CN114523760B

CN114523760B - Double-piece solar cell printing structure

Info

Publication number: CN114523760B
Application number: CN202210161366.1A
Authority: CN
Inventors: 汪荣; 蔡浩
Original assignee: Suzhou Zhongchenhao Technology Co ltd
Current assignee: Zhongchenhao Intelligent Equipment Jiangsu Co ltd
Priority date: 2022-02-22
Filing date: 2022-02-22
Publication date: 2023-03-21
Anticipated expiration: 2042-02-22
Also published as: CN114523760A

Abstract

The invention discloses a double-piece solar cell printing structure, which comprises: first printing machine, second printing machine, first detection module, second detection module, first printing machine right side is provided with first detection module, first detection module right side is provided with the second printing machine, second printing machine right side is provided with the second detection module. The two battery pieces are simultaneously transmitted, the first printer prints the first battery piece, the printing quality is detected through the first detection module, the second printer prints the second battery piece, the printing quality is detected through the second detection device, and the production efficiency is improved while the printing quality is ensured.

Description

Double-piece solar cell printing structure

Technical Field

The invention belongs to the field of photovoltaic equipment production, and particularly relates to a printing structure of a double-piece solar cell.

Technical Field

With the advance of energy structure reform, the continuous development in the photovoltaic field, the solar energy volume is bigger and bigger. The original printing process is to take a battery piece as a whole unit to carry out printing, curing and sorting, and then cut the battery piece into a semi-finished product. With the optimization of the process, the area of a single cell of the cell is continuously increased, the thickness of the single cell is gradually reduced, and the fragmentation rate of the cell is high and other adverse phenomena are caused by the large thickness and the small thickness of the cell in the upstream processes such as cleaning and the like. Therefore, the printing is performed in the half unit in which the whole battery piece is cut into halves in the subsequent printing process, which results in a half reduction in the production efficiency in the conventional printing apparatus.

Disclosure of Invention

Therefore, the present invention is directed to solve the above-mentioned disadvantages of the prior art and to provide a printing structure for a dual solar cell.

Therefore, the technical scheme adopted is that the printing structure of the double-piece solar cell comprises the following components: first printing machine, second printing machine, first detection module, second detection module, first printing machine right side is provided with first detection module, first detection module right side is provided with the second printing machine, second printing machine right side is provided with the second detection module.

Preferably, the first printer includes: first correction transmission line, first vision orientation module, first moving platform, first printing module, second moving platform, the second printing machine includes: the second correction transmission line, the second visual positioning module, the third mobile platform, the second printing module and the fourth mobile platform;

first correction transmission line sets up the leftmost side of first printing machine, first correction transmission line right side is provided with first vision orientation module, first vision orientation module right side is provided with first moving platform, first moving platform right side is provided with first printing module, first printing module right side is provided with second moving platform, second moving platform with first detection module's left side is connected, the second correct the transmission line with first detection module's right side is connected, the second is corrected the transmission line right side and is provided with second vision orientation module, second vision orientation module right side is provided with third moving platform, third moving platform right side is provided with second printing module, second printing module right side is provided with fourth moving platform, fourth moving platform with second detection module's left side is connected.

Preferably, first correction transmission line left side is provided with preceding weighing machine, the second is corrected transmission line right side and is provided with back weighing machine, preceding weighing machine includes: first cross transmission line, third correct transmission line, first weighing module, back weighing module includes: the transmission line is corrected to second cross transmission line, fourth, second weighing module, first weighing module sets up the one end of transmission line is corrected to the third, the other end that the transmission line was corrected to the third is provided with first cross transmission line, first cross transmission line right side is provided with first correction transmission line, the third correct the transmission line traffic direction with first correction transmission line traffic direction is perpendicular, the second weighing module sets up the fourth corrects the one end of transmission line, the fourth corrects the other end of transmission line and is provided with the second cross transmission line, second cross transmission line left side is provided with the transmission line is corrected to the second, the fourth correct the transmission line traffic direction with the second corrects the transmission line traffic direction is perpendicular.

Preferably, first printing module is provided with first printing platform, second printing module is provided with second printing platform, first printing platform is provided with first high platform and first low platform, second printing platform is provided with second high platform and second low platform, first high platform sets up before first low platform, the low platform setting of second is in before the high platform of second.

