CN103111531A - Automatic terminal support riveting copper ingot device and riveting copper ingot method thereof - Google Patents
Automatic terminal support riveting copper ingot device and riveting copper ingot method thereof Download PDFInfo
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- CN103111531A CN103111531A CN2013100385974A CN201310038597A CN103111531A CN 103111531 A CN103111531 A CN 103111531A CN 2013100385974 A CN2013100385974 A CN 2013100385974A CN 201310038597 A CN201310038597 A CN 201310038597A CN 103111531 A CN103111531 A CN 103111531A
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- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 title claims abstract description 282
- 229910052802 copper Inorganic materials 0.000 title claims abstract description 282
- 239000010949 copper Substances 0.000 title claims abstract description 282
- 238000000034 method Methods 0.000 title claims abstract description 11
- 238000004080 punching Methods 0.000 claims abstract description 20
- 235000008331 Pinus X rigitaeda Nutrition 0.000 claims description 5
- 235000011613 Pinus brutia Nutrition 0.000 claims description 5
- 241000018646 Pinus brutia Species 0.000 claims description 5
- 230000000630 rising effect Effects 0.000 claims description 3
- 230000008602 contraction Effects 0.000 claims description 2
- 238000003754 machining Methods 0.000 abstract 1
- 239000007787 solid Substances 0.000 abstract 1
- 238000005516 engineering process Methods 0.000 description 3
- 239000000243 solution Substances 0.000 description 3
- 230000002950 deficient Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 238000003723 Smelting Methods 0.000 description 1
- 239000000835 fiber Substances 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 230000001737 promoting effect Effects 0.000 description 1
- 238000003908 quality control method Methods 0.000 description 1
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Abstract
The invention discloses an automatic terminal support riveting copper ingot device and a riveting copper ingot method thereof. The automatic terminal support riveting copper ingot device comprises an upper die seat, a lower die seat, a punching riveting structure, a copper ingot push-up structure and a copper ingot feeding structure, wherein the punching riveting structure and the copper ingot push-up structure are arranged between the upper die seat and the lower die seat, the punching riveting structure is connected with the upper die seat, the copper ingot push-up structure is connected with the lower die seat, a terminal support is arranged on the copper ingot push-up structure, and the copper ingot feeding structure sends copper ingot positioning to the copper ingot push-up structure corresponding to an upper copper ingot hole position of the terminal support. The riveting copper ingot device comprises the punching riveting structure, the copper ingot push-up structure and the copper ingot feeding structure, wherein the punching riveting structure, the copper ingot push-up structure and the copper ingot feeding structure are combined integrally. The riveting copper ingot device can automatically finish working of copper ingots sending, riveting copper ingot punching and the like in a streamlined mode, is high in automation degree, and good in machining precision, saves labor, improves efficiency and reduces reject ratio of a product. An improved copper ingot is suitable for being applied to the riveting copper ingot device, and combination of the improved copper ingot and the terminal support is solid and, and not easy to drop off.
Description
[technical field]
The present invention relates to the device of terminal support riveting copper ingot, relate in particular to a kind of high-power automation to the device of terminal support riveting copper ingot and use this device to carry out the method for riveting copper ingot.
[background technology]
Has a copper ingot hole on terminal support, copper ingot need to be aimed at the copper ingot hole, then in the submounts of riveting inlet side, now in industry common way is, at first terminal support is gone out the copper ingot hole, and then manually copper ingot is placed on preprepared copper ingot smelting tool, again the copper ingot riveting on terminal support, carry out again plastic-injection, like this processing and riveting copper ingot process is loaded down with trivial details, needs a plurality of steps, inefficiency, production capacity are few, and artificial accurate positioning is not high, the quality control precision is low, fraction defective is high, causes into the product cost high.
[summary of the invention]
The present invention is directed to that above situation has proposed a kind ofly to simplify production routine, reduces working link, the device of automation terminal support riveting copper ingot and the method for carrying out the riveting copper ingot with this device continuously.
