CN209692120U - Coupler automates riveting device - Google Patents
Coupler automates riveting device Download PDFInfo
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- CN209692120U CN209692120U CN201920609590.6U CN201920609590U CN209692120U CN 209692120 U CN209692120 U CN 209692120U CN 201920609590 U CN201920609590 U CN 201920609590U CN 209692120 U CN209692120 U CN 209692120U
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- riveting
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Abstract
The utility model discloses a kind of couplers to automate riveting device, including transfer device, riveting mechanism and carrier, carrier includes the first positioning region, second positioning region and third positioning region, transfer device includes the first rack and the clamping components being arranged in the first rack and the first drive member, first drive member can drive clamping components to clamp power supply line one end at the first positioning region and shift at positioning to third positioning region, the riveting mechanism includes the second rack and the riveting head being arranged in the second rack and the second drive member, riveting head is located above third positioning region and is formed with the riveting up and down to the conductive sheet and branch line junction from the driving of the second drive member with third positioning region.The utility model structure is simple, and automation transfer and riveting can be carried out to the branch line after tangent line peeling, improves production efficiency.
Description
Technical field
The utility model relates to a kind of couplers to automate riveting device.
Background technique
Coupler is commonly used for the electrical connecting unit on the household electrical appliance pedestal such as electric kettle or wall-breaking machine, as
As disclosed in CN204067589U, coupler generally comprises pedestal made of plastic cement and the power supply for being connected to pedestal
Line, there are three conductive sheet, three conductive sheets respectively correspond ground wire, firewire and zero curve setting, power supply line and then wrap for setting on pedestal
Bus and three branch lines are included, three branch lines are isolated from bus one end and are correspondingly connected with three conductive sheets, the bus other end
It is connected with plug, due to the positioning height and firewire, zero on conventional coupler pedestal for the connecting terminal of the conductive sheet of ground connection
The difference of line, thus the branch line for typically representing ground wire is slightly long compared with other two branch lines.
Currently, coupler in the prior art, is inserted between conductive sheet and power supply line one end generally by connecting terminal
It taps into row to be electrically connected, needs to carry out peeling to the end of branch line before proceeding, and keep its copper wire part exposed, then outside copper wire
The second connecting terminal of blade inserting is then arranged in the first connecting terminal of connected slot formula, the connecting part of conductive sheet at dew part, leads to
It crosses the first plug wire terminal and the second connecting terminal is plugged and fixed, be conductively connected the two contact.However it carries out in this way
Connection needs that the first connecting terminal is first arranged at branch line, and production process is complex and costly, and its junction is easy quilt
Separation is pullled, or is loosened, poor contact is caused.Later applicant voluntarily has developed a kind of novel coupler, conductive
The connecting terminal of piece has riveting clasping structure, and the copper wire exposed portion of the connecting terminal of conductive sheet and branch line is directly passed through
Riveting welding manner is attached, and junction is not easy to fall off, and has better contact wire effect.But it is main at present to use
Manual type carries out riveting, welding, and efficiency is lower, is unfavorable for producing in batches, does not meet the demand of modern automation production.
During processing this novel coupler, first have to carry out tangent line to three branch lines, it is extra to remove
Part, while the branch line of corresponding ground wire being made to reserve a part of length, peeling then is carried out to three branch lines, makes the copper wire portion of branch line
Point expose, then could successively carry out riveting, welding and etc..
Utility model content
In view of the deficiencies of the prior art, the utility model provides a kind of coupler automation riveting device, structure letter
It is single, automation transfer and riveting can be carried out to the branch line after tangent line peeling, improve production efficiency.
To achieve the above object, the utility model provides a kind of coupler automation riveting device, including transfer device,
Riveting mechanism and carrier, carrier include the first positioning region, another to power supply line that support positioning is formed to power supply line one end
End forms the second positioning region of support positioning and can form support to junction between conductive sheet and power supply line one end simultaneously
The third positioning region of positioning, the transfer device include the first rack and the clamping components being arranged in the first rack and first
Drive member, the first drive member can drive clamping components to clamp and shift power supply line one end at the first positioning region
At positioning to third positioning region, the riveting mechanism includes the second rack and the riveting head being arranged in the second rack and second
Drive member, riveting head is located above third positioning region and is formed by the driving of the second drive member with third positioning region leads to described
Electric piece and the cooperation of the riveting up and down of branch line junction.
