CN206779738U - The conducting heavy current mechanism of bonding machine - Google Patents
The conducting heavy current mechanism of bonding machine Download PDFInfo
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- CN206779738U CN206779738U CN201720499690.9U CN201720499690U CN206779738U CN 206779738 U CN206779738 U CN 206779738U CN 201720499690 U CN201720499690 U CN 201720499690U CN 206779738 U CN206779738 U CN 206779738U
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- rotary flange
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- flange axle
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Abstract
The conducting heavy current mechanism of bonding machine provided by the utility model, including pedestal, the first conductive rotary shaft for being easy to the loading and unloading station of welding workpiece to be replaced with welding post revolution is installed on pedestal;The side end of first conductive gyroaxis is provided with a crossbeam, and the both ends of crossbeam are provided with the second conductive rotary flange axle and the 3rd conductive rotary flange axle;First conductive rotating shaft center is provided with the conductive transition set rotated coaxially with it, and the first conductive rotary shaft end is provided with the one-level conducting ring with conductive transition set connection, the flexible one-level conductive pole for touching one-level conducting ring side is installed in pedestal side wall;The two level conductive pole touched with the end rotary flange disc side of the second conductive rotary flange axle or the 3rd conductive rotary flange axle is respectively equipped with the both ends of crossbeam, is additionally provided between two level conductive pole and conductive transition set by the cable of conductive communication between the two;It is powered by the body of second and third conductive rotary flange axle come to the Workpiece supply high current to be welded of respective clamping.
Description
【Technical field】
It the utility model is related to the conductive technology of bonding machine, more particularly to a kind of conducting heavy current mechanism of bonding machine.
【Background technology】
Under prior art conditions, the welding between some metal material matrix and metal, product need point-by-point welding, effect
Rate is low, there is waste, cost height in welding;And because accumulative weld interval is grown, the damage to product is big, cause welding quality without
Method ensures that preparatory process needs to increase labour cost.
When using bonding machine is more to smallclothes, parts automatic welding short more than weld seam hop count when, existing welding side
Formula not only poor welding quality, the operation of welding process not quietly, and the electrical current of welding process is very big, existing soldering tip
Energized structural can not effectively adapt to high current welding.
【Utility model content】
Efficiency low problem of the utility model for positioner on welding production line, there is provided one kind is easy to more welding guns
Double alternately operating, the electric current of transmission is steady, it is ensured that the continuous operation of welding, without welding slag and obvious weld defect, weld seam
Quality and stability is good, can be dissolved into various automatic welding production lines, easily operated, be easy to maintaining, effectively reduces
Equipment cost and the labor intensity of producers, improve the conducting heavy current mechanism of the bonding machine of production efficiency.
In order to realize above-mentioned purpose of utility model, the technical solution adopted in the utility model is:
The conducting heavy current mechanism of bonding machine, for Workpiece supply high current to be welded, including it is arranged at automatic production
Pedestal on line;The loading and unloading station for being easy to welding workpiece and the first of welding post revolution replacement is installed on the pedestal to lead
Electric rotary shaft, corresponding pedestal upper interior are provided with the first bearing support that the first conductive rotary shaft of supporting rotates;
The side end of the first conductive gyroaxis is provided with a crossbeam, is symmetrically provided with the left and right ends of crossbeam point
Clamping needs the second conductive rotary flange axle of workpiece to be welded being powered and the respectively not from revolution location action and thereon
Three conductive rotary flange axles;
The first conductive rotary shaft and crossbeam are hollow structure, are provided with the first conductive rotating shaft center same with its
The conductive transition set that axle rotates, the first conductive rotary shaft end are mounted with to rotate coaxially with it and cover with conductive transition and fixed
The one-level conducting ring of connection, the end of the corresponding first conductive rotary shaft of the pedestal side wall are provided with least one and high current and supplied
Electric equipment connects and the one-level conductive pole of the elastic one-level conducting ring side for touching rotation;
The both ends of the crossbeam are respectively equipped with the end with the second conductive rotary flange axle or the 3rd conductive rotary flange axle
The two level conductive pole that rotary flange disc side touches, also set in the crossbeam inner chamber between the two level conductive pole and conductive transition set
Have the cable of conductive communication between the two;
Clamping workpiece to be welded is distinguished on the second conductive rotary flange axle and the 3rd conductive rotary flange axle by the
Itself body of two conductive rotary flange axles or the 3rd conductive rotary flange axle, which is powered, to supply to the workpiece to be welded of respective clamping
To high current.
