CN205543639U - Retooling crimping machine exempts from - Google Patents
Retooling crimping machine exempts from Download PDFInfo
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- CN205543639U CN205543639U CN201620056884.7U CN201620056884U CN205543639U CN 205543639 U CN205543639 U CN 205543639U CN 201620056884 U CN201620056884 U CN 201620056884U CN 205543639 U CN205543639 U CN 205543639U
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- chute
- domatic
- mould
- spring
- electrolysis
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Abstract
The utility model discloses a retooling crimping machine exempts from, including actuating system and mould, the actuating system is connected with the mould, controls through the size to the mould to carry out the crimping to not unidimensional terminal. The utility model provides a retooling crimping machine exempts from can be according to the terminal model of crimping and change the mould of size through setting up, has saved the lead -time, has realized crimping machine's full automated control, has practiced thrift a large amount of manpowers and time cost.
Description
Technical field
This utility model relates to wire rod manufacture field, particularly relates to one and exempts from die change terminal crimping connector.
Background technology
At present, the terminal compression joint of wire rod is realized by mould, when the terminal model difference of crimping, needs to carry out mould
Change, work the most loaded down with trivial details, cause inefficiency, and automatization cannot be realized, substantial amounts of manpower and the time cost of consumption.
The defect existed in view of above-mentioned existing terminal crimping connector, the present inventor is many based on being engaged in the application of this type of product engineering
Year abundant practical experience and Professional knowledge, and coordinate the utilization of scientific principle, the most in addition research and innovation, exempt to change to founding one
Mould terminal crimping connector so that it is have more practicality.
Utility model content
This utility model provides one and exempts from die change terminal crimping connector, can be according to the terminal model of crimping by arranging
Change the mould of size, eliminate the lead-time, it is achieved that the Automatic Control of terminal crimping connector, saved a large amount of
Manpower and time cost.
The technical scheme that this utility model is taked is: one exempts from die change terminal crimping connector, including drive system and mould, drives
Dynamic system is connected with mould, by being controlled the size of mould, thus crimps various sizes of terminal.
Further, mould includes fixed part, movable part and pressure contact portion;Fixed part is fixing with the housing of terminal crimping connector to be set
Putting, movable part is connected with drive system, and pressure contact portion is arranged between fixed part and movable part, and by the extruding of pressure contact portion along solid
Determine portion and movable part slides, thus change the size of mould.
Further, fixed part is provided with the first electrolysis, the first spring chute and the first slope relative to movable part side
Face chute;First domatic chute and the first electrolysis become 120 ° of settings, and the first spring chute is arranged on the first electrolysis and first
The angular bisector position of domatic chute;It is fixedly installed spring in first spring chute, is provided with domatic in the first domatic chute.
Further, that the centrosymmetry of mould is provided with the second electrolysis, the second spring is sliding for movable part and fixed part
Groove and the second domatic chute.
Further, pressure contact portion includes the first slide block being separately positioned in the first spring chute and the second spring chute;
And it is separately positioned on the second slide block in the first domatic chute and the second domatic chute, the first slide block one end and spring contact,
The other end and the contact of the second slider surface, extruded spring by the second slide block;One end of second slide block with respectively with first
Face contact between electrolysis and the second electrolysis, the other end of described second slide block squeezing at the first electrolysis and the second electrolysis
Pressure moves in parallel along the second domatic chute and the first the domatic of domatic chute, and is extruded spring by the first slide block.
Further, drive system includes actuating unit and drive mechanism, actuating unit respectively with drive mechanism and control
System connects, and drive mechanism is connected with mould.
Further, drive mechanism is mechanical transmission mechanism.
Further, actuating unit is servomotor, is connected with described control system by encoder.
Further, drive mechanism includes the first sector gear, the second sector gear, ball-screw and linkage;The
One sector gear is fixing with actuating unit to be connected, and is delivered power to the rolling being coaxial therewith being fixedly installed by the second sector gear
Ballscrew, the feed screw nut of ball-screw is fixing with linkage one end to be connected, and the other end of linkage is fixed with movable part
Connect.
Further, linkage is provided with the connecting rod that at least two endings are connected, wherein, except the company being connected with movable part
Bar, remaining connecting rod is all connected with the housing of terminal crimping connector, and can rotate around junction point.
