CN111347575A - Batch rapid rod sticking device for half silicon rods and using method thereof - Google Patents

Abstract

The invention belongs to the technical field of silicon rod sticking, and particularly relates to a batch quick stick sticking device for semi-silicon rods, which comprises a workbench, a semi-stick sticking tool assembly arranged on a processing table and a pneumatic power-assisted arm assembly arranged on one side of the processing table, wherein the pneumatic power-assisted arm assembly comprises a first pneumatic power-assisted arm, a second pneumatic power-assisted arm arranged at the top end of the first pneumatic power-assisted arm and a sponge vacuum sucker connected with the top end of the second pneumatic power-assisted arm through a connecting arm; half stick excellent frock subassembly includes bottom locating component, fixes the middle part locating component at bottom locating component top and sets up the baffle subassembly at middle part locating component top. The invention also relates to a using method of the device, wherein the semi-silicon rod set is sucked by the pneumatic power-assisted arm and moved to the semi-silicon rod sticking tool to complete rod sticking. The invention can complete one-time front-back left-right positioning of the half silicon rods, and can complete batch sticking of the half silicon rods only by smearing glue once, thereby having high efficiency and saving manpower.

Description

Batch rapid rod sticking device for half silicon rods and using method thereof

Technical Field

The invention belongs to the technical field of silicon rod sticking, and particularly relates to a batch rapid rod sticking device for half silicon rods and a using method thereof.

Background

At present, the silicon rod in the photovoltaic industry is mainly a traditional square rod, and a half silicon rod is generated according to a half chip component at the end of a battery component. At present, rod sticking is mainly completed manually, the traditional square silicon rod can be stuck by a whole cutter only by 2 to 3 silicon rods, half silicon rods are 40 to 60 silicon rods generally, stick the silicon rods after being spliced into 2 rows and a plurality of rows, the silicon rods are separated from each other, positioning requirements are further provided during rod sticking, and simultaneously all the silicon rods need to be spliced well before glue is primarily cured and placed well. The manual stick sticking can be completed by at least 2 persons, and the stick sticking can not be completed at one time when the number of the sticks is large, and only one section of glue can be coated to stick one section of silicon rod. The working mode has the advantages of large manual investment, time and labor consumption and low efficiency, and the sectional stick sticking can not ensure the positioning accuracy of the whole cutter silicon rod, so the sectional stick sticking is easy to be uneven, and fragments and broken lines are generated during slicing; due to the long operation time, the glue is easy to solidify in advance, so that the glue cannot be completely extruded when a rod is pressed, and the rod and the slice are easy to fall off when the slice is cut.

Disclosure of Invention

Aiming at various defects in the prior art, the inventor researches and designs a batch rapid stick sticking device for a half silicon stick and a using method thereof in long-term practice.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a half silicon rod is with gluing excellent device in batches fast, includes the processing platform, sets up half on the processing platform glues excellent frock subassembly and sets up the pneumatic helping hand arm subassembly in processing platform one side. The pneumatic power-assisted arm assembly comprises a first pneumatic power-assisted arm, a second pneumatic power-assisted arm arranged at the top end of the first pneumatic power-assisted arm, and a sponge vacuum sucker connected with the top end of the second pneumatic power-assisted arm through a connecting arm; the semi-piece stick rod tool assembly comprises a bottom positioning assembly, a middle positioning assembly fixed to the top of the bottom positioning assembly and a partition plate assembly arranged on the top of the middle positioning assembly.

Furthermore, the bottom of the first pneumatic power-assisted arm is fixed on the ground through a first rotating disk, and the second pneumatic power-assisted arm is connected with the first pneumatic power-assisted arm through a second rotating disk; the top of the sponge vacuum chuck is provided with a second operating handle, and one end of the connecting arm is welded on the second operating handle.

Furthermore, a first operating handle is further arranged between the connecting arm and the second pneumatic power-assisted arm, and the first operating handle is connected with the second pneumatic power-assisted arm through a third rotating disk; the other end of the connecting arm is welded on the first operating handle.

Furthermore, the bottom positioning assembly comprises an L-shaped bottom positioning base plate, a plurality of crystal supporting plate positioning pieces and resin plate positioning pieces are arranged on the vertical surface of the bottom positioning base plate, and the resin plate positioning pieces are positioned above the crystal supporting plate positioning pieces.

Furthermore, a first nylon strip is further arranged at the top of the vertical surface of the bottom positioning bottom plate.