Preferably, the described first conductive rotating shaft terminal is separately installed with two pedestals for supporting its gyration.
Preferably, the front and rear side of the described first conductive gyroaxis is separately installed with a crossbeam, the second conductive gyroaxis and
The left and right ends for being arranged on two crossbeams of three conductive Axisymmetrics.
Preferably, one-level guide pin bushing and first class pressure spring of the pedestal side wall provided with fixed one-level conductive pole, described one
Level guide pin bushing is fixed in pedestal side wall, and what one-level conductive pole slided is socketed on one-level guide pin bushing, and first class pressure spring housing is loaded on one
On level conductive pole and the promotion one-level conductive pole using pedestal side wall as supporting surface elasticity tension touches the side of one-level conducting ring.
Preferably, two level guide pin bushing and secondary pressure spring of the beam side wall provided with fixed two level conductive pole, described two
Level guide pin bushing is fixed on beam side wall, and what two level conductive pole slided is socketed on two level guide pin bushing, and secondary pressure spring housing is loaded on two
On level conductive pole and the promotion two level conductive pole using beam side wall as supporting surface elasticity tension touches the second conductive rotary flange axle
Or the 3rd conductive rotary flange shaft end rotary flange disk side.
The beneficial effects of the utility model are:
Conventional art is that the ground wire of the source of welding current is directly anchored into workbench, and workbench can not carry out the conversion of station,
The circulation work of multiple gun multistation more than ten welding guns can not be realized, so will result in low production efficiency, labor intensity is big.
When the utility model is applied on the automatic production line of workpiece two sides welding, the first conductive revolution is utilized
The conductive pole and conducting ring connected between axle, the second conductive gyroaxis and the 3rd conductive gyroaxis by cable and fixed component,
While realizing that the loading and unloading station of welding workpiece is replaced with welding post revolution, led directly to the second conductive gyroaxis and the 3rd
The Workpiece supply high current to be welded that electric gyroaxis upper rotary is fixed, have effectively achieved welding workpiece between two stations
Transfer, welding processing process can be carried out automatically using multiple welding guns with side station, opposite side station carries out material process up and down, real
The two sides rapid welding of existing workpiece and the automatic replacing of loading and unloading, preparatory process need not increase labour cost, in welding process
There is time, Welding Safety, security incident will not occur, so that the industrial robot of weld job being capable of continuous work
Make, processing cost reduces, and is not wasted in welding.
Product need not weld point by point simultaneously, can once weld multiple contacts, and the labor intensity of reduction produces with improving
Efficiency;Weld interval shortens, and workpiece is not damaged, improves welding quality, reduces the cost of equipment.
【Brief description of the drawings】
Fig. 1 is that the right side of the utility model broken section regards dimensional structure diagram;
Fig. 2 is the left view dimensional structure diagram of the utility model broken section;
Fig. 3 is the end annexation section view enlarged diagram of the second or the 3rd conductive rotary flange axle of the utility model;
Fig. 4 is dimensional structure diagram of the present utility model.
Specific embodiment of the present utility model is described in more detail below in conjunction with accompanying drawing.
【Embodiment】
The conducting heavy current mechanism of bonding machine, suitable on the automatic welding production line on welding workpiece two sides to be welded
Workpiece supply high current, as shown in Figures 1 to 4, including two pedestals 1 (the only display one in figure being arranged on automatic assembly line
It is individual), the first conduction for being easy to the loading and unloading station of welding workpiece to be replaced with welding post revolution is installed between two pedestals 1
Rotary shaft 2, the upper interior of corresponding side pedestal 1 are provided with the first bearing support 3 that the first conductive rotary shaft of supporting rotates, separately
The actuating unit (not shown) that the first conductive rotary shaft of driving rotates is provided with the pedestal of side.
