CN114212514A

CN114212514A - Feeding device for solar cell production

Info

Publication number: CN114212514A
Application number: CN202210025059.0A
Authority: CN
Inventors: 林彬
Original assignee: Individual
Current assignee: Anhui Shijing Solar Energy Technology Co ltd
Priority date: 2022-01-11
Filing date: 2022-01-11
Publication date: 2022-03-22
Anticipated expiration: 2042-01-11
Also published as: CN114212514B

Abstract

The invention discloses a feeding device for solar cell production, which comprises a base, wherein two groups of positioning grooves are symmetrically formed in the inner side of the base, the insides of the two groups of positioning grooves are jointly and slidably connected with a same bottom plate, the top of the bottom plate is movably connected with a stacking frame, one end of the top of the stacking frame is rotatably connected with a bidirectional screw rod, and the outside of the bidirectional screw rod is symmetrically and threadedly connected with a threaded block. According to the solar cell temporary storage device, the material pushing device is arranged, so that solar energy can be automatically pushed into the detection device when the solar cell is detected, the convenience in solar energy detection is improved, the detection efficiency of the solar energy is improved, the stacking frame can be used during material loading, and can be used as a solar cell temporary storage device for repeated use in the production process of the solar cell, and the solar cell temporary storage device is simple in structure, low in manufacturing cost and suitable for popularization and use.

Description

Feeding device for solar cell production

Technical Field

The invention belongs to the technical field of solar cell production, and particularly relates to a feeding device for solar cell production.

Background

The solar cell is a photoelectric semiconductor sheet which directly generates electricity by using sunlight, is also called as a solar chip or a photovoltaic cell, and can output voltage instantly and generate current under the condition of a loop as long as the solar cell is illuminated under a certain illumination condition. Physically referred to as solar Photovoltaic (abbreviated PV), Photovoltaic for short.

After the solar cell is produced, the solar cell needs to be placed in a detection bin for performance detection, but most of the existing detection devices do not have automatic feeding devices, and workers need to place the stacked solar cells on a conveying mechanism on the detection device, so that the detection device is troublesome and influences the detection efficiency of the solar cell; in addition, after the existing solar cell is produced, dry glue overflow is often left at the edge of the surface, which not only affects the selling phase of the solar cell, but also affects the accuracy of the detection of the solar cell.

Therefore, it is necessary to invent a feeding device for solar cell production to solve the above problems.

Disclosure of Invention

In view of the above problems, the present invention provides a feeding device for solar cell production, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: loading attachment is used in solar cell production, the on-line screen storage device comprises a base, two sets of constant head tanks, two sets of have been seted up to the inboard symmetry of base the common sliding connection in inside of constant head tank has same bottom plate, the top swing joint of bottom plate has the pile frame, the top one end of pile frame is rotated and is connected with two-way lead screw, the outside symmetrical threaded connection of two-way lead screw has the thread block, two the bottom one end of thread block all extends to the inside of pile frame and fixedly connected with limiting plate respectively, two the even fixedly connected with in one side that the limiting plate is relative and the baffle that the pile frame cooperation was used, one side of base is provided with blevile of push, the top one end of base is provided with excessive gluey scraping device.

Further, the material pushing device comprises a material pushing mechanism and a frame body automatic falling mechanism;

pushing equipment includes the mounting panel of fixed connection in base one side, the hydraulic cylinder is installed to the bottom one end of mounting panel, logical groove, two have all been seted up to the both sides of base the inside common sliding connection who leads to the groove has the U-shaped board, the U-shaped board comprises two square poles and a square board, one side fixed connection of base is kept away from to the output of hydraulic cylinder and U-shaped board, the U-shaped board is close to one side fixedly connected with push pedal of base, and the push pedal sets up between two square poles in the U-shaped board.

Further, automatic whereabouts mechanism is including rotating the gear of connection in the bottom plate both sides, the both sides of base all are provided with the tooth with gear engagement, two one side that the gear wheel axle is close to the U-shaped board all extends to the outside and the square piece of fixedly connected with of bottom plate, the recess has all been seted up, two in the both sides of base even sliding connection has a plurality of movable rods respectively, and is a plurality of one side of movable rod is common fixedly connected with respectively same with the locating plate that square piece cooperation was used, a plurality of the equal activity in outside of movable rod has cup jointed first spring.

