气集团有限公司 | Automatic blanking system for silicon steel sheet stamping production line |
CN106001205A (en) * | 2016-07-27 | 2016-10-12 | 珠海市英利特机电工程有限公司 | Automatic feeding mechanism of bending machine |
CN106238976A (en) * | 2016-08-30 | 2016-12-21 | 昆山利玛赫自动化科技有限公司 | Silicon steel sheet welds with anti-fracture floating type track pay-off |
CN106238976B (en) * | 2016-08-30 | 2018-01-23 | 昆山利玛赫自动化科技有限公司 | The anti-fracture floating type track feed device of silicon steel sheet welding |
CN107309944A (en) * | 2017-07-27 | 2017-11-03 | 东莞市皇盈自动化设备有限公司 | A kind of waste material automatic separating apparatus |
CN107322684A (en) * | 2017-07-27 | 2017-11-07 | 东莞市皇盈自动化设备有限公司 | A kind of intelligence molding production equipment |
CN107322684B (en) * | 2017-07-27 | 2023-04-28 | 东莞市皇盈自动化设备有限公司 | Intelligent mould pressing production equipment |
CN108328290A (en) * | 2018-01-30 | 2018-07-27 | 蚌埠市金盾电子有限公司 | A kind of material collecting device for containing sheet devices automatically for chip device |
CN108772502A (en) * | 2018-07-06 | 2018-11-09 | 辽宁光阳换热设备制造有限公司 | The feed device and feeding method of heat exchanger plate forming |
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