Preferably, the first printing table and the second printing table are provided with a cleaning device, the cleaning device comprising: the brush device comprises a brush rod, bristles, a first sliding rail, a first sliding rod, a second sliding rod, a supporting plate, an installation block, a sliding hole, a swinging rod, a swinging block, a first screw rod, a second screw rod, a first spring, a convex column, a stop lever, a baffle, a sliding block, a second sliding rail, a first gear, a second gear, a third gear, a driving shaft and a first motor;

the two ends of the brush rod are respectively connected with the two first sliding rails in a sliding manner, the first sliding rails are arranged on the two sides of the first printing platform or the second printing platform, the bristles are arranged at the bottom of the brush rod and clean the surface of the first printing platform or the second printing platform, the middle of the brush rod is connected with one end of the first sliding rod, the other end of the first sliding rod penetrates through one of the supporting plates and is fixedly connected with the mounting block, the two sides of the mounting block are provided with the sliding holes, the sliding holes are connected with the second sliding rod in a sliding manner, the two ends of the second sliding rod are connected with the two supporting plates, the front end of the mounting block is hinged with the upper end of the swing rod, the front end of the mounting block is hinged with the bottom end of the swing block, the bottom end of the swing rod is provided with the stop rod, one end of the swing rod, close to the stop rod, is connected with the front end of the swing block, close to the top, one side of the mounting block is provided with two protruding columns, the two ends of the first screw rod are respectively connected with the two swing blocks in a rotating manner, the threads of the second screw rod are respectively connected with the second screw rod, and the screw rod is opposite to the screw rod;

the two ends of the second slide rail are respectively connected with the two supporting plates, the second slide rail is provided with two sliding blocks, the top ends of the sliding blocks are provided with the baffle, and the vertical surface of the baffle is not perpendicular to the sliding direction of the sliding blocks.

Preferably, one end of the first screw rod penetrates through the other support plate to be fixedly connected with the first gear, one end of the second screw rod penetrates through the other support plate to be fixedly connected with the second gear, the third gear is meshed with the first gear and the second gear, the third gear is connected with one end of the driving shaft, and the other end of the driving shaft is connected with an output shaft of the first motor;

preferably, the bottom of the sliding block is provided with a screw hole, the screw hole is in threaded connection with a third screw rod, one end of the third screw rod is rotatably connected with one of the supporting plates, and the other end of the third screw rod is connected with an output end of a second motor, wherein the other supporting plate penetrates through the other supporting plate.

Preferably, a dust collecting device is further disposed on the support plate, and the dust collecting device includes: the dust collection box comprises a dust collection box, an exhaust port, an air inlet, a fan, a dust collection cavity, a filter screen, a second spring, a connecting rod, a push rod, a rotating rod, a vibration ring, a fixed plate, a vibrating plate, bosses, a hose and a hose, wherein the dust collection box is arranged on a supporting plate, the dust collection box is provided with the air inlet, the air inlet is communicated with the dust collection cavity, the dust collection cavity is arranged in the dust collection box, the dust collection cavity is communicated with the exhaust port, the dust collection cavity is provided with the filter screen in the communication position of the exhaust port, the filter screen is arranged above the filter screen, the vibrating plate is connected with one end of the push rod, the other end of the push rod is connected with the bottom of the vibration ring, the middle of the push rod is connected with the bottom of the inner wall of the dust collection box through the second spring, the fan is arranged on the rotating rod, the three end of the dust collection box is connected with one end of the dust collection ring, the inner ring is provided with the bosses, the top of the brush rod is communicated with the middle of the dust collection hose, and the top of the dust collection ring is communicated with the top of the hollow brush rod.

Preferably, the dust suction holes are uniformly distributed at the bottom of the brush rod.

Preferably, the shape of the vibrating plate is circular.

The technical scheme of the invention has the following advantages: the two battery pieces are simultaneously transmitted, the first printer prints the first battery piece, the printing quality is detected through the first detection module, the second printer prints the second battery piece, the printing quality is detected through the second detection device, and the production efficiency is improved while the printing quality is ensured.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic left side view of a first printing station of the present invention;

FIG. 3 is a schematic left side view of a second printing platform according to the present invention;

FIG. 4 is a schematic top view of a brush bar according to the present invention;

FIG. 5 is a schematic cross-sectional view of the middle portion of a brush bar according to the present invention;

FIG. 6 is a schematic left side view of the cleaning device of the present invention;

FIG. 7 is a schematic front view of the mounting block of the present invention;

