CN102059335A - Aggregate separation device and method thereof - Google Patents
Aggregate separation device and method thereof Download PDFInfo
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- CN102059335A CN102059335A CN2009101127992A CN200910112799A CN102059335A CN 102059335 A CN102059335 A CN 102059335A CN 2009101127992 A CN2009101127992 A CN 2009101127992A CN 200910112799 A CN200910112799 A CN 200910112799A CN 102059335 A CN102059335 A CN 102059335A
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- osteodiastasis
- removal mechanism
- moulded parts
- handle
- material handle
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- 238000000926 separation method Methods 0.000 title abstract description 9
- 239000000463 material Substances 0.000 claims abstract description 231
- 230000007246 mechanism Effects 0.000 claims abstract description 100
- 238000004512 die casting Methods 0.000 claims description 63
- 210000000988 bone and bone Anatomy 0.000 claims description 43
- 239000004615 ingredient Substances 0.000 claims description 18
- 238000003825 pressing Methods 0.000 claims description 11
- 238000003860 storage Methods 0.000 claims description 10
- 230000002093 peripheral effect Effects 0.000 claims description 3
- 230000008901 benefit Effects 0.000 abstract description 4
- 238000004080 punching Methods 0.000 abstract description 4
- 208000015943 Coeliac disease Diseases 0.000 description 7
- 238000000465 moulding Methods 0.000 description 5
- 238000004519 manufacturing process Methods 0.000 description 4
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- 230000001154 acute effect Effects 0.000 description 1
- 239000000109 continuous material Substances 0.000 description 1
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- RKTYLMNFRDHKIL-UHFFFAOYSA-N copper;5,10,15,20-tetraphenylporphyrin-22,24-diide Chemical compound [Cu+2].C1=CC(C(=C2C=CC([N-]2)=C(C=2C=CC=CC=2)C=2C=CC(N=2)=C(C=2C=CC=CC=2)C2=CC=C3[N-]2)C=2C=CC=CC=2)=NC1=C3C1=CC=CC=C1 RKTYLMNFRDHKIL-UHFFFAOYSA-N 0.000 description 1
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Abstract
The invention discloses an aggregate separation device and a method thereof. The aggregate separation device is used for performing aggregate separation on molded pieces with material handles, comprises a rack, a fixing piece and an aggregate separation mechanism and also comprises a material handle removing mechanism, wherein the material handle removing mechanism is fixed to the rack and comprises a punching part; the punching part comprises a driving element and a punch head; a punch rod is arranged on the punch head corresponding to the material handles of the molded pieces; and the material handle removing mechanism is used for removing the material handles of the molded pieces before performing the aggregate separation. The aggregate separation device has the advantages of simple structure and capacity of removing redundant material handles.
Description
Technical field
The present invention relates to a kind of material osteodiastasis devices and methods therefor, particularly a kind ofly expect the material osteodiastasis devices and methods therefor of osteodiastasis having the moulded parts of expecting handle.
Background technology
At present, exist product and running channel separation method in the multiple metal pattern product that can realize die cast, the method for promptly so-called material osteodiastasis.A kind of method relatively more commonly used is, a certain amount of metal crimp foundry goods concentrated place in the cylinder, utilize that the rotation of this cylinder makes between wherein the die casting, mutual extrusion, friction between die casting and the cylinder, make product on these die castings stressed from the fracture of material bone, separate.At last, utilize screening washer that the product that separates is screened from the bigger die casting running channel of the bodily form, promptly realized the material osteodiastasis.The patent No. of on September 1st, 1999 bulletin is that 98208458.7 Chinese utility model patent has promptly disclosed a kind of cylinder that is used to expect osteodiastasis.Yet this cylinder utilizes irregular mechanical force to expect osteodiastasis, mass defects such as product surface is scratched, product is bended often occur.Therefore, this method is not suitable for the product that surface quality is had relatively high expectations.
