CN206286706U - Friction-stir bonding machine - Google Patents
Friction-stir bonding machine Download PDFInfo
- Publication number
- CN206286706U CN206286706U CN201621340984.9U CN201621340984U CN206286706U CN 206286706 U CN206286706 U CN 206286706U CN 201621340984 U CN201621340984 U CN 201621340984U CN 206286706 U CN206286706 U CN 206286706U
- Authority
- CN
- China
- Prior art keywords
- rotating part
- fusion
- swivel head
- frame body
- main frame
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model discloses friction-stir bonding machine,Including the main shaft drives portion for setting gradually from top to bottom,Main frame body,Support rotating part and fusion head,The output shaft of the reductor is connected with the main shaft that support rotating part is extended to through main frame body,The main shaft is provided with Hooks coupling universal coupling away from reductor one end,The main frame body is rotated with support rotating part and is connected,Electric rotating machine is provided with the main frame body,The electric rotating machine drives support rotating part to rotate by the transmission mechanism being arranged in main frame body and support rotating part,The fusion head includes the connection housing being connected with support rotating part,Swivel head is provided with the connection housing,The swivel head is connected by bearing with housing is connected,The swivel head includes the connecting portion for stretching out the fusion portion of connection housing and being connected with Hooks coupling universal coupling,The capillary of the shaft shoulder is stretched out in the fusion portion including the shaft shoulder,It is small that the present apparatus can produce degree of deformation,High intensity,Highdensity industrial cooling copper backboard.
Description
Technical field
The utility model is related to cooling that field, more particularly to friction-stir bonding machine are manufactured with copper backboard.
Background technology
Cooling copper backboard is widely used in industry, with very efficient refrigerating function.Such as in manufacture liquid crystal
When carrying out operation in vacuum chamber, sputtered target material can produce substantial amounts of heat, and quality of forming film and performance can be influenceed if do not carried out cooling,
Therefore cooling backboard is needed to use to cool down it when liquid crystal is manufactured.And for example in new-energy automobile field, carried on the back using cooling
Plate is cooled down to the battery of new-energy automobile.It is described cooling backboard primary structure be:Use nonferrous metal (copper or copper alloy
Or aluminium or aluminium alloy etc.) sheet material that is made, inside contains tank, there is water inlet and the water outlet led into water tank on sheet material
Mouthful, cover plate is then covered, with body by welded seal, the backboard being eventually fabricated can be used as cooling with backboard.At present, carry on the back
The body of plate has electron beam welding method, diffusion welding (DW) connection, solder flux welding etc. with the welding method of cover plate.In addition to backboard,
Various water-cooling covers, water-cooled soil etc. can be used as heat sink, and internal tank has both been used as above backboard
Construction, but these welding methods can cause degree of deformation big after welding, and solder side is unable to reach and merges completely, not prison welding
Gu, amendment after welding operation need to reach surface by machining it is smooth, to quality, precision, including productivity, cost etc.
Deng all having an impact.
Utility model content
The technical problem that the utility model is solved is to provide one kind can produce degree of deformation small, high intensity, highdensity work
The industry friction-stir bonding machine for cooling down copper backboard.
The utility model solves the technical scheme that its technical problem used:Friction-stir jointing machine, including from up to
Under the main shaft drives portion that sets gradually, main frame body, support rotating part and fusion head, the main shaft drives portion include spindle motor and
The reductor being connected with spindle motor output shaft, the output shaft of the reductor is connected with through main frame body and extends to support rotation
The main shaft in portion, the main shaft is provided with Hooks coupling universal coupling away from reductor one end, and the main frame body is rotated with support rotating part and connected
Connect, electric rotating machine is provided with the main frame body, the electric rotating machine is by being arranged on main frame body and supporting the biography in rotating part
Motivation structure drives support rotating part to rotate, and the fusion head includes the connection housing being connected with support rotating part, the connection shell
Swivel head is provided with vivo, the swivel head is connected by bearing with housing is connected, the swivel head includes stretching out connection housing
Fusion portion and the connecting portion that is connected with Hooks coupling universal coupling, the capillary of the shaft shoulder is stretched out in the fusion portion including the shaft shoulder.
