CN203843002U - Flanging cut-up die for car engine exhaust system suction manifold - Google Patents
Flanging cut-up die for car engine exhaust system suction manifold Download PDFInfo
- Publication number
- CN203843002U CN203843002U CN201320734263.6U CN201320734263U CN203843002U CN 203843002 U CN203843002 U CN 203843002U CN 201320734263 U CN201320734263 U CN 201320734263U CN 203843002 U CN203843002 U CN 203843002U
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- China
- Prior art keywords
- flange
- flanging
- plate
- die
- lower bolster
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model provides a flanging cup-up die for a car engine exhaust system suction manifold. The flanging cup-up die comprises an upper die plate and a lower die plate. Upper die blocks are mounted on the upper die plate. The upper die plate is in guidance connection with the lower die plate through an independent rolling guide column component. The flanging cup-up die is characterized in that a first flanging module, a second flanging module and a flanging cut-up module are transversely sequentially parallelly disposed between the upper die plate and the lower die plate. By the flanging cup-up die, production equipment cost can be effectively lowered, and production efficiency can be increased.
Description
Technical field
The utility model relates to automobile engine exhaust system component processing technical field, and the flange that is specially a kind of automobile engine exhaust system inlet manifold cuts mould.
Background technology
A kind of automobile engine exhaust system inlet manifold, it is welded by upper casing and lower casing amalgamation, its upper casing and lower casing adopt to connect expects that the mode that integrated punching is shaped forms processing, after connecting material shaping processing, need the neighboring of upper casing part and lower casing part inwardly to dig and upper casing part is partly cut with lower casing, because this company expects that workpiece outer mold surface is complicated, it needs segmentation repeatedly to connecting, to expect that workpiece carries out flange processing, carried out repeatedly flange processing is usually to adopt flanging die corresponding to many covers to carry out on many pressing equipments in the past, its production equipment cost is large, production efficiency is low.
Summary of the invention
For the problems referred to above, the utility model provides a kind of flange of automobile engine exhaust system inlet manifold to cut mould, and it can effectively reduce production equipment cost, enhances productivity.
Its technical scheme is such, it comprises cope match-plate pattern and lower bolster, patrix pin is installed on described cope match-plate pattern, described cope match-plate pattern is connected by independent rolling guide pillar assembly guiding with lower bolster, it is characterized in that: between described cope match-plate pattern and lower bolster, along the first flange module, the second flange module and flange incision module are laterally installed successively side by side.
It is further characterized in that:
Described the first flange module comprises the first flange upper die mechanism and the first flanging lower die mechanism; Described the first flange upper die mechanism comprises the first upper mounted plate, the first holding pad and the first flange upper die component, the first upper mounted plate is installed under described cope match-plate pattern by the first upper padding plate, described the first holding pad is installed in described the first upper mounted plate, and described the first flange upper die component is installed in described the first holding pad; Described the first flanging lower die mechanism comprises the first flanging lower die, the first lower bolster, and described the first flanging lower die is installed on described the first lower bolster, and described the first lower bolster is installed on described lower bolster by counterdie pin one;
Described the second flange module comprises the second flange upper die mechanism and the second flanging lower die mechanism, described the second flange upper die mechanism comprises the second upper mounted plate one, the second upper mounted plate two, the second holding pad and the second flange upper die component, described the second holding pad is installed under described cope match-plate pattern by holding pad backing plate, described the second upper mounted plate two is installed under described cope match-plate pattern by upper cushion block, on described second, fixed block one, described upper cushion block lays respectively at the transverse ends of described the second holding pad, described the second flange upper die component is comprised of upper casing pipeline section portion flange patrix mold insert and lower casing pipeline section portion flange patrix mold insert, described upper casing pipeline section portion flange patrix mold insert, lower casing pipeline section portion flange patrix mold insert is installed on respectively described the second upper mounted plate one, the second upper mounted plate two times, described the second flanging lower die mechanism comprises the second bottom plate, the second flanging lower die one and the second flanging lower die two, described the second bottom plate by the second lower bolster on described lower bolster and be positioned at the horizontal left side of described the second holding pad below, described the second upper mounted plate two, described the second flanging lower die one is installed on described the second bottom plate, and described the second flanging lower die two is installed on described the second lower bolster,