A kind of terminal crimping method, it is characterised in that comprise the following steps:
A, controlled actuating unit reversion by control system, actuating unit by drive mechanism drive dynamic portion away from fixed part,
Mould is made to open to maximum playback;
B, the wire rod being arranged with terminal is sent in mould, complete the location of terminal and mould;
C, the revolution of dynamical system is configured according to terminal model by control system;
D, actuating unit rotate forward, and drive movable part according to predetermined revolution near fixed part by drive mechanism, to terminal
Extrude;
E, complete extruding after, actuating unit reversion playback.
After have employed technique scheme, this utility model has a following beneficial effect:
1, by arranging and can change the mould of size according to the terminal model of crimping, the lead-time is eliminated,
Achieve the Automatic Control of terminal crimping connector, save substantial amounts of manpower and time cost;
2, mould structure is simple and reliable, it is easy to accomplish, and with low cost;
3, by servomotor, terminal crimping connector is driven, controls accurately, it is ensured that crimping precision;
4, by machine driving, reliable transmission, safeguard easily;
5, by arranging bevel gear, if device structure is compacter, reduces the volume of whole equipment, reduce into
This.
Accompanying drawing explanation
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment
Or the required accompanying drawing used is briefly described in description of the prior art, it is therefore apparent that the accompanying drawing in describing below is only
Some embodiments described in this utility model, for those of ordinary skill in the art, are not paying creative work
Under premise, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 ~ Fig. 4 is the structural scheme of mechanism exempting from die change terminal crimping connector of the present utility model;
Labelling implication in accompanying drawing: 1 drive system, 2 moulds, 11 actuating units, 12 drive mechanisms, 21 fixed parts, 22 activities
Portion, 23 pressure contact portions, 24 first slide blocks, 25 second slide blocks, 12a the first sector gear, 12b the second sector gear, 12c ball wire
Thick stick, 12d linkage, first drive link of 12e, 12f rotating shaft.
Detailed description of the invention
For the technical scheme making those skilled in the art be more fully understood that in this utility model, below in conjunction with this reality
With the accompanying drawing in new embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that
Described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on this utility model
In embodiment, the every other enforcement that those of ordinary skill in the art are obtained under not making creative work premise
Example, all should belong to the scope of this utility model protection.
This utility model embodiment uses the mode gone forward one by one to write.
As shown in Figure 1 to Figure 4, one exempts from die change terminal crimping connector, including drive system 1 and mould 2, drive system 1 and mould 2
Connect, by the size of mould 2 is controlled, thus various sizes of terminal is crimped;Can be according to pressure by arranging
The terminal model that connects and change the mould of size, eliminate the lead-time, it is achieved that the full-automation of terminal crimping connector
Control, saved substantial amounts of manpower and time cost.
Wherein, mould 2 includes fixed part 21, movable part 22 and pressure contact portion 23;Fixed part 21 and the housing of terminal crimping connector
Being fixedly installed, movable part 22 is connected with drive system 1, and pressure contact portion 23 is arranged between fixed part 21 and movable part 22, by pressure
Connect the extruding in portion 23 and change the size of mould 2;Fixed part 21 relative to movable part 22 side be provided with the first electrolysis, first
Spring chute and the first domatic chute;First domatic chute and the first electrolysis become 120 ° of settings, and the first spring chute is arranged on
First electrolysis and the angular bisector position of the first domatic chute;Being fixedly installed spring in first spring chute, first is domatic
It is provided with domatic in chute;Movable part 22 and fixed part 21 are provided with the second electrolysis, the second bullet about the centrosymmetry of mould 2
Spring chute and the second domatic chute;Pressure contact portion 23 includes be separately positioned in the first spring chute and the second spring chute first
Slide block 24;And it is separately positioned on the second slide block 25 in the first domatic chute and the second domatic chute, first slide block 24 one end
With spring contact, the other end and the second slide block 25 contact;One end of second slide block 25 with respectively with the first electrolysis and second
Face contact between electrolysis, the other end of the second slide block 25 is domatic along second under the extruding of the first electrolysis and the second electrolysis
Chute and the first the domatic of domatic chute move in parallel, and are extruded spring by the first slide block 24;Whole mould structure
It is simple and reliable, it is easy to accomplish, and with low cost.