Further, middle part locating component includes U type locating frame, and the inboard of U type locating frame is equipped with second nylon strip, and two side frame inboards of U type locating frame all are equipped with third nylon strip.

Furthermore, the third nylon strip is fixed on the U-shaped positioning frame through a plurality of side positioning pieces, and the tail ends of the side frames are provided with connecting pieces.

Furthermore, the partition plate assembly comprises a transverse partition plate and a plurality of longitudinal partition plates, wherein the transverse partition plate is arranged along the length direction of the U-shaped positioning frame, and the longitudinal partition plates are movably connected with the transverse partition plate.

Further, an opening is formed in the middle of the longitudinal partition plate.

A method for sticking the stick by using the device comprises the following steps:

s1, placing the crystal supporting plate on the bottom positioning bottom plate, placing the resin plate on the crystal supporting plate, adjusting the relative positions of the resin plate and the crystal supporting plate to enable the resin plate and the crystal supporting plate to be centered in the width direction, coating resin plate glue on the crystal supporting plate after centering, pressing the resin plate on the crystal supporting plate, and bonding the resin plate and the crystal supporting plate into a whole.

S2, moving the pneumatic power-assisted arm assembly, sucking a half silicon rod set to be bonded with a rod by using a sponge vacuum chuck, moving the half silicon rod set to be right above the half bonding tool assembly, coating bonding glue on the upper surface of the resin plate, moving the second operating handle to press the half silicon rod set on the upper surface of the resin plate, simultaneously bonding the silicon rod with the first nylon strip, loosening the vacuum chuck on the sea surface, putting down the silicon rod, and moving the pneumatic power-assisted arm assembly away.

S3, sleeving the middle positioning component above the silicon rod, connecting the middle positioning component with the bottom positioning component through a connecting piece, placing the partition board component between gaps of the half silicon rods, erecting two ends of the transverse partition board on the left and right third nylon strips, locking the side positioning pieces to enable the two third nylon strips to tightly press the half silicon rods to complete left and right positioning, and locking the connecting piece to enable the second nylon strips to fully tightly press the front sides of the half silicon rods to complete front and back positioning of the half silicon rods;

s4, after the stick is solidified, taking out the partition plate assembly by holding the two ends of the transverse partition plate upwards, opening the side positioning piece and the connecting piece to take the middle positioning assembly away, and sticking the stick.

The invention has the beneficial effects that:

1) the pneumatic power-assisted arm is adopted, a sponge vacuum chuck can be used for sucking a whole box of half silicon rods at a time, the pneumatic power-assisted arm can also greatly save manpower, and only the operating handle needs to be moved easily, so that the operation can be completed by one person.

2) The semi-piece stick sticking tool is used for stick sticking operation, the semi-piece silicon rods are positioned all around once through the plurality of positioning pieces, the positioning is accurate, the semi-piece silicon rods can be stuck in batches only by smearing glue once, and the efficiency is high.

Drawings

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic view of the pneumatic power arm assembly of the present invention;

FIG. 3 is a schematic view of a half stick tool assembly of the present invention;

FIG. 4 is a schematic view of the bottom positioning assembly of the present invention;

FIG. 5 is a schematic view of the present invention center positioning assembly;

FIG. 6 is a top view of the present invention center positioning assembly;

figure 7 is a schematic view of a baffle plate assembly of the present invention.

In the drawings:

10-half stick tool assembly, 11-bottom positioning assembly, 12-middle positioning assembly, 13-clapboard assembly, 14-resin plate, 15-crystal supporting plate, 111-bottom positioning bottom plate, 112-first nylon strip, 113-crystal supporting plate positioning piece, 114-resin plate positioning piece, 121-U-shaped positioning frame, 122-second nylon strip, 123-side positioning piece, 124-connecting piece, 125-third nylon strip, 131-transverse clapboard and 132-longitudinal clapboard;

20-a processing table;

30-a pneumatic power-assisted arm assembly, 31-a first pneumatic power-assisted arm, 32-a second pneumatic power-assisted arm, 33-a first operating handle, 34-a connecting arm, 35-a second operating handle, 36-a sea surface vacuum suction cup, 37-a first rotating disc, 38-a second rotating disc and 39-a third rotating disc.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the present invention is described below in detail and completely with reference to the accompanying drawings. Based on the embodiments in the present application, other similar embodiments obtained by persons of ordinary skill in the art without any creative effort shall fall within the protection scope of the present application. In addition, directional terms such as "upper", "lower", "left", "right", etc. in the following embodiments are directions with reference to the drawings only, and thus, the directional terms are used for the purpose of illustrating the present invention and not for limiting the present invention.