The patent No. of on September 15th, 1992 bulletin is that U.S.'s patent of invention of 5,147,658 has disclosed another kind of material osteodiastasis equipment.The end that the road junction is watered with the metal pattern product master of firm moulding by this equipment utilization travel mechanism rests in the die casting to seal a side of this die casting, waters road junction welding mutually with the master of next moulded parts, is connected as a single entity after the cooling.Like this, just can successively several moulded parts be connected to form one rectangular, thereby realize the orientation ordering of moulded parts in three dimensions.Then, utilize a separator with the product of moulding successively from this rectangular cut-out, can realize expecting osteodiastasis.Mutual welding between this equipment utilization material bone makes the material bone after the moulding be orderly arrangement in the space, so that utilize separator to expect osteodiastasis exactly, to avoid in the separation process direct extruding, the friction to product.But, to locate in order to realize the orderly arrangement of material bone in the space after the moulding, this equipment need be provided with the mutual welding of main running channel that complicated mould structure makes front and back material bone, and the process conditions of manufacture process are had relatively high expectations, and required auxiliary equipment is also more.This just makes the structure more complicated of this equipment, and use cost is higher.In addition, please refer to Fig. 7, it is depicted as a pull head die casting 60.This pull head die casting 60 comprises a major ingredient bone 62, some pull heads 64 and some material handles 66.These material handles 66 are positioned at the outside of pull head 64 afterbodys, and its effect is to get rid of the cold dirty molten metal of preceding stream that is mixed with gas when die casting, to improve the quality of these pull head 64 moulding.For this die casting 60,, obviously be difficult to remove the material handle 66 of these pull head 64 afterbodys if expect osteodiastasis with above-mentioned material osteodiastasis equipment.
Summary of the invention
In view of this, be necessary to provide a kind of simple in structure, the material osteodiastasis devices and methods therefor that can remove unnecessary material handle.
A kind of material osteodiastasis device, be used for expecting osteodiastasis to having the moulded parts of expecting handle, comprise frame, fixture and material osteodiastasis mechanism, also comprise material handle removal mechanism, this material handle removal mechanism is fixed on this frame, and this material handle removal mechanism comprises pressing part, and this pressing part comprises actuated element and drift, on this drift material handle that should moulded parts is provided with jumper bar, this material handle removal mechanism is used for before the material osteodiastasis material handle of this moulded parts being removed.
A kind of material osteodiastasis method utilizes material osteodiastasis device that the moulded parts of band material handle is expected osteodiastasis, may further comprise the steps: moulded parts is fixed on the fixture of this material osteodiastasis device; Utilization material handle removal mechanism is removed the material handle on this moulded parts; Then, utilize material osteodiastasis mechanism that this moulded parts is expected osteodiastasis.
Compared with prior art, material osteodiastasis device of the present invention is by being provided with this material handle removal mechanism and material osteodiastasis mechanism on this frame, the material handle removal that can utilize this material handle removal mechanism to be connected with pull head on this moulded parts before the material osteodiastasis.Because this material handle removal mechanism only is made up of actuated element and drift, simple in structure, manufacturing cost is lower.Remove material bone mode with cylinder compared to existing technology, the surface of product is collided during material osteodiastasis device busy of the present invention, rubs, the surface quality of products obtained therefrom is higher.This material osteodiastasis method utilizes this material handle removal mechanism before the material osteodiastasis material handle on the moulded parts to be removed.
Description of drawings
Fig. 1 is the stereogram of material osteodiastasis device first embodiment of the present invention.
Fig. 2 is the stereogram after material osteodiastasis device shown in Figure 1 saves material storage dish.
Fig. 3 is the stereogram of material osteodiastasis device intermediate station shown in Figure 1.
Fig. 4 is the three-dimensional exploded view of fixture in the material osteodiastasis device shown in Figure 1.
Fig. 5 is the stereogram of material osteodiastasis device material handle removal mechanism shown in Figure 1 (saving material handle surge drum).
Fig. 6 is the stereogram of the drift of material handle removal mechanism in the material osteodiastasis device shown in Figure 1.
Fig. 7 is the stereogram of pull head die casting pending among the present invention.
Fig. 8 is the stereogram before the work of material handle removal mechanism in the material osteodiastasis device shown in Figure 1.
Fig. 9 is the fixing stereogram during the pull head die casting of material handle removal mechanism in the material osteodiastasis device shown in Figure 1.
Figure 10 is the schematic diagram when material handle removal mechanism is removed the material handle in the material osteodiastasis device shown in Figure 1.
Figure 11 is the schematic perspective view when material osteodiastasis mechanism works in the material osteodiastasis device shown in Figure 1.
Figure 12 is the schematic perspective view in material bone ejecting mechanism when work in the material osteodiastasis device shown in Figure 1.
Figure 13 is the stereogram of material handle removal mechanism among material osteodiastasis device second embodiment of the present invention.
Figure 14 is the stereogram of pulling-on piece die casting pending among the present invention.
Figure 15 is a material handle removal mechanism stereogram among material osteodiastasis device the 3rd embodiment of the present invention.