The beneficial effects of the utility model are: the setting of the first positioning region can form support positioning to power supply line one end,
It can be used to cooperate support positioning when the previous process of riveting, i.e. tangent line, peeling operation.The clamping components of transfer device exist
Power supply line one end at the first positioning region can be clamped under the driving of first drive member, and it is fixed to third to shift positioning
At the portion of position, the connecting terminal of conductive sheet is located in support in advance at third positioning region, and third positioning region is simultaneously to conductive sheet and electricity
Junction forms support positioning between the line one end of source, and then the riveting head of riveting mechanism is under the driving of the second drive member with the
Three positioning regions form the cooperation of riveting up and down to the conductive sheet and branch line junction, and then can be realized coupler tangent line peeling
Automation riveting afterwards, structure is simple, improves the production efficiency of coupler.
First positioning region includes spaced branch line clip slot and as a further improvement of the utility model,
One bus clip slot, branch line clip slot form support positioning for the end simultaneously to three branch lines, and the first bus clip slot is used for total
Line one end forms support positioning, and the clamping components include spaced first collet, the second collet, and the first collet is for same
When three branch lines are clamped, the second collet is for clamping bus.
By adopting the above technical scheme the advantages of, is: improving the first positioning region to the support locating effect of power supply line one end, mentions
High clamping components make to be not easy to shake among support positioning and transfer process to fall off, improve to the clamping effect of power supply line one end
Accuracy and stability.
The clamping components include to be arranged at intervals at the first collet and second as a further improvement of the utility model,
Third collet between collet, the third collet is for clamping the ground wire in three branch lines, the first driving structure
Part can drive third collet towards the second collet movement and draw close the end of branch line of corresponding ground wire with the end of other branch lines.
By adopting the above technical scheme the advantages of, is: while the first drive member drives third collet towards the second collet movement
The end of branch line of corresponding ground wire can be made to draw close with the end of other branch lines.Guarantee ground wire and conductive connecting when subsequent riveting
Riveting position between terminal keeps accurate, improves yields.
First rack includes support rod, cross bar, cross slide, longitudinal direction as a further improvement of the utility model,
Slide plate and side skid, cross bar one end are fixed with support rod up and down adjustment, and in the cross bar other end, longitudinal direction is sliding for cross slide setting
Plate is arranged on cross slide, and side skid is arranged on longitudinal slide, and the clamping components are arranged on side skid, described
First drive member includes the first cylinder, the second cylinder, third cylinder, the 4th cylinder and the 5th cylinder, and the setting of the first cylinder exists
Between cross slide and cross bar and cross slide can be driven to slide along cross bar length direction, the second cylinder is arranged in cross slide
Between longitudinal slide and longitudinal slide transversely slide plate up and down motion can be driven, third cylinder is arranged in longitudinal slide and side
To that between slide plate and can drive side skid lateral movement, the setting of the 4th cylinder is used in combination between clamping components and side skid
It in the clamping of driving clamping components or decontrols, the 5th cylinder is arranged between clamping components and side skid and for driving third to press from both sides
Head is moved towards the second collet direction.
By adopting the above technical scheme the advantages of, is: can drive the clamping for realizing power supply line one end by five cylinders, turn
Move and correspond to the movement of the end of ground wire branch line, structurally reasonable, simple, processing easy to produce.
The third positioning region includes base stand location slot, riveting press groove and as a further improvement of the utility model,
Two lines bus clip slot, base stand location slot are used to be supported pedestal positioning, and the second bus clip slot is used to form branch to bus one end
Support positioning, riveting press groove are fixed for being supported simultaneously to the connecting terminal of the conductive sheet on pedestal and the copper wire part of branch line
Position, riveting press groove can also constitute riveting up and down with the riveting head and cooperate, by the copper wire of the connecting terminal of conductive sheet and branch line
Portion carries out riveting connection.
By adopting the above technical scheme the advantages of, is: on the base due to the setting of conductive sheet main body, passing through base stand location slot energy
Enough to form good location to conductive sheet main body, riveting press groove with the riveting up and down of riveting head by cooperating, in the wiring to conductive sheet
The copper wire part of terminal and branch line can also realize that riveting between the two cooperates while being supported positioning.
