CN107553021B - Ribbon feeding device for n-coil welding ribbon reel, ribbon feeding layout method and series welding machine - Google Patents

Abstract

The embodiment of the invention discloses an n-coil welding strip reel tape supply device, which comprises a substrate, an n-coil welding strip reel drive mechanism, an n-coil welding strip reel positioning mechanism, a welding strip isolation mechanism and a welding strip guide mechanism, wherein the n-coil welding strip reel positioning mechanism is arranged on the front surface of the substrate, the n-coil welding strip reel positioning mechanism comprises an m-coil welding strip reel positioning mechanism and an n-m-coil welding strip reel positioning mechanism, the n-coil welding strip reel positioning mechanism is arranged above the guide mechanism by taking the welding strip guide mechanism horizontally arranged on the front surface of the substrate as a boundary, the n-coil welding strip reel positioning mechanism and the n-coil welding strip reel drive mechanism are uniformly arranged on the guide mechanism, and the side wall on a baffle shaft which can rotate when the welding strip is pulled is arranged on the welding strip, so that the welding strip on each welding strip reel can be supplied according to a set channel.

Description

Ribbon feeding device for n-coil welding ribbon reel, ribbon feeding layout method and series welding machine

Technical Field

The invention relates to the technical field of dense grid solar cell preparation machinery, in particular to a ribbon feeding device of an n-coil welding ribbon reel, a ribbon feeding layout method and a series welding machine.

Background

According to the development of the photovoltaic industry, as the price of the components and the market demand change, each component manufacturer continuously researches and tests, and discovers that the consumption of silver paste of the dense grid solar cell is reduced by 30% -50% compared with that of three grid, four grid and five grid cells which are applied in the market at present, and the number of main grid lines of the dense grid cell is more than 6 and less than 32 solar cells which are applied to the solar cell by the dense grid solar cell through the continuous research and comparison test, and the auxiliary grid lines are correspondingly shortened to reduce the resistance loss, so that the packaging loss of the components is obviously reduced, the manufacturing cost is reduced, and experiments prove that the dense grid component can improve the power of the components by 2.5% -3.5%.

However, in the assembly manufacturing process, because the number of the grid lines of the dense grid battery piece is large and dense, under the conditions that the welding strips are loosened, the strips are removed or the pulling strip distance is long, the mutual winding between the welding strips is difficult to avoid, the confusion is brought to operators, or the welding process of the battery piece is more complex, and the manual welding efficiency is very low, so that a series welding machine for welding the dense grid battery piece is required to be developed.

In the patent application of application number 201610283120.6, a dense grid welding strip coil layout device is disclosed, the device comprises a base, a driving mechanism, welding strip coils and welding strip stop pins, the welding strip coils are arranged on the base placed in the horizontal direction, the welding strip stop pins are relied on to separate welding strips on each welding strip coil, a long-span welding strip threading device is needed between the device and a strip threading device to assist, a tin scraping phenomenon exists in the strip threading process because a strip conveying mechanism on the welding strip stop pins and a strip passing path is in dynamic and static contact with the welding strips, the base of the device is placed horizontally, the welding strip coils are vertically arranged on the base, the welding strips on the welding strip coils are parallel to the base surface, so that under the condition of loosening of the welding strip, the welding strip coils are easily stacked on the base due to gravity of the welding strip, the welding strip threading device is messy and easy to wind, the structure occupies a large floor area, and the welding strip travelling distance is long.

Disclosure of Invention

It is necessary to provide an n-coil solder strip reel tape supply device which can prevent solder strip from being scratched on the surface of solder strip, prevent solder strip from winding and prevent solder strip from running in a short path.

It is also necessary to provide a method for ribbon supply layout for an n-coil solder ribbon reel.

It is also necessary to provide a stringer with an n-coil solder strip reel feed.

The utility model provides an n rolls up welding strip reel supply device, including the base plate of vertical installation, the n rolls up welding strip reel actuating mechanism that sets up at the base plate back and set up n rolls up welding strip reel positioning mechanism, welding strip isolation mechanism, welding strip derivation mechanism at the base plate front, every actuating mechanism of n rolls up welding strip reel actuating mechanism is connected with every positioning mechanism of n rolls up welding strip reel positioning mechanism correspondence, wherein, n rolls up welding strip reel positioning mechanism includes m rolls up welding strip reel positioning mechanism and n-m rolls up welding strip reel positioning mechanism, n rolls up welding strip reel positioning mechanism regards the welding strip derivation mechanism that the level set up at the base plate front as the reference, arrange m rolls up welding strip reel positioning mechanism in the top of derivation mechanism, arrange n-m rolls up welding strip reel positioning mechanism in the below of derivation mechanism, welding strip isolation mechanism arranges near the vertical central line of base plate, welding strip isolation mechanism is provided with the broach gap.

An n-coil solder strip reel tape supply layout method comprises the following steps:

the method comprises the steps that a substrate is vertically arranged, and an n-coil welding strip coil positioning mechanism and an n-coil welding strip coil driving mechanism are correspondingly arranged on the front surface and the back surface of the substrate;

the welding strip coil is arranged on each positioning mechanism of the n-coil welding strip coil positioning mechanism;

after passing through the gap between the baffle shafts of the welding strip isolating mechanism, the welding strip on the welding strip coil passes out from between the first shaft roller and the second shaft roller of the welding strip guiding mechanism, wherein the side wall on the baffle shaft of the welding strip isolating mechanism rotates along with the pulling of the welding strip.

The utility model provides a stringer, includes n rolls of welding strip reel supplies the tape unit and wears the tape unit that sets up in the frame, and n rolls of welding strip reel supplies the vertical setting of base plate of tape unit on the upper surface of frame, wears the tape unit and is close to n rolls of welding strip reel and supplies the tape unit's welding strip export mechanism setting to continue the output with the welding strip, n rolls of welding strip reel supplies tape unit to be foretell n rolls of welding strip reel supplies tape unit.

According to the n-coil welding strip reel feeding device provided by the embodiment of the invention, the substrate is vertically placed, the n-coil welding strip reel positioning mechanism and the n-coil welding strip reel driving mechanism are arranged by taking the welding strip guiding mechanism horizontally arranged on the front surface of the substrate as a boundary, the welding strips are uniformly discharged from the guiding mechanism, the blocking shafts of the welding strip isolating mechanism are arranged in the tape feeding process, comb-shaped gaps are formed between the adjacent blocking shafts, each gap accommodates and passes through one welding strip, and the side wall on the blocking shaft which can rotate when being pulled along with the welding strips is arranged, so that the welding strips on each welding strip reel are fed along with the set channel, and the contacted parts of the welding strips move along with the pulled welding strips, such as the welding strip blocking shafts and the welding strip guiding mechanism, so that the defects that the welding strips are difficult to arrange due to a plurality of welding strips, and the welding strips are easy to scratch in the tape feeding process in the prior art are completely avoided, and the problems existing in the tape feeding strip tape feeding belt of a full-automatic serial welding machine are solved.

According to the stringer provided by the embodiment of the invention, the device is vertically arranged on the frame of the stringer and is matched with the tape threading mechanism to automatically provide the dense-grid welding tape for the stringer of the dense-grid battery piece, so that the tape feeding process is orderly and tidy, and the problems of large tin scraping and tape feeding occupied area and easiness in winding of the welding tape are avoided. The tape supply layout method of the dense grid welding tape roll provided by the invention solves the problems of tin scraping, large occupied area and easy winding of the welding tape in the tape feeding process caused by smaller fine grid line spacing and more and dense grid lines of the battery piece.

Drawings

Fig. 1 is a perspective view of an n-reel solder strip reel tape supply device.

Fig. 2 is a front view of an n-reel solder tape reel tape supply device.

Fig. 3 is a left side view of the n-reel solder strip reel tape supply.

Fig. 4 is a front view of the n-coil solder tape reel tape supply device after mounting the solder tape reel.

Fig. 5 is a front view of another preferred embodiment of an n-reel solder tape reel tape supply.

Fig. 6 is a front view of another preferred embodiment of an n-coil solder strip reel tape supply device after mounting a solder strip reel.

Fig. 7 is an enlarged view of a portion of the movable puck displacement mechanism of fig. 1.

Fig. 8 is a perspective view of the stringer.

In the figure: the welding machine comprises a substrate 10, an n-coil welding strip reel driving mechanism 20, an n-coil welding strip reel positioning mechanism 30, a welding strip isolating mechanism 40, a welding strip guiding mechanism 50, a first shaft roller 51, a second shaft roller 52, a shaft roller driving mechanism 53, a side plate 54, a linear guide rail 55, a series welding machine 100, an n-coil welding strip reel feeding device 200, a strip penetrating mechanism 300, a welding strip reel 400 and a welding strip 500.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Referring to fig. 1 to 7, an n-roll solder strip reel feeding device 200 includes a vertically installed substrate 10, an n-roll solder strip reel driving mechanism 20 provided on the back side of the substrate 10, and n-roll solder strip reel positioning mechanisms 30, a solder strip isolating mechanism 40, and a solder strip guiding-out mechanism 50 provided on the front side of the substrate 10, each driving mechanism of the n-roll solder strip reel driving mechanism 20 being correspondingly connected with each positioning mechanism of the n-roll solder strip reel positioning mechanisms 30, wherein the n-roll solder strip reel positioning mechanisms 30 include m-roll solder strip reel positioning mechanisms and n-m-roll solder strip reel positioning mechanisms, the n-roll solder strip reel positioning mechanisms 30 are referenced to the solder strip guiding-out mechanism 50 horizontally provided on the front side of the substrate 10, the m-roll solder strip reel positioning mechanisms are arranged above the guiding-out mechanism 50, the n-m-roll solder strip reel positioning mechanisms are arranged below the guiding-out mechanism 50, the solder strip isolating mechanisms 40 are arranged near the vertical center line of the substrate 10, and the solder strip isolating mechanisms 40 are provided with comb-shaped slits.

Further, the strap isolation mechanism 40 is provided with a blocking shaft, comb-shaped slits are formed between adjacent blocking shafts, each slit accommodates and passes through one strap 500, one end of the blocking shaft is fixed on the base plate 10, and the blocking shaft further has a side wall rotatable relative to the base plate 10, so that the side wall rotates with the strap 500 when the strap 500 is pulled. For example, rotatable rollers are mounted outside the shaft to effect relative rotation of the side walls.

Further, the ribbon take-out mechanism 50 includes a first roller 51 and a second roller 52, the first roller 51 and the second roller 52 being parallel to each other and arranged on the substrate 10 in parallel with the substrate 10, the first roller 51 and the second roller 52 being rotatable about their axes, the ribbon 500 in each ribbon spool in the m-reel ribbon spool positioning mechanism being horizontal bypassing the first roller 51, the ribbon 500 in each ribbon spool in the n-m-reel ribbon spool positioning mechanism being bypassing the second roller 52.

Further, the solder strip guiding mechanism 50 further includes a roll driving mechanism 53 and a roll shifting mechanism, the roll shifting mechanism includes a side plate 54 and a linear guide 55, one end of the side plate 54 is connected with the second roll 52, the other end of the side plate 54 is connected with the linear guide 55, the linear guide 55 is vertically disposed along the front surface of the substrate 10, the roll driving mechanism 53 is connected with the linear guide 55 of the roll shifting mechanism, and the second roll 52 is driven to move by the roll driving mechanism 53, so as to change the distance between the first roll 51 and the second roll 52, so that the solder strip 500 can pass smoothly.

Further, "n" in "n rolls" refers to the number of solder ribbon reels, which is equal to or greater than 6 rolls and equal to or less than 32 rolls, and "m" in "m rolls" refers to the number of solder ribbon reels, which is equal to or greater than 0 rolls and equal to or less than 18 rolls.

The following are several specific embodiments for carrying out the inventive concepts.

Further, the layout of the driving mechanism of the n-coil bobbin driving mechanism 20 and the positioning mechanism of the n-coil bobbin positioning mechanism 30 on the substrate 10 is three cases, wherein the substrate 10 is a vertical substrate 10, and when the positioning mechanisms of the n-coil bobbin positioning mechanism 30 are odd numbers, the number of the positioning mechanisms positioned below the horizontal center line of the substrate 10 is 1 more than the number of the positioning mechanisms positioned above the horizontal center line of the substrate 10; when the number of the positioning mechanisms of the n-coil solder tape reel positioning mechanism 30 is even, the number of the positioning mechanisms above the horizontal center line of the substrate 10 is equal to the number of the positioning mechanisms below the horizontal center line of the substrate 10, and both the positioning mechanisms are even; when the number of the positioning mechanisms of the n-coil bobbin positioning mechanism 30 is an even number, the number of the positioning mechanisms located below the horizontal center line of the substrate 10 is 2 more than the number of the positioning mechanisms located above the horizontal center line of the substrate 10, and both are an even number.

For example, when the number of positioning mechanisms of the n-coil ribbon spool positioning mechanism 30 is 7, 9, 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, the number of positioning mechanisms located below the ribbon take-out mechanism 50 is 1 more than the number of positioning mechanisms located above the ribbon take-out mechanism 50, i.e., m=3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, n-m=4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16;

when the positioning mechanisms of the n-coil welding strip reel positioning mechanism 30 are 8, 12, 16, 20, 24, 28, 32, the number of the positioning mechanisms above the welding strip guiding-out mechanism 50 is equal to the number of the positioning mechanisms below the welding strip guiding-out mechanism 50, namely m=n-m=4, 6, 8, 10, 12, 14, 16;

when the positioning mechanisms of the n-coil welding strip reel positioning mechanism 30 are 10, 14, 18, 22, 26 and 30, the number of the positioning mechanisms below the welding strip guiding-out mechanism 50 is 2 more than the number of the positioning mechanisms above the welding strip guiding-out mechanism 50, namely, m=4 correspondingly; 6, preparing a base material; 8, 8;10;12;14, n-m=6; 8, 8;10;12; 14;16.

in this way, the principle that the positioning mechanism of the coil 400 of the welding strip 500 on the substrate 10 is light and heavy is maintained, so that the gravity center of the substrate 10 bears weight to move downwards, and stable support is facilitated.

In the above layout structure, the n-coil solder strip reel positioning mechanisms 30 above and below the solder strip reel positioning mechanism 50 may be symmetrically disposed on two sides of the vertical center line of the substrate 10 with the vertical center line of the substrate 10 as a symmetry axis, the n-coil solder strip reel positioning mechanisms 30 on two sides of the vertical center line are arranged in a straight line or an arc line, as shown in fig. 2, the n-coil solder strip reel positioning mechanisms 30 are arranged in a vertical straight line, and fig. 5 and 6 are arranged in a diagonal line or an arc line, so that the solder strip 500 of the solder strip reel 400 disposed on the n-coil solder strip reel positioning mechanism 30 passes through the blocking axis slit of the adjacent solder strip isolation mechanism 40 once and then is connected with the solder strip reel positioning mechanism 50.

The distance between the n-coil solder strip reel positioning mechanism 30 and the solder strip isolating mechanism 40, which are arranged in a diagonal line or an arc line, is shortest, so that the running distance of the solder strips 500 is shortest, the probability of intertwining is minimized, the probability of each solder strip 500 contacting with the solder strip isolating mechanism 40 is one time, and the defect of tin layer scratch caused by multiple contacts is avoided.

The invention also provides a tape supply method of the n-coil welding tape reel, which comprises the following steps:

vertically arranging a substrate 10, and correspondingly arranging an n-coil welding strip coil positioning mechanism 30 and an n-coil welding strip coil driving mechanism 20 on the front surface and the back surface of the substrate 10;

mounting the solder strip coil 400 to each of the n-coil solder strip coil spool positioning mechanisms 30;

after passing through the gap between the blocking shafts of the strap isolation mechanism 40, the strap 500 on the strap reel 400 passes out from between the first and second rollers 51, 52 of the strap guide mechanism 50, wherein the side wall on the blocking shaft of the strap isolation mechanism 40 rotates as the strap 500 is pulled.

Referring to fig. 8, a string welder 100 includes an n-roll welding strip reel feeding device 200 and a threading mechanism 300, which are disposed on a frame, wherein a substrate 10 of the n-roll welding strip reel feeding device 200 is vertically disposed on an upper surface of the frame, and the threading mechanism 300 is disposed near a welding strip guiding mechanism 50 of the n-roll welding strip reel feeding device 200 to continuously output a welding strip 500, and the n-roll welding strip reel feeding device 200 is the n-roll welding strip reel feeding device 200.

The steps in the method of the embodiment of the invention can be sequentially adjusted, combined and deleted according to actual needs.

The modules or units in the device of the embodiment of the invention can be combined, divided and deleted according to actual needs.

The foregoing disclosure is illustrative of the preferred embodiments of the present invention, and is not to be construed as limiting the scope of the invention, as it is understood by those skilled in the art that all or part of the above-described embodiments may be practiced with equivalents thereof, which fall within the scope of the invention as defined by the appended claims.

Claims (3)

1. An n-coil welding strip reel feeding device is characterized in that: the device comprises a vertically installed substrate, an n-coil welding strip coil driving mechanism arranged on the back of the substrate, an n-coil welding strip coil positioning mechanism arranged on the front of the substrate, a welding strip isolating mechanism and a welding strip guiding-out mechanism, wherein each driving mechanism of the n-coil welding strip coil driving mechanism is correspondingly connected with each positioning mechanism of the n-coil welding strip coil positioning mechanism, the n-coil welding strip coil positioning mechanism comprises an m-coil welding strip coil positioning mechanism and an n-m-coil welding strip coil positioning mechanism, the n-coil welding strip coil positioning mechanism takes the welding strip guiding-out mechanism horizontally arranged on the front of the substrate as a reference, the m-coil welding strip coil positioning mechanism is arranged above the guiding-out mechanism, the n-m-coil welding strip coil positioning mechanism is arranged below the guiding-out mechanism, the welding strip isolating mechanism is arranged near the vertical central line of the substrate, and the welding strip isolating mechanism is provided with comb-shaped gaps; the welding strip isolating mechanism is provided with baffle shafts, comb-shaped gaps are formed between adjacent baffle shafts, each gap accommodates and passes through one welding strip, one end of each baffle shaft is fixed on a base plate, the baffle shafts are further provided with side walls which can rotate relative to the base plate so that the side walls rotate along with the welding strips when the welding strips are pulled, the welding strip guiding mechanism comprises a first shaft roller and a second shaft roller which are parallel to each other and are arranged in parallel with the base plate, the first shaft roller and the second shaft roller can rotate around the axes of the first shaft roller and the second shaft roller, the welding strips in each welding strip reel of the m-roll welding strip reel locating mechanism bypass the first shaft roller, the welding strips in each welding strip reel of the n-m-roll welding strip reel locating mechanism bypass the second shaft roller, the welding strip guiding mechanism further comprises a shaft roller driving mechanism and a shaft roller shifting mechanism, the shaft roller shifting mechanism comprises a side plate and a linear guide rail, one end of the side plate is connected with the second shaft roller, the other end of the side plate is connected with the linear guide rail, the linear guide rail is vertically arranged along the front surface of the substrate, the rolling driving mechanism is connected with the linear guide rail of the rolling shifting mechanism, the second rolling is driven to move through the rolling driving mechanism, the distance between the first rolling and the second rolling is changed, so that welding strips can pass smoothly, n in n rolls is the number of welding strip scroll shafts, the number of welding strip scroll shafts is more than or equal to 6 rolls and less than or equal to 32 rolls, and m in m rolls is the number of welding strip scroll shafts, the number of welding strip scroll shafts is more than or equal to 0 rolls and less than or equal to 18 rolls.

2. A solder tape reel feeding layout method using the n-reel solder tape reel feeding device according to claim 1, comprising the steps of:

the method comprises the steps that a substrate is vertically arranged, and an n-coil welding strip coil positioning mechanism and an n-coil welding strip coil driving mechanism are correspondingly arranged on the front surface and the back surface of the substrate;

the welding strip coil is arranged on each positioning mechanism of the n-coil welding strip coil positioning mechanism;

after passing through the gap between the baffle shafts of the welding strip isolating mechanism, the welding strip on the welding strip coil passes out from between the first shaft roller and the second shaft roller of the welding strip guiding mechanism, wherein the side wall on the baffle shaft of the welding strip isolating mechanism rotates along with the pulling of the welding strip.

3. The utility model provides a series welding machine which characterized in that: the device comprises an n-coil welding strip reel strip supply device and a strip threading mechanism which are arranged on a frame, wherein a substrate of the n-coil welding strip reel strip supply device is vertically arranged on the upper surface of the frame, the strip threading mechanism is arranged close to a welding strip guiding-out mechanism of the n-coil welding strip reel strip supply device so as to continuously output welding strips, and the n-coil welding strip reel strip supply device is the n-coil welding strip reel strip supply device according to claim 1.