FIG. 8 is a front schematic view of the first gear of the present invention;

FIG. 9 is a top view of the second slide rail of the present invention;

figure 10 is a left side schematic view of a dust bin of the present invention;

FIG. 11 is a front view of the vibrating plate of the present invention;

wherein, 1-a first printer, 2-a second printer, 3-a first detection module, 4-a second detection module, 5-a first correction transmission line, 6-a first visual positioning module, 7-a first mobile platform, 8-a first printing module, 9-a second mobile platform, 10-a second correction transmission line, 11-a second visual positioning module, 12-a third mobile platform, 13-a second printing module, 14-a fourth mobile platform, 15-a front weighing machine, 16-a rear weighing machine, 17-a first cross transmission line, 18-a third correction transmission line, 19-a first weighing module, 20-a second cross transmission line, 21-a fourth correction transmission line, 22-a second weighing module, 23-a first slide bar, 24-a first printing table, 25-a second printing table, 26-a first high table, 27-a first low table, 28-a second high table, 29-a second low table, 30-a brush bar, 31-bristles, 32-a first slide rail, 33-a second slide bar, 34-a support plate, 35-a mounting block, 36-a slide hole, 37-a swing rod, 38-a swing block, 39-a first screw, 40-a second screw, 41-a first spring, 42-a boss, 43-a stop lever, 44-a baffle, 45-a slide block, 46-a second slide rail, 47-a first gear, 48-a second gear, 49-a third gear, 50-a drive shaft, 51-a first motor, 52-a screw hole, 53-a third screw, 54-a second motor, 55-a dust collection box, 56-an exhaust port, 57-an air inlet, 58-a fan, 59-a dust collection cavity, 60-a filter screen, 61-a second spring, 62-a connecting rod, 63-a push rod, 64-a rotating rod, 65-a vibration ring, 66-a fixing plate, 67-a vibration plate, 68-a boss, 69-a hose, 70-a hose, 71-a channel I, 72-a channel II and 73-a battery piece.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The invention provides a printing structure of a double-piece solar cell, as shown in figure 1, comprising: first printing machine 1, second printing machine 2, first detection module 3,

second detection module

4, 1 right side of first printing machine is provided with first detection module 3, the 3 right sides of first detection module are provided with second printing machine 2, 2 right sides of second printing machine are provided with second detection module 4 all is provided with visual sensor on first detection module 3, the second detection module 4, detects the printing quality of battery piece through visual sensor.

The working principle and the beneficial effects of the technical scheme are as follows: the two battery pieces are simultaneously transmitted, the first printer 1 prints the first battery piece and passes through the first detection module 3 for detecting the printing quality, the second printer 2 prints the second battery piece and then detects the printing quality through the second detection device 4, so that the production efficiency is improved while the printing quality is ensured.

In one embodiment, as shown in fig. 1, the first printing press 1 comprises: first correction transmission line 5, first vision positioning module 6, first moving platform 7, first printing module 8, second moving platform 9, second printing machine 2 includes: the system comprises a second correction transmission line 10, a second vision positioning module 11, a third mobile platform 12, a second printing module 13 and a fourth mobile platform 14;

first correction transmission line 5 sets up first printing machine 1's leftmost side, first correction transmission line 5 right side is provided with first vision orientation module 6, first vision orientation module 6 right side is provided with first moving platform 7, first moving platform 7 right side is provided with first printing module 8, first printing module 8 right side is provided with second moving platform 9, second moving platform 9 with first detection module 3's left side is connected, second correction transmission line 10 with first detection module 3's right side is connected, second correction transmission line 10 right side is provided with second vision orientation module 11, second vision orientation module 11 right side is provided with third moving platform 12, third moving platform 12 right side is provided with second printing module 13, second printing module 13 right side is provided with fourth moving platform 14, fourth moving platform 14 with second detection module 4's left side is connected.

In one embodiment, a front weighing machine 15 is disposed at the left side of the first correcting conveying line 5, a rear weighing machine 16 is disposed at the right side of the second correcting conveying line 10, and the front weighing machine 15 includes: a first cross transmission line 17, a third correcting transmission line 18, a first weighing module 19, the rear weighing machine 16 includes: second cross transmission line 20, fourth correction transmission line 21, second weighing module 22, first weighing module 19 sets up the one end of transmission line 18 is corrected to the third, the other end that transmission line 18 was corrected to the third is provided with first cross transmission line 17, first cross transmission line 17 right side is provided with first correction transmission line 5, the third correct transmission line 18 traffic direction with first correction transmission line 5 traffic direction is perpendicular, second weighing module 22 sets up the one end of transmission line 21 is corrected to the fourth, the other end that transmission line 21 was corrected to the fourth is provided with second cross transmission line 20, second cross transmission line 20 left side is provided with transmission line 10 is corrected to the second, transmission line 21 traffic direction is corrected to the fourth with transmission line 10 traffic direction is corrected to the second is perpendicular.