Further, the movable groove, two have all been seted up to the inboard that hydraulic cylinder one end was kept away from to two square poles in the U-shaped board the inside in movable groove all rotates and is connected with the touch panel that supports that uses with the locating plate cooperation, two the equal fixedly connected with torsional spring in both ends of touch panel, and two torsional springs keep away from the one end of touch panel all with the cell wall fixed connection in movable groove.

Further, the overflow glue scraping device comprises a longitudinal glue scraping mechanism and a transverse glue scraping mechanism;

vertical frictioning mechanism includes that the symmetry is fixed at the scraper of a plurality of baffle bottom one end, multiunit the scraper all sets up the one side of keeping away from the hydraulic cylinder at the baffle, the scraper includes the T shape pole of fixed connection in baffle bottom one end, the fly leaf has been cup jointed in the outside activity of T shape pole, one side fixedly connected with blade of fly leaf bottom one end, the top one end fixedly connected with second spring of fly leaf, and the second spring activity cup joints the outside at T shape pole.

Further, horizontal frictioning mechanism is seted up at the spout of piling up the frame both sides including the symmetry, and is a plurality of the equal swing joint in inside of spout has the scraper, and is a plurality of the equal fixedly connected with linkage plate in top one end of scraper, and one side of a plurality of linkage plates all extends to the outside of spout.

Furthermore, a square frame is fixedly connected to one end of the top of the base, two groups of first belt pulleys are symmetrically and rotatably connected to the inside of the square frame, a group of second belt pulleys which are matched with each other to use are respectively sleeved on the outer portion of one wheel shaft of the two groups of first belt pulleys, and convex blocks matched with the linkage plates to use are fixedly connected to the outer sides of the belts of the two groups of first belt pulleys.

Furthermore, a toothed ring is fixedly sleeved outside one wheel shaft in one group of belt pulleys, a toothed plate meshed with the toothed ring is connected to one side of the square frame in a sliding mode, and one side, far away from the square frame, of the toothed plate is fixedly connected with the U-shaped plate.

Furthermore, the side section shapes of the blades are all L-shaped, and a graduated scale matched with the bidirectional screw rod for use is arranged on one side of one end of the top of the stacking frame.

Furthermore, the base is composed of two side plates and a reinforcing plate, and the section of the base is U-shaped.

The invention has the technical effects and advantages that:

1. according to the solar cell temporary storage device, the material pushing device is arranged, so that solar energy can be automatically pushed into the detection device when the solar cell is detected, the convenience in solar energy detection is improved, the detection efficiency of the solar energy is improved, the stacking frame can be used during material loading, and can be used as a solar cell temporary storage device for repeated use in the production process of the solar cell, and the solar cell temporary storage device is simple in structure, low in manufacturing cost and suitable for popularization and use.

2. According to the invention, through arranging the glue overflow scraping device, the solar cell can be pushed out of the stacking frame by the material pushing device, and simultaneously, the cleaning of the glue overflow at the edge of the surface of the solar cell is realized, so that the influence of the glue overflow on the detection accuracy of the solar cell is prevented, the production quality of the solar cell can be effectively improved, and the practicability of the device is increased.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 shows a front view of an embodiment of the present invention;

FIG. 2 shows a cross-sectional view of a stack frame of an embodiment of the present invention;

FIG. 3 shows a base partial cross-sectional view of an embodiment of the invention;

FIG. 4 shows a cross-sectional top view of a square frame portion of an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure of the part A of the embodiment of the present invention;

FIG. 6 is an enlarged view of the structure of the part B of the embodiment of the present invention;