Detailed description of the invention
Fig. 1 is the structure chart of coupler product in the utility model;
Fig. 2 is the structure chart 1 of the utility model embodiment;
Fig. 3 is the structure chart 2 of the utility model embodiment;
Fig. 4 is the enlarged drawing of part A in Fig. 3;
Fig. 5 is the structure chart of transfer device in the utility model embodiment;
Fig. 6 is the structure chart of riveting mechanism in the utility model embodiment;
Fig. 7 is the structure chart of carrier in the utility model embodiment.
Specific embodiment
The novel coupler that applicant voluntarily researches and develops includes pedestal 1 made of plastic cement and connection as shown in Figure 1:
In setting on the power supply line 2 of pedestal 1, pedestal 1 there are three conductive sheet 11, three conductive sheets 11 respectively correspond ground wire, firewire and
Zero curve setting, power supply line 2 then includes bus 21 and three branch lines 22, and three branch lines 22 are isolated from 21 one end of bus and with three
The connecting terminal of a conductive sheet 11 is correspondingly connected with, and the connecting terminal of conductive sheet 11 has clasping structure, can be with the copper of branch line 22
Line exposed parts cooperate riveting connection, and 21 other end of bus is connected with plug 23, and the branch line of corresponding ground wire is located at three branch lines
Middle position, since the positioning height of 11 connecting terminal of conductive sheet of corresponding ground wire is different from other branch lines, corresponding ground wire
Branch line it is slightly long compared with other two branch lines.The connecting terminal riveting of the copper wire exposed parts of 22 end of branch line and conductive sheet 11 touches
Weldering connection.The junction for respectively corresponding the branch line of firewire and zero curve is arranged with heat-shrink tube.Branch line is indicated for clarity and is led
Heat-shrink tube is not shown in Fig. 1 in junction structure between electric piece.
The utility model coupler automates the embodiment of riveting device as illustrated in figs. 2-7: including transfer device, riveter
Structure and carrier 8, carrier 8 include to form the first positioning region 3 of support positioning, to 2 other end of power supply line to 2 one end of power supply line
It forms the second positioning region 4 of support positioning and branch can be formed to junction between 2 one end of conductive sheet 11 and power supply line simultaneously
The third positioning region 5(for supportting positioning is as shown in Figure 6), the transfer device 6 includes the first rack 61 and is arranged in the first rack
Clamping components 62 and the first drive member on 61, the first drive member can drive clamping components 62 to the first positioning region 3 at
Power supply line one end clamped and shift positioning at third positioning region 5, the riveting mechanism 7 include the second rack 71 and
Riveting head 72 in second rack 71 and the second drive member 73 are set, and the preferred status of the second drive member 73 drives riveting head
72 cylinders pushed, riveting head 72 is located at 5 top of third positioning region and is driven by the second drive member to be formed with third positioning region 5
The cooperation of riveting up and down to 22 junction of the conductive sheet 11 and branch line.
First positioning region 3 includes spaced branch line clip slot 31 and the first bus clip slot 32, branch line clip slot 31
Support positioning is formed for the end simultaneously to three branch lines 22, branch line clip slot 31 includes driving lateral compress by spring by several
Compact heap 311, compact heap 311 can the end to branch line 22 carry out compression positioning, the first bus clip slot 32 is used for bus
21 one end formed support positioning, the diameter of the smaller bus 21 of the internal diameter of the first bus clip slot 32, enable bus 21 with interference
Insertion is located in the first bus clip slot 32, and the clamping components 62 include spaced first collet 621, the second collet
622, the first collet 621 is for simultaneously clamping three branch lines, and the second collet 622 is for clamping bus 21.
The clamping components 62 further include having the third being arranged at intervals between the first collet 621 and the second collet 622 folder
First 623, the third collet 623 is used to clamp the ground wire (branch line 22 for being located at middle) in three branch lines 22,
For the clamping components when clamping to 2 one end of power supply line, the branch line clip slot 31 and the first bus clip slot 32 can be simultaneously
It is inserted into the gap between the first collet 621, the second collet 622 and third collet 623.First drive member can drive
Dynamic third collet 623 moves towards the second collet 622 and leans on the end of branch line 22 of corresponding ground wire and the end of other branch lines 22
Hold together, is aligned convenient for the subsequent connecting terminal with each conductive sheet of pedestal and riveting.First collet 621 is retained as branch line 22
Loose fit, mainly for the purpose of the clamping of branch line transfer, and third collet 623 and branch line 22 are retained as tight fit, so that the
When three collets 623 are moved towards the second collet 622, branch line 22 can be slided along the first collet 621, and be unlikely to pull on branch line 22
It is disconnected.