The working principle and the beneficial effects of the technical scheme are as follows: two battery pieces respectively pass through a first channel 71 and a second channel 72, the battery piece 73 of the first channel 71 is printed through the first printing module 8, the battery piece 73 of the second channel 72 is printed through the second printing module 13, the battery piece 73 on the first channel 71 enters the first correction transmission line 5 through the first cross transmission line 17, the position of the battery piece 73 is corrected and then sent to the first visual positioning module 6, the first visual positioning module 6 photographs and positions the battery piece 73 and calculates a compensation value and sends the compensation value to the first printing module 8, the first mobile platform 7 sends the battery piece to the first printing module 8, the first printing module 8 correspondingly adjusts the printing position and prints the battery piece 73 on the first channel 71 to ensure the accuracy, after printing is completed, the battery piece 73 is sent to the first detection module 3 through the second mobile platform 9 to detect the printing quality, after detection, the battery piece 73 is sent to the second transmission line correction module 10 to correct the position of the battery piece 73 and then sent to the second visual positioning module 11, the second visual positioning module 9 sends the battery piece 73 to the second detection module 13 to detect the battery piece 73 and send the battery piece 73 to the second detection module 13, the detection module 13 to detect the battery piece 14, and send the battery piece 73 to detect the second printing module 13 and send the battery piece 14;

when the wet weight needs to be checked randomly, when the battery piece 73 before printing is on the first cross transmission line 17, the battery piece firstly enters the first weighing module 19 through the third correction transmission line 18 to weigh, and then returns to the first cross transmission line 17. After printing, the battery plate enters the second weighing module 22 through the fourth correcting transmission line 21 at the second cross transmission line 20, and returns to the second cross transmission line 20 after weighing.

In one embodiment, as shown in fig. 2-3, the first printing module 8 is provided with a first printing platform 24, the second printing module 13 is provided with a second printing platform 25, the first printing platform 24 is provided with a first high platform 26 and a first low platform 27, the second printing platform 25 is provided with a second high platform 28 and a second low platform 29, the first high platform 26 is provided in front of the first low platform 27, and the second low platform 29 is provided in front of the second high platform 28.

The working principle and the beneficial effects of the technical scheme are as follows: the battery plate 73 on the first channel 71 is printed on the first high platform 26 of the first printing platform 24, at this time, the battery plate 73 on the second channel 72 is on the first low platform 27, and when the battery plate 73 on the second channel 72 is printed on the second high platform 28 of the second printing platform 25, the battery plate 73 on the first channel 71 is on the second low platform 29, so that two battery plates 73 are produced simultaneously, and mutual interference during printing of the two battery plates 73 on the two channels is reduced, so that printing is more accurate.

In one embodiment, as shown in fig. 4-9, the first printing deck 24 and the second printing deck 25 are provided with a cleaning device comprising: the brush rod 30, the brush bristles 31, the first slide rail 32, the first slide rod 23, the second slide rod 33, the support plate 34, the mounting block 35, the slide hole 36, the swing rod 37, the swing block 38, the first screw rod 39, the second screw rod 40, the first spring 41, the convex column 42, the stop lever 43, the baffle 44, the slide block 45, the second slide rail 46, the first gear 47, the second gear 48, the third gear 49, the driving shaft 50 and the first motor 51;