Automation terminal support riveting copper ingot device involved in the present invention, described automation terminal support riveting copper ingot device comprises upper bolster, die shoe, rush on riveting knot structure, copper ingot selection structure and send the copper ingot structure, rush that on riveting knot structure and copper ingot, selection structure is arranged between upper bolster and die shoe, rushing the riveting knot structure is connected with upper bolster, and on copper ingot, selection structure is connected with die shoe, terminal support is placed on copper ingot on selection structure, deliver to selection structure on copper ingot, copper ingot hole site on the corresponding terminal support and send the copper ingot structure that copper ingot is located.
The described riveting knot structure that rushes comprises stacked upper die plate, clamping plate, takes off backing plate, stripper plate, and runs through cant spare and the punching pin of aforementioned four laminate equipment structures; Described four laminate equipment structures are fixed on upper bolster by screw locking, with the upper die plate upper bolster of directly fitting, extend on copper ingot in selection structure and cant spare runs through four laminate equipment structures, are pressed on terminal support and punching pin runs through four laminate equipment structures.
On described copper ingot, selection structure comprises counterdie backing plate, lower bolster, slide block, slide block return unit, copper ingot pushing block, copper ingot pushing block return unit, and described counterdie backing plate and lower bolster are fixed on die shoe by screw, and following die-cushion plate directly is fitted on die shoe; Described copper ingot pushing block is arranged in lower bolster in the movable mode in up and down, is provided with the slide block of copper ingot pushing block return unit and promotion copper ingot pushing block below the copper ingot pushing block; Described slide block is arranged on the upper surface of counterdie backing plate, and in the horizontal slip of counterdie backing plate upper surface, slide block one end promotes the copper ingot pushing block, and the other end of slide block is provided with slide block return unit and cant spare, and described cant spare presses down the promotion slide block and moves.
Described copper ingot pushing block has end face and bottom surface, and its end face is towards rushing the riveting knot structure, and the bottom surface is opposite to slide block, and described end face is provided with the copper ingot centring ring, and described copper ingot centring ring protrudes from end face, and copper ingot centring ring internal diameter and copper ingot external diameter are suitable; Described bottom surface is the inclined-plane, and slide block slides to force on the copper ingot pushing block along the inclined-plane and pushes away, and the copper ingot pushing block return unit that the below, bottom surface arranges comprises an extension spring, in the situation that without External force interference, contraction resets the copper ingot pushing block.
Described slide block one end has the inclined-plane that promotes the copper ingot pushing block, and the other end has the inclined-plane that is subject to the promotion of cant spare, and an end that promotes at cant spare is provided with the slide block return unit, and described slide block return unit comprises an extension spring.
Described copper ingot structure involving vibrations dish, guide groove, cylinder and the air gun of sending, has the bent road that spirals in described vibrating disk, this bent road width that spirals only holds a copper ingot and slides, the end in bent road of spiraling on vibrating disk is provided with an outlet, this outlet is connected with guide groove, and guide groove extends to the copper ingot centring ring of copper ingot pushing block, by guide groove, copper ingot is located to be delivered on the copper ingot pushing block; Be provided with cylinder in the vibrating disk exit, and be provided with air gun with the outlet connecting portion on guide groove.
A kind of copper ingot comprises that the screens end of upper end, lower end and connection lower end and lower end, upper end are corresponding riveting inlet side submounts parts, is conical, and its top end diameter is little, and the bottom diameter is large; The screens end is that diameter is less than the top and bottom bayonet arrangement.