Described flange cuts module and comprises that flange cuts upper die mechanism and flange cuts lower mold mechanism; Described flange cuts upper die mechanism and comprises the 3rd upper mounted plate the one, the 3rd upper mounted plate the two, the 3rd holding pad the one, the 3rd holding pad the two, the 3rd flange upper die component and cut moulding upper die component, described the 3rd upper mounted plate one is installed under described cope match-plate pattern by the 3rd upper padding plate, described the 3rd upper mounted plate two is installed on described the 3rd upper mounted plate once, the 3rd holding pad the one, the 3rd holding pad two is installed on described the 3rd upper mounted plate two times, and described the 3rd flange upper die component and incision moulding upper die component are all installed in described the 3rd upper mounted plate two; Described the 3rd flange upper die component is comprised of upper casing part flange patrix mold insert and lower casing part flange patrix mold insert, described upper casing part flange patrix mold insert is installed on described incision moulding upper die component and comprises incision drift and forming punching head, described incision drift is for the upper casing part of even expecting workpiece is partly thrust to incision with lower casing, and described forming punching head is for moulding pipe central indentation when the upper casing part of even expecting workpiece is partly thrust to incision with lower casing; Described flange cuts lower mold mechanism and comprises the 3rd flanging lower die, the 3rd lower bolster the one, the 3rd lower bolster two; described the 3rd lower bolster one is installed on described lower bolster by counterdie pin two; described the 3rd lower bolster two is installed on described the 3rd lower bolster one; described the 3rd flanging lower die is installed on described the 3rd lower bolster two, is installed with and cuts moulding counterdie mold insert in described the 3rd flanging lower die.
The utility model flange cuts mould and is provided with the first flange module, the second flange module and three punching modules of flange incision module, its on a pressing equipment once punching press respectively three workpiece are carried out to flange and flange and cut operation, thereby can effectively reduce pressing equipment, reduce equipment cost, enhance productivity.
Accompanying drawing explanation
Fig. 1 is that the utility model mould the first flange module connects and expects that workpiece carries out the position schematic diagram of flange processing upper lower casing;
Fig. 2 is that the utility model mould the first flange module connects and expects that workpiece carries out the position schematic diagram that flange is processed upper lower casing;
Fig. 3 is that the utility model die flanging incision module connects and expects that workpiece carries out flange processing and cuts moulding position schematic diagram upper lower casing;
Fig. 4 is the utility model mould assembling structure schematic diagram;
Fig. 5 is that each parts of the utility model mould are installed on the plan structure schematic diagram after lower bolster;
Fig. 6 is that each parts of the utility model mould are installed on the structural representation of looking up after cope match-plate pattern.
The specific embodiment
See Fig. 4, Fig. 5 and Fig. 6, the utility model comprises cope match-plate pattern 1 and lower bolster 2, patrix pin 3 is installed on cope match-plate pattern 1, cope match-plate pattern 1 is connected by independent rolling guide pillar assembly guiding with lower bolster 2, between cope match-plate pattern 1 and lower bolster 2, along the first flange module, the second flange module and flange incision module are laterally installed successively side by side.Wherein, the first flange module to in-flanges, is shown in Fig. 1 for upper lower casing even being expected to workpiece housing section and pipeline section portion connecting corner position 56; The second flange module is for connecting and expect that the pipeline section portion 57 of workpiece carries out to in-flanges, sees Fig. 2 upper lower casing; Flange cuts module and expects that for upper lower casing is connected the upper casing part of workpiece and the fillet side face 58 of lower casing part carry out to in-flanges and upper lower casing is connected simultaneously expecting that workpiece cuts and the pars intermedia breach 59 of moulding upper and lower shell, 60 is upper casing, 61 is lower casing, sees Fig. 3.