The invention is further described with reference to the drawings and the preferred embodiments.

Referring to fig. 1, the batch rapid stick sticking device for semi-silicon rods comprises a processing table 20, a semi-stick sticking tool assembly 10 arranged on the processing table 20, and a pneumatic power arm assembly 30 arranged on one side of the processing table 20. The pneumatic power-assisted arm assembly 30 is mainly used for sucking, moving and placing silicon rods, sucking and moving incoming silicon rods to the half stick sticking tool 10, and enabling an operator to stick the incoming silicon rods at the half stick sticking tool 10.

Referring to fig. 2, the pneumatic power arm assembly 30 includes a first pneumatic power arm 31, a second pneumatic power arm 32 disposed at a top end of the first pneumatic power arm 31, and a sponge vacuum chuck 36 connected to a top end of the second pneumatic power arm 32 through a connecting arm 34.

The bottom of the first pneumatic power-assisted arm 31 is fixed on the ground through a first rotating disk 37, and the first pneumatic power-assisted arm 31 can rotate on the first rotating disk 37. The second pneumatic assist arm 32 is connected to the first pneumatic assist arm 31 via a second rotary disc 38, the second pneumatic assist arm 32 being rotatable relative to the first pneumatic assist arm 31.

A second operating handle 35 is arranged at the top of the sponge vacuum sucker 36, one end of the connecting arm 34 is welded on the second operating handle 35, and a button for controlling the sponge vacuum sucker 36 and the two pneumatic power-assisted arms is arranged on the second operating handle 35.

A first operating handle 33 is further provided between the connecting arm 34 and the second pneumatic assist arm 32, the first operating handle 33 and the second pneumatic assist arm 32 are connected by a third rotary disk 39, and the first operating handle 33 is rotatable relative to the second pneumatic assist arm 32.

The first operating handle 33 is also provided with buttons for controlling the sponge vacuum chuck 36 and the two pneumatic power assist arms, and is in parallel relationship with the buttons on the second operating handle 35. The other end of the connecting arm 34 is welded on the first operating handle 33, and an air pipe, a connecting line, a signal line and the like for connecting the two operating handles are arranged in the connecting arm.

Referring to fig. 3 to 7, the half stick-sticking tool assembly 10 includes a bottom positioning assembly 11, a middle positioning assembly 12 fixed on the top of the bottom positioning assembly 11, and a partition assembly 13 disposed on the top of the middle positioning assembly 12.

The bottom positioning assembly 11 includes a bottom positioning base plate 111, the bottom positioning base plate 111 is an L-shaped member, and a plurality of wafer supporting plate positioning members 113 and resin plate positioning members 114 are disposed on a vertical surface of the bottom positioning base plate 111. In this embodiment, the wafer pallet positioning element 113 and the resin plate positioning element 114 are both positioning screws and have the same number, and the resin plate positioning element 114 is located above the wafer pallet positioning element 113.

The wafer pallet positioning member 113 is used to adjust the position of the wafer pallet 15 placed on the bottom positioning base plate 111, the resin plate positioning member 114 is used to adjust the position of the resin plate 14 placed on the wafer pallet 15, and the wafer pallet positioning member 113 and the resin plate positioning member 114 work together to center the resin plate 14 and the wafer pallet 15 in the width direction.

A first nylon strip 112 is further arranged at the top of the vertical surface of the bottom positioning bottom plate 111 and used for positioning the silicon rod in the front-back direction, and the silicon rod can be prevented from being damaged.

The middle positioning assembly 12 includes a U-shaped positioning frame 121, a second nylon strip 122 is disposed on the inner side of the U-shaped positioning frame 121, and third nylon strips 125 are disposed on the inner sides of two side frames of the U-shaped positioning frame 121. The second nylon strip 122 is used for positioning the silicon rod in the front-back direction, the third nylon strip 125 is used for positioning the silicon rod in the left-right direction, and the two nylon strips can avoid damaging the silicon rod.

The third nylon strip 125 is fixed on the U-shaped positioning frame 121 through a plurality of side positioning members 123, in this embodiment, the side positioning members 123 are positioning screws, and two side frames of the U-shaped positioning frame 121 are all provided with two side frames. The ends of the two side frames of the U-shaped positioning frame 121 are respectively provided with a connecting member 124 for connecting and fixing the middle positioning component 12 and the bottom positioning component 11.

The partition assembly 13 includes a transverse partition 131 disposed along the length of the U-shaped positioning frame 121 and a plurality of longitudinal partitions 132 movably connected to the transverse partition 131. In this embodiment, an opening is formed in the middle of the longitudinal partition 132, so that the longitudinal partition 132 can be inserted into the transverse partition 131, and the distance between two adjacent longitudinal partitions 132 can be adjusted according to the thickness of the silicon rod.

When the quick stick sticking device is used for sticking the semi-silicon rods, the working process is as follows:

1. placing the crystal supporting plate 15 on the bottom positioning bottom plate 111, placing the resin plate 14 on the crystal supporting plate 15, adjusting the relative positions of the resin plate 14 and the crystal supporting plate 15 by using the crystal supporting positioning piece 113 and the resin plate positioning piece 114, centering the resin plate 14 and the crystal supporting plate 15 in the width direction, and taking the resin plate 14 away after centering;

2. wiping the lower surface of the resin plate 14 and the upper surface of the crystal supporting plate 15 clean by alcohol, coating resin plate glue on the crystal supporting plate 15, pressing the resin plate 14 on the crystal supporting plate 15, and bonding the resin plate 14 and the crystal supporting plate 15 into a whole;

3. placing the packaged incoming half silicon rod groups in a foam box, wherein the silicon rod groups are separated by sponge pieces;

4. after the sponge pieces are taken out, the upper surface of each silicon bar is wiped by alcohol, and dirt is removed;

5. holding the second operating handle 35 to move the two pneumatic power-assisted arms (at this time, the first operating handle 33 can also be held according to the needs of the operator), positioning the sponge vacuum sucker 36 right above the half silicon rod set to be stuck, pressing the sponge vacuum sucker 36 to the upper surface of the half silicon rod set, and pressing a sucker button on the operating handle to suck all the half silicon rods;

6. wiping the upper surface of the resin plate 14 clean with alcohol;

7. moving the second operating handle 35, taking out all the silicon semi-slices from the foam box, moving the silicon semi-slices to the position right above the silicon semi-slice stick tool assembly 10, and wiping the bottom surfaces of all the silicon semi-slices with alcohol to be used as adhesive surfaces;

8. coating sticky bar glue on the upper surface of the resin plate 14, moving the second operating handle 35 to press the half silicon rod group on the upper surface of the resin plate 14, attaching the silicon rod to the first nylon strip 112 as much as possible, pressing down a suction cup button of the second operating handle 35, releasing the sea surface vacuum suction cup 36, putting down the silicon rod, and moving the pneumatic power-assisted arm assembly 30 away;

9. sleeving the middle positioning component 12 from the upper part of the silicon rod, and primarily connecting the middle positioning component 12 with the bottom positioning component 11 by using the connecting piece 124, wherein a certain distance is reserved between the second nylon strip 122 and the silicon rod;

10. the longitudinal partition 132 of the partition assembly 13 is adjusted according to the silicon rod gap, then the whole partition assembly 13 is placed between the gaps of the half silicon rods, and the transverse partition 131 is erected on the left and right third nylon strips 125 at two ends and does not slide to the bottom of the silicon rod.

11. The lateral positioning piece 123 of the middle positioning component 12 is locked, so that the two third nylon strips 125 compress the half silicon rods to complete left and right positioning; the second nylon strip 122 completely presses the front side of the half silicon rod to complete the front-back positioning of the half silicon rod by locking the connecting piece 124;

12. after the preliminary solidification of the silicon rod sticking rod is completed, the lateral positioning piece 123 and the connecting piece 124 of the middle positioning component 12 are loosened, two ends of the transverse partition plate 131 are held, and the partition plate component 13 is taken out upwards;

13. the side positioning members 123 and the connecting members 124 of the middle positioning member 12 are completely opened, the middle positioning member 12 is removed, and the stick bonding is completed.

The present invention has been described in detail, and it should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Claims (10)

1. A semi-piece silicon rod batch rapid rod sticking device is characterized by comprising a processing table (20), a semi-piece rod sticking tool assembly (10) arranged on the processing table (20) and a pneumatic power-assisted arm assembly (30) arranged on one side of the processing table (20); the pneumatic power-assisted arm assembly (30) comprises a first pneumatic power-assisted arm (31), a second pneumatic power-assisted arm (32) arranged at the top end of the first pneumatic power-assisted arm (31), and a sponge vacuum sucker (36) connected with the top end of the second pneumatic power-assisted arm (32) through a connecting arm (34); the semi-piece stick tool assembly (10) comprises a bottom positioning assembly (11), a middle positioning assembly (12) fixed to the top of the bottom positioning assembly (11), and a partition plate assembly (13) arranged at the top of the middle positioning assembly (12).