A kind of method of automation terminal support riveting copper ingot, draw together following steps:
The copper ingot of remain to be rushed riveting is put into vibrating disk, and the vibration of vibrating disk allows copper ingot sequentially individually enter into the bent road that spirals in vibrating disk, and is spiraling Qu Daozhong copper ingot ordered arrangement successively; Control copper ingot at the cylinder in vibrating disk exit and enter into according to the order of sequence flexible guide groove, the air gun with the setting of outlet connecting portion on guide groove blows out Compressed Gas in guide groove, forces to enter that in guide groove, copper ingot slides, and copper ingot is delivered on the copper ingot pushing block by guide groove;
Have the copper ingot centring ring on the copper ingot pushing block, copper ingot is located and is placed in the copper ingot centring ring;
After completed the copper ingot location, upper bolster pressed down towards the die shoe direction, and cant spare moves down the promotion slide block and moves towards the copper ingot pushing block; Slide block moves and promotes the rising of copper ingot pushing block, and copper ingot is pushed up the copper ingot hole to terminal support; Meanwhile punching pin also along with upper bolster presses down, acts on terminal support, coordinates the vertical motion of copper ingot pushing block to press down terminal support, and terminal support is subjected to downforce, and copper ingot is subjected to top power, and terminal support and copper ingot are riveted.
The present invention proposes a kind of device of riveting copper ingot, comprise rushing on riveting knot structure, copper ingot selection structure and sending the copper ingot structure of being combined into one, the operations such as riveting copper ingot are completed and are sent copper ingot, rush in the automation of energy streamlined, automaticity is high, the product fraction defective is manually raised the efficiency, reduced to good processing accuracy, saving, and improved copper ingot is fit to be applied in this riveting copper ingot device, and is combined more firm difficult drop-off with terminal support.
[description of drawings]
Fig. 1 is automation terminal support riveting copper ingot device overall structure schematic diagram of the present invention;
Fig. 2 is the partial enlarged drawing A of Fig. 1 of the present invention;
Fig. 3 is selection structure schematic diagram on the copper ingot of automation terminal support riveting copper ingot device of the present invention;
Fig. 4 be automation terminal support riveting copper ingot device of the present invention send the copper ingot structural representation.
Wherein: 10, upper bolster; 20, die shoe; 30, rush the riveting knot structure; 31, upper die plate; 32, clamping plate; 33, take off backing plate; 34, stripper plate; 35, cant spare; 351, the 4th inclined-plane; 36, punching pin; 40, selection structure on copper ingot; 41, counterdie backing plate; 42, lower bolster; 43, slide block; 431, the second inclined-plane; 432, the 3rd inclined-plane; 44, slide block return unit; 45, copper ingot pushing block; 451, end face; 4511, copper ingot centring ring; 452, bottom surface, the first inclined-plane; 46, copper ingot pushing block return unit; 50, send the copper ingot structure; 51, vibrating disk; 511, the bent road that spirals; 52, guide groove; 53, cylinder; 54, air gun; 60, copper ingot; 70, terminal support.
[specific embodiment]
Below in conjunction with the drawings and specific embodiments of the present invention, automation terminal support riveting copper ingot device of the present invention is described in further detail.
please refer to accompanying drawing 1, shown automation terminal support riveting copper ingot device overall structure figure, in figure, automation terminal support riveting copper ingot device comprises upper bolster 10, die shoe 20, rush riveting knot structure 30, selection structure 40 and send copper ingot structure 50 on copper ingot, rush that on riveting knot structure 30 and copper ingot, selection structure 40 is arranged between upper bolster 10 and die shoe 20, it is described that to rush selection structure 40 on riveting knot structure 30 and copper ingot be to be actually responsible for to complete the parts that rush the riveting action, rushing riveting knot structure 30 presses down, push away on selection structure 40 on copper ingot, both collide and realize the function of punch die and riveting copper ingot, rushing riveting knot structure 30 is connected with upper bolster 10, and on copper ingot, selection structure 40 is connected with die shoe 20, terminal support is placed on copper ingot on selection structure 40, terminal support is placed on copper ingot on the lower bolster in selection structure strictly speaking, deliver to selection structure 40 on copper ingot and send copper ingot structure 50 that copper ingot 60 is located, copper ingot hole site on corresponding terminal support 70.