It is further:The support rotating part includes rotating part housing, is provided with outside the rotating part housing and stretches into rotation
Transfer part enclosure interior is used for the angle adjustment plate of fixed fusion head, and multiple kidney slots are provided with the angle adjustment plate, described
It is provided with rotating part housing and passes through bolt and shell with the one-to-one multiple bolt hole of multiple kidney slots, the angle adjustment plate
Body is fixedly connected.
It is further:Arrow is provided with the angle adjustment plate, bevel protractor, institute are provided with rotating part housing
Bevel protractor is stated to be located at arrow sensing.
The invention also discloses industrial cooling copper backboard manufacture method, including:
A, on industrial cooling copper backboard body process multiple step troughs, the top of the step trough is that cover plate is placed
Groove, the bottom of the step trough is tank;
B, cover plate is placed in cover plate standing groove, lower lock block pressure is realized the fixation of cover plate on the cover board,
C, each cover plate is merged successively, specially:The capillary of swivel head gradually rotates cold with industrial into cover plate
But the stitching portion of copper backboard body, the shaft shoulder of swivel head is contacted with the surface of lid surface and industrial cooling copper backboard body,
The capillary of swivel head is moved along the stitching portion of cover plate and industrial cooling copper backboard ontology fusion and capillary is in swivel head band
The energy using friction generation is rotated under dynamic and then cover plate and industrial cooling copper backboard body is fused;
D, industrial cooling copper backboard surface is cleared up, deburring operation.
It is further:During fusion, the capillary of swivel head towards the direction of advance of swivel head reversed dip, swivel head rotating speed
It is 1300rpm -2000rpm.
It is further:Rosin joint is first carried out after the completion of step B carries out step C again, and the rosin joint includes:First in cover plate and work
Industry circumferentially chooses multiple faulty soldered joints with cooling copper backboard body stitching portion, and then the capillary of swivel head is pinpointed from each faulty soldered joint
Rotation causes that cover plate and the fusion of industrial cooling copper backboard body are fixed.
It is further:After the completion of rosin joint, circumferentially choose multiple with industrial cooling copper backboard body stitching portion in cover plate
Position carries out bar weldering, and every section of bar weldering length is 3-4cm.
It is further:In step C, the both sides to same tank carry out fusion simultaneously using two swivel heads.
It is further:In step C, industrial cooling copper backboard body is fixed on heat sink, near swivel head
Cool air injection head is installed, during swivel head runs at high speed, cold air is sprayed to swivel head top.
It is further:In step C, after the completion of to a cover plate fusion, the swivel head for more renewing carries out next lid
The fusion of plate.
The beneficial effects of the utility model are:The method that the utility model is used uses friction-stir technology in fusion,
Rotated by the high speed of swivel head and fusion site is rubbed so that friction portion produces amount of heat, causes the gold in friction portion
Category thawing be combined, after cooling cause fusion at be merged, realize fusion purpose, and this fusion method without using
External fusion material, using product, material is merged in itself, material-saving, and due to needing two structures of fusion to melt completely
It is combined so that fusion is firm and is produced without gap and bubble, and compared with traditional fusion method, intensity is high, density is high,
And fusion when, swivel head with merge direction reversed dip so that fusion when, after the shaft shoulder edge can to weld seam applying it is certain
Fusion upset force, so as to improve fusion mass.
Brief description of the drawings
Fig. 1 is backboard plan.
Fig. 2 is the partial cross sectional view of backboard shown in Fig. 1.
Fig. 3 is Fig. 1 swivel head plane of motion figures.
Fig. 4 is the backboard plan that need to carry out overlapping weldering.
Fig. 5 is the partial cross sectional view of backboard shown in Fig. 4.
Fig. 6 is capillary movement locus schematic diagram.
Fig. 7 is capillary angle of inclination schematic diagram.
Fig. 8 is the friction-stir jointing machine schematic diagram that process industry cools down copper backboard.
Marked in figure:Industrial cooling copper backboard body 1, cover plate 2, turning part 3, tank 4, swivel head 6, the shaft shoulder 7, weldering
Pin 8, dummy terminal 9, heat sink 14, cool air injection first 15, cold air 16, reductor 21, spindle motor 22, main frame body 23, support rotation
Transfer part 24, spindle nose 25, electric rotating machine 26.
Specific embodiment
The utility model is further illustrated with reference to the accompanying drawings and detailed description.