the two ends of the brush rod 30 are respectively connected with the two first sliding rails 32 in a sliding manner, the first sliding rails 32 are arranged on the two sides of the first printing platform 24 or the second printing platform 25, the bristles 31 are arranged at the bottom of the brush rod 30, the bristles 31 clean the surface of the first printing platform 24 or the second printing platform 25, the middle of the brush rod 30 is connected with one end of the first sliding rod 23, the other end of the first sliding rod 23 penetrates through one supporting plate 34 and is fixedly connected with the mounting block 35, the sliding holes 36 are arranged on the two sides of the mounting block 35, the sliding holes 36 are connected with the second sliding rod 33 in a sliding manner, the two ends of the second sliding rod 33 are connected with the two supporting plates 34, and the front end of the mounting block 35 is hinged with the upper end of the swinging rod 37, the front end of the mounting block 35 is hinged to the bottom end of the swinging block 38, the stop lever 43 is arranged at the bottom end of the swinging lever 37, one end of the swinging lever 37 close to the stop lever 43 is connected to the front end of the swinging block 38 close to the top through the first spring 41, two convex columns 42 are arranged on one side of the mounting block 35 close to the swinging lever 37, two ends of the first screw rod 39 are rotatably connected to the two support plates 34, two ends of the second screw rod 40 are rotatably connected to the two support plates 34, the swinging block 38 is mounted between the first screw rod 39 and the second screw rod 40, the thread directions of the first screw rod 39 and the second screw rod 40 are opposite, and threads respectively matched with the first screw rod 39 and the second screw rod 40 are arranged on two sides of the swinging block 38;

the two ends of the second slide rail 46 are respectively connected with the two support plates 34, the second slide rail 46 is provided with two slide blocks 45, the top end of each slide block 45 is provided with the baffle 44, and the vertical surface of the baffle 44 is not perpendicular to the sliding direction of the slide block 45.

In one embodiment, one end of the first screw 39 passes through the other support plate 34 and is fixedly connected with the first gear 47, one end of the second screw 40 passes through the other support plate 34 and is fixedly connected with the second gear 48, the third gear 49 is meshed with the first gear 47 and the second gear 48, the third gear 49 is connected with one end of the driving shaft 50, and the other end of the driving shaft 50 is connected with an output shaft of the first motor 51;

in one embodiment, a screw hole 52 is formed at the bottom of the sliding block 45, the screw hole 52 is in threaded connection with a third screw 53, one end of the third screw 53 is rotatably connected with one of the supporting plates 34, and the other end of the third screw 53 is connected with an output end of a second motor 54 penetrating through the other supporting plate 34.

The working principle and the beneficial effects of the technical scheme are as follows: the first motor 51 rotates to drive the driving shaft 50 to rotate, the third gear 49 drives the first gear 47 and the second gear 48 to rotate, and then the first screw 39 and the second screw 40 rotate, the swing block 38 can be in threaded fit with the first screw 39 or the second screw 40, due to the fact that the thread turning directions of the first screw 38 and the second screw 40 are opposite, when the swing block 38 is in fit with the first screw 39 or the second screw 40, the moving direction of the swing block 38 is also different, and then the mounting block 35 can slide on the second sliding rod 33, and the brush rod 30 can slide on the first sliding rail 32, so that silicon chip fragments or slurry possibly remaining on the first printing platform 24 or the second printing platform 25 can be cleaned, when the mounting block 35 is in continuous movement, the blocking rod 43 on the swing rod 37 can touch the blocking plate 44, so that the swing rod 37 rotates, the elastic force of the first spring 41 enables the swing block 38 to slide on the second printing platform 25, so that the cleaning efficiency of the swing rod 37 is not lowered, and the problem that the brush rod 37 is not tilted and the cleaning efficiency of the brush rod 31 is changed is solved, and the problem that the cleaning efficiency of the brush rod 31 is not lowered due to the brush 30 is caused by the fact that the brush rod 31 is not being dropped.

The two second motors 54 respectively control one third screw 53, the position of the sliding block 45 can be adjusted by rotating the third screw 53, the reciprocating cleaning range of the brush rod 30 on the first printing platform 24 or the second printing platform 25 can be controlled by adjusting the position between the two sliding blocks 45, the reciprocating cleaning frequency of the brush rod 30 can be controlled by changing the distance between the two sliding blocks 45 and the rotating speed of the first motor 51, the cleaning can be performed on areas with residual fragments instead of always going back and forth, the cleaning efficiency is improved, the printing quality is improved, and meanwhile, the influence on the printing efficiency is avoided.

