CN207787417U - Connector seamless shell asymmetry shaving die - Google Patents
Connector seamless shell asymmetry shaving die Download PDFInfo
- Publication number
- CN207787417U CN207787417U CN201721712886.8U CN201721712886U CN207787417U CN 207787417 U CN207787417 U CN 207787417U CN 201721712886 U CN201721712886 U CN 201721712886U CN 207787417 U CN207787417 U CN 207787417U
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- mavable module
- fixed mold
- installation part
- module core
- fusiform component
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Abstract
A kind of connector seamless shell asymmetry shaving die, including driving mechanism, driving mechanism include two actuators being oppositely arranged;The opposite face of two actuators is curved surface, and curved surface is designed to when two actuators are moved to same direction, and driving is located at the fusiform component between two actuators and moves back and forth once;Fusiform component is equipped with a skewed slot on fusiform component;One end of one sliding part, sliding part is located in skewed slot, and with the reciprocating movement of fusiform component, and itself generates the reciprocating movement of the moving direction perpendicular to fusiform component;The other end of sliding part drives asymmetric mavable module core to move back and forth preset distance, purpose of the realization one set of die to the asymmetric cross cutting of seamless shell relative to fixed mold core.
Description
Technical field
The utility model is related to a kind of connector seamless shell asymmetry shaving dies.
Background technology
Connector, such as USB connector are equipped with insulation colloid and several all there are one metal shell in metal shell
On the one hand terminal, metal shell are again on the other hand ground terminals with fixed insulation colloid and several terminals.Outside existing metal
Shell is divided into seamed metal shell and seamless metal shell two major classes, and seamless metal shell now gradually replaces seamed metal shell, at
For the main product of industry.One end of metal shell is inserted terminal, and the other end is terminals, in general for the side of wiring
Just, it is that the both sides of terminals are die-cut to symmetrical structure mostly, still, the metal shell of some connectors is due to various factors
Limitation needs to be designed to unsymmetric structure, and USB seamless metals shell 100 as shown in Figure 1, top 110 and following 120 is exactly
Dissymmetrical structure, wherein following 120 area is more than the area of top 110.For this asymmetric metal connector shell
Processing method, currently, use method be to be die cut method twice, that is, use two molds, the first mold cut out wherein one side, flow to
Subsequent processing cuts out other one side with other set mold.Not only process is more for this method, and the mold needed is more, the worker needed
Also more.And with when secondary die cutting can exist cut interface out-of-flatness the phenomenon that.
Utility model content
In order to overcome the above problem, the utility model provides a kind of to society and uses one set of die, in a station energy
Realize the design method of the connector seamless shell asymmetry shaving die of asymmetric trimming.
Another purpose of the utility model is to provide a kind of connector seamless shell asymmetry shaving die to society.
The third purpose of the utility model is to provide a kind of asymmetric method for cutting edge of connector seamless shell to society.
The technical solution of the utility model is:A kind of design side of connector seamless shell asymmetry shaving die is provided
Method designs a driving mechanism, and there are two the actuators being oppositely arranged for driving mechanism tool;The opposite face quilt of two actuators
It is designed to that curved surface, the curved surface are designed to when two actuators are moved to same direction, driving is located at described in two
Fusiform component between actuator moves back and forth primary;
The fusiform component is equipped with a skewed slot on fusiform component;
A sliding part is designed, one end of sliding part is located in the skewed slot, with the reciprocating movement of the fusiform component, and itself
Generate the reciprocating movement of the moving direction perpendicular to the fusiform component;The other end of sliding part drives asymmetric mavable module core opposite
Preset distance, purpose of the realization one set of die to the asymmetric cross cutting of seamless shell are moved back and forth in fixed mold core.
As the improvement to the utility model, a mavable module core installation part is designed, the mavable module core is embedded in the mavable module core
On installation part;A fixed mold core installation part is designed, the fixed mold core is embedded on the fixed mold core installation part;The sliding part and institute
The connection of mavable module core installation part is stated, the mavable module core installation part is driven to move.