First rack 61 includes support rod 611, cross bar 612, cross slide 613, longitudinal slide 614 and laterally slides
Plate 615,611 lower end of support rod are provided with the pedestal 6110 being connected and fixed with plane, 612 one end of cross bar and about 611 support rod
It adjusts and fixes, specially 612 one end of cross bar can slide up and down along support rod 611 and be positioned by screw locking, cross slide
613 settings are arranged on cross slide 613 in 612 other end of cross bar, longitudinal slide 614, and side skid 615 is arranged in longitudinal cunning
On plate 614, the clamping components 62 are arranged on side skid 615, and first drive member includes the first cylinder 91, second
Cylinder 92, third cylinder 93, the 4th cylinder 94 and the 5th cylinder 95, the first cylinder 91 are arranged in cross slide 613 and cross bar 612
Between and can drive cross slide 613 along 612 length direction of cross bar slide, the second cylinder 92 be arranged in 613 He of cross slide
Between longitudinal slide 614 and the transversely up and down motion of slide plate 613 of longitudinal slide 614 can be driven, the setting of third cylinder 93 is vertical
To that between slide plate 614 and side skid 615 and can drive 615 lateral movement of side skid, the setting of the 4th cylinder 94 is being clamped
Between component 62 and side skid 615 and for driving clamping components 62 while clamping or decontroling, the 4th cylinder 94 is preferably used
Clamp arm cylinder, the 4th cylinder 94 is three in the present embodiment, is respectively used to the first collet 621 of driving, the second collet 622, the
The clamping of three collets 623 is decontroled, and the identical connecting rod with 613 glide direction of cross slide is additionally provided on side skid 615
616, the 4th cylinder 94 of two of them is arranged on side skid 615, and there are one the 4th cylinders 94 to be arranged in connecting rod 616
On, the 5th cylinder 95 is arranged between clamping components 62 and side skid 615, and specially setting is in connecting rod 616 and laterally sliding
Between plate 615, and for driving third collet 623 to move towards the second collet direction.
The third positioning region 5 includes base stand location slot 51, riveting press groove 52 and the second bus clip slot 53, base stand location slot
51 for being supported positioning to pedestal 1, and base stand location slot 51 is preferably obtained and is made of multiple concentric annular grooves, can be with pedestal 1
Cooperate grafting positioning, the second bus clip slot 53 is used to form 21 one end of bus support positioning, with the first bus clip slot 32
Structure is identical with principle, and riveting press groove 52 is for simultaneously to the connecting terminal of the conductive sheet 11 on pedestal 1 and the copper wire of branch line 22
Part is supported positioning, and riveting press groove 52 can also constitute riveting cooperation up and down with the riveting head 72, by conductive sheet 11
The copper wire portion of connecting terminal and branch line 22 carries out riveting connection.It is preferably inserted with the power supply line other end second positioning region 4
The socket structure of first 23 cooperation grafting, it is convenient for disassembly and assembly, and power supply line can be reduced and generate shaking during transfer, riveting.
Before automating riveting process, the pedestal of coupler 1 is located in 1 locating slot 51 of pedestal in advance, and by pedestal 1
The connecting terminal of conductive sheet 11 be placed in riveting press groove 52.The clamping components 62 of transfer device are under the driving of the first drive member
Power supply line one end (i.e. three branch lines and bus end) at first positioning region 3 can be clamped, and shift positioning to the
At three positioning regions 5, since the connecting terminal of the conductive sheet 11 of pedestal 1 is previously placed in riveting press groove 52, it is thus possible to will be outside copper wire
Dew part is located at the connecting terminal of conductive sheet 11 simultaneously, and then the riveting head 72 of riveting mechanism 7 is in the second drive member 72
Driving under be pressed on downwards at riveting press groove 52, with riveting press groove 52 formed to 22 junction of the conductive sheet 11 and branch line up and down
Riveting cooperation, and then can be realized automation riveting connection of the coupler after tangent line peeling.