2. The batch rapid stick sticking device for the half silicon rods according to claim 1, wherein the bottom of the first pneumatic power assisting arm (31) is fixed on the ground through a first rotating disk (37), and the second pneumatic power assisting arm (32) is connected with the first pneumatic power assisting arm (31) through a second rotating disk (38); the top of the sponge vacuum chuck (36) is provided with a second operating handle (35), and one end of the connecting arm (34) is welded on the second operating handle (35).

3. The batch rapid stick sticking device for the half silicon rods according to claim 2, wherein a first operating handle (33) is further arranged between the connecting arm (34) and the second pneumatic power-assisted arm (32), and the first operating handle (33) and the second pneumatic power-assisted arm (32) are connected through a third rotating disk (39); the other end of the connecting arm (34) is welded on the first operating handle (33).

4. The batch rapid stick sticking device for the semi-silicon rods according to claim 1, wherein the bottom positioning assembly (11) comprises an L-shaped bottom positioning base plate (111), a plurality of wafer supporting plate positioning pieces (113) and resin plate positioning pieces (114) are arranged on a vertical surface of the bottom positioning base plate (111), and the resin plate positioning pieces (114) are arranged above the wafer supporting plate positioning pieces (113).

5. The batch rapid stick sticking device for the half silicon rods according to claim 4, wherein a first nylon strip (112) is further arranged on the top of the vertical surface of the bottom positioning bottom plate (111).

6. The batch rapid rod sticking device for the half silicon rods as claimed in claim 1, wherein the middle positioning assembly (12) comprises a U-shaped positioning frame (121), a second nylon strip (122) is arranged on the inner side of the U-shaped positioning frame (121), and third nylon strips (125) are arranged on the inner sides of both side frames of the U-shaped positioning frame (121).

7. The batch rapid rod sticking device for the half silicon rods as claimed in claim 6, wherein the third nylon strip (125) is fixed on the U-shaped positioning frame (121) through a plurality of side positioning members (123), and the ends of the two side frames are provided with connecting members (124).

8. The batch rapid rod sticking device for the half silicon rods as set forth in claim 1, wherein the partition plate assembly (13) comprises a transverse partition plate (131) disposed along the length direction of the U-shaped positioning frame (121) and a plurality of longitudinal partition plates (132) movably connected with the transverse partition plate (131).

9. The apparatus as set forth in claim 8, wherein the longitudinal partition (132) is provided with an opening in the middle thereof.

10. A method of stick bonding using the apparatus of any of claims 1 to 8, comprising the steps of:

s1, placing the crystal supporting plate (15) on the bottom positioning bottom plate (111), placing the resin plate (14) on the crystal supporting plate (15), adjusting the relative positions of the resin plate (14) and the crystal supporting plate (15) to enable the resin plate (14) and the crystal supporting plate (15) to be centered in the width direction, smearing resin plate glue on the crystal supporting plate (15) after centering, pressing the resin plate (14) on the crystal supporting plate (15) and bonding the resin plate (14) and the crystal supporting plate (15) into a whole;

s2, moving the pneumatic power-assisted arm assembly (30), sucking a half silicon rod set to be bonded with a rod by using a sponge vacuum chuck (36), moving the half silicon rod set to be right above a half rod bonding tool assembly (10), coating adhesive on the upper surface of a resin plate (14), moving a second operating handle (35) to press the half silicon rod set on the upper surface of the resin plate (14), simultaneously attaching the silicon rod to a first nylon strip (112), loosening the sea surface vacuum chuck (36), putting down the silicon rod, and moving the pneumatic power-assisted arm assembly (30) away;

s3, sleeving a middle positioning component (12) from the upper part of the silicon rod, connecting the middle positioning component with a bottom positioning component (11) through a connecting piece (124), placing a partition plate component (13) between gaps of half silicon rods, erecting two ends of a transverse partition plate (131) on a left third nylon strip and a right third nylon strip (125), locking a side positioning piece (123) to enable the two third nylon strips (125) to tightly press the half silicon rods to complete left and right positioning, and locking the connecting piece (124) to enable a second nylon strip (122) to fully tightly press the front sides of the half silicon rods to complete front and back positioning of the half silicon rods;

s4, after the stick is primarily solidified, the two ends of the transverse partition plate (131) are held and the partition plate assembly (13) is taken out upwards, the side positioning piece (123) and the connecting piece (124) are opened to take the middle positioning assembly (12) away, and stick sticking is completed.

Images