As the improvement to the utility model, the mavable module core is designed to the first half mavable module cores and the second half mavable module cores,
The first half mavable module core and the second half mavable module cores are embedded in respectively on the mavable module core installation part, constitute one it is complete dynamic
Mode.
As the improvement to the utility model, the fixed mold core is designed to the first half fixed mold cores and the second half fixed mold cores,
The first half fixed mold core and the second half fixed mold cores are embedded in respectively on the fixed mold core installation part, constitute one it is complete fixed
Mode.
The utility model also provides a kind of asymmetric shaving die of connector seamless shell,
Including driving mechanism, the driving mechanism includes two actuators being oppositely arranged;The phase of two actuators
Opposite is curved surface, and the curved surface is designed to when two actuators are moved to same direction, and driving is located at described in two
Fusiform component between actuator moves back and forth primary;
The fusiform component is equipped with a skewed slot on fusiform component;
One end of one sliding part, the sliding part is located in the skewed slot, with the reciprocating movement of the fusiform component, and itself
Generate the reciprocating movement of the moving direction perpendicular to the fusiform component;The other end of sliding part drives asymmetric mavable module core opposite
Preset distance, purpose of the realization one set of die to the asymmetric cross cutting of seamless shell are moved back and forth in fixed mold core.
As the improvement to the utility model, the utility model further includes mavable module core installation part and fixed mold core installation part, institute
It states mavable module core to be embedded on the mavable module core installation part, the fixed mold core is embedded on the fixed mold core installation part;The sliding
Part is connect with the mavable module core installation part, and the mavable module core installation part is driven to move.
As the improvement to the utility model, the mavable module core includes the first half mavable module cores and the second half mavable module cores, described
The first half mavable module cores and the second half mavable module cores are embedded in respectively on the mavable module core installation part, and a complete dynamic model is constituted
Benevolence.
As the improvement to the utility model, the fixed mold core includes the first half fixed mold cores and the second half fixed mold cores, described
The first half fixed mold cores and the second half fixed mold cores are embedded in respectively on the fixed mold core installation part, and a complete cover half is constituted
Benevolence.
As the improvement to the utility model, the utility model further includes die holder, the die holder include mode mounting portion and
Fusiform component mounting portion, the fixed mold core installation part are located in the mode mounting portion, and the mavable module core installation part is perpendicular to described
Fixed mold core installation part is installed, and the fixed mold core of the mavable module core on the mavable module core installation part and the fixed mold core installation part with it is described
The cavity for housing seamless metal shell is constituted between the inner wall of mode mounting portion;The fusiform component is located at fusiform component mounting portion
Interior, the sliding part is located between the fusiform component and the mavable module core installation part.
The utility model also provides a kind of asymmetric method for cutting edge of connector seamless shell, using above-mentioned mold, in mould
When the mavable module core of tool does primary mobile in the same direction relative to fixed mold core, the both sides point of seamless metal shell are die cut
Method.
The utility model has mould structure simple;Mold repair is convenient, and maintenance cost is low, and when repair only needs interchangeable parts
;Operator is easy to operate, and production efficiency has very big promotion;Die manufacturing cost is low;Asymmetric trimming can use one set of die
The advantages of cross cutting comes out;And generated the phenomenon that cutting interface out-of-flatness, occurs when there is no with secondary die cutting.
Description of the drawings
Fig. 1 is a kind of structural schematic diagram of asymmetric seamless metal shell.
Fig. 2 is the main structure diagram of the stationary state of the utility model method.
Fig. 3 is the main structure diagram of the first variable condition of the utility model method.
Fig. 4 is the main structure diagram of the second variable condition of the utility model method.
Fig. 5 is the decomposed structural schematic diagram of the utility model mold first embodiment.
Fig. 6 is the structural schematic diagram that embodiment illustrated in fig. 5 is decomposed completely.