With reference to structure shown in Figure 1, describedly rush that riveting knot structure 30 comprises stacked upper die plate 31, clamping plate 32, takes off backing plate 33, stripper plate 34, and run through two cant spares 35 and two punching pines 36 of aforementioned four laminate equipment structures.Described four laminate equipment structures are fixed on upper bolster 10 by screw locking, the direct applying upper bolster 10 of upper die plate 31, then be clamping plate 32 successively, take off backing plate 33 and stripper plate 34, upper die plate pad 31 is between upper bolster 10 and clamping plate 32, clamping plate 32 are clamped and are fixed two cant spares 35 and two punching pines 36, and stripper plate 34 after being responsible for completing and rushing riveting separates terminal support.Described two cant spares 35 run through aforementioned four laminate equipment structures and extend on copper ingot in selection structure 40, are pressed on terminal support 70 and two punching pines 36 run through four laminate equipment structures.
On described copper ingot, selection structure 40 comprises counterdie backing plate 41, lower bolster 42, slide block 43, slide block return unit 44, copper ingot pushing block 45, copper ingot pushing block return unit 46, described counterdie backing plate 41 and lower bolster 42 are fixed on die shoe 20 by screw, and following die-cushion plate 41 directly is fitted on die shoe 20; Described copper ingot pushing block 45 is arranged in lower bolster 42 in the movable mode in up and down, is provided with the slide block 43 of copper ingot pushing block return unit 46 and promotion copper ingot pushing block 45 below copper ingot pushing block 45; Described slide block 43 is arranged on the upper surface of counterdie backing plate 41, and in the 41 upper surface horizontal slips of counterdie backing plate, slide block 43 1 ends promote copper ingot pushing block 45, and the other end of slide block 43 is provided with slide block return unit 44 and cant spare 35, and described cant spare 35 presses down the promotion slide block and moves.
Reference is illustrated in fig. 2 is the partial enlarged drawing A of Fig. 1, has wherein embodied the relation between copper ingot 60, terminal support 70 and copper ingot pushing block 45 and punching pin 36.
With reference to structure shown in Figure 3, illustrate interlock motion structure and driving relationship between copper ingot pushing block 45, slide block 43 and cant spare 35 in figure, in figure, visible copper ingot pushing block 45 has end face 451 and bottom surface 452, and its end face is towards rushing riveting knot structure 30, and bottom surface 452 is opposite to slide block 43.Described end face 451 is provided with copper ingot centring ring 4511, and described copper ingot centring ring 4511 protrudes from end face 451, and copper ingot centring ring 4511 internal diameters and copper ingot 60 external diameters are suitable, is used for receiving delivering to the copper ingot 60 on copper ingot pushing block 45 and copper ingot 60 being positioned.Described bottom surface 452 is the first inclined-plane 452, coordinates with the second inclined-plane 431 of slide block 43 by the first inclined-plane 452, when slide block 43 slides, with the first inclined-plane, top on the second inclined-plane 431; Be arranged on simultaneously the copper ingot pushing block return unit 46 of 452 belows, bottom surface when slide block 43 is backed out, pull copper ingot pushing block 45 to reset downwards.Described copper ingot pushing block return unit 46 comprises an extension spring, slide block 43 towards copper ingot pushing block 45 move and on during top copper ingot pushing block 45, be in extended state, as long as in the situation that there is no slipper push, have tendencies toward shrinkage, pulled down copper ingot pushing block 43 resets.
elongated as for described slide block 43, the one end has the second inclined-plane 431 that promotes copper ingot pushing block 43, and the other end has the 3rd inclined-plane 432 that is subject to 35 promotions of cant spare, the effect on the 3rd inclined-plane 432 is to coordinate with the 4th inclined-plane 351 of cant spare 35 belows, the effect of playing is when cant spare 35 moves down, promote slide block 43 to 45 slippages of copper ingot pushing block with the 4th inclined-plane 351, and be provided with slide block return unit 44 at the 3rd place, inclined-plane that cant spare 35 promotes, this slide block return unit 44 is at cant spare 35 up after rollback, pull slide block 43 to be returned to initial position, wait for next operation process.Described slide block return unit 44 comprises an extension spring, and the extension spring in this slide block return unit 44 presses down when promoting slide block 43 at cant spare 35, is in extended state, and up after rollback, extension spring has tendencies toward shrinkage, pulls slide block 43 to reset when cant spare 35.