Above example, only one kind of the utility model preferably specific example, those skilled in the art are practical new at this
The usual variations and alternatives carried out in type technical proposal scope are included in the protection scope of the utility model.
Claims (5)
1. a kind of coupler automates riveting device, it is characterised in that: including transfer device, riveting mechanism and carrier, carrier
It include to be formed support the first positioning region of positioning, determine the second of the formation support positioning of the power supply line other end to power supply line one end
Position portion and the third positioning region that support positioning can be formed to junction between conductive sheet and power supply line one end simultaneously, described turn
Telephone-moving structure includes the first rack and the clamping components being arranged in the first rack and the first drive member, the first drive member energy
Enough driving clamping components clamp power supply line one end at the first positioning region and are shifted at positioning to third positioning region, described
Riveting mechanism includes the second rack and the riveting head being arranged in the second rack and the second drive member, and riveting head is located at third
Above positioning region and by the driving of the second drive member and third positioning region formed to the conductive sheet and branch line junction up and down
Riveting cooperation.
2. coupler according to claim 1 automates riveting device, it is characterised in that: first positioning region includes
Spaced branch line clip slot and the first bus clip slot, branch line clip slot, which forms support for the end simultaneously to three branch lines, to be determined
Position, the first bus clip slot be used for bus one end formed support positioning, the clamping components include spaced first collet,
Second collet, the first collet is for simultaneously clamping three branch lines, and the second collet is for clamping bus.
3. coupler according to claim 2 automates riveting device, it is characterised in that: between the clamping components include
Every the third collet being set between the first collet and the second collet, the third collet be used for the ground wire in three branch lines into
Row clamping, first drive member can drive third collet towards the second collet movement and make the end for corresponding to the branch line of ground wire
It is drawn close with the end of other branch lines.
4. coupler according to claim 3 automates riveting device, it is characterised in that: first rack includes support
Bar, cross bar, cross slide, longitudinal slide and side skid, cross bar one end are fixed with support rod up and down adjustment, and cross slide is set
It sets in the cross bar other end, longitudinal slide is arranged on cross slide, and side skid is arranged on longitudinal slide, the clamping components
It is arranged on side skid, first drive member includes the first cylinder, the second cylinder, third cylinder, the 4th cylinder and the
Five cylinders, the first cylinder are arranged between cross slide and cross bar and cross slide can be driven to slide along cross bar length direction,
Second cylinder is arranged between cross slide and longitudinal slide and can drive longitudinal slide transversely slide plate up and down motion, third
Cylinder is arranged between longitudinal slide and side skid and can drive side skid lateral movement, and the setting of the 4th cylinder is clamping
Between component and side skid and for driving clamping components clamping or decontroling, the setting of the 5th cylinder is slided in clamping components with lateral
Between plate and for driving third collet to move towards the second collet direction.
5. coupler according to claim 1 or 2 or 3 or 4 automates riveting device, it is characterised in that: the third is fixed
Position portion includes base stand location slot, riveting press groove and the second bus clip slot, and base stand location slot is used to be supported positioning to pedestal, the
Two lines bus clip slot is used to form bus one end support positioning, and riveting press groove is for simultaneously to the connecting terminal of the conductive sheet on pedestal
And the copper wire part of branch line is supported positioning, riveting press groove can also constitute riveting up and down with the riveting head and cooperate, will
The connecting terminal of conductive sheet and the copper wire portion of branch line carry out riveting connection.
Priority Applications (1)
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CN201920609590.6U CN209692120U (en) | 2019-04-29 | 2019-04-29 | Coupler automates riveting device |
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CN201920609590.6U CN209692120U (en) | 2019-04-29 | 2019-04-29 | Coupler automates riveting device |
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CN209692120U true CN209692120U (en) | 2019-11-26 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110098548A (en) * | 2019-04-29 | 2019-08-06 | 浙江达威电子股份有限公司 | Coupler automates riveting device |
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2019
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110098548A (en) * | 2019-04-29 | 2019-08-06 | 浙江达威电子股份有限公司 | Coupler automates riveting device |
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