The utility model discloses the industrial cooling copper backboard manufacture method of one kind, including:
A, on industrial cooling copper backboard body process multiple step troughs, the top of the step trough is that cover plate is placed
Groove, the bottom of the step trough is tank;
B, cover plate is placed in cover plate standing groove, lower lock block is pressed on cover plate 2 fixation for realizing cover plate,
C, each cover plate is merged successively, specially:The capillary 8 of swivel head 6 gradually rotate into cover plate with it is industrial
The stitching portion of copper backboard body is cooled down, the shaft shoulder 7 and the surface of lid surface and industrial cooling copper backboard body of swivel head 6 connect
Touch, the capillary of swivel head is moved along the stitching portion of cover plate 2 and the fusion of industrial cooling copper backboard body 1 and capillary is in rotation
Head is rotated the energy using friction generation and then fuses cover plate and industrial cooling copper backboard body under driving.
D, industrial cooling copper backboard surface is cleared up, deburring operation.
This method is rotated using swivel head 6 and is connect with industrial cooling copper backboard and cover plate 2 using the principle of frictional heat
Touch, the hardness of the swivel head 6 is more than the hardness of industrial cooling copper backboard and cover plate 2, when swivel head 6 and industrial cooling copper
When backboard and cover plate 2 are contacted, in being in and rotate at a high speed due to swivel head 6, swivel head 6 and industrial cooling copper backboard and cover plate 2
High-speed friction produces amount of heat, the heat of generation to cause that the industrial cooling copper backboard and cover plate 2 in friction portion are melted and be blended in
Together, after thawing portion cools down so that fusion face reaches merges completely, its fused portion hardness is more than the hardness at other positions, this
Plant fusion method to change in the past using traditional methods such as welding gun, solder sticks, the use of exterior material is reduced, while so that melting
Close more firmly, degree of deformation is small.
Can be arranged on high speed rotating unit on three axle hydraulic drive mechanisms and realize by above-mentioned implementation, the high speed rotation
Device and three axle hydraulic drive mechanisms are existing product, and those skilled in the art can voluntarily select assembling to realize above-mentioned side
Method.
On the basis of the above, during fusion, the capillary of swivel head towards the direction of advance of swivel head reversed dip, the capillary
Angle with vertical direction can be 4 degree, 7 degree, 10 degree etc., as shown in fig. 7, shown angle [alpha] is the angle of reversed dip, arrow
Head direction is the direction of motion, and the rotating speed of swivel head 6 is 1300rpm -2000rpm, due to the capillary 8 of the swivel head 6 in fusion
There is certain angle with direction is merged, during this causes that capillary 8 is pushed away before the rotation, the shaft shoulder 7 can apply certain melting to weld seam
Close upset force so that melting end is closely merged, prevent fusion portion from cavity occur, cause fusion insecure.
On the basis of the above, rosin joint is first carried out after the completion of step B carries out step C again, and the rosin joint includes:First in cover plate table
Multiple faulty soldered joints are circumferentially chosen at face edge, and then the capillary of swivel head is rotated down to from each faulty soldered joint of lid surface
Industrial cooling copper backboard body causes cover plate and industrial cooling copper backboard body rosin joint so that cover plate 2 and industrial cooling
Copper backboard links together, cover plate 2 will not relatively it is industrial cooling copper backboard move, although before fusion use pressing plate pair
Industrial cooling copper backboard realizes fixation, but due in fusion, and rotary friction is close to movement in front for fusion, it is impossible to ensure industry
Small movement will not occur with cooling copper backboard and cover plate 2, therefore before formal fusion, first in industrial cooling copper backboard and
Several points are chosen on cover plate 2 carries out spot weld operation so that industrial cooling copper backboard and cover plate 2 are fixed together, and are being melted
During conjunction, industrial cooling copper backboard and cover plate 2 will not be relatively moved, and increased the accuracy of fusion.
Additionally, after the completion of rosin joint, circumferentially choosing multiple positions with industrial cooling copper backboard body stitching portion in cover plate and entering
Row bar is welded, and every section of bar weldering length is 3-4cm, because in fusion, cover plate is rapid with industrial cooling copper backboard heat transfer, makes
When must merge, heat can be transferred to rapidly rotate back of head so that the material of thawing gradually pusher, can now cause mixing operation
When metal can deform, and by bar postwelding, cover plate is firmly fixed together with industrial cooling copper backboard body, due to
The hardness at bar weldering position is more than other positions, and cooling front edge of board is when carrying out mixing operation, the cover plate of rear end and industrial cooling copper
Backboard will not also deform, so as to improve fusion mass.