Drive system 1 includes actuating unit 11 and drive mechanism 12, actuating unit 11 respectively with drive mechanism 12 and control
System connects, and drive mechanism 12 is connected with mould 2, and wherein, actuating unit 11 is servomotor, by encoder and control system
Connect, by servomotor, terminal crimping connector is driven, control accurately, it is ensured that crimping precision.
Drive mechanism 12 is mechanical transmission mechanism, including the first sector gear 12a, the second sector gear 12b, ball-screw
12c and linkage 12d;First sector gear 12a is fixing with actuating unit 11 to be connected, and will be moved by the second sector gear 12b
Power is transferred to the ball-screw 12c being coaxially fixedly installed with the second sector gear 12b, the feed screw nut of ball-screw 12c and company
Linkage 12d one end is fixing to be connected, and the other end of linkage 12d is fixing with movable part 22 to be connected, wherein, and linkage 12d
Be provided with two connecting rods, be rotatably connected with the rotating shaft 12f being fixed on press-connection machine housing in the middle part of first drive link 12e;
By machine driving, reliable transmission, safeguard easily;Reduce the volume of whole equipment by arranging bevel gear, reduce into
This.
A kind of terminal crimping method, it is characterised in that comprise the following steps:
A, control system controlling actuating unit 11 and invert, actuating unit 11 drives movable part 22 remote by drive mechanism 12
From fixed part 21, mould 2 is made to open to maximum playback;
B, the wire rod being arranged with terminal is sent in mould 2, complete the location of terminal and mould 2;
C, the revolution of dynamical system 11 is configured according to terminal model by control system;
D, actuating unit 11 rotate forward, and drive movable part 22 according to predetermined revolution near fixed part by drive mechanism 12
21, terminal is extruded;
E, complete extruding after, actuating unit 11 reversion playback.
During work, control system sends instruction by encoder to servomotor, and servomotor starts rotating forward, drives first
Sector gear 12a rotates, thus the second sector gear 12b coordinated with the first sector gear 12a drives and is coaxial therewith fixing setting
The ball-screw 12c that puts rotates, and ball-screw nut moves upward, one end fix with ball-screw nut the connecting rod that is connected around with
The rotating shaft 12f being fixed on press-connection machine housing rotates, thus the other end of this connecting rod drives second be connected with movable part 22
Link motion;Second connecting rod promotes movable part 22 to extrude pressure contact portion 23, and wherein the second electrolysis is to the second slide block 25
Extruding, the second slide block 25 moves up along the first domatic chute is parallel, and the second domatic chute is to another block the second slide block 25
Extruding, another block second slide block 25 is along the first electrolysis slide downward, thus two piece of second slide block 25 is respectively to two simultaneously
Block the first slide block 24 extrudes so that two piece of first slide block 24 respectively along described first spring chute and the second spring chute to
Interior slip;The hexagon so surrounded by the first electrolysis, the second electrolysis, two piece of first slide block 24 and two piece of second slide block 25
Mould is gradually reduced, thus extrudes terminal;Final extrusion shapes is determined by the rotating speed of servomotor.
Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses this practicality new
Type.Multiple amendment to these embodiments will be apparent from for those skilled in the art, is determined herein
The General Principle of justice can realize in the case of without departing from spirit or scope of the present utility model in other embodiments.Cause
This, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein
The widest scope consistent with features of novelty.
Claims (8)
1. exempt from die change terminal crimping connector for one kind, it is characterised in that include drive system (1) and mould (2), described drive system
(1) it is connected with described mould (2), by the size of described mould is controlled, thus various sizes of terminal is pressed
Connect;
Described mould (2) includes fixed part (21), movable part (22) and pressure contact portion (23);Described fixed part (21) and terminal compression joint
The housing of machine is fixedly installed, and described movable part (22) is connected with described drive system (1), and described pressure contact portion (23) is arranged at described
Between fixed part (21) and movable part (22), slided along described fixed part (21) by the extruding of described pressure contact portion (23), from
And change the size of described mould (2).