With reference to structure shown in Figure 4, described copper ingot structure 50 involving vibrations dishes 51, guide groove 52, cylinder 53 and the air gun 54 of sending, has the bent road 511 that spirals in described vibrating disk 51, these bent road 511 width that spiral only hold a copper ingot 60 and slide, and all are placed on the interior copper ingot 60 of vibrating disk 51 under vibrating disk 51 vibrations, enter into one by one and once only hold the bent road 511 that spirals that a copper ingot enters, this bent road 511 that spirals just can guarantee copper ingot 60 ordered arrangements.The end in bent road 511 of spiraling on vibrating disk 51 is provided with an outlet, and this outlet is connected with guide groove 52, and guide groove 52 extends to the copper ingot centring ring 4511 of copper ingot pushing block 45, by guide groove 52, copper ingot 60 location is delivered on copper ingot pushing block 45.Be provided with cylinder 53 in vibrating disk 51 exits, cylinder is with fiber sensor, can control copper ingot and enter according to the order of sequence guide groove 52, and be provided with air gun 54 with the outlet connecting portion on guide groove 52, this air gun 54 blows out Compressed Gas in guide groove 52, force the copper ingot that enters in guide groove 52 to slide, copper ingot is delivered on copper ingot pushing block 45 by guide groove 52.
With reference to accompanying drawing 4, illustrate in the figure and send copper ingot structure 50 to comprise two cover vibrating disks, guide groove, cylinder and air gun structure, be respectively on copper ingot and carry copper ingot on two copper ingot pushing blocks 45 in selection structure 40.
And a kind of copper ingot that adapts with automation terminal support riveting copper ingot apparatus structure, the screens end that comprises upper end, lower end and connection lower end and lower end, the upper end is corresponding riveting inlet side submounts part, is conical, and its top end diameter is little, and the bottom diameter is large, have gradient, be convenient to riveting and enter in terminal support, and the screens end is that diameter is less than the top and bottom bayonet arrangement, after having been entered by riveting, copper ingot can tighten terminal support, difficult drop-off.
A kind of method of automation terminal support riveting copper ingot, draw together following steps:
The copper ingot of remain to be rushed riveting is put into vibrating disk, and the vibration of vibrating disk allows copper ingot sequentially individually enter into the bent road that spirals in vibrating disk, and is spiraling Qu Daozhong copper ingot ordered arrangement successively; Control copper ingot at the cylinder in vibrating disk exit and enter into according to the order of sequence flexible guide groove, the air gun with the setting of outlet connecting portion on guide groove blows out Compressed Gas in guide groove, forces to enter that in guide groove, copper ingot slides, and copper ingot is delivered on the copper ingot pushing block by guide groove;
Have the copper ingot centring ring on the copper ingot pushing block, copper ingot is located and is placed in the copper ingot centring ring;
After completed the copper ingot location, upper bolster pressed down towards the die shoe direction, and cant spare moves down the promotion slide block and moves towards the copper ingot pushing block; Slide block moves and promotes the rising of copper ingot pushing block, and copper ingot is pushed up the copper ingot hole to terminal support; Meanwhile punching pin also along with upper bolster presses down, acts on terminal support, coordinates the vertical motion of copper ingot pushing block to press down terminal support, and terminal support is subjected to downforce, and copper ingot is subjected to top power, and terminal support and copper ingot are riveted.
the above, it is only preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, although the present invention discloses as above with preferred embodiment, yet be not to limit the present invention, any those skilled in the art, within not breaking away from the technical solution of the present invention scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be not break away from the technical solution of the present invention content, refer to any simple modification that above embodiment is done according to the technology of the present invention, equivalent variations and modification, all belong in the scope of technical solution of the present invention.