Additionally, carrying out fusion simultaneously using two swivel heads 6 on the both sides to same tank 4, fusion speed is improve.
Additionally, during fusion, industrial cooling copper backboard body 1 is fixed on heat sink 14, swivel head 6 is nearby provided with
Cool air injection first 15, during swivel head 6 runs at high speed, cold air 16, in fusion, swivel head 6 is sprayed to the top of swivel head 6
Surface temperature can reach 400 DEG C, if bearing of swivel head 6 etc. is constantly under high temperature and can produce bad, swivel head 6 is transmitted
Heat bearing temperature can be made to increase rapidly so that equipment breaks down in the process of running, and heat sink 14 and cool air injection
First 15 setting can be very good cooling effect so that the surface temperature of swivel head 6 drops to 150 DEG C or so, can prevent rotation
First 6 sustain damage, and strengthen the service life of swivel head 6.
On the basis of the above, after the completion of being merged to a cover plate 2, the swivel head 6 for more renewing carries out next cover plate 2
Fusion, used swivel head 6 can cool down in tool box, mitigate the burden of swivel head 6, prevent swivel head 6 in high temperature
Lower continuous operations, the service life to swivel head 6 is impacted.
The described industrial cooling copper backboard manufacture method of the application, there is various embodiments, is exemplified below therein several
Plant embodiment:
Embodiment 1:
Industrial cooling copper backboard main body and cover plate 2 shown in Fig. 1, are provided with U-shaped in industrial cooling copper backboard main body
Tank 4, cover plate 2 is placed on tank 4, and cover plate 2 is with industrial cooling copper backboard body 1 with segment difference construction, side view such as Fig. 2
Shown, when being merged, the swivel head 6 being made up of axle clamp and capillary 8 is merged while move, as shown in figure 3, cold, rotation
First 6 along fusion line direction, in the fusion of the left side of tank 4, after the completion of fusion, industrial cooling copper backboard surface is cleared up, is gone
Deburring operation.
Embodiment 2:
Industrial cooling copper backboard shown in Fig. 3, in fusion, swivel head 6 is in cover plate and industrial cooling copper backboard
The stitching portion of body is slowly rotated down melts cover plate and industrial cooling copper backboard body, and swivel head 6 is towards before swivel head
Enter the reversed dip in direction, the capillary is 6 ° with the angle of vertical direction, carries out friction-stir fusion, is running to turning part
When 3, swivel head 6 still keeps identical angle of inclination, i.e., when the direction of swivel head 6 is that swivel head 6 is tilted to the left, and prevents when turning right
Occurs tiny breach when turning mouth is merged, swivel head 6 is fused at dummy terminal 9 always around thin seam, after the completion of fusion, by work
Industry is cleared up with cooling copper backboard surface, deburring is operated and cuts dummy terminal 9.
Embodiment 3:
Cover plate 2 is placed on tank 4, rosin joint first is carried out to industrial cooling copper backboard and cover plate 2 before formal fusion,
Using the swivel head 6 of the diameter 13mm shaft shoulders 7 during rosin joint, rotating speed 1500rpm is in industrial cooling copper backboard and the stitching section of cover plate 2
Position carries out having more spot welding so that industrial cooling copper backboard main body and the position of cover plate 2 are accurate, will not be sent out when formally being merged
Raw relative movement, after the completion of spot welding, fusion is rotated down by the capillary 8 of swivel head 6 from stitching portion, and the shaft shoulder 7 of swivel head 6 is pressed in
Stitching portion, and along cover plate 2 and industrial cooling copper backboard body 1 stitching portion carry out it is in rotary moving, in high-speed rotation,
Swivel head 6 and industrial cooling copper backboard body 1 and the frictional heat of cover plate 2 so that swivel head 6 and industrial cooling copper backboard sheet
The contact portion of body 1 and cover plate 2 is melted, and cover plate 2 is merged completion and melts with industrial cooling copper backboard body 1 after cooling
Close, after the completion of fusion, industrial cooling copper backboard surface cleared up, deburring operation and cut dummy terminal 9.