Figure 16 is the front view of material handle removal mechanism shown in Figure 15.
Figure 17 is the stereogram of material handle removal mechanism shown in Figure 15 in another angle.
The explanation of Reference numeral:
100 material osteodiastasis devices 364,364b backstay
10 frames, 38 material handle surge drums
12 tables, 40 material osteodiastasis mechanisms
14 material storage dishes, 41 columns
142 joint pins 42 thrust portion
144 disk bodies, 422 stamping cylinders
146 outlets, 424 staking punch
20 turntables 4242 are towards piece
4244 perforation of 22 disks
24 rotating shafts, 44 location divisions
26 fixtures, 442 positioning cylinders
262 fixed blocks, 444 backstays
2622 containing holes, 46 material bone surge drums
2624 long locating slot 50 material bone ejecting mechanisms
2626 short locating slot 51 columns
264 Connection Blocks, 52 guide parts
2642 resigning holes, 54 ejection parts
30,30a, 30b material handle removal mechanism 542 ejects cylinder
31 columns, 544 push rods
32,32a, 32b pressing part 60 foundry goods
322 stamping cylinders, 62 major ingredient bones
324,324a, 324b drift 621 sprues
3242,3242a, 3242b jumper bar 6212 shrinkage pools
3244,3244b perforation 623 long running channels
3246 towards piece 625 short running channels
34, the road junction is watered in 34a support portion 627
342 promote cylinder 64 pull heads
344 supporting members, 66 material handles
3442 cross recesses, 70 foundry goods
346 support columns, 72 pulling-on pieces
348 gripper shoes, 74 material handles
36 location divisions, 76 major ingredient bones
362,362b positioning cylinder
The specific embodiment
Fig. 1 is the stereogram of material osteodiastasis device first embodiment of the present invention.This material osteodiastasis device 100 is used for pull head 64 (as shown in Figure 7) is separated from this pull head die casting 60.This material osteodiastasis device 100 comprises a frame 10, a turntable 20, a material handle removal mechanism 30, a material osteodiastasis mechanism 40, a material bone ejecting mechanism 50 and a control system (figure does not show).This frame 10 is formed by tetragonal table 12 of four upright supports.This turntable 20, material handle removal mechanism 30, material osteodiastasis mechanism 40 and this material bone ejecting mechanism 50 all are arranged on this table 12.
Please refer to Fig. 7, the major ingredient bone 62 of this pull head die casting 60 comprises that long running channel 623, the one short running channel 625 of a sprue 621, one and four water road junction 627.This long running channel 623 is vertical mutually with this weak point running channel 625 and be positioned at the top of this sprue 621.The both sides of this long running channel 623 are being alternately distributed two pull heads 64 respectively, and these pull heads 64 water road junction 627 by these respectively and are connected with this long running channel 623.The bottom of these major ingredient bone 62 sprues 621 is provided with a shrinkage pool 6212.
Please refer to Fig. 1 to Fig. 3, this turntable 20 comprises a disk 22, a rotating shaft 24 and six fixtures 26, and this disk 22 is fixed on the top of this rotating shaft 24 and concentric with this rotating shaft 24.The bottom of this rotating shaft 24 is connected on the table 12 of this frame 10 (as shown in Figure 2) pivotly, and the bottom of this rotating shaft 24 is connected with a motor (figure does not show), is rotated by this driven by motor.These fixtures 26 are separately fixed at six position of halving places of these disk 22 outer peripheral edges.Please refer to Fig. 4, each fixture 26 comprises a fixed block 262 and a connecting seat 264.This fixture 26 is used to grip this pull head die casting 60.One end of this Connection Block 264 is connected with this disk 22, and this fixed block 262 removably is assembled on this Connection Block 264.During work, by changing difform fixed block 262, this fixture 26 can be realized gripping difform die casting.The middle part of the fixed block 262 of this fixture 26 is run through sprue 621 that should pull head die casting 60 and is provided with a containing hole 2622 accommodating this sprue 621, and the containing hole 2622 that 264 pairs of this Connection Blocks should fixed block 262 is provided with a resigning hole 2642.The end face of this fixed block 262 is respectively equipped with a long locating slot 2624 and a short locating slot 2626 to long running channel 623 and short running channel 625 that should pull head die casting 60.This long locating slot 2624 and this weak point locating slot 2626 are respectively applied for the long running channel 623 and the short running channel 625 (as shown in Figure 8) of accommodating this pull head die casting 60.
