CN2518246Y - Continuous terminal range translational mechanism - Google Patents
Continuous terminal range translational mechanism Download PDFInfo
- Publication number
- CN2518246Y CN2518246Y CN 01270757 CN01270757U CN2518246Y CN 2518246 Y CN2518246 Y CN 2518246Y CN 01270757 CN01270757 CN 01270757 CN 01270757 U CN01270757 U CN 01270757U CN 2518246 Y CN2518246 Y CN 2518246Y
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- China
- Prior art keywords
- continuous terminal
- pedestal
- inlet
- continuous
- utility
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- 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 - Lifetime
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Abstract
The utility model relates to a continuous terminal control program translation mechanism. The utility model aims to provide the electronic component manufacturing machinery which keeps the continuous terminal translating during movement, and ensures that the continuous terminal is easy to be punched bend, and reduces the cost of the mould. The utility model consists of a base and an axle body. An axle hole is arranged inside the base, and an inlet and an outlet which are communicated with the axle hole are arranged outside the base. The direction moving in the inlet is the same with the direction moving out the outlet, and with the distance of translation. A helical groove is arranged on the surface of the axle body. The axle body is sleeved in the axle hole of the base, and a helical orbit is formed in the base, with two ends corresponding to the inlet and the outlet of the base.
Description
Technical field
The utility model belongs to electronic component manufacturing equipment parts, particularly a kind of continuous terminal processing procedure translation mechanism.
Background technology
As shown in Figure 1, known continuous terminal punching press is that continuous copper sheet 10 can be formed two row's continuous terminals 12,14 behind die stamping, marker space 16 is cut get final product.So on making, once make two row's continuous terminals easily.
Though above-mentioned manufacture can once be made two row's continuous terminals very easily, yet lists still fully apply materials at terminal board, promptly appoints the zone 17 between two-terminal to be the blanking position, so form a lot of waste material in punching press, increases material cost.
Disclose as Fig. 2, no waste material punching press shown in Figure 3 for this reason, its two rows terminal system adopts the butt joint arrangement and does to cut and bending through punching press, copper sheet 10 cuts the continuous terminal 18,20 that forms two row's butt joints through mould 22 punching presses earlier, this two rows continuous terminal 18,20 is at this moment because closed butt joint in interleaved relation with each other, do not do the punching press bending so all there is the space, this two rows continuous terminal 18,20 can carry out the punching press bending so both need are used separately around suitable stroke earlier; Be after copper sheet 10 cuts the continuous terminal 18,20 that forms two row's butt joints through mould 22 punching presses, walk around earlier and return back to both sides, mould 22 the place ahead by the space 27 of 26 of the die holder 25 of board 21 and pedestals, by can separate two row's continuous terminals 18,20 around a great circle, do the punching press bending thereby can enter mould 22 by both sides again.
Above-mentioned manufacture has a lot of shortcoming, so that is difficult to be implemented effectively, that is:
1, because two row's continuous terminals 18,20 are lax when great circle, power drive need be each had,, copper sheet and two row's continuous terminals 18,20 can be driven so need three groups of feeding power.
2, two row's terminals 18,20 enter mould 22 do press-bending foldings simultaneously by the both sides of copper sheet 10, and so the start area of mould 22 is very big, and high precision need be arranged, and can reach the required precision of terminal, so make die cost very high.
Summary of the invention
The purpose of this utility model provides a kind ofly makes continuous terminal do translation in advancing, make the continuous terminal processing procedure translation mechanism that continuous terminal punching press bending is easy, reduce die cost.
The utility model comprises pedestal and axis body; Pedestal inside is provided with axis hole, and the outside is provided with and axis hole inlet communicating and outlet, is entered with identical by the direct of travel that comes out by inlet, and is the distance of translation; The axis body surface is provided with spiral helicine groove; Axial system is sleeved in the axis hole of pedestal, and the formation two ends correspond to the inlet of pedestal and the helical orbit of outlet in pedestal.
Wherein:
The corresponding respectively pipeline that is provided with level in the inlet of pedestal and exit position.
The degree of depth of axis body upper groove is slightly larger than the thickness of continuous terminal strip.
Because the utility model comprises pedestal and axis body; Pedestal inside is provided with axis hole, and the outside is provided with and axis hole inlet communicating and outlet, is entered with identical by the direct of travel that comes out by inlet, and is the distance of translation; The axis body surface is provided with spiral helicine groove; Axial system is sleeved in the axis hole of pedestal, and the formation two ends correspond to the inlet of pedestal and the helical orbit of outlet in pedestal.During operation, continuous terminal is entered in the pedestal by the pedestal inlet, and advances around the axis body spiral along the helical orbit that forms between axis body and the pedestal, is stretched out by the pedestal outlet at last, so can reach the translation effect.Because of making continuous terminal do translation, the continuous terminal that the time-division of so can advancing under single actuating force is opened two butt joints is parallel shape, need not as three groups of actuating forces of known techniques palpus; After the continuous terminal of butt joint is parallel advancing, very easy when punching press bends, so the precision of mould is easy to control, can reduce die cost; Make continuous terminal in advancing, do translation, and make the continuous terminal punching press bend easy, reduction die cost, thereby reach the purpose of this utility model.
Description of drawings
Fig. 1, be known continuous terminal punching press schematic top plan view.