Embodiment 4:
When tank 4 as shown in Figure 4 is merged, first cover plate 2 is covered on tank 4, then to industrial cooling copper backboard
Rosin joint operation is carried out with cover plate 2, next along bonding wire a-a' and b-b', is merged simultaneously using 2 swivel heads 6, two
Swivel head 6 keeps certain interval and non-interference, followed by the order of c-c' and d-d', e-e' and f-f', having merged
Cheng Hou, industrial cooling copper backboard surface is cleared up, deburring operation.
Embodiment 5:
Before fusion, industrial cooling copper backboard body 1 is fixed on the heat sink 14 of refrigerant circulation tank 4, work
Dummy terminal 9 is provided with industry cooling copper backboard body 1, the jet of cold air 16 is installed near swivel head 6, cover plate 2 is placed
On the tank 4 of industrial cooling copper backboard body 1, during fusion, the swivel head 6 being made up of axle clamp and capillary 8 is industrial cold
But merged while moving, in fusion process, the jet of cold air 16 is constantly to rotation at copper backboard body and cover plate splice
First 6 injection cold air 16, until being fused to dummy terminal 9, after the completion of fusion, industrial cooling copper backboard surface is cleared up, is gone
Deburring operation simultaneously cuts dummy terminal 9.
Because in fusion head friction rotary course, the temperature on the surface of swivel head 6 can reach 400 DEG C, the heat of swivel head 6
Transmission can rise the temperature of bearing and spindle motor 22, if spindle motor 22 and bearing have been at occurring not under high temperature
Good, there is the situation that spindle motor 22 stops operating in occasional, therefore in the presence of cold air 16, the temperature of swivel head 6 is dropped
It is low, enter without high temperature is reached into spindle motor 22 and bearing so that spindle motor 22 and bearing can safely and steadily run.
Embodiment 6:
The cover plate 2 in industrial cooling copper backboard main body, using swivel head 6 to industrial cooling copper backboard body 1
With the fusion method of cover plate 2 with described in embodiment 1, after the completion of one piece of cover plate 2 is merged, re-replace ready in instrument cases
The swivel head 6 for having cooled down carries out the fusion of next cover plate 2 so that under the swivel head 6 of heating can be cooled down in instrument cases
Come, mitigate the burden of swivel head 6, the service life of swivel head 6 is lifted with this, when industrial cooling copper backboard overall fusion is completed
Afterwards, industrial cooling copper backboard surface is cleared up, deburring is operated and cuts dummy terminal 9.
Embodiment 7:
Fig. 5 is cover plate 2 and industrial cooling copper backboard subject plane shape identical cross-sectional view, and cover plate 2 is covered in many
The top of bar tank 4, during fusion, the coincidence position of the insertion cover plate 2 of capillary 8 of swivel head 6 and industrial cooling copper backboard, capillary 8
Spin friction fusion is carried out in through the industrial cooling copper backboard main body of backboard insertion, the fusion that overlaps is realized, fusion method is with real
Apply the friction-stir fusion described in example one.
The invention also discloses a kind of process industry friction-stir jointing machine for cooling down copper backboard, including from up to
Under the main shaft drives portion that sets gradually, main frame body 23, support rotating part 24 and fusion first 25, the main shaft drives portion includes main shaft
Motor 22 and the reductor 21 being connected with the output shaft of spindle motor 22, the output shaft of the reductor 21 are connected with through main frame body
23 main shafts for extending to support rotating part 24, the main shaft is provided with Hooks coupling universal coupling, the body frame away from the one end of reductor 21
Body 23 is rotated with support rotating part 24 and is connected, and is connected by swivel joint between main frame body and support rotating part, and the rotation connects
Head is prior art, can be obtained by buying, and electric rotating machine 26 is provided with the main frame body 23, and the electric rotating machine 26 passes through
The transmission mechanism being arranged in main frame body and support rotating part drives support rotating part to rotate, and the fusion first 25 includes and support
The connection housing of the connection of rotating part 24, is provided with swivel head 6 in the connection housing, the swivel head 6 passes through bearing and is connected
Housing is connected, and the swivel head 6 includes the connecting portion for stretching out the fusion portion of connection housing and being connected with Hooks coupling universal coupling, described to melt
Conjunction portion includes the shaft shoulder 7 and stretches out the capillary 8 of the shaft shoulder 7;
Above-mentioned transmission mechanism has various ways of realization, is below one of which way of realization:It is solid on support rotating part
Surely there is toothed disc, swing pinion is engaged with the toothed disc, the output shaft of the electric rotating machine drives swing pinion to rotate, when
When swing pinion is rotated, and swing pinion meshed gears disk concomitant rotation, so as to drive support rotating part to rotate.