Please refer to Fig. 1 and Fig. 2, also be provided with a material storage dish 14 on the table 12 of this frame 10, this material storage dish 14 comprises four joint pins 142 and a disk body 144.The bottom of described joint pin 142 is fixed on this table 12, and its top is connected with this disk body 144, makes this disk body 144 be positioned at the top of two adjacent fixtures 26 of this turntable 20.This disk body 144 is provided with an outlet 146, and these outlet 146 corresponding adjacent in the counterclockwise direction with this two fixture 26 fixtures 26 are provided with.This material storage dish 14 is used to store this pull head die casting 60.In the clockwise direction, this material handle removal mechanism 30, material osteodiastasis mechanism 40 and this material bone ejecting mechanism 50 are provided with (as shown in Figures 1 and 2) to other three adjacent fixtures 26 that should turntable 20 successively.
Please refer to Fig. 5, this material handle removal mechanism 30 comprises a column 31, a pressing part 32, a support portion 34, a location division 36 and a material handle surge drum 38 (as shown in Figure 2).This column 31 is fixed on this table 12, and this pressing part 32 and this location division 36 are fixed on the top of this column 31.This pressing part 32 comprises a stamping cylinder 322 and a drift 324.This stamping cylinder 322 drives this drift 324 and pumps.This drift 324 extends downwards and is provided with four pairs of jumper bars 3242, and the material handle 66 of 3242 pairs of every pair of jumper bars pull head 64 both sides on should pull head die casting 60 is provided with (as shown in Figure 8), and these jumper bars 3242 are made by having flexible plastics.The middle part of this drift 324 run through be provided with one the perforation 3244 (as shown in Figure 6).This location division 36 comprises a location cylinder 362 and an a positioning rod 364, and this positioning cylinder 362 is adjacent with this stamping cylinder 322, and this positioning cylinder 362 drives this backstay 364 and pumps.This backstay 364 is arranged in the perforation 3244 of this drift 324 during assembling.34 pairs of this support portions should pull head die casting 60 pull head 64 be provided with.This support portion 34 comprises that one promotes cylinder 342, a supporting member 344 and four support columns 346.This promotion cylinder 342 is fixed on this table 12 and can promotes this supporting member 344 and pumps.These support columns 346 are arranged on the top of this supporting member 344,346 pairs of these support columns pull head 64 on should pull head die casting 60 is provided with, be used for when removing material handle 66, supporting these pull heads 64 (as shown in figure 10), prevent that these pull heads 64 are from these long running channel 623 fractures.The top of this supporting member 344 is provided with a cross recess 3442 to this Connection Block 264, and this cross recess 3442 is used to accommodate this Connection Block 264.During assembling, this drift 324 is positioned at the top of the fixture 26 on this disk 22, and this support portion 34 is positioned at the below of this fixture 26.This material handle surge drum 38 is used to collect the material handle 66 that drops from this pull head die casting 60.
Please refer to Fig. 2 and Figure 11, this material osteodiastasis mechanism 40 comprises that a column 41, thrusts portion 42, a location division 44 and a pull head surge drum 46 (as shown in Figure 2).This column 41 is fixed on this table 12, and this thrusts the top that portion 42 and this location division 44 are fixed on this column 41.This thrusts portion 42 and comprises a stamping cylinder 422 and a staking punch 424 (as shown in figure 11).This stamping cylinder 422 drives this staking punch 424 and pumps.The both sides of these staking punch 424 bottoms are extended downwards respectively and are provided with two towards piece 4242, and each is provided with towards 4242 pairs of the pieces pull head 64 on should pull head die casting 60, and these are made by having flexible plastics towards piece 4242.The middle part of this staking punch 424 run through be provided with one the perforation 4244.This location division 44 comprises a location cylinder 442 and an a positioning rod 444, and this positioning cylinder 442 drives this backstay 444 and pumps.This backstay 444 is arranged in the perforation 4244 of this staking punch 424 during assembling, and this staking punch 424 is positioned at the top of the fixture 26 on this disk 22.This pull head surge drum 46 is positioned under this staking punch 424, is used to collect the pull head 64 that drops from this pull head die casting 60.
Please refer to Figure 12, this material bone ejecting mechanism 50 comprises a column 51, a guide part 52 and an ejection part 54.This guide part 52 is semi-cylindrical, and this guide part 52 is fixed on the upper end of this column 51 obliquely, and its bottom surface is horizontal by an acute angle.This ejection part 54 comprises that one ejects a cylinder 542 and a push rod 544.This push rod 544 is a cylindrical rod-like structure, and the resigning hole 2642 that 544 pairs of this push rods should fixture 26 is provided with.During work, this ejects on cylinder 542 these push rods 544 of driving and moves, the resigning hole 2642 that this push rod 544 passes this fixture 26 upwards ejects this fixture 26 with the major ingredient bone 62 of this pull head die casting 60, impinges upon after this major ingredient bone 62 is ejected to change the place that direction is fallen appointment on this guide part 52.