Fig. 2, there is not waste material punching press schematic top plan view for known continuous terminal.
Fig. 3, there is not waste material punching press schematic side view for known continuous terminal.
Fig. 4, be the utility model decomposition texture schematic isometric.
Fig. 5, be the utility model structural representation cutaway view.
Fig. 6, be the utility model entry position profile.
Fig. 7, be used to not have the continuous terminal punching press diagrammatic top view of waste material arrangement mode for the utility model.
Fig. 8, be used to not have the continuous terminal punching press diagrammatic top view (having two semi-circular track) of waste material arrangement mode for the utility model.
Fig. 9, be used to not have the continuous terminal punching press diagrammatic side view (having two semi-circular track) of waste material arrangement mode for the utility model.
Embodiment
As Fig. 4, Fig. 5, shown in Figure 6, the utility model comprises pedestal 30, two pipeline 34,36 and axis bodies 50.
Two pipelines 34,36 are to be level to be placed in the inlet 32 of pedestal 30 and to export 33 places, and the inner passage 35 of pipeline 34 is communicated with axis hole 31 by inlet 32; The inner passage 37 of pipeline 36 is communicated with axis hole 31 by outlet 33.
During operation, as shown in Figure 6, continuous terminal is entered in the pedestal 30 by the inner passage 35 of pipeline 34, and advances around axis body 50 spirals along helical orbit 53, is stretched out through pipeline 36 by outlet 33 at last, so can reach the translation effect.
As shown in Figure 7, when the utility model is used to not have the continuous terminal punching press of waste material arrangement mode, make copper sheet 60 be cut into two row's continuous terminals 62,64 through mould 66 punching presses earlier, then when the time through the utility model continuous terminal processing procedure translation mechanism, make continuous terminal 64 enter the utility model continuous terminal processing procedure translation mechanism 68, continuous terminal 62 does not then enter the utility model continuous terminal processing procedure translation mechanism 68 and directly advances; Continuous terminal 64 is advanced along helical orbit 53 of the present utility model, and when when the utility model continuous terminal processing procedure translation mechanism 68 comes out, i.e. translation spacing 1X, two row's continuous terminals 62,64 like this promptly are the parallel mould 70 that enters of spacing 1X and do the punching press bending.
As mentioned above, the utlity model has following advantage:
1, can make continuous terminal do translation, the continuous terminal that the time-division of so can advancing under single actuating force is opened two butt joints is parallel shape, and need not must three groups of actuating forces as known techniques.
2, after the continuous terminal of the utility model order butt joint is parallel advancing, very easy when punching press bends, as Fig. 1 punching press bending two row's continuous terminals,, can reduce die cost so the precision of mould is easy to control.
As Fig. 8, shown in Figure 9, when the utility model is used to not have the continuous terminal punching press of waste material arrangement mode, also can make copper sheet 60 be cut into two row's continuous terminals 62,64 through mould 76 punching presses earlier, and make continuous terminal 62 do the space that mould 76 and die holder 77 are walked around in revolution via first semi-circular track 78, after another first semi-circular track, 78 revolutions, enter the utility model continuous terminal processing procedure translation mechanism 69 again, reach to a side translation one segment distance; 64 of continuous terminals are done to enter continuous terminal processing procedure translation mechanism 68 again after the revolution via second semi-circular track 80, reach to opposite side translation one segment distance; The both sides that continuous terminal 62,64 like this can be parallel to copper sheet 60 enter mould and do the punching press bending.
Two the utility model continuous terminal processing procedure translation mechanisms 68,69 only need the inner hand of spiral opposite in design, can reach to not homonymy translation, second semi-circular track 78 forms difference in height in the time of can making continuous terminal 62,64 revolutions advance greatly than the radius of first semi-circular track 78, and is comparatively smooth and easy on so advancing.
Claims (3)
1, a kind of continuous terminal processing procedure translation mechanism is characterized in that it comprises pedestal and axis body; Pedestal inside is provided with axis hole, and the outside is provided with and axis hole inlet communicating and outlet, is entered with identical by the direct of travel that comes out by inlet, and is the distance of translation; The axis body surface is provided with spiral helicine groove; Axial system is sleeved in the axis hole of pedestal, and the formation two ends correspond to the inlet of pedestal and the helical orbit of outlet in pedestal.
2, continuous terminal processing procedure translation mechanism according to claim 1 is characterized in that the corresponding respectively pipeline that is provided with level in the inlet of described pedestal and exit position.
3, continuous terminal processing procedure translation mechanism according to claim 1 is characterized in that the degree of depth of described axis body upper groove is slightly larger than the thickness of continuous terminal strip.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 01270757 CN2518246Y (en) | 2001-11-20 | 2001-11-20 | Continuous terminal range translational mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 01270757 CN2518246Y (en) | 2001-11-20 | 2001-11-20 | Continuous terminal range translational mechanism |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN2518246Y true CN2518246Y (en) | 2002-10-23 |
Family
ID=33676317
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 01270757 Expired - Lifetime CN2518246Y (en) | 2001-11-20 | 2001-11-20 | Continuous terminal range translational mechanism |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN2518246Y (en) |
-
2001
- 2001-11-20 CN CN 01270757 patent/CN2518246Y/en not_active Expired - Lifetime
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Effective date of abandoning: 20011120 |
|
| C25 | Abandonment of patent right or utility model to avoid double patenting |