Using preceding, spindle nose 25 is installed to by support rotating part 24 by connector according to required angle of inclination, by master
Connecting portion in shaft head 25 is connected with Hooks coupling universal coupling, and during work, spindle motor 22 drives reductor 21 to rotate, reductor 21
Drive shaft is rotated, and main shaft drives swivel head 6 to rotate by Hooks coupling universal coupling so that swivel head 6 can be carried on the back with industrial cooling copper
Plate main body and cover plate 2 carry out friction-stir fusion, because in fusion, spindle nose 25 is opposite with direct of travel when merging
There is certain inclination angle in direction so that in fusion, along that can apply certain fusion upset force to weld seam after the shaft shoulder 7, so as to improve
Fusion mass, therefore when turning part 3 is merged, electric rotating machine 26 drives support rotating part 24 to rotate, and support rotating part 24 drives
Spindle nose 25 is rotated so that spindle nose 25 is overall to be rotated, so as to promote when turning is merged so that swivel head 6
The angle for being maintained like with the opposite direction of the direction of motion of swivel head 6 forever, will not whenever turning is moved to, angle can not and
When adjust so that there is pore in the fusion at turning.
On the basis of the above, the support rotating part 24 includes rotating part housing, is provided with outside the rotating part housing and stretched
Enter rotating part enclosure interior for the angle adjustment plate of fixed main shaft head 25, multiple kidney-shapeds are provided with the angle adjustment plate
Groove, is provided with the rotating part housing and passes through with the one-to-one multiple bolt hole of multiple kidney slots, the angle adjustment plate
Bolt is fixedly connected with the casing, and when spindle nose 25 is installed, spindle nose 25 is fixedly connected with angle adjustment plate, then loosen
The angle of bolt, adjustment angle adjustment plate and rotating part housing, then bolt is tightened so that angle adjustment plate and rotating part housing
It is fixedly connected, this kind of method can conveniently adjust the angle of swivel head 6, convenient and swift.
Support rotating part 24 described above has various with the fixed form of spindle nose 25, such as directly using bolt under
End both sides will support rotating part 24 and spindle nose 25 to connect, by changing being screwed into depth and adjusting swivel head 6 for both sides bolt
Angle.
Additionally, being provided with arrow on the angle adjustment plate, bevel protractor, the angle are provided with rotating part housing
Chi is located at arrow sensing, when anglec of rotation adjustment plate, can be by the angle of arrow orientation angle chi come to swivel head 6
Angle is accurately adjusted so that more accurate during fusion.
Particular embodiments described above, has carried out entering one to the purpose of this utility model, technical scheme and beneficial effect
Step is described in detail, be should be understood that and be the foregoing is only specific embodiment of the utility model, is not limited to this
Utility model, all within spirit of the present utility model and principle, any modification, equivalent substitution and improvements done etc. all should be wrapped
It is contained within protection domain of the present utility model.
Claims (3)
1. friction-stir bonding machine, it is characterised in that:Including the main shaft drives portion for setting gradually from top to bottom, main frame body (23),
Support rotating part (24) and fusion head (25), the main shaft drives portion include spindle motor (22) and are exported with spindle motor (22)
The reductor (21) of axle connection, the output shaft of the reductor (21) is connected with through main frame body (23) and extends to support rotating part
(24) main shaft, the main shaft is provided with Hooks coupling universal coupling away from reductor (21) one end, and the main frame body (23) is revolved with support
Transfer part (24) rotates connection, and electric rotating machine (26) is provided with the main frame body (23), and the electric rotating machine (26) is by setting
Transmission mechanism in main frame body and support rotating part drives support rotating part to rotate, and fusion head (25) with support including revolving
The connection housing of transfer part (24) connection, is provided with swivel head (6) in the connection housing, the swivel head (6) by bearing with
Connection housing connection, the connecting portion that the swivel head (6) connects the fusion portion of housing including stretching out and is connected with Hooks coupling universal coupling,
The fusion portion includes the shaft shoulder (7) and stretches out the capillary (8) of the shaft shoulder (7).