Please refer to Fig. 1 to Figure 10, the material osteodiastasis method of this material osteodiastasis device 100 is, at first, some pull head die castings 60 concentrated are placed on this material storage dish 14; Then, manually a pull head die casting 60 is assembled on this fixture 26 near these material storage dish 14 outlets 146, the containing hole 2622 of this fixed block 262 is used to accommodate the sprue 621 of this pull head die casting 60, and the long locating slot 2624 of this fixed block 262 and short locating slot 2626 are used for gripping respectively the long running channel 623 and the short running channel 625 of this pull head die casting 60; After assembling, the button of this operating system of manual operation, this operating system will by this turntable 20 of this driven by motor turn clockwise 60 the degree, make this fixture 26 that is assembled with pull head die casting 60 move to the below of this material storage dish 14, and another adjacent fixture 26 moves to outlet 146 places near this material storage dish 14, like this, these turntable 20 every rotations once all need this is exported fixture 26 these pull head die castings 60 of assembling at 146 places near this.When this control system of manual operation was rotated in place this turntable 20, this material handle removal mechanism 30, material osteodiastasis mechanism 40, material bone ejecting mechanism 50 will be started working simultaneously, respectively the pull head die casting 60 on each self-corresponding fixture 26 are carried out corresponding operating.This material handle removal mechanism 30 is used to remove the material handle 66 of the pull head die casting 60 on the fixture 26 that is positioned under this drift 324; This material osteodiastasis mechanism 40 is used for expecting osteodiastasis to removing this pull head die casting 60 of expecting behind the handle 66, removes these pull heads 64; The pull head die casting 60 that this material bone ejecting mechanism 50 is used for having removed pull head 64 ejects from this fixture 26.
Please refer to Fig. 8 to Figure 10, during these material handle removal mechanism 30 work, the fixture 26 that complete pull head die casting 60 at first is housed is moved between this drift 324 and this support portion 34 by this turntable 20, this positioning cylinder 362 drives this backstay 364 and moves down, be connected to the shrinkage pool 6212 (as shown in Figure 9) of this pull head die casting 60 after making this backstay 364 pass the perforation 3244 of this drift 324, thereby this pull head die casting 60 is clamped on this fixture 26.Then, the promotion cylinder 342 of this support portion 34 drives on this supporting member 344 and moves, and the support column 346 of this support portion 34 contacts with the bottom surface of these pull heads 64 respectively, to support these pull heads 64.And then, this stamping cylinder 322 drives this drift 324 and moves down, and the jumper bar 3242 on this drift 324 is hit the material handle 66 relative with it down (as shown in figure 10) respectively.This material handle 66 falls the back and slips in this material handle surge drum 38 along this supporting member 344.At last, this promotion cylinder 342 drives this supporting member and is moved back into original position 344 times, and this positioning cylinder 362, stamping cylinder 322 drive respectively on this backstay 364 and this drift 324 and be moved back into original position.
Please refer to Figure 11, when this material osteodiastasis mechanism 40 worked, this positioning cylinder 442 drove these backstays 444 and moves down, and made these backstay 444 compactings live the pull head die casting 60 that this has got rid of material handle 66.Then, this stamping cylinder 422 drives these staking punch 424 and moves down, and pull head 64 contacts and the moment that piece 4242 respectively will be relative with it of dashing of this staking punch 424 hits it get off down from this major ingredient bone 62.The pull head 64 that falls is vertically fallen in the pull head surge drum 46 of these material osteodiastasis mechanism 40 belows.Afterwards, this positioning cylinder 442, stamping cylinder 422 drive respectively on this backstay 444 and this staking punch 424 and are moved back into original position.
Please refer to Figure 12, when these material bone ejecting mechanism 50 work, this ejects cylinder 542 and drives on these push rods 544 and move, and resigning hole 2642 and this containing hole 2622 backs that this push rod 544 moved and penetrated the holder 264 of this fixture 26 on fast contact with this major ingredient bone 62 and this major ingredient bone 62 is upwards ejected.Striking these guide part 52 back change directions after this major ingredient bone 62 is ejected drops in the waste material aggregate tube (figure does not show).