Fig. 7 is the decomposition texture schematic diagram of the utility model mold second embodiment.
Fig. 8 is the dimensional structure diagram after embodiment illustrated in fig. 7 complete combination.
Specific implementation mode
In the description of the present invention, it should be understood that "center" in term, "upper", "lower", "front", "rear",
The orientation or positional relationship of the instructions such as "left", "right" is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of retouching
State the utility model and simplify and describe, do not indicate or imply the indicated device or component must have a particular orientation, with
Specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second "
It is used for description purposes only, is not understood to indicate or imply relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connection ", " connected " shall be understood in a broad sense, and can also be dismantling connection, or integrally connect for example, it may be being fixedly connected
It connects;It can be mechanical connection, can also be electrical connection;Can be directly connected, can also be indirectly connected through an intermediary,
It can be the connection of two component internals.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition
Concrete meaning of the language in the utility model.
Fig. 2 to Fig. 4 is referred to, what Fig. 2 to Fig. 4 was disclosed is a kind of design of connector seamless shell asymmetry shaving die
Method designs a driving mechanism 1, and there are two the actuators 11,12 being oppositely arranged for the driving mechanism 1 tool;Two actuators
11,12 opposite face is designed to curved surface 13,14, and the curved surface 13,14 is designed to when two actuators 11,12 are to same
When one direction moves(As pressed 111 direction downlink of main down arrow in Fig. 3 and Fig. 4), driving positioned at two actuators 11,
Fusiform component 2 between 12 moves back and forth once, as set on the actuator 11 in Fig. 3 there are one protrusion 131, under the first actuator 11
When row reaches 131 position of protrusion, the protrusion 131 makes fusiform component 2 to the left(The view direction being subject in the present embodiment)It is mobile
First preset distance H1, at this moment the upper wedge-shaped part 22 of fusiform component 2 keep 3 downlink of the sliding part being located in the skewed slot 21 of fusiform component 2 pre-
Determine step pitch, sliding part 3 drives asymmetric mavable module core 4 relative to fixed mold core(It is not drawn into)Make the seamless metal being located in cavity 63
The following of shell is cut molding, i.e., cross cutting is following.
Two actuators 11,12 continue traveling downwardly, as shown in figure 4, after the first actuator 11 crosses protrusion 131, second
Cambered surface 141 on actuator 12 can be by fusiform component 2 toward pushing back, until the second preset distance H2 that moves right, at this moment fusiform component 2
Lower wedge-shaped part 23 makes the predetermined step pitch of 3 uplink of the sliding part being located in the skewed slot 21 of fusiform component 2, sliding part 3 drive asymmetric dynamic
Mode 4 is relative to fixed mold core(It is not drawn into)So that the top for the seamless metal shell being located in cavity 63 is cut molding, that is, is die cut
Top;In this way, mavable module core 4 relative to fixed mold core move back and forth preset distance, with regard to realization one set of die to seamless shell not
The purpose being symmetrically die cut.
Two actuators 11,12 go upward to vertex, and mold is returned to initial position shown in Fig. 2, prepares next
The cross cutting of seamless metal shell.
Analysis above, the case where being located on the right of view with the first actuator 11, are analyzed, if the first driving
It is exactly the opposite to the trimming of seamless metal shell action after part 11 and the second actuator 12 are changed sides, i.e., first cut side, after cut
Side, such case is also in the protection domain of this patent.
Preferably, the utility model can design a mavable module core installation part 41, and the mavable module core 4 is embedded in the mavable module core peace
In piece installing 41;A fixed mold core installation part 51 is designed, the fixed mold core 5 is embedded on the fixed mold core installation part 51;The sliding
Part 3 is connect with the mavable module core installation part 41, and the mavable module core installation part 41 is driven to move, to drive the mavable module core 4 to move
It is dynamic.