Claims (9)
1. automation terminal support riveting copper ingot device, it is characterized in that, described automation terminal support riveting copper ingot device comprises upper bolster, die shoe, rush on riveting knot structure, copper ingot selection structure and send the copper ingot structure, rush that on riveting knot structure and copper ingot, selection structure is arranged between upper bolster and die shoe, rushing the riveting knot structure is connected with upper bolster, and on copper ingot, selection structure is connected with die shoe, terminal support is placed on copper ingot on selection structure, deliver to selection structure on copper ingot, copper ingot hole site on the corresponding terminal support and send the copper ingot structure that copper ingot is located.
2. automation terminal support riveting copper ingot device according to claim 1, is characterized in that, the described riveting knot structure that rushes comprises stacked upper die plate, clamping plate, takes off backing plate, stripper plate, and runs through cant spare and the punching pin of aforementioned four laminate equipment structures; Described four laminate equipment structures are fixed on upper bolster by screw locking, with the upper die plate upper bolster of directly fitting, extend on copper ingot in selection structure and cant spare runs through four laminate equipment structures, are pressed on terminal support and punching pin runs through four laminate equipment structures.
3. automation terminal support riveting copper ingot device according to claim 1, it is characterized in that, on described copper ingot, selection structure comprises counterdie backing plate, lower bolster, slide block, slide block return unit, copper ingot pushing block, copper ingot pushing block return unit, described counterdie backing plate and lower bolster are fixed on die shoe by screw, and following die-cushion plate directly is fitted on die shoe; Described copper ingot pushing block is arranged in lower bolster in the movable mode in up and down, is provided with the slide block of copper ingot pushing block return unit and promotion copper ingot pushing block below the copper ingot pushing block; Described slide block is arranged on the upper surface of counterdie backing plate, and in the horizontal slip of counterdie backing plate upper surface, slide block one end promotes the copper ingot pushing block, and the other end of slide block is provided with slide block return unit and cant spare, and described cant spare presses down the promotion slide block and moves.
4. automation terminal support riveting copper ingot device according to claim 3, it is characterized in that, described copper ingot pushing block has end face and bottom surface, its end face is towards rushing the riveting knot structure, and the bottom surface is opposite to slide block, described end face is provided with the copper ingot centring ring, and described copper ingot centring ring protrudes from end face, and copper ingot centring ring internal diameter and copper ingot external diameter are suitable; Described bottom surface is the inclined-plane, and slide block slides to force on the copper ingot pushing block along the inclined-plane and pushes away, and the copper ingot pushing block return unit that the below, bottom surface arranges comprises an extension spring, in the situation that without External force interference, contraction resets the copper ingot pushing block.
5. automation terminal support riveting copper ingot device according to claim 4, it is characterized in that, described slide block one end has the inclined-plane that promotes the copper ingot pushing block, and the other end has the inclined-plane that is subject to the promotion of cant spare, an end that promotes at cant spare is provided with the slide block return unit, and described slide block return unit comprises an extension spring.
6. automation terminal support riveting copper ingot device according to claim 1, it is characterized in that, described copper ingot structure involving vibrations dish, guide groove, cylinder and the air gun of sending, has the bent road that spirals in described vibrating disk, this bent road width that spirals only holds a copper ingot and slides, and the end in the bent road that spirals on vibrating disk is provided with an outlet, and this outlet is connected with guide groove, and guide groove extends to the copper ingot centring ring of copper ingot pushing block, by guide groove, copper ingot is located to be delivered on the copper ingot pushing block; Be provided with cylinder in the vibrating disk exit, and be provided with air gun with the outlet connecting portion on guide groove.