The most according to claim 1 exempt from die change terminal crimping connector, it is characterised in that described fixed part (21) is relative to described
Movable part (22) is provided with the first electrolysis, the first spring chute and the first domatic chute;Described first domatic chute is with described
The angle that first electrolysis becomes 120 ° of settings, described first spring chute to be arranged on described first electrolysis and the first domatic chute is put down
Separated time position;It is fixedly installed spring in described first spring chute, is provided with domatic in described first domatic chute.
The most according to claim 2 exempt from die change terminal crimping connector, it is characterised in that described movable part (22) is fixing with described
Portion (21) is provided with the second electrolysis, the second spring chute and the second domatic chute about the centrosymmetry of described mould (2).
The most according to claim 3 exempt from die change terminal crimping connector, it is characterised in that described pressure contact portion (23) includes setting respectively
Put the first slide block (24) in described first spring chute and the second spring chute;And it is separately positioned on described first domatic
The second slide block (25) in chute and the second domatic chute, described first slide block (24) one end and described spring contact, the other end
Contact with described second slide block (25) face;One end of described second slide block (25) crimps with described first electrolysis and second respectively
Between face face contact, the other end of described second slide block (25) under the extruding of described first electrolysis and the second electrolysis along institute
State the second domatic chute and the first the domatic of domatic chute moves in parallel, and by described first slide block (24), spring is squeezed
Pressure.
The most according to claim 1 exempt from die change terminal crimping connector, it is characterised in that described drive system (1) includes power
Mechanism (11) and drive mechanism (12), described actuating unit (11) is connected with described drive mechanism (12) and control system respectively,
Described drive mechanism (12) is connected with described mould (2).
The most according to claim 5 exempt from die change terminal crimping connector, it is characterised in that described drive mechanism (12) is that machinery passes
Motivation structure.
The most according to claim 5 exempt from die change terminal crimping connector, it is characterised in that described drive mechanism (12) includes first
Sector gear (12a), the second sector gear (12b), ball-screw (12c) and linkage (12d);Described first sector gear
(12a) fixing with described actuating unit (11) it is connected, delivers power to be coaxial therewith by described second sector gear (12b)
The ball-screw (12c) being fixedly installed, the feed screw nut of described ball-screw (12c) is solid with described linkage (12d) one end
Fixed connection, the other end of described linkage (12d) is fixing with described movable part (22) to be connected.
The most according to claim 7 exempt from die change terminal crimping connector, it is characterised in that described linkage (12d) is provided with
At least two 7 end to end connecting rods, wherein, except the connecting rod that is connected with described movable part (22), remaining connecting rod all with described end
The housing of sub-press-connection machine connects, and can rotate around junction point.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620056884.7U CN205543639U (en) | 2016-01-20 | 2016-01-20 | Retooling crimping machine exempts from |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620056884.7U CN205543639U (en) | 2016-01-20 | 2016-01-20 | Retooling crimping machine exempts from |
Publications (1)
Publication Number | Publication Date |
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CN205543639U true CN205543639U (en) | 2016-08-31 |
Family
ID=56766089
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CN201620056884.7U Active CN205543639U (en) | 2016-01-20 | 2016-01-20 | Retooling crimping machine exempts from |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105514757A (en) * | 2016-01-20 | 2016-04-20 | 江苏博之旺自动化设备有限公司 | Die-change-free terminal crimping machine and terminal crimping method |
CN108767618A (en) * | 2018-06-05 | 2018-11-06 | 郑文豪 | A kind of electric power cable terminal Squeeze Splicing Machine and its connection processing technology |
CN111740293A (en) * | 2020-08-10 | 2020-10-02 | 南昌冠东科技有限公司 | Automatic change formula terminal press-connection machine |
-
2016
- 2016-01-20 CN CN201620056884.7U patent/CN205543639U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105514757A (en) * | 2016-01-20 | 2016-04-20 | 江苏博之旺自动化设备有限公司 | Die-change-free terminal crimping machine and terminal crimping method |
CN108767618A (en) * | 2018-06-05 | 2018-11-06 | 郑文豪 | A kind of electric power cable terminal Squeeze Splicing Machine and its connection processing technology |
CN111740293A (en) * | 2020-08-10 | 2020-10-02 | 南昌冠东科技有限公司 | Automatic change formula terminal press-connection machine |
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C14 | Grant of patent or utility model | ||
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