By above narration as can be known, material osteodiastasis device 100 of the present invention is by being provided with material handle 66 removals that this material handle removal mechanism 30 and material osteodiastasis mechanism 40 can utilize this material handle removal mechanism 30 to be connected with pull head 64 on this pull head die casting 60 before the material osteodiastasis on this frame 10.And intermediate roll is removed material bone mode compared to existing technology, and material osteodiastasis device 100 of the present invention can not make the surface of pull head 64 be collided when work, rub, and the surface quality of gained pull head 64 is higher.In addition, by this turntable 20 is set on this frame 10, this material handle removal mechanism 30 and this material osteodiastasis mechanism 40 are provided with separately respectively and synchronous working, simplify the structure on the one hand, save the working time of removing the material bone on the other hand, had simple in structure, operating efficiency advantage of higher.This material osteodiastasis device 100 can install to this major ingredient bone 62, pull head 64, material handle in the different aggregate tubes in 66 minutes, had reduced the labour, had improved production efficiency.For the die casting of different structure,, just can realize the removal of material bone, thereby make this material osteodiastasis device 100 have scope of application advantage widely as long as change corresponding with it fixture and drift.Should be made of plastics towards piece 4242, and make it when this pull head 64 of punching press, can not scratch the surface of this pull head 64.
Understandable, convenient for renewal part, this Connection Block 264 is set on this material osteodiastasis device 100 is used to lay and fixes this fixed block 262, in the actual production, if the same can the reaching of fixture 26 one design removed material bone purpose.Certainly, for the die casting of structure more complicated, a plurality of material handles can be set remove mechanism, gradation will be expected the handle removal.The effect of the support portion 34 of this material bone removal mechanism 30 is to prevent that pull head 64 is stressed fractures from this major ingredient bone 62 when removing material handle 66, when pull head 64 is connected with major ingredient bone 62 than by force the time, also this support portion 34 can be set.In addition, the material handle of some die casting is more firm with being connected of product, and the mode that fractures with punching press is difficult for they are removed, and at this moment, the jumper bar 3242 of this material handle removal mechanism 30 can be arranged to die-cut cutter, utilizes die-cut cutter will expect that handle cuts off from product.This stamping cylinder 322,422 also can adopt other actuated elements, as motor etc.The setting of this material handle removal mechanism 30 is in order to realize this pull head die casting 60 substeps to be removed the material bone, that is to say, the scope that this material handle removal mechanism 30 is removed not only is confined to the directly continuous material handle 66 of this pull head 64, and other forms of material handle or running channel clout also can be removed by this material handle removal mechanism 30.In addition, the effect of this location division 36 and location division 44 is when work that this pull head die casting 60 is fixing, under these fixture 26 fixing more firm situations, this location division 36,44 can be set also.
Please refer to Figure 13, it is depicted as the stereogram of material handle removal mechanism 30a among material osteodiastasis device second embodiment of the present invention.This material handle removal mechanism 30a is used to remove the material handle 74 on the pulling-on piece die casting 70 (as shown in figure 14).This pulling-on piece die casting 70 comprises four pulling-on pieces 72, four material handles 74 and a major ingredient bone 76.One side of these pulling-on pieces 72 is connected with this major ingredient bone 76 respectively, 74 outsides that are distributed in these pulling-on pieces 72 of these four material handles, and each material handle 74 all is connected with two pulling-on pieces 72.First difference of material handle removal mechanism 30 is in this material handle removal mechanism 30a and the first embodiment of the invention, this material handle removal mechanism 30a pressing part 32a material handle 74 that should pulling-on piece die casting 70 evenly is provided with eight jumper bar 3242a on the periphery of drift 324a.Second difference of this material handle removal mechanism 30a and first embodiment of the invention is that the corresponding pulling-on piece 72 of this material handle removal mechanism 30a support portion 34a is provided with four gripper shoes 348, and each gripper shoe 348 is all directly alignd with a pulling-on piece 72 heavily fortified points.During work, earlier this pulling-on piece die casting 70 is fixed on the fixture (figure does not show), then, utilize this promotion cylinder 342 to drive and support this pulling-on piece 72 after this gripper shoe 348 rises, making this stamping cylinder 322 drive this drift 324a moves down, utilize the jumper bar 3242a of these drifts 324a that these material handles 74 are hit down from this pulling-on piece die casting 70, in this process, this gripper shoe 348 supports this pulling-on piece 72 and prevents that this pulling-on piece 72 is stressed from these major ingredient bone 76 fractures.By above narration as can be known, material osteodiastasis device of the present invention can be realized the material osteodiastasis to the die casting of difformity, structure by the shape of the drift of expecting the handle removal mechanism is set.