The first flange module comprises the first flange upper die mechanism and the first flanging lower die mechanism; The first flange upper die mechanism comprises the first upper mounted plate 17, the first holding pad 40 and the first flange upper die component, the first upper mounted plate 17 is installed on cope match-plate pattern 1 time by the first upper padding plate 16, the first holding pad 40 is installed in the first upper mounted plate 17, and the patrix mold insert 36,37,38,39 of the first flange upper die component is installed in the first holding pad 40; The first flanging lower die mechanism comprises that the first flanging lower die 31, the first lower bolster 12, the first flanging lower dies 31 are installed on the first lower bolster 12, and the first lower bolster 12 is installed on lower bolster 2 by counterdie pin 1;
The second flange module comprises the second flange upper die mechanism and the second flanging lower die mechanism, the second flange upper die mechanism comprises the second upper mounted plate 1, the second upper mounted plate 2 20, the second holding pad 46 and the second flange upper die component, the second holding pad 46 is installed on cope match-plate pattern 1 time by holding pad backing plate 45, the second upper mounted plate 2 20 is installed on cope match-plate pattern 1 time by upper cushion block 19, on second, fixed block 1, upper cushion block 19 lays respectively at the transverse ends of the second holding pad 46, the second flange upper die component is by upper casing pipeline section portion flange patrix mold insert 41, 42 and lower casing pipeline section portion flange patrix mold insert 43, 44 form, upper casing pipeline section portion flange patrix mold insert 41, 42, lower casing pipeline section portion flange patrix mold insert 43, 44 are installed on respectively the second upper mounted plate 1, the second upper mounted plate 2 20 times, the second flanging lower die mechanism comprises the second bottom plate 27, the second flanging lower die 1 and the second flanging lower die 2 33, the second bottom plate 27 by the second lower bolster 13 on lower bolster 2 and be positioned at the horizontal left side of the second holding pad 46 belows, the second upper mounted plate 2 20, the second flanging lower die 1 is installed on the second bottom plate 27, and the second flanging lower die 2 33 is installed on the second lower bolster 13,
Flange cuts module and comprises that flange cuts upper die mechanism and flange cuts lower mold mechanism, flange cuts upper die mechanism and comprises the 3rd upper mounted plate 1, the 3rd upper mounted plate 2 23, the 3rd holding pad 1, the 3rd holding pad 2 53, the 3rd flange upper die component and incision moulding upper die component, the 3rd upper mounted plate 1 is installed on cope match-plate pattern 1 time by the 3rd upper padding plate 21, the 3rd upper mounted plate 2 23 is installed on the 3rd upper mounted plate one 22 times, the 3rd holding pad 1, the 3rd holding pad 2 53 is installed on the 3rd upper mounted plate 2 23 times, the upper casing part flange patrix mold insert 48 of the 3rd flange upper die component, 49 with lower casing part flange patrix mold insert 50, 51 and cut moulding upper die component and be all installed in the 3rd upper mounted plate 2 23, cut moulding upper die component and comprise incision drift 54 and forming punching head 7,8, incision drift 54 is for expecting that by connecting the upper casing part of workpiece partly thrusts incision with lower casing, and forming punching head 7,8 is for moulding pipe central indentation when the upper casing part of even expecting workpiece is partly thrust to incision with lower casing, flange cuts lower mold mechanism and comprises the 3rd flanging lower die 34, the 3rd lower bolster 1, the 3rd lower bolster 2 15, the 3rd lower bolster 1 is installed on lower bolster 2 by counterdie pin 2 11, the 3rd lower bolster 2 15 is installed on the 3rd lower bolster 1, the 3rd flanging lower die 34 is installed on the 3rd lower bolster 2 15, is installed with and cuts moulding counterdie mold insert 35 in the 3rd flanging lower die 34.
In Fig. 4,4,5,6 are respectively alignment pin, expect the locating hole of workpiece upper casing part for the company of location; 9 is the guide sleeve cushion block of independent rolling guide pillar assembly 55; 24,28 is block; 25 is lower block mold insert, and 26 is upper block mold insert; 29 is lower fixed block, for positioning workpieces; 47 is the second holding pad mold insert; In lower Fig. 5,30 is limited post.
