CN205587832U - A friction stir welding connects device for welding copper or copper alloy - Google Patents
A friction stir welding connects device for welding copper or copper alloy Download PDFInfo
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- CN205587832U CN205587832U CN201620404266.7U CN201620404266U CN205587832U CN 205587832 U CN205587832 U CN 205587832U CN 201620404266 U CN201620404266 U CN 201620404266U CN 205587832 U CN205587832 U CN 205587832U
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- moving rack
- servomotor
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Abstract
A friction stir welding connects device for welding copper or copper alloy, including the base, but the smooth crossbearer roof beam that is equipped with the back -and -forth movement on the base is equipped with the front driving device that is used for driving this crossbearer roof beam back -and -forth movement on the base, the smooth transverse moving rack who removes about can be transversely that is equipped with on the crossbearer roof beam is equipped with on the crossbearer roof beam to be used for driving and removes drive arrangement about about this transverse moving rack, the last smooth crane that can reciprocate that is equipped with of transverse moving rack, the lower extreme of crane is equipped with the bonding tool, and last being equipped with of transverse moving rack is used for driving the lift drive that this crane goes up and down, be equipped with the clamping device that is used for pressing from both sides tight work piece on the base in the place ahead of transverse moving rack, be used for to press from both sides the 2nd clamping device who lies in a clamping device the place ahead of tight work piece. The utility model provides a be used for specially carrying out welded equipment to copper or copper alloy, adopt friction stir welding's mode to weld, realized the welding of copper or copper alloy.
Description
Technical field
This utility model relates to weld copper or the agitating friction welder of copper alloy.
Background technology
Copper or copper alloy use general welding method to be difficult to welding, and therefore in Copper fabrication field, owing to can not realize welding between copper strips with copper strips, therefore the length of copper strips can be extremely limited.There is presently no a kind of being specifically designed to and weld copper or the welder of copper alloy.
Summary of the invention
In view of there is presently no a kind of welding copper or welder of copper alloy of being specifically designed to, this utility model offer is a kind of is specifically designed to welding copper or the agitating friction welder of copper alloy
The technical scheme in the invention for solving the technical problem is: for welding the agitating friction welder of copper or copper alloy, including base, being slidably equipped with the crossbearer beam that can move forward and backward on the upper surface of described base, described base is provided with driving means before and after driving this crossbearer beam movable;
Being slidably equipped with the transversely-moving rack that can laterally move left and right on described crossbearer beam, described crossbearer beam is provided with the left and right driving means for driving this transversely-moving rack to move left and right;
Being slidably equipped with crane moving up and down on described transversely-moving rack, the lower end of described crane is provided with soldering tip, and described transversely-moving rack is provided with the lifting drive for driving this crane to lift;
The base in the front of described transversely-moving rack is provided with the first clamping device for clamping workpiece, for clamping second clamping device being positioned at described first clamping device front of workpiece.
Further, before and after described, driving means is: include being located on described base along fore-and-aft direction arrange first before and after servomotor, servomotor before and after second, before and after before and after described first, servomotor is positioned at the side of described base, described second, servomotor is positioned at the opposite side of described base;
Screw mandrel before and after the output shaft of servomotor connects first before and after described first, screw mandrel before and after the output shaft of servomotor connects second before and after described second, before and after before and after described first, screw mandrel penetrates the side of described crossbearer beam, described second, screw mandrel penetrates the opposite side of described crossbearer beam.
Further, described left and right driving means includes the left and right servomotor arranged along left and right directions being located on described crossbearer beam, and the output shaft of described left and right servomotor connects left and right screw mandrel, and described left and right screw mandrel penetrates in described transversely-moving rack.
Further, described lifting drive includes the servomotor up and down arranged along above-below direction being located on described transversely-moving rack, and the output shaft of described upper and lower servomotor connects upper and lower screw mandrel, and described upper and lower screw mandrel penetrates in described crane.
Further, the first described clamping device includes that the first clamping support being located on described base, the first described clamping support are provided with some the first hydraulic cylinders arranged along above-below direction, and each first hydraulic cylinder is all connected with one first pressing plate;
The second described clamping device includes that the second clamping support being located on described base, the second described clamping support are provided with some the second hydraulic cylinders arranged along above-below direction, and each two hydraulic cylinders are all connected with one second pressing plate.
Further, the upper surface of described base is additionally provided with the conveying roller arranged along left and right directions.
Further, described crossbearer beam being additionally provided with the guide pillar arranged along left and right directions, described transversely-moving rack is located on described guide pillar.
Article 1 copper strips in use, is first delivered on base by this utility model, until the afterbody of Article 1 copper strips is between the first clamping device and the second clamping device, is clamped by Article 1 copper strips by the second clamping device;Then Article 2 copper strips is delivered on base, until the head of Article 2 copper strips docks with the afterbody of Article 1 copper strips, by the first clamping device, Article 2 copper strips is clamped.