2. friction-stir bonding machine as claimed in claim 1, it is characterised in that:Support rotating part (24) is including rotating part
Housing, is provided with outside the rotating part housing and stretches into rotating part enclosure interior for the fixed angle adjustment plate for merging head (25),
Multiple kidney slots are provided with the angle adjustment plate, are provided with the rotating part housing one-to-one with multiple kidney slots
Multiple bolts hole, the angle adjustment plate is fixedly connected with the casing by bolt.
3. friction-stir bonding machine as claimed in claim 2, it is characterised in that:Indicator is provided with the angle adjustment plate
Head, is provided with bevel protractor on rotating part housing, the bevel protractor is located at arrow sensing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621340984.9U CN206286706U (en) | 2016-12-08 | 2016-12-08 | Friction-stir bonding machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621340984.9U CN206286706U (en) | 2016-12-08 | 2016-12-08 | Friction-stir bonding machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206286706U true CN206286706U (en) | 2017-06-30 |
Family
ID=59098169
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621340984.9U Active CN206286706U (en) | 2016-12-08 | 2016-12-08 | Friction-stir bonding machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206286706U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106736329A (en) * | 2016-12-08 | 2017-05-31 | 京浜乐梦金属科技(苏州)有限公司 | Industrial cooling copper backboard manufacture method and friction-stir bonding machine |
CN112894291A (en) * | 2021-03-02 | 2021-06-04 | 京浜乐梦金属科技(苏州)有限公司 | Manufacturing method of industrial cooling copper back plate |
-
2016
- 2016-12-08 CN CN201621340984.9U patent/CN206286706U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106736329A (en) * | 2016-12-08 | 2017-05-31 | 京浜乐梦金属科技(苏州)有限公司 | Industrial cooling copper backboard manufacture method and friction-stir bonding machine |
CN112894291A (en) * | 2021-03-02 | 2021-06-04 | 京浜乐梦金属科技(苏州)有限公司 | Manufacturing method of industrial cooling copper back plate |
CN112894291B (en) * | 2021-03-02 | 2022-09-23 | 京浜乐梦金属科技(苏州)有限公司 | Manufacturing method of industrial cooling copper back plate |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106736329A (en) | Industrial cooling copper backboard manufacture method and friction-stir bonding machine | |
CN206286706U (en) | Friction-stir bonding machine | |
US11027363B2 (en) | Ironing plate for friction stir welding apparatus and friction stir welding apparatus including the same, and friction stir welding method | |
CN103846563B (en) | A kind of laser friction stir welding method and its device | |
CN105397295B (en) | Motor laser bonding machine workstation and motor laser-beam welding machine system | |
CN101121223A (en) | I-125 seed source titanium tube laser welding device and method | |
CN108326425A (en) | A kind of focal plane rotary laser spot-welded method | |
CN114535802A (en) | Laser welding device capable of rotating and welding method thereof | |
CN211565127U (en) | Adjustable fixture for lathe machining | |
CN210306414U (en) | Rotating disc type welding tool | |
CN105904144A (en) | Welding line fixture | |
CN101574755A (en) | Groove cutting head device | |
CN103447684A (en) | Automatic welding device for cylindrical battery cap | |
CN110184422A (en) | Melt and covers quenching laser head | |
CN211277464U (en) | Fixed tool for welded pipe machining | |
CN110241416A (en) | Laser melting coating quenches comprehensive process device and processing method | |
CN220050674U (en) | Welding fixture for machining | |
WO2024055561A1 (en) | Friction stir welding apparatus and method | |
CN211028552U (en) | Welding equipment | |
CN210789824U (en) | Metal part tool clamp for welding | |
CN213257681U (en) | Novel welding is used in mining machinery processing device | |
CN112894291B (en) | Manufacturing method of industrial cooling copper back plate | |
CN1277661C (en) | High-powder laser rotation scanning welding method | |
CN201950369U (en) | Bending type air blowing pipe laser welding head | |
CN210237782U (en) | Laser cladding quenching comprehensive processing device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |