CN202571631U - Mechanical manipulator suitable for automatically arranging and welding solar photovoltaic batteries - Google Patents
Mechanical manipulator suitable for automatically arranging and welding solar photovoltaic batteries Download PDFInfo
- Publication number
- CN202571631U CN202571631U CN 201220076960 CN201220076960U CN202571631U CN 202571631 U CN202571631 U CN 202571631U CN 201220076960 CN201220076960 CN 201220076960 CN 201220076960 U CN201220076960 U CN 201220076960U CN 202571631 U CN202571631 U CN 202571631U
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- manipulator
- slide rail
- pulling
- synchronously
- welding
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Abstract
The utility model discloses a mechanical manipulator suitable for automatically arranging and welding solar photovoltaic batteries. The mechanical manipulator comprises a base plate, a sliding rail, a sliding platform, three mechanical arms, servo motors, a synchronous belt pulley, a synchronous belt, a welding gun, cylinders, a control cabinet, a jig I and a jig II, wherein the sliding rail is arranged on the base plate; the three mechanical arms are arranged on the sliding rail; a servo motor is arranged in each mechanical arm shell; a motor main shaft is connected with the synchronous belt pulley; the synchronous belt pulley is meshed with the synchronous belt; two ends of the belt are fixed in the sliding rail and tightened; a drawing device is arranged on the side of a sliding block and connected with one of the cylinders; and a cylinder is arranged on the drawing device. The mechanical manipulator has the advantages that the mechanical manipulator is simple in structure, reliably controlled, accurately positioned and the like, two workers who clamp and carry the solar photovoltaic battery during charging and discharging of the solar photovoltaic battery are not required, the welding stability is guaranteed, the cost is greatly reduced, and the efficiency and the safety are improved.
Description
Technical field
The utility model relates to a kind of industry mechanical arm, especially relates to a kind of industry mechanical arm that is applicable to the welding of solar-energy photo-voltaic cell automatic placement.
Background technology
At present, domestic solar-energy photo-voltaic cell industry is flourish, and output occupies the first in the world, and wherein first generation crystal silicon solar batteries occupies the share in market 80%, but there is a lot of problems in process of production in single crystal silicon body formation cell panel welded together.The major part of using at present that is used for the solar-energy photo-voltaic cell welding job all is to go to accomplish clamping, carrying and the welding of each inter process workpiece by manual work, can't accurately locate and control, and production efficiency is not high yet.When the solar-energy photo-voltaic cell of using at present welded, accomplishing a whole set of welding sequence needed a plurality of people to operate, and efficient is lower, cost is very high.In addition in the welding process during artificial clamping workpiece security not high, be prone to have an accident.
Summary of the invention
In the welding production process, lack practical carrying aid to present solar-energy photo-voltaic cell; Cause and mix the cost height thoroughly; Security is poor; Positional precision is not high to cause problem such as welding quality difference, the utility model provides a kind of industry mechanical arm that is applicable to the welding of solar-energy photo-voltaic cell automatic placement.
The utility model comprises base, slide rail, is with, is with synchronously adjusting device synchronously, is with fixture, welding stand, first manipulator, second manipulator, the 3rd manipulator, switch board, tool one and tool two synchronously.
Said base is a Π type structure, and two slide rails are installed in parallel in base top, and first manipulator, second manipulator and the 3rd manipulator are installed on the slide rail respectively from left to right.The welding stand is placed in the dead astern of base.Be with an end to be fixed on synchronous band adjusting device synchronously, the other end is fixed on synchronous band fixture.Synchronously the band adjusting device is fixed on the left end of base top, is fixed on the right-hand member of base top synchronously with fixture, and band is parallel with slide rail and tighten synchronously.First manipulator, second manipulator, the 3rd robot manipulator structure are identical, and manipulator comprises sliding platform, synchronous pulley, first fall wheel, second fall wheel, pulling slide rail, pulling slide block, pulling cylinder, servomotor.Manipulator is installed on the slide rail through sliding platform, and can move along the slide rail direction.Servomotor is placed on the sliding platform, with four bolt together.The servomotor output shaft is connected with synchronous pulley through key.Synchronously band compresses down and the synchronous pulley engagement at two wheels of falling, synchronous pulley be arranged on first fall wheel and second fall take turns middle, and on same horizontal plane.The pulling slide rail is installed on the sliding platform and is vertical with slide rail; The pulling slide block is installed on the pulling slide rail, and can move along pulling slide rail direction; The pulling slide rail is made up of two one slide rails, is provided with the pulling cylinder between the two one slide rail ends, and pulling cylinder output is fixedly connected with pulling slide block side.First manipulator, the 3rd manipulator required tool one and tool two and the required welding gun of second manipulator in handling process be installed in pulling slide block separately under, form a fixed connection with pulling slide block bottom surface.
The beneficial effect that the utlity model has is:
Full-automation when (1) the utility model has been realized the solar-energy photo-voltaic cell welding processing first between multiple operation is carried, is arranged, welding operation.
(2) the utlity model has simple in structure, control is reliable, accurate advantage such as location.
(3) the utility model can replace a plurality of workmans clamping and carrying work to the photovoltaic cell piece between each station, greatly reduces cost, has improved efficient.
(4) the utility model has been realized full-automatic carrying operation, and the accident rate that causes owing to operate miss when greatly reducing manually-operated has improved security.
The utility model is applicable to the full-automation carrying of solar-energy photo-voltaic cell crystal silicon body when different inter process punching press.Send into the crystal silicon body from feeding port, through arranging, the technical process of welding, blanking, manipulator can realize that the material between each operation transmits and realize accurately welding automatically.
Description of drawings
Fig. 1 is the structural representation of the utility model.
Fig. 2 is a manipulator body construction sketch map.
Fig. 3 is tool one structural representation.
Fig. 4 is tool two structural representations.
Fig. 5 is the workflow sketch map of the utility model.
Among the figure: 1, base, 2, slide rail, 3, band synchronously, 4, be with adjusting device synchronously, 5, be with fixture synchronously, 6, the welding stand; 7, switch board, 8, first manipulator, 9, second manipulator, the 10, the 3rd manipulator, 11, the pulling cylinder, 12, sliding platform; 13, synchronous pulley, 14, the wheel of falling, 15, the pulling slide rail, 16, the pulling slide block, 17, servomotor, 18, first colludes pawl; 19, tool one, 20, first cylinder, 21, second hook, 22, tool two, 23, second cylinder.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is further described.
Like Fig. 1, shown in Figure 2, the utility model comprises base 1, slide rail 2, is with 3 synchronously, is with adjusting device 4 synchronously, is with fixture 5 synchronously, welding stand 6, first manipulator 8, second manipulator 9, the 3rd manipulator 10, switch board 7, tool 1 and tool 2 22.Said base 1 is a Π type structure, and two slide rails 2 are installed in parallel in base 1 top, and first manipulator 8, second manipulator 9 and the 3rd manipulator 10 are installed in respectively on the slide rail 2 from left to right.Welding stand 6 is placed in the dead astern of base 1.Be with 3 one ends to be fixed on synchronous band adjusting device 4 synchronously, the other end is fixed on synchronous band fixture 5.Synchronously band adjusting device 4 is fixed on the left end at base 1 top, is fixed on the right-hand member at base 1 top synchronously with fixture 5, is with 3 parallel with slide rail 2 and tighten synchronously.First manipulator 8, second manipulator 9, the 3rd manipulator 10 structures are identical, and manipulator comprises sliding platform 12, synchronous pulley 13, first fall wheel 14-1, second fall wheel 14-2, pulling slide rail 15, pulling slide block 16, pulling cylinder 11, servomotor 17.Manipulator is installed on the slide rail 2 through sliding platform 13, and can move along slide rail 2 directions.Servomotor 17 is placed on the sliding platform 12, with four bolt together.Servomotor 17 output shafts are connected with synchronous pulley 14 through key.Be with 3 to compress down and synchronous pulley 13 engagements at two wheels of falling synchronously, synchronous pulley 13 is arranged on the first wheel 14-1 and second that falls and falls and take turns in the middle of the 14-2, and on same horizontal plane.Pulling slide rail 15 is installed on the sliding platform 12 and is vertical with slide rail 2; Pulling slide block 16 is installed on the pulling slide rail 15, and can move along pulling slide rail 15 directions; Pulling slide rail 15 is made up of two one slide rails, is provided with pulling cylinder 11 between the two one slide rail ends, and pulling cylinder 11 outputs are fixedly connected with pulling slide block 16 sides.First manipulator 8, the 3rd manipulator 10 required tool 1 and tool 2 22 and second manipulator, 9 required welding guns in handling process be installed in pulling slide block 16 separately under, form a fixed connection with pulling slide block 16 bottom surfaces.
As shown in Figure 3, tool 1 comprise tool main body, four first cylinders 20, four first collude pawl 18.Four first cylinders 20 are installed in four ends of tool main body respectively; Each first cylinder 20 stretches out one first of axle head connection and colludes pawl 18; Each first colludes pawl 18 and all forms and can be dynamically connected through a rolling bearing and tool main body; Can under the driving of first cylinder 20, move along the cylinder axis direction.
As shown in Figure 4, tool 2 22 is identical with tool one 19 structural principles, comprises tool 2 22 main bodys, and eight second cylinders 23 and eight second collude pawl 21.Eight first cylinders 23 are installed in eight ends of tool main body respectively; Each second cylinder 23 stretches out one second of axle head connection and colludes pawl 21; Each second colludes pawl 21 and all forms and can be dynamically connected through a rolling bearing and tool main body; Can under the driving of tool two cylinders 21, move along the cylinder axis direction.