FIG. 7 is an enlarged view of the structure of the part C of the embodiment of the present invention;

in the figure: 1. a base; 2. positioning a groove; 3. a base plate; 4. a stacking frame; 5. a bidirectional screw rod; 6. a thread block; 7. a limiting plate; 8. a partition plate; 9. a material pushing device; 91. a material pushing mechanism; 911. mounting a plate; 912. a hydraulic cylinder; 913. a through groove; 914. a U-shaped plate; 915. pushing the plate; 92. an automatic dropping mechanism; 921. a gear; 922. teeth; 923. a square block; 924. a groove; 925. a movable rod; 926. positioning a plate; 927. a first spring; 928. a movable groove; 929. a touch plate; 930. a torsion spring; 10. an overflow glue scraping device; 11. a longitudinal glue scraping mechanism; 111. a scraper; 1111. a T-shaped rod; 1112. a movable plate; 1113. a blade; 1114. a second spring; 12. a transverse glue scraping mechanism; 121. a chute; 122. a linkage plate; 123. a square frame; 124. a first pulley; 125. a second pulley; 126. a bump; 127. a toothed ring; 128. a toothed plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a feeding device for solar cell production, which comprises a base 1, wherein two groups of positioning grooves 2 are symmetrically formed in the inner side of the base 1, the insides of the two groups of positioning grooves 2 are jointly and slidably connected with a same bottom plate 3, the top of the bottom plate 3 is movably connected with a stacking frame 4, one end of the top of the stacking frame 4 is rotatably connected with a bidirectional screw rod 5, the outer part of the bidirectional screw rod 5 is symmetrically and threadedly connected with threaded blocks 6, one ends of the bottoms of the two threaded blocks 6 extend into the stacking frame 4 and are respectively and fixedly connected with limiting plates 7, one sides, opposite to the two limiting plates 7, are uniformly and fixedly connected with a partition plate 8 matched with the stacking frame 4, one side of the base 1 is provided with a material pushing device 9, and one end of the top of the base 1 is provided with an excessive glue scraping device 10;

the material pushing device 9 comprises a material pushing mechanism 91 and a frame body automatic falling mechanism 92;

the pushing mechanism 91 comprises a mounting plate 911 fixedly connected to one side of the base 1, one end of the bottom of the mounting plate 911 is provided with a hydraulic cylinder 912, through grooves 913 are formed in both sides of the base 1, the insides of the two through grooves 913 are jointly connected with a U-shaped plate 914 in a sliding manner, the U-shaped plate 914 is composed of two square rods and one square plate, the output end of the hydraulic cylinder 912 is fixedly connected with one side, away from the base 1, of the U-shaped plate 914, a push plate 915 is fixedly connected to one side, close to the base 1, of the U-shaped plate 914, and the push plate 915 is arranged between the two square rods in the U-shaped plate 914;

the automatic falling mechanism 92 comprises gears 921 rotatably connected to two sides of the bottom plate 3, teeth 922 meshed with the gears 921 are arranged on two sides of the base 1, one sides of axles of the two gears 921, which are close to the U-shaped plate 914, extend to the outside of the bottom plate 3 and are fixedly connected with square blocks 923, grooves 924 are formed in two sides of the base 1, a plurality of movable rods 925 are uniformly and slidably connected inside the two grooves 924 respectively, one side of each movable rod 925 is fixedly connected with a same positioning plate 926 matched with the square blocks 923, and a first spring 927 is movably sleeved on the outside of each movable rod 925;

the inner sides of two square rods in the U-shaped plate 914, which are far away from one end of the hydraulic cylinder 912, are respectively provided with a movable groove 928, the interiors of the two movable grooves 928 are respectively and rotatably connected with a touch plate 929 which is matched with the positioning plate 926 for use, two ends of the two touch plates 929 are respectively and fixedly connected with a torsion spring 930, and one end of the two torsion springs 930, which is far away from the touch plate 929, is respectively and fixedly connected with the groove wall of the movable groove 928;

the base 1 is composed of two side plates and a reinforcing plate, and the section of the base 1 is U-shaped;

before the device is used, the bidirectional screw rod 5 can be rotated, the two threaded blocks 6 are driven to move through the bidirectional screw rod 5, so that the two threaded blocks 6 drive the two limiting plates 7 to synchronously move, at the moment, the scales on the stacking frame 4 can be observed, and the positions of the limiting plates 7 in the stacking frame 4 can be observed at the same time, so that the distance between the two limiting plates 7 can be adjusted according to the width of a solar cell to be stored; after the adjustment is finished, the solar cells to be detected can be sequentially placed into the stacking frame 4 through the grooves on the surface of the stacking frame 4;