Preferably, the mavable module core 4 is designed to the first half mavable module cores 42 and the second half mavable module cores 43, and described the first half
Mavable module core 42 and the second half mavable module cores 43 are embedded in respectively on the mavable module core installation part 41, and a complete dynamic model is constituted
Benevolence, in this way, being conducive to the design and manufacture of mavable module core 4.
Preferably, the fixed mold core 5 is designed to the first half fixed mold cores 52 and the second half fixed mold cores 53, first semidefinite
Mode 52 and the second half fixed mold cores 53 are embedded in respectively on the fixed mold core installation part 51, and a complete fixed mold core is constituted,
In this way, being conducive to the design and manufacture of fixed mold core 5.
Refer to Fig. 5 and Fig. 6, the utility model also provides the of a kind of asymmetric shaving die of connector seamless shell
One embodiment, including driving mechanism 1, the driving mechanism 1 include two actuators 11,12 being oppositely arranged;Two drives
The opposite face of moving part 11,12 is curved surface 13,14, and the curved surface 13,14 is designed to when two actuators 11,12 are to same
When direction moves, the fusiform component 2 that driving is located between two actuators 11,12 moves back and forth once;The fusiform component 2,
A skewed slot 21 is equipped on fusiform component 2;One end 31 of one sliding part 3, the sliding part 3 is located in the skewed slot 21, with described
The reciprocating movement of fusiform component 2, and itself generates the reciprocating movement of the moving direction perpendicular to the fusiform component 2;Sliding part 3 it is another
One end 32 drives asymmetric mavable module core 4 to move back and forth preset distance relative to fixed mold core 5, and realization one set of die is to seamless outer
The purpose of the asymmetric cross cutting of shell;Further include mavable module core installation part 41 and fixed mold core installation part 51, the dynamic model in the present embodiment
Benevolence 4 is embedded on the mavable module core installation part 41, and the fixed mold core 5 is embedded on the fixed mold core installation part 51;The sliding
Part 3 is connect with the mavable module core installation part 41, and the mavable module core installation part 41 is driven to move.
Preferably, the utility model further includes die holder 6, and the die holder 6 includes mode mounting portion 61 and fusiform component mounting portion
62, the fixed mold core installation part 51 is located in the first hole 611 of the mode mounting portion 61, and fusiform component 2 is pacified mounted on fusiform component
In dress portion 62, the sliding part 3 is located between the fusiform component 2 and the mavable module core installation part 41;The mavable module core installation part
41 are installed vertically in the second hole 511 of the fixed mold core installation part 51, and the mavable module core 4 on the mavable module core installation part 41 with
It is constituted between the fixed mold core 5 of the fixed mold core installation part 51 and the inner wall of the mode mounting portion 61 for housing outside seamless metal
The cavity 63 of shell;Fusiform component hole 512 on the fixed mold core installation part 51 is corresponding with fusiform component mounting portion 62, for fusiform component 2
Return is dynamic, and the third hole 513 being inserted into for seamless metal shell, the third hole are equipped in 51 front of fixed mold core installation part
513 communicate with the cavity 63;The 4th hole 612 on the mavable module core installation part 41 for moving down on the fusiform component mounting portion 62
It is dynamic.
Set there are two guide sleeve 63,64 in the die holder 6, be parallel to the setting of two actuators 11,12 two guide posts 65,
66 match, and the upper end of the actuator 11,12 and two guide posts 65,66 is fixedly connected with fixed plate 67, in the fixed plate
67 are equipped with upper arm-tie 68, and die shank 69 is equipped in upper arm-tie 68.
Bottom plate 7 is equipped on the bottom surface of the die holder 6.
Refer to Fig. 7 and Fig. 8, the utility model also provides the of a kind of asymmetric shaving die of connector seamless shell
Two embodiments, including driving mechanism 1, the driving mechanism 1 include two actuators 11,12 being oppositely arranged;Two drives
The opposite face of moving part 11,12 is curved surface 13,14, and the curved surface 13,14 is designed to when two actuators 11,12 are to same
When direction moves, the fusiform component 2 that driving is located between two actuators 11,12 moves back and forth once;The fusiform component 2,
A skewed slot 21 is equipped on fusiform component 2;One end 31 of one sliding part 3, the sliding part 3 is located in the skewed slot 21, with described
The reciprocating movement of fusiform component 2, and itself generates the reciprocating movement of the moving direction perpendicular to the fusiform component 2;Sliding part 3 it is another
One end 32 drives asymmetric mavable module core 4 to move back and forth preset distance relative to fixed mold core 5, and realization one set of die is to seamless outer
The purpose of the asymmetric cross cutting of shell;Further include mavable module core installation part 41 and fixed mold core installation part 51, the dynamic model in the present embodiment
Benevolence 4 is embedded on the mavable module core installation part 41, and the fixed mold core 5 is embedded on the fixed mold core installation part 51;The sliding
Part 3 is connect with the mavable module core installation part 41, and the mavable module core installation part 41 is driven to move.
Preferably, the utility model further includes die holder 6, and the die holder 6 includes mode mounting portion 61 and fusiform component mounting portion
62, the fixed mold core installation part 51 is located in the first hole 611 of the mode mounting portion 61, and fusiform component 2 is pacified mounted on fusiform component
In dress portion 62, the sliding part 3 is located between the fusiform component 2 and the mavable module core installation part 41;The mavable module core installation part
41 are installed vertically in the second hole 511 of the fixed mold core installation part 51, and the mavable module core 4 on the mavable module core installation part 41 with
It is constituted between the fixed mold core 5 of the fixed mold core installation part 51 and the inner wall of the mode mounting portion 61 for housing outside seamless metal
The cavity 63 of shell;Fusiform component hole 512 on the fixed mold core installation part 51 is corresponding with fusiform component mounting portion 62, for fusiform component 2
Return is dynamic, and the third hole 513 being inserted into for seamless metal shell, the third hole are equipped in 51 front of fixed mold core installation part
513 communicate with the cavity 63;The 4th hole 612 on the mavable module core installation part 41 for moving down on the fusiform component mounting portion 62
It is dynamic.
Set there are two guide sleeve 63,64 in the die holder 6, be parallel to the setting of two actuators 11,12 two guide posts 65,
66 match, and the upper end of the actuator 11,12 and two guide posts 65,66 is fixedly connected with fixed plate 67, in the fixed plate
67 are equipped with upper arm-tie 68, and die shank 69 is equipped in upper arm-tie 68.
Bottom plate 7 is equipped on the bottom surface of the die holder 6.
In the present embodiment, the mavable module core 4 includes the first half mavable module cores 42 and the second half mavable module cores 43, and described the first half is dynamic
Mode 42 and the second half mavable module cores 43 are embedded in respectively on the mavable module core installation part 41, and a complete mavable module core is constituted.
The fixed mold core 5 includes the first half fixed mold cores 52 and the second half fixed mold cores 53, the first half fixed mold core 52 and the second half cover half
Benevolence 53 is embedded in respectively on the fixed mold core installation part 51, and a complete fixed mold core is constituted.
In the present embodiment, the fusiform component 2 includes the first half fusiform components 24 and the second half fusiform components 25, the first half shuttle
Shape part 24 and the second half fusiform components 25 constitute a complete fusiform component after combining.
The utility model also provides a kind of asymmetric method for cutting edge of connector seamless shell, using above-mentioned mold, in mould
When the mavable module core of tool does primary mobile in the same direction relative to fixed mold core, the both sides point of seamless metal shell are die cut
Method.
It should be noted that explaining in detail for the above embodiment, purpose, which is only that, carries out the utility model
It explains, in order to be able to preferably explain the utility model, still, these descriptions cannot be with any explanation at being to this reality
With novel limitation, in particular, each feature described in various embodiments mutually can also be combined arbitrarily, to group
At other embodiment, in addition to there is clearly opposite description, these features should be understood to can be applied to any one implementation
In mode, and it is not limited merely to described embodiment.
Claims (5)
1. a kind of connector seamless shell asymmetry shaving die, it is characterised in that:
Including driving mechanism(1), the driving mechanism(1)The actuator being oppositely arranged including two(11、12);Two drives
Moving part(11、12)Opposite face be curved surface(13、14), the curved surface(13、14)It is designed to when two actuators(11、
12)When being moved to same direction, driving is located at two actuators(11、12)Between fusiform component(2)It moves back and forth primary;
The fusiform component(2), in fusiform component(2)It is equipped with a skewed slot(21);
One sliding part(3), the sliding part(3)One end(31)It is located at the skewed slot(21)It is interior, with the fusiform component(2)It is past
It is multiple mobile, and itself is generated perpendicular to the fusiform component(2)Moving direction reciprocating movement;Sliding part(3)The other end
(32)Drive asymmetric mavable module core(4)Relative to fixed mold core(5)Preset distance is moved back and forth, realization one set of die is to seamless
The purpose of the asymmetric cross cutting of shell.
2. connector seamless shell asymmetry shaving die according to claim 1, it is characterised in that:It further include mavable module core
Installation part(41)With fixed mold core installation part(51), the mavable module core(4)It is embedded in the mavable module core installation part(41)On, it is described fixed
Mode(5)It is embedded in the fixed mold core installation part(51)On;The sliding part(3)With the mavable module core installation part(41)Connection,
Drive the mavable module core installation part(41)It is mobile.
3. connector seamless shell asymmetry shaving die according to claim 2, it is characterised in that:The mavable module core
(4)Including the first half mavable module cores(42)With the second half mavable module cores(43), the first half mavable module core(42)With the second half mavable module cores
(43)It is embedded in the mavable module core installation part respectively(41)On, constitute a complete mavable module core.
4. connector seamless shell asymmetry shaving die according to claim 2, it is characterised in that:The fixed mold core
(5)Including the first half fixed mold cores(52)With the second half fixed mold cores(53), the first half fixed mold core(52)With the second half fixed mold cores
(53)It is embedded in the fixed mold core installation part respectively(51)On, constitute a complete fixed mold core.
5. the connector seamless shell asymmetry shaving die according to any one of claim 2-4 claims, special
Sign is:It further include die holder(6), the die holder(6)Including mode mounting portion(61)With fusiform component mounting portion(62), the cover half
Benevolence installation part(51)It is located at the mode mounting portion(61)It is interior, the mavable module core installation part(41)It is installed perpendicular to the fixed mold core
Part(51)Installation, and the mavable module core installation part(41)On mavable module core(4)With the fixed mold core installation part(51)Fixed mold core
(5)With the mode mounting portion(61)Inner wall between constitute cavity for housing seamless metal shell(63);The fusiformis
Part(2)It is located at fusiform component mounting portion(62)It is interior, the sliding part(3)It is located at the fusiform component(2)With the mavable module core installation part
(41)Between.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721712886.8U CN207787417U (en) | 2017-12-11 | 2017-12-11 | Connector seamless shell asymmetry shaving die |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721712886.8U CN207787417U (en) | 2017-12-11 | 2017-12-11 | Connector seamless shell asymmetry shaving die |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN207787417U true CN207787417U (en) | 2018-08-31 |
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ID=63283486
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| Application Number | Title | Priority Date | Filing Date |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108057762A (en) * | 2017-12-11 | 2018-05-22 | 深圳市福华特精密技术有限公司 | Design method, mold and the asymmetric method for cutting edge of connector seamless shell asymmetry shaving die |
-
2017
- 2017-12-11 CN CN201721712886.8U patent/CN207787417U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108057762A (en) * | 2017-12-11 | 2018-05-22 | 深圳市福华特精密技术有限公司 | Design method, mold and the asymmetric method for cutting edge of connector seamless shell asymmetry shaving die |
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