Continue as shown in Figures 1 to 4, side is separately installed with a crossbeam 4 before and after the first conductive gyroaxis 2, in crossbeam 4
Left and right ends be symmetrically provided with respectively that clamping needs the workpiece to be welded that is powered respectively from revolution location action and thereon
The second conductive 5 and the 3rd conductive rotary flange axle 6 of rotary flange axle, the conductive revolution of driving second respectively is provided with the crossbeam of side
The pneumatic mechanism (not shown) of 5 and the 3rd conductive rotary flange axle 6 of flange shaft revolution positioning, corresponding crossbeam 4 are provided with branch
Hold the second bearing support 50 that the second conductive 5 and the 3rd conductive rotary flange axle 6 of rotary flange axle rotates respectively.
Continue as shown in Figures 1 to 4, the first conductive rotary shaft 2 and crossbeam 4 are hollow structure, in the first conductive rotation
The center of rotating shaft 2 is provided with the conductive transition set 7 rotated coaxially with it, and the first conductive end of rotary shaft 2 is mounted with same with its
The one-level conducting ring 8 that axle is rotated and is fixedly connected with conductive transition set 7, the end of the corresponding first conductive rotary shaft 2 of the side wall of pedestal 1
It is provided with that two circumferences are equally distributed to be connected and elasticity touches one-level conducting ring 8 side of rotation with high current power supply unit
One-level conductive pole 9;Wherein, the side wall of pedestal 1 is provided with the one-level guide pin bushing 10 and first class pressure spring 11 of fixed one-level conductive pole 9,
The one-level guide pin bushing 10 is fixed in the side wall of pedestal 1, and what one-level conductive pole 9 slided is socketed on one-level guide pin bushing 10, first class pressure bullet
The promotion one-level conductive pole 9 that spring 11 is set on one-level conductive pole 9 and using the side wall of pedestal 1 as supporting surface elasticity tension touches one-level
The side of conducting ring 8, while realizing the first conductive rotation of rotary shaft 2 displacement, ensure that the high current power supply unit of pedestal 1 is continuous not
Break and supplied to the workpiece to be welded on the first conductive the second conductive 5 and the 3rd conductive rotary flange axle 6 of rotary flange axle of both sides of rotary shaft 2
Electricity.
In front side, the both ends of crossbeam 4 are respectively equipped with and the second conductive 5 or the 3rd conductive rotary flange axle 6 of rotary flange axle
The two level conductive pole 12 that the side of end rotary flange disk 60 touches, the crossbeam 4 between two level conductive pole 12 and conductive transition set 7
It is additionally provided with inner chamber and the cable 13 of conductive communication between the two, the side wall of crossbeam 4 is additionally provided with the two level of fixed two level conductive pole 12
Guide pin bushing 14 and secondary pressure spring 15, wherein, two level guide pin bushing 14 is fixed in the side wall of crossbeam 4, the set that two level conductive pole 12 slides
It is connected on two level guide pin bushing 14, secondary pressure spring 15 is set on two level conductive pole 12 and using the side wall of crossbeam 4 as support surface elastic
The promotion two level conductive pole 12 of tension force touches the rotation of the second conductive 5 or the 3rd conductive end of rotary flange axle 6 of rotary flange axle
The side of ring flange 60, frock clamp on the second conductive 5 and the 3rd conductive rotary flange axle 6 of rotary flange axle is fixed to be welded
Workpiece directly feeds high current.
During work, the conductive pole and conducting ring that are connected by cable and fixed component, the second conductive rotary flange axle 5 and the
Clamping workpiece to be welded is distinguished on three conductive rotary flange axles 6 and passes through the second conductive rotary flange axle or the 3rd conductive rotary flange
Itself body of axle is powered the Workpiece supply high current to be welded come to respective clamping, realize the loading and unloading station of welding workpiece with
While welding post revolution is replaced, ten, the circulation work of multiple gun multistation more than welding gun, have effectively achieved Welder
Transfer of the part between two stations, welding processing process, opposite side work can be carried out automatically using multiple welding guns with side station
Position carries out material process up and down, realizes the two sides rapid welding of workpiece and the automatic replacing of loading and unloading, preparatory process need not increase
Labour cost, there is time in welding process, Welding Safety, safe thing will not occur, so that the industry of weld job
Robot can continuously work.
It is preferred embodiment of the present utility model that embodiment described above, which is, not limits reality of the present utility model with this
Scope is applied, all equivalence changes made according to the shape of the utility model, construction and principle, guarantor of the present utility model all should be covered by
In the range of shield.
Claims (5)
1. the conducting heavy current mechanism of bonding machine, for Workpiece supply high current to be welded, including automatic assembly line is arranged at
On pedestal, it is characterised in that:
The the first conductive rotation for being easy to the loading and unloading station of welding workpiece to be replaced with welding post revolution is installed on the pedestal
Axle, corresponding pedestal upper interior are provided with the first bearing support that the first conductive rotary shaft of supporting rotates;
The side end of the first conductive gyroaxis is provided with a crossbeam, is symmetrically provided with the left and right ends of crossbeam respectively certainly
Turn round location action and the second conductive rotary flange axle and the 3rd for the workpiece to be welded that clamping needs to be powered is led respectively thereon
Electric rotary flange axle;
The first conductive rotary shaft and crossbeam are hollow structure, are provided with the first conductive rotating shaft center with its coaxial turn
Dynamic conductive transition set, the first conductive rotary shaft end, which is mounted with, to be rotated coaxially with it and is fixedly connected with conductive transition set
One-level conducting ring, the end of the corresponding first conductive rotary shaft of the pedestal side wall is provided with least one powered with high current and set
Standby connection and elasticity touch the one-level conductive pole of the one-level conducting ring side of rotation;
The both ends of the crossbeam are respectively equipped with to rotate with the end of the second conductive rotary flange axle or the 3rd conductive rotary flange axle
The two level conductive pole that flange disc side touches, be additionally provided with the crossbeam inner chamber between the two level conductive pole and conductive transition set by
The cable of conductive communication between the two;
Clamping workpiece to be welded is led by second respectively on the second conductive rotary flange axle and the 3rd conductive rotary flange axle
The energization of itself body of electric rotary flange axle or the 3rd conductive rotary flange axle comes big to the Workpiece supply to be welded of respective clamping
Electric current.
2. the conducting heavy current mechanism of bonding machine according to claim 1, it is characterised in that the first conductive rotary shaft
Both ends are separately installed with two pedestals for supporting its gyration.
3. the conducting heavy current mechanism of bonding machine according to claim 1, it is characterised in that the first conductive gyroaxis
Front and rear side be separately installed with a crossbeam, the second conductive gyroaxis and the 3rd conductive Axisymmetric are arranged on two crossbeams
Left and right ends.
4. the conducting heavy current mechanism of bonding machine according to claim 1, it is characterised in that the pedestal side wall is provided with solid
Determine the one-level guide pin bushing and first class pressure spring of one-level conductive pole, the one-level guide pin bushing is fixed in pedestal side wall, one-level conductive pole
That slides is socketed on one-level guide pin bushing, and first class pressure spring housing is loaded on one-level conductive pole and using pedestal side wall as support surface elastic
The promotion one-level conductive pole of tension force touches the side of one-level conducting ring.
5. the conducting heavy current mechanism of bonding machine according to claim 1, it is characterised in that the beam side wall is provided with solid
Determine the two level guide pin bushing and secondary pressure spring of two level conductive pole, the two level guide pin bushing is fixed on beam side wall, two level conductive pole
That slides is socketed on two level guide pin bushing, and secondary pressure spring housing is loaded on two level conductive pole and using beam side wall as support surface elastic
The promotion two level conductive pole of tension force touches the rotary flange of the second conductive rotary flange axle or the 3rd conductive rotary flange shaft end
The side of disk.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN2016212901361 | 2016-11-28 | ||
CN201621290136 | 2016-11-28 |
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Publication Number | Publication Date |
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CN206779738U true CN206779738U (en) | 2017-12-22 |
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ID=60709331
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CN201720499690.9U Active CN206779738U (en) | 2016-11-28 | 2017-05-07 | The conducting heavy current mechanism of bonding machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108098126A (en) * | 2018-01-24 | 2018-06-01 | 珠海瑞凌焊接自动化有限公司 | Scaffold automatic welding machine and its welding method |
-
2017
- 2017-05-07 CN CN201720499690.9U patent/CN206779738U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108098126A (en) * | 2018-01-24 | 2018-06-01 | 珠海瑞凌焊接自动化有限公司 | Scaffold automatic welding machine and its welding method |
CN108098126B (en) * | 2018-01-24 | 2023-07-04 | 珠海瑞凌焊接自动化有限公司 | Automatic welding machine for scaffold and welding method thereof |
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