7. automation terminal support riveting copper ingot device, it is characterized in that, described automation terminal support riveting copper ingot device comprises upper bolster, die shoe, rush on riveting knot structure, copper ingot selection structure and send the copper ingot structure, rush that on riveting knot structure and copper ingot, selection structure is arranged between upper bolster and die shoe, rushing the riveting knot structure is connected with upper bolster, and on copper ingot, selection structure is connected with die shoe, terminal support is placed on copper ingot on selection structure, deliver to selection structure on copper ingot, copper ingot hole site on the corresponding terminal support and send the copper ingot structure that copper ingot is located; The described riveting knot structure that rushes comprises stacked upper die plate, clamping plate, takes off backing plate, stripper plate, and runs through two cant spares and two punching pines of aforementioned four laminate equipment structures; Described four laminate equipment structures are fixed on upper bolster by screw locking, with the upper die plate upper bolster of directly fitting, two cant spares run through four laminate equipment structures and extend on copper ingot in selection structure, are pressed in respectively on two terminal supports and two punching pines run through four laminate equipment structures; On described copper ingot, selection structure comprises counterdie backing plate, lower bolster, two slide blocks, two slide block return units, two copper ingot pushing blocks, two copper ingot pushing block return units, described counterdie backing plate and lower bolster are fixed on die shoe by screw, and following die-cushion plate directly is fitted on die shoe; Described two copper ingot pushing blocks are arranged in lower bolster in the movable mode in up and down, are provided with a copper ingot pushing block return unit and a slide block that promotes the copper ingot pushing block below each copper ingot pushing block; Two slide blocks of two corresponding promotions of cant spare difference; The described copper ingot structure of sending has two covers corresponding two copper ingot pushing blocks conveying copper ingot respectively.
8. copper ingot comprises it is characterized in that the screens end of upper end, lower end and connection lower end and lower end, and the upper end is corresponding riveting inlet side submounts part, is conical, and its top end diameter is little, and the bottom diameter is large; The screens end is that diameter is less than the top and bottom bayonet arrangement.
9. the method for an automation terminal support riveting copper ingot, is characterized in that, the method for automation terminal support riveting copper ingot comprises the following steps:
The copper ingot of remain to be rushed riveting is put into vibrating disk, and the vibration of vibrating disk allows copper ingot sequentially individually enter into the bent road that spirals in vibrating disk, and is spiraling Qu Daozhong copper ingot ordered arrangement successively; Control copper ingot at the cylinder in vibrating disk exit and enter into according to the order of sequence flexible guide groove, the air gun with the setting of outlet connecting portion on guide groove blows out Compressed Gas in guide groove, forces to enter that in guide groove, copper ingot slides, and copper ingot is delivered on the copper ingot pushing block by guide groove;
Have the copper ingot centring ring on the copper ingot pushing block, copper ingot is located and is placed in the copper ingot centring ring;
After completed the copper ingot location, upper bolster pressed down towards the die shoe direction, and cant spare moves down the promotion slide block and moves towards the copper ingot pushing block; Slide block moves and promotes the rising of copper ingot pushing block, and copper ingot is pushed up the copper ingot hole to terminal support; Meanwhile punching pin also along with upper bolster presses down, acts on terminal support, coordinates the vertical motion of copper ingot pushing block to press down terminal support, and terminal support is subjected to downforce, and copper ingot is subjected to top power, and terminal support and copper ingot are riveted.