As shown in Figure 5, the workflow of the utility model is: 1. the monolithic photovoltaic cell is deposited in feeding port; 2. walk to the left part tool one clamping photovoltaic cell through switch board 7 control first mechanical 8 hands are horizontal; 3. behind the good photovoltaic cell of clamping, first manipulator is horizontal to the right to be walked to the middle part; 4. first manipulator, 8 pulling length feeds are placed in the welding job platform with photovoltaic cell according to desired trajectory; 5. after photovoltaic cell was put completion, the left part was vertically return and is retreated in the first manipulator pulling, and second manipulator 9 is walked to the middle part from horizontal; 6. the welding of second manipulator, 9 pulling length feeds, and realization intelligence; 7. 9 pullings of second manipulator are vertically return, and walk crosswise and retreat to right-hand member; Repeat 2. to arrive 7. flow process, be covered with the entire cell plate up to battery block; 8. horizontal middle part, pulling length feed, clamping solar panels gone to of the 3rd manipulator 10; 9. 10 pullings of the 3rd manipulator are vertically return and are walked crosswise and retreat to right-hand member; 10. the 3rd manipulator 10 pulling length feeds stack cell panel to assigned address, and blanking.
Claims (1)
1. be applicable to the industry mechanical arm of solar-energy photo-voltaic cell automatic placement welding, comprise base, slide rail, be with, be with synchronously adjusting device synchronously, be with fixture, welding stand, first manipulator, second manipulator, the 3rd manipulator, switch board, tool one and tool two synchronously that it is characterized in that: said base is a Π type structure; Article two, slide rail is installed in parallel in base top, and first manipulator, second manipulator and the 3rd manipulator are installed in respectively on the slide rail from left to right, and the welding stand is placed in the dead astern of base; Be with an end to be fixed on synchronous band adjusting device synchronously; The other end is fixed on synchronous band fixture, is fixed on the left end of base top synchronously with adjusting device, is fixed on the right-hand member of base top synchronously with fixture; Synchronously band is parallel with slide rail and tighten; First manipulator, second manipulator, the 3rd robot manipulator structure are identical, and manipulator comprises sliding platform, synchronous pulley, first fall wheel, second fall wheel, pulling slide rail, pulling slide block, pulling cylinder, servomotor, and manipulator is installed on the slide rail through sliding platform; And can move along the slide rail direction; Servomotor is placed on the sliding platform, and with four bolt together, the servomotor output shaft is connected with synchronous pulley through key; Band compresses down and the synchronous pulley engagement at two wheels of falling synchronously; Synchronous pulley is arranged on first the fall wheel centre of wheel and second of falling, and on same horizontal plane, and the pulling slide rail is installed on the sliding platform and is vertical with slide rail; The pulling slide block is installed on the pulling slide rail, and can move along pulling slide rail direction; The pulling slide rail is made up of two one slide rails; Be provided with the pulling cylinder between the two one slide rail ends; Pulling cylinder output is fixedly connected with pulling slide block side; First manipulator, the 3rd manipulator required tool one and tool two and the required welding gun of second manipulator in handling process be installed in pulling slide block separately under, form a fixed connection with pulling slide block bottom surface.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220076960 CN202571631U (en) | 2012-03-02 | 2012-03-02 | Mechanical manipulator suitable for automatically arranging and welding solar photovoltaic batteries |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220076960 CN202571631U (en) | 2012-03-02 | 2012-03-02 | Mechanical manipulator suitable for automatically arranging and welding solar photovoltaic batteries |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202571631U true CN202571631U (en) | 2012-12-05 |
Family
ID=47241083
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201220076960 Withdrawn - After Issue CN202571631U (en) | 2012-03-02 | 2012-03-02 | Mechanical manipulator suitable for automatically arranging and welding solar photovoltaic batteries |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN202571631U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102528355A (en) * | 2012-03-02 | 2012-07-04 | 宁波贝达新能源科技有限公司 | Industrial manipulator applicable to automatic arrangement and welding of solar photovoltaic cell |
-
2012
- 2012-03-02 CN CN 201220076960 patent/CN202571631U/en not_active Withdrawn - After Issue
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102528355A (en) * | 2012-03-02 | 2012-07-04 | 宁波贝达新能源科技有限公司 | Industrial manipulator applicable to automatic arrangement and welding of solar photovoltaic cell |
| CN102528355B (en) * | 2012-03-02 | 2015-03-11 | 宁波贝达新能源科技有限公司 | Industrial manipulator applicable to automatic arrangement and welding of solar photovoltaic cell |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20121205 Effective date of abandoning: 20150311 |
|
| RGAV | Abandon patent right to avoid regrant |