Article two, after copper strips is fixed, driving soldering tip to decline by lifting drive, soldering tip declines can be stirred friction welding by this soldering tip to the joint of two copper strips.Certainly soldering tip also can all around move, situation about tilting with two copper strips docking of reply, moving left and right of soldering tip is realized by left and right driving means: left and right driving means drives transversely-moving rack transverse moving left and right, thus drives crane and the soldering tip transverse moving left and right being located on crane;Mobile before and after soldering tip realized by front and back's driving means: front and back driving means drives crossbearer beam to move forward and backward, thus drive transversely-moving rack, crane and the soldering tip be located on crane to move forward and backward.
The beneficial effects of the utility model are: provide a kind of equipment being specifically designed to and welding copper or copper alloy, use the mode of agitating friction weldering to weld, it is achieved that copper or the welding of copper alloy.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Fig. 2 is side view of the present utility model.
Detailed description of the invention
With detailed description of the invention, this utility model is described in further detail below in conjunction with the accompanying drawings.
With reference to Fig. 1, Fig. 2, for welding the agitating friction welder of copper or copper alloy, including base 1, the upper surface of described base 1 being slidably equipped with the crossbearer beam 2 that can move forward and backward, described base 1 is provided with driving means before and after driving this crossbearer beam 2 movable.
Being slidably equipped with the transversely-moving rack 3 that can laterally move left and right on described crossbearer beam 2, described crossbearer beam 2 is provided with the left and right driving means for driving this transversely-moving rack about 3 transverse shifting.
Being slidably equipped with crane 4 moving up and down on described transversely-moving rack 3, the lower end of described crane 4 is provided with soldering tip 5, and described transversely-moving rack 3 is provided with the lifting drive for driving this crane to lift.
The base in the front of described transversely-moving rack 3 is provided with the first clamping device for clamping workpiece, for clamping second clamping device being positioned at described first clamping device front of workpiece.
In use, first Article 1 copper strips is delivered on base 1, until the afterbody of Article 1 copper strips is between the first clamping device and the second clamping device, by the second clamping device, Article 1 copper strips is clamped;Then Article 2 copper strips is delivered on base 1, until the head of Article 2 copper strips docks with the afterbody of Article 1 copper strips, by the first clamping device, Article 2 copper strips is clamped.
Article two, after copper strips is fixed, driving soldering tip 5 to decline by lifting drive, soldering tip 5 declines can be stirred friction welding by this soldering tip 5 to the joint of two copper strips.Certainly soldering tip 5 also can all around move, situation about tilting with two copper strips docking of reply, moving left and right of soldering tip 5 is realized by left and right driving means: left and right driving means drives transversely-moving rack 3 transverse moving left and right, thus drives crane 4 and soldering tip 5 transverse moving left and right being located on crane 4;Mobile before and after soldering tip 5 realized by front and back's driving means: front and back driving means drives crossbearer beam 2 to move forward and backward, thus drive transversely-moving rack 3, crane 4 and the soldering tip 5 be located on crane 4 to move forward and backward.
Before and after described in the present embodiment, driving means is: include being located on described base 1 along fore-and-aft direction arrange first before and after servomotor 7 before and after servomotor 6, second, before and after before and after described first, servomotor 6 is positioned at the side of described base 1, described second, servomotor 7 is positioned at the opposite side of described base 1;Screw mandrel before and after the output shaft of servomotor 6 connects first before and after described first, screw mandrel before and after the output shaft of servomotor 7 connects second before and after described second, before and after before and after described first, screw mandrel penetrates the side of described crossbearer beam 2, described second, screw mandrel penetrates the opposite side of described crossbearer beam 2.Before and after driving first during servomotor 6 action before and after first, screw mandrel rotates, before and after driving second during servomotor 7 action before and after second, screw mandrel rotates, before and after first, before and after servomotor 6 and second, servomotor 7 starts simultaneously, screw mandrel synchronous axial system before and after screw mandrel and second before and after first, drives crossbearer beam 2 to move forward and backward steadily.
In the present embodiment, described left and right driving means includes the left and right servomotor arranged along left and right directions being located on described crossbearer beam 2, and the output shaft of described left and right servomotor connects left and right screw mandrel, and described left and right screw mandrel penetrates in described transversely-moving rack.After left and right servomotor starts, drive left and right screw mandrel to rotate, thus drive transversely-moving rack left and right transverse shifting.In the present embodiment, described crossbearer beam being additionally provided with the guide pillar 8 arranged along left and right directions, described transversely-moving rack 3 is located on described guide pillar 8, it can be ensured that transversely-moving rack 3 stably left and right transverse shifting.
In the present embodiment, described lifting drive includes servomotor 9 up and down arranged along above-below direction being located on described transversely-moving rack 3, and the output shaft of described upper and lower servomotor 9 connects upper and lower screw mandrel, and described upper and lower screw mandrel penetrates in described crane 4.After servomotor starts up and down, drive upper and lower screw mandrel to rotate, thus drive crane 4 oscilaltion.