Claims (1)
1. the flange of an automobile engine exhaust system inlet manifold cuts mould, it comprises cope match-plate pattern and lower bolster, patrix pin is installed on described cope match-plate pattern, described cope match-plate pattern is connected by independent rolling guide pillar assembly guiding with lower bolster, it is characterized in that: between described cope match-plate pattern and lower bolster, along the first flange module, the second flange module and flange incision module are laterally installed successively side by side;
Described the first flange module comprises the first flange upper die mechanism and the first flanging lower die mechanism; Described the first flange upper die mechanism comprises the first upper mounted plate, the first holding pad and the first flange upper die component, the first upper mounted plate is installed under described cope match-plate pattern by the first upper padding plate, described the first holding pad is installed in described the first upper mounted plate, and described the first flange upper die component is installed in described the first holding pad; Described the first flanging lower die mechanism comprises the first flanging lower die, the first lower bolster, and described the first flanging lower die is installed on described the first lower bolster, and described the first lower bolster is installed on described lower bolster by counterdie pin one;
Described the second flange module comprises the second flange upper die mechanism and the second flanging lower die mechanism, described the second flange upper die mechanism comprises the second upper mounted plate one, the second upper mounted plate two, the second holding pad and the second flange upper die component, described the second holding pad is installed under described cope match-plate pattern by holding pad backing plate, described the second upper mounted plate two is installed under described cope match-plate pattern by upper cushion block, on described second, fixed block one, described upper cushion block lays respectively at the transverse ends of described the second holding pad, described the second flange upper die component is comprised of upper casing pipeline section portion flange patrix mold insert and lower casing pipeline section portion flange patrix mold insert, described upper casing pipeline section portion flange patrix mold insert, lower casing pipeline section portion flange patrix mold insert is installed on respectively described the second upper mounted plate one, the second upper mounted plate two times, described the second flanging lower die mechanism comprises the second bottom plate, the second flanging lower die one and the second flanging lower die two, described the second bottom plate by the second lower bolster on described lower bolster and be positioned at the horizontal left side of described the second holding pad below, described the second upper mounted plate two, described the second flanging lower die one is installed on described the second bottom plate, and described the second flanging lower die two is installed on described the second lower bolster,
Described flange cuts module and comprises that flange cuts upper die mechanism and flange cuts lower mold mechanism; Described flange cuts upper die mechanism and comprises the 3rd upper mounted plate the one, the 3rd upper mounted plate the two, the 3rd holding pad the one, the 3rd holding pad the two, the 3rd flange upper die component and cut moulding upper die component, described the 3rd upper mounted plate one is installed under described cope match-plate pattern by the 3rd upper padding plate, described the 3rd upper mounted plate two is installed on described the 3rd upper mounted plate once, the 3rd holding pad the one, the 3rd holding pad two is installed on described the 3rd upper mounted plate two times, and described the 3rd flange upper die component and incision moulding upper die component are all installed in described the 3rd upper mounted plate two; Described the 3rd flange upper die component is comprised of upper casing part flange patrix mold insert and lower casing part flange patrix mold insert, described upper casing part flange patrix mold insert is installed on described incision moulding upper die component and comprises incision drift and forming punching head, described incision drift is for the upper casing part of even expecting workpiece is partly thrust to incision with lower casing, and described forming punching head is for moulding pipe central indentation when the upper casing part of even expecting workpiece is partly thrust to incision with lower casing; Described flange cuts lower mold mechanism and comprises the 3rd flanging lower die, the 3rd lower bolster the one, the 3rd lower bolster two; described the 3rd lower bolster one is installed on described lower bolster by counterdie pin two; described the 3rd lower bolster two is installed on described the 3rd lower bolster one; described the 3rd flanging lower die is installed on described the 3rd lower bolster two, is installed with and cuts moulding counterdie mold insert in described the 3rd flanging lower die.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320734263.6U CN203843002U (en) | 2013-11-20 | 2013-11-20 | Flanging cut-up die for car engine exhaust system suction manifold |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320734263.6U CN203843002U (en) | 2013-11-20 | 2013-11-20 | Flanging cut-up die for car engine exhaust system suction manifold |
Publications (1)
Publication Number | Publication Date |
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CN203843002U true CN203843002U (en) | 2014-09-24 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201320734263.6U Expired - Fee Related CN203843002U (en) | 2013-11-20 | 2013-11-20 | Flanging cut-up die for car engine exhaust system suction manifold |
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CN (1) | CN203843002U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104550472A (en) * | 2014-12-31 | 2015-04-29 | 无锡曙光模具有限公司 | Cutting and punching die for thermal shield of automobile exhaust system |
-
2013
- 2013-11-20 CN CN201320734263.6U patent/CN203843002U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104550472A (en) * | 2014-12-31 | 2015-04-29 | 无锡曙光模具有限公司 | Cutting and punching die for thermal shield of automobile exhaust system |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140924 Termination date: 20211120 |
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CF01 | Termination of patent right due to non-payment of annual fee |