when the solar cells in the stacking frame 4 need to be detected, the base 1 can be placed on one side of the feeding end of the detection device, and then the stacking frame 4 filled with the solar cells is integrally placed on the bottom plate 3; during detection, the hydraulic cylinder 912 is only opened, the U-shaped plate 914 is pushed to move through the hydraulic cylinder 912, the U-shaped plate 914 pushes the push plate 915 to move synchronously, the solar cell at the corresponding position is pushed out of the stacking frame 4 through the push plate 915, the solar cell is pushed onto a feeding conveying device of the detection device, and finally the solar cell is conveyed into the detection device through the conveying device to be detected;

when the hydraulic cylinder 912 pushes out a solar cell, the hydraulic cylinder 912 drives the U-shaped plate 914 to move in the opposite direction, so that the U-shaped plate 914 drives the push plate 915 to move towards the outside of the stacking frame 4, when the push plate 915 is completely moved out of the stacking frame 4, the abutting plate 929 inside the movable groove 928 at one end of the two square rods in the U-shaped plate 914 abuts against the positioning plate 926 and pushes the two positioning plates 926 to move, so that the first springs 927 are compressed, thereby releasing the limiting effect of the positioning plate 926 on the axle of the gear 921, at this time, the bottom plate 3 slides downwards in the positioning groove 2 under the action of gravity, so that the bottom plate 3 drives the gears 921 at the two sides to move synchronously and rotate through the meshing action with the gears 922, when the hydraulic cylinder 912 pushes the U-shaped plate 914 to move towards the stacking frame 4 again, firstly releasing the abutting effect of the abutting plate 929 on the positioning plate 926, at this time, the positioning plate 926 is reset under the reset action of the first springs 927 and abuts against the square block 923 again, the square block 923 is limited to limit the gear 921, the bottom plate 3 which falls for a certain distance is fixed, so that the bottom plate 3 drives the stacking frame 4 to fall for a certain distance synchronously, the push plate 915 is aligned with the groove on the surface of the stacking frame 4 again, preparation is made for pushing out the solar cell for the next time, and the steps are sequentially repeated until all the solar cells in the stacking frame 4 are pushed out;

according to the solar cell temporary storage device, the material pushing device is arranged, so that solar energy can be automatically pushed into the detection device when the solar cell is detected, the convenience in solar energy detection is improved, the detection efficiency of the solar energy is improved, the stacking frame can be used during material loading, and can be used as a solar cell temporary storage device for repeated use in the production process of the solar cell, and the solar cell temporary storage device is simple in structure, low in manufacturing cost and suitable for popularization and use.

As shown in fig. 1, 4, 6 and 7, the overflowed glue scraping device 10 includes a longitudinal glue scraping mechanism 11 and a transverse glue scraping mechanism 12;

the longitudinal glue scraping mechanism 11 comprises scrapers 111 symmetrically fixed at one end of the bottom of a plurality of partition plates 8, a plurality of groups of the scrapers 111 are all arranged at one side of the partition plates 8 far away from the hydraulic cylinder 912, each scraper 111 comprises a T-shaped rod 1111 fixedly connected at one end of the bottom of the partition plate 8, a movable plate 1112 is movably sleeved outside the T-shaped rod 1111, a blade 1113 is fixedly connected at one side of one end of the bottom of the movable plate 1112, a second spring 1114 is fixedly connected at one end of the top of the movable plate 1112, and the second spring 1114 is movably sleeved outside the T-shaped rod 1111;

the transverse glue scraping mechanism 12 comprises sliding chutes 121 symmetrically arranged on two sides of the stacking frame 4, scrapers 111 are movably connected inside the sliding chutes 121, linkage plates 122 are fixedly connected to one ends of the tops of the scrapers 111, and one sides of the linkage plates 122 extend to the outside of the sliding chutes 121;