In the present embodiment, the first described clamping device includes that the first clamping support 10 being located on described base, the first described clamping support 10 are provided with some the first hydraulic cylinders 11 arranged along above-below direction, and each first hydraulic cylinder 11 is all connected with one first pressing plate 12;The second described clamping device includes that the second clamping support 13 being located on described base, the second described clamping support 13 are provided with some the second hydraulic cylinders 14 arranged along above-below direction, and each two hydraulic cylinders 14 are all connected with one second pressing plate.First hydraulic cylinder 11 action drives the first pressing plate to press for 12 times, thus realizes Workpiece clamping between the first pressing plate 12 and base 1 upper surface;Second hydraulic cylinder 14 action drives presses under the second pressing plate, thus realizes Workpiece clamping between the second pressing plate and base 1 upper surface.
In the present embodiment, the upper surface of described base 1 is additionally provided with the conveying roller arranged along left and right directions so that workpiece copper strips is more smooth and easy when conveying.
Claims (7)
1. for welding the agitating friction welder of copper or copper alloy, including base, it is characterised in that: being slidably equipped with the crossbearer beam that can move forward and backward on the upper surface of described base, described base is provided with driving means before and after driving this crossbearer beam movable;
Being slidably equipped with the transversely-moving rack that can laterally move left and right on described crossbearer beam, described crossbearer beam is provided with the left and right driving means for driving this transversely-moving rack to move left and right;
Being slidably equipped with crane moving up and down on described transversely-moving rack, the lower end of described crane is provided with soldering tip, and described transversely-moving rack is provided with the lifting drive for driving this crane to lift;
The base in the front of described transversely-moving rack is provided with the first clamping device for clamping workpiece, for clamping second clamping device being positioned at described first clamping device front of workpiece.
2. the agitating friction welder for welding copper or copper alloy as claimed in claim 1, it is characterized in that: before and after described, driving means is: include being located on described base along fore-and-aft direction arrange first before and after servomotor, servomotor before and after second, before and after before and after described first, servomotor is positioned at the side of described base, described second, servomotor is positioned at the opposite side of described base;
Screw mandrel before and after the output shaft of servomotor connects first before and after described first, screw mandrel before and after the output shaft of servomotor connects second before and after described second, before and after before and after described first, screw mandrel penetrates the side of described crossbearer beam, described second, screw mandrel penetrates the opposite side of described crossbearer beam.
3. the agitating friction welder for welding copper or copper alloy as claimed in claim 1, it is characterized in that: described left and right driving means includes the left and right servomotor arranged along left and right directions being located on described crossbearer beam, the output shaft of described left and right servomotor connects left and right screw mandrel, and described left and right screw mandrel penetrates in described transversely-moving rack.
4. the agitating friction welder for welding copper or copper alloy as claimed in claim 1, it is characterized in that: described lifting drive includes the servomotor up and down arranged along above-below direction being located on described transversely-moving rack, the output shaft of described upper and lower servomotor connects upper and lower screw mandrel, and described upper and lower screw mandrel penetrates in described crane.
5. the agitating friction welder for welding copper or copper alloy as claimed in claim 1, it is characterized in that: the first described clamping device includes the first clamping support being located on described base, the first described clamping support is provided with some the first hydraulic cylinders arranged along above-below direction, and each first hydraulic cylinder is all connected with one first pressing plate;
The second described clamping device includes that the second clamping support being located on described base, the second described clamping support are provided with some the second hydraulic cylinders arranged along above-below direction, and each two hydraulic cylinders are all connected with one second pressing plate.
6. the agitating friction welder for welding copper or copper alloy as described in one of claim 1 ~ 5, it is characterised in that: it is additionally provided with the conveying roller arranged along left and right directions on the upper surface of described base.
7. the agitating friction welder for welding copper or copper alloy as claimed in claim 3, it is characterised in that: being additionally provided with the guide pillar arranged along left and right directions on described crossbearer beam, described transversely-moving rack is located on described guide pillar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620404266.7U CN205587832U (en) | 2016-05-07 | 2016-05-07 | A friction stir welding connects device for welding copper or copper alloy |
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CN201620404266.7U CN205587832U (en) | 2016-05-07 | 2016-05-07 | A friction stir welding connects device for welding copper or copper alloy |
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CN205587832U true CN205587832U (en) | 2016-09-21 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105728936A (en) * | 2016-05-07 | 2016-07-06 | 宁波金凤焊割机械制造有限公司 | Stirring friction welding device for welding copper or copper alloy |
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2016
- 2016-05-07 CN CN201620404266.7U patent/CN205587832U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105728936A (en) * | 2016-05-07 | 2016-07-06 | 宁波金凤焊割机械制造有限公司 | Stirring friction welding device for welding copper or copper alloy |
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