Please refer to Figure 15, it is depicted as the stereogram of material handle removal mechanism 30b among material osteodiastasis device the 3rd embodiment of the present invention.The difference of this material handle removal mechanism 30b and second embodiment of the invention is that the pressing part 32b of this material handle removal mechanism 30b is to being provided with four towards piece 3246 (as shown in figure 17) by pulling-on piece 72 below this drift 324b.The bottom of this jumper bar 3242b is lower than this towards piece 3246 (as shown in figure 16).By these being set towards piece 3246, this material handle removal mechanism 30b can not only remove the material handle 74 of this pulling-on piece die casting 70, and can realize the material osteodiastasis of these pulling-on pieces 72.During work, at first, this positioning cylinder 362b drives this backstay 364b and moves down, and this pulling-on piece die casting 70 (figure does not show) was lived in compacting after this backstay 364b passed the perforation 3244b of this drift 324b.Then, this stamping cylinder 322 drives this jumper bar 3242b and should move down towards piece 3246, because the bottom of this jumper bar 3242b is lower than this towards piece 3246, this jumper bar 3242b should expect at first that handle 74 hit (scheming not show) down.This drift 324b continues to move down, and the piece 3246 that dashes on this drift 324b will contact with this pulling-on piece 72 and this pulling-on piece 72 be hit down.
By above narration as can be known, by on this material handle removal mechanism 30b, setting up this towards piece 3246, this material handle removal mechanism 30b can remove material handle 74 to this pulling-on piece die casting 70, can expect osteodiastasis to this pulling-on piece die casting 70 again, make this material osteodiastasis device save the setting of material osteodiastasis mechanism, have advantage of simple structure.And owing to saved the setting of material osteodiastasis mechanism, this material osteodiastasis device can utilize turntable to carry out pulling-on piece die casting 70 and transfer, and directly manually this pulling-on piece die casting 70 is fixed to the location that can finish this pulling-on piece die casting 70 on the fixture.
Obviously, those skilled in the art can carry out various changes and modification to the embodiment among the present invention and not break away from the spirit and scope of the present invention.Like this, if these in the embodiment of the invention are revised and modification belongs to claim of the present invention and the scope that is equal within, then the embodiment among the present invention also is intended to comprise these changes and modification interior.
Claims (12)
1. expect the osteodiastasis device for one kind, be used for expecting osteodiastasis to having the moulded parts of expecting handle, comprise frame, fixture and material osteodiastasis mechanism, it is characterized in that also comprise material handle removal mechanism, this material handle removal mechanism is fixed on this frame, this material handle removal mechanism comprises pressing part, this pressing part comprises actuated element and drift, on this drift material handle that should moulded parts is provided with jumper bar, and this material handle removal mechanism is used for before the material osteodiastasis material handle of this moulded parts being removed.
2. material osteodiastasis device according to claim 1 is characterized in that, this material handle removal mechanism also comprises the support portion, and this support portion comprises actuated element and supporting member, and this supporting member is provided with support column to product that should moulded parts.
3. material osteodiastasis device according to claim 1, it is characterized in that this material handle removal mechanism also comprises the location division, this location division comprises actuated element and backstay, this backstay is provided with major ingredient bone that should moulded parts, and the drift of this pressing part is to being provided with perforation by backstay.
4. material osteodiastasis device according to claim 1, it is characterized in that, this fixture comprises fixed block and holder, the middle part of this fixed block is provided with containing hole to sprue that should the pull head die casting, the end face of this fixed block is provided with locating slot to main running channel that should the pull head die casting, this Connection Block is provided with resigning hole to containing hole that should fixed block, and this fixture removably is assembled on this holder.
5. material osteodiastasis device according to claim 1, it is characterized in that, this material osteodiastasis mechanism comprises the portion of thrusting, this portion of thrusting is fixed on this frame, this portion of thrusting comprises actuated element and staking punch, the jumper bar that on this staking punch product that should moulded parts is provided with, described jumper bar is made by flexible material.
6. material osteodiastasis device according to claim 1 is characterized in that, also comprises material bone ejecting mechanism, and this material bone ejecting mechanism comprises column, guide part and ejection part, and this guide part is fixed on the upper end of this column obliquely.
7. according to each described material osteodiastasis device in the claim 1 to 6, it is characterized in that, also comprise turntable, this turntable comprises disk and rotating shaft, this rotating shaft is pivotable to be connected on this frame, the plurality of fixed part is separately positioned on these disk outer peripheral edges, respectively corresponding two the adjacent fixture settings of this material osteodiastasis mechanism and this material handle removal mechanism.
8. material osteodiastasis device according to claim 7 is characterized in that the outer peripheral edges of the disk of this turntable are provided with six fixtures, and this frame is provided with material storage dish, and this frame is respectively equipped with loading head to expecting osteodiastasis mechanism and this material handle removal mechanism.
9. material osteodiastasis device according to claim 1, it is characterized in that, this material osteodiastasis mechanism is some towards piece, describedly is fixed on the bottom of this drift and to the product setting on should moulded parts, described bottom towards piece is higher than the bottom of this drift upper plunger towards piece.
10. a material osteodiastasis method utilizes material osteodiastasis device that the moulded parts of band material handle is expected osteodiastasis, may further comprise the steps: moulded parts is fixed on the fixture of this material osteodiastasis device; Utilization material handle removal mechanism is removed the material handle on this moulded parts; Then, utilize material osteodiastasis mechanism that this moulded parts is expected osteodiastasis.
11. material osteodiastasis method according to claim 10, it is characterized in that, this material osteodiastasis device also comprises turntable, and this turntable is provided with the plurality of fixed part, and this material handle removal mechanism and this material osteodiastasis mechanism handle the moulded parts on the described fixture simultaneously.
12. material osteodiastasis method according to claim 10 is characterized in that, this material handle removal mechanism also comprises the support portion, and this support portion is used for supporting the product of moulded parts when removing the material bone.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200910112799 CN102059335B (en) | 2009-11-16 | 2009-11-16 | Aggregate separation device and method thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200910112799 CN102059335B (en) | 2009-11-16 | 2009-11-16 | Aggregate separation device and method thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102059335A true CN102059335A (en) | 2011-05-18 |
| CN102059335B CN102059335B (en) | 2013-03-20 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200910112799 Expired - Fee Related CN102059335B (en) | 2009-11-16 | 2009-11-16 | Aggregate separation device and method thereof |
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| Country | Link |
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| CN (1) | CN102059335B (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104495300A (en) * | 2014-12-16 | 2015-04-08 | 重庆强达力科技发展有限公司 | Quantitative conveying device |
| CN105312530A (en) * | 2014-07-18 | 2016-02-10 | 泉州卓恒自动化科技有限公司 | Automatic die-casting button blank dispensing and returning production line |
Family Cites Families (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH02280954A (en) * | 1989-04-20 | 1990-11-16 | Yoshida Kogyo Kk <Ykk> | Continuous injection molding method and apparatus thereof |
| CN2472863Y (en) * | 2001-02-19 | 2002-01-23 | 王穗 | Mechanical cleaning and removing device for press casted blank |
| CN1248809C (en) * | 2002-03-20 | 2006-04-05 | 鸿富锦精密工业(深圳)有限公司 | Method for removing wastes of metal casting productions and molding tools |
| CN2728683Y (en) * | 2004-10-15 | 2005-09-28 | 盛伯康 | Pipe fitting blanking punching device |
| CN1759969A (en) * | 2004-10-15 | 2006-04-19 | 盛伯康 | Method for blanking punched pipefitting |
| CN101421066A (en) * | 2006-02-20 | 2009-04-29 | 高级压力机自动装置公司 | Process and apparatus for scoring and breaking ingots |
-
2009
- 2009-11-16 CN CN 200910112799 patent/CN102059335B/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105312530A (en) * | 2014-07-18 | 2016-02-10 | 泉州卓恒自动化科技有限公司 | Automatic die-casting button blank dispensing and returning production line |
| CN104495300A (en) * | 2014-12-16 | 2015-04-08 | 重庆强达力科技发展有限公司 | Quantitative conveying device |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102059335B (en) | 2013-03-20 |
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Effective date of registration: 20180412 Address after: 362200 No. 18, Binxi Road, Hua Hai village, Shen Hu Town, Jinjiang City, Quanzhou, Fujian Patentee after: Fujian xunxing zipper Polytron Technologies Inc Address before: Shenhu town Jinjiang city Fujian province 362246 pit village road No. 90 East Fujian SBS zipper Polytron Technologies Inc Patentee before: FUJIAN SBS ZIPPER SCIENCE & TECHNOLOGY Co.,Ltd. |
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