a square frame 123 is fixedly connected to one end of the top of the base 1, two groups of first belt pulleys 124 are symmetrically and rotatably connected to the inside of the square frame 123, a group of second belt pulleys 125 which are mutually matched and used are respectively sleeved on the outer portion of one wheel axle of the two groups of first belt pulleys 124, and convex blocks 126 which are matched and used with the linkage plates 122 are fixedly connected to the outer sides of the belts of the two groups of first belt pulleys 124;

a toothed ring 127 is fixedly sleeved outside one of the wheel shafts in one group of the belt pulleys, a toothed plate 128 meshed with the toothed ring 127 is connected to one side of the square frame 123 in a sliding manner, and one side, away from the square frame 123, of the toothed plate 128 is fixedly connected with a U-shaped plate 914;

the lateral cut surfaces of the blades 1113 are all L-shaped, and one side of one end of the top of the stacking frame 4 is provided with a graduated scale matched with the bidirectional screw rod 5;

in the above operation, when the push plate 915 pushes out the solar cell, the blade 1113 in the scraper 111 is always in contact with the edge of the surface of the solar cell under the action of the second spring 1114, and the overflowing glue at the longitudinal edge of the surface of the solar cell is scraped off in the process of pushing out the solar cell;

when the pushing plate 915 moves to the outside of the stacking frame 4, the U-shaped plate 914 drives the toothed plate 128 to synchronously move, and drives one group of first belt pulleys 124 to rotate through the meshing action between the toothed plate 915 and the toothed ring 127, so that one group of first belt pulleys 124 drives the other group of first belt pulleys 124 to synchronously rotate through the second belt pulley 125, the two groups of first belt pulleys 124 drive the projection 126 to move, the projection 126 and the linkage plate 122 are in interference action, the linkage plate 122 drives the two scrapers 111 to synchronously move, and the two scrapers 111 scrape the glue overflow at the transverse edge of the surface of the solar cell panel above the corresponding position of the pushing plate 915 through the cooperation between the above structures;

when the two scrapers 111 are moved to the other side of the chute 121, the U-shaped plate 914 drives the stacking frame 4 to move downwards through the cooperation between the structures, at this time, the solar cell with the cleaned excessive glue at the transverse edge is moved to the corresponding position of the push plate 915, and when the push plate 915 pushes the solar cell to the outside of the stacking frame 4, the scrapers 111 under the corresponding partition plates 8 scrape the excessive glue at the longitudinal edge of the solar cell through the cooperation between the structures, so that the complete cleaning of the excessive glue at the edge of the surface of the solar cell is realized in the process of pushing the solar cell out by the material pushing device 9;

according to the invention, through arranging the glue overflow scraping device, the solar cell can be pushed out of the stacking frame by the material pushing device, and simultaneously, the cleaning of the glue overflow at the edge of the surface of the solar cell is realized, so that the influence of the glue overflow on the detection accuracy of the solar cell is prevented, the production quality of the solar cell can be effectively improved, and the practicability of the device is increased.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. Loading attachment is used in solar cell production, including base (1), its characterized in that: two groups of positioning grooves (2) are symmetrically arranged on the inner side of the base (1), the inner parts of the two groups of positioning grooves (2) are jointly connected with the same bottom plate (3) in a sliding way, the top of the bottom plate (3) is movably connected with a stacking frame (4), one end of the top of the stacking frame (4) is rotatably connected with a bidirectional screw rod (5), the outer part of the bidirectional screw rod (5) is symmetrically and threadedly connected with thread blocks (6), one ends of the bottoms of the two thread blocks (6) extend into the stacking frame (4) and are respectively and fixedly connected with limiting plates (7), one sides of the two limiting plates (7) opposite to each other are uniformly and fixedly connected with a partition plate (8) matched with the stacking frame (4) for use, one side of the base (1) is provided with a material pushing device (9), and one end of the top of the base (1) is provided with an excessive glue scraping device (10).

2. The feeding device for solar cell production according to claim 1, characterized in that: the material pushing device (9) comprises a material pushing mechanism (91) and a frame body automatic falling mechanism (92);

pushing equipment (91) include mounting panel (911) of fixed connection in base (1) one side, hydraulic cylinder (912) are installed to the bottom one end of mounting panel (911), logical groove (913), two have all been seted up to the both sides of base (1) the common sliding connection in inside that leads to groove (913) has U-shaped board (914), U-shaped board (914) comprise two square poles and a square board, one side fixed connection of base (1) is kept away from with U-shaped board (914) to the output of hydraulic cylinder (912), one side fixedly connected with push pedal (915) that U-shaped board (914) is close to base (1), and push pedal (915) set up between two square poles in U-shaped board (914).