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| CN201310038597.4A CN103111531B (en) | 2013-01-31 | 2013-01-31 | Automatic terminal support riveting copper ingot device and riveting copper ingot method thereof |
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| CN201310038597.4A CN103111531B (en) | 2013-01-31 | 2013-01-31 | Automatic terminal support riveting copper ingot device and riveting copper ingot method thereof |
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| CN104588491A (en) * | 2015-01-20 | 2015-05-06 | 何流平 | Flanging and reaming die and workpiece |
| CN104690208A (en) * | 2015-04-01 | 2015-06-10 | 昆山豪润精密模具有限公司 | Automatic feeding mechanism for riveting in die |
| CN106825244A (en) * | 2017-03-09 | 2017-06-13 | 广州市滨娄玩具有限公司 | A kind of mould of energy automatic material separator |
| CN106938300A (en) * | 2017-03-09 | 2017-07-11 | 广州市滨娄玩具有限公司 | A kind of mould of new type auto de- material |
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| CN104588491A (en) * | 2015-01-20 | 2015-05-06 | 何流平 | Flanging and reaming die and workpiece |
| CN104588491B (en) * | 2015-01-20 | 2017-11-14 | 何流平 | A kind of flange punching die |
| CN104690208A (en) * | 2015-04-01 | 2015-06-10 | 昆山豪润精密模具有限公司 | Automatic feeding mechanism for riveting in die |
| CN104690208B (en) * | 2015-04-01 | 2019-08-20 | 昆山豪润精密模具有限公司 | Automatic riveting feed mechanism in mould |
| CN106825244A (en) * | 2017-03-09 | 2017-06-13 | 广州市滨娄玩具有限公司 | A kind of mould of energy automatic material separator |
| CN106938300A (en) * | 2017-03-09 | 2017-07-11 | 广州市滨娄玩具有限公司 | A kind of mould of new type auto de- material |
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| CN103111531B (en) | 2015-04-29 |
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Application publication date: 20130522 Assignee: SHENZHEN SHI MINGZHI PLASTIC Co.,Ltd. Assignor: Zhang Zhicai Contract record no.: 2015440020216 Denomination of invention: Automatic terminal support riveting copper ingot device and riveting copper ingot method thereof Granted publication date: 20150429 License type: Exclusive License Record date: 20150612 |
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| LICC | Enforcement, change and cancellation of record of contracts on the licence for exploitation of a patent or utility model | ||
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Effective date of registration: 20170526 Address after: 518000 Guangdong province Shenzhen City Pingshan Pingshan street and first West Tsuboama Roku community fly second industrial district 1, 2, 4, 2, 1, building 2-1, building 2-2, 3 storey building, No. 2-3 Patentee after: SHENZHEN SHI MINGZHI PLASTIC Co.,Ltd. Address before: 518000 Guangdong city of Shenzhen province Pingshan Pingshan six community and fly second West Industrial Zone second Patentee before: Zhang Zhicai |
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| CP03 | Change of name, title or address | ||
| CP03 | Change of name, title or address |
Address after: 518000 Pingshan Street six and Pingfei second industrial zone first, 1, 2 / 2-1, 1, 2, 3 / 2-2 building / 2-2 building, first in Pingshan District, Shenzhen, Guangdong. Patentee after: SHENZHEN MINGZHI SUPER PRECISION TECHNOLOGY CO.,LTD. Address before: 518000 Guangdong province Shenzhen City Pingshan Pingshan street and first West Tsuboama Roku community fly second industrial district 1, 2, 4, 2, 1, building 2-1, building 2-2, 3 storey building, No. 2-3 Patentee before: SHENZHEN SHI MINGZHI PLASTIC Co.,Ltd. |
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| CI03 | Correction of invention patent | ||
| CI03 | Correction of invention patent |
Correction item: Patentee|Address Correct: Shenzhen smart Super Precision Technology Co., Ltd.|518000 Pingshan Street six and Pingfei second industrial zone first, 1, 2 / 2-1, 1, 2, 3 / 2-2 building / 2-2 building, first in Pingshan District, Shenzhen, Guangdong. False: Shenzhen Ming Zhichao Precision Technology Co., Ltd.|518000 Pingshan Street six and Pingfei second industrial zone first, 1, 2 / 2-1, 1, 2, 3 / 2-2 building / 2-2 building, first in Pingshan District, Shenzhen, Guangdong. Number: 19-01 Volume: 34 |