3. The feeding device for solar cell production according to claim 1, characterized in that: automatic whereabouts mechanism (92) are including rotating gear (921) of connection in bottom plate (3) both sides, the both sides of base (1) all are provided with tooth (922) with gear (921) meshing, two one side that gear (921) shaft is close to U-shaped plate (914) all extends to the outside and the square piece of fixedly connected with (923) of bottom plate (3), recess (924) are all seted up to the both sides of base (1), two the inside of recess (924) is even sliding connection respectively has a plurality of movable rods (925), and is a plurality of one side of movable rod (925) is common fixedly connected with respectively is same with locating plate (926) that square piece (923) cooperation was used, and is a plurality of first spring (927) has been cup jointed in the equal activity in outside of movable rod (925).

4. The feeding device for solar cell production according to claim 3, characterized in that: activity groove (928), two have all been seted up to the inboard that hydraulic cylinder (912) one end was kept away from to two square poles in U-shaped board (914) the inside of activity groove (928) is all rotated and is connected with and is used with locating plate (926) cooperation to touch panel (929), two the equal fixedly connected with torsional spring (930) in both ends of touch panel (929), and two torsional springs (930) keep away from the one end of touch panel (929) all with the cell wall fixed connection of activity groove (928).

5. The feeding device for solar cell production according to claim 1, characterized in that: the excessive glue scraping device (10) comprises a longitudinal glue scraping mechanism (11) and a transverse glue scraping mechanism (12);

vertical frictioning mechanism (11) is including the symmetry fix scraper (111) in a plurality of baffles (8) bottom one end, multiunit scraper (111) all sets up the one side of keeping away from hydraulic cylinder (912) at baffle (8), scraper (111) are including T shape pole (1111) of fixed connection in baffle (8) bottom one end, fly leaf (1112) have been cup jointed in the outside activity of T shape pole (1111), one side fixedly connected with blade (1113) of fly leaf (1112) bottom one end, top one end fixedly connected with second spring (1114) of fly leaf (1112), and the outside at T shape pole (1111) is cup jointed in second spring (1114) activity.

6. The feeding device for solar cell production according to claim 5, wherein: transversely scrape gluey mechanism (12) and set up spout (121) in piling up frame (4) both sides including the symmetry, it is a plurality of the equal swing joint in inside of spout (121) has scraper (111), and is a plurality of the equal fixedly connected with linkage plate (122) of top one end of scraper (111), and the outside of spout (121) is all extended to one side of a plurality of linkage plates (122).

7. The feeding device for solar cell production according to claim 5, wherein: the novel bicycle is characterized in that a square frame (123) is fixedly connected to one end of the top of the base (1), two groups of first belt pulleys (124) are symmetrically and rotatably connected to the inside of the square frame (123), a group of second belt pulleys (125) which are matched with each other to use are sleeved outside one wheel shaft of the two groups of first belt pulleys (124) respectively, and convex blocks (126) which are matched with the linkage plates (122) to use are fixedly connected to the outer sides of the belts of the two groups of first belt pulleys (124).

8. The feeding device for solar cell production according to claim 7, characterized in that: one wheel shaft of one of the pulleys is fixedly sleeved with a toothed ring (127), one side of the square frame (123) is slidably connected with a toothed plate (128) meshed with the toothed ring (127), and one side, far away from the square frame (123), of the toothed plate (128) is fixedly connected with a U-shaped plate (914).

9. The feeding device for solar cell production according to claim 5, wherein: the side cutting surfaces of the blades (1113) are all L-shaped, and one side of one end of the top of the stacking frame (4) is provided with a graduated scale matched with the bidirectional screw rod (5).

10. The feeding device for solar cell production according to claim 1, characterized in that: the base (1) is composed of two side plates and a reinforcing plate, and the section of the base (1) is U-shaped.