In one embodiment, as shown in fig. 10-11, the supporting plate 34 is further provided with a dust collecting device, which comprises: the dust collection box comprises a dust collection box 55, an exhaust port 56, an air inlet 57, a fan 58, a dust collection cavity 59, a filter screen 60, a second spring 61, a connecting rod 62, a push rod 63, a rotating rod 64, a vibration ring 65, a fixing plate 66, a vibration plate 67, a boss 68, a hose 69 and a hose 70, wherein the dust collection box 55 is arranged on the supporting plate 34, the dust collection box 55 is provided with the air inlet 57, the air inlet 57 is communicated with the dust collection cavity 59, the dust collection cavity 59 is arranged in the dust collection box 55, the dust collection cavity 59 is communicated with the exhaust port 56, the filter screen 60 is arranged at the communication position of the dust collection cavity 59 and the exhaust port 56, the vibration plate 67 is arranged above the filter screen 60, the vibration plate 67 is connected with one end of the push rod 63, the other end of the push rod 63 is connected with the bottom of the vibration ring 65, the middle of the push rod 63 is connected with the fixing plate 66 in a sliding mode, one end of the fixing plate 66 is connected with the vertical surface of the rotating rod 55 close to the exhaust port 60, the other end of the fixing plate 66 is connected with the bottom of the exhaust port 56, the top of the vibration ring 65 is connected with one end of the connecting rod 62, the other end of the connecting rod 61 is connected with the top of the dust collection box 30, the inner ring 64 is connected with the inner ring 69, the top of the dust collection box 30, the dust collection box is connected with the inner ring 69, the dust collection ring 30, the brush rod is connected with the inner ring 69, the brush rod 30 is connected with the inner ring 69, the brush rod 30, the brush rod 69, the brush rod 30 is connected with the brush rod 30, the brush rod 30 is connected with the brush rod 64, the brush rod 69, the brush rod inner ring 69, and the brush rod inner ring 69, the brush rod 30, the brush rod inner ring 64 is connected with the brush rod 30, and the brush rod inner ring 64, the brush rod inner ring 69, the brush rod inner ring 30 are connected with the brush rod 30, the brush rod inner ring 30, and the brush rod inner ring 64, and the brush rod inner ring 30 are connected with the brush rod inner ring 30.

In one embodiment, the suction holes 70 are evenly distributed in the bottom of the brush bar 30.

In one embodiment, the membrane 67 is circular in shape.

The working principle and the beneficial effects of the technical scheme are as follows: the first motor 51 rotates to enable the fan 58 to rotate, air is exhausted from the dust collection box 55, suction force is generated at the air inlet 57, the suction force is obtained at the bottom of the brush rod 30 through the hose 70, and the fragments swept by the bristles 31 are collected in the dust collection cavity 59, so that the problem that the fragments can still fall on other transmission parts even after being cleaned out of the first printing plane 24 or the second printing plane 25 is solved, meanwhile, some heat of the first printing plane 24 and the second printing plane 25 is taken away, and the influence of heat accumulation on the printing quality is avoided; dwang 64 is along with when driving shaft 50 is rotatory, can be periodic stir two boss 68 makes vibration ring 65 up-and-down reciprocating motion, second spring 61 is right the ascending impact of vibration ring 65 plays the cushioning effect, avoids vibration influence printing, trembler 67 beats repeatedly filter screen 60 avoids dust, piece to block up filter screen 60, simultaneously, because vibration ring 65's reciprocating motion and fan 58's rotation for the air current produces swirl and torrent more easily, strengthens the flow of air current, improves the radiating efficiency.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides a biplate solar wafer printing structure which characterized in that includes: the printing system comprises a first printing machine (1), a second printing machine (2), a first detection module (3) and a second detection module (4), wherein the first detection module (3) is arranged on the right side of the first printing machine (1), the second printing machine (2) is arranged on the right side of the first detection module (3), and the second detection module (4) is arranged on the right side of the second printing machine (2);

the first printing press (1) comprises: first correction transmission line (5), first vision positioning module (6), first moving platform (7), first printing module (8), second moving platform (9), second printing machine (2) includes: the system comprises a second correction transmission line (10), a second vision positioning module (11), a third moving platform (12), a second printing module (13) and a fourth moving platform (14);

the first correcting transmission line (5) is arranged at the leftmost side of the first printing machine (1), the first vision positioning module (6) is arranged at the right side of the first correcting transmission line (5), the first moving platform (7) is arranged at the right side of the first vision positioning module (6), the first printing module (8) is arranged at the right side of the first moving platform (7), the second moving platform (9) is arranged at the right side of the first printing module (8), the second moving platform (9) is connected with the left side of the first detection module (3), the second correcting transmission line (10) is connected with the right side of the first detection module (3), the second vision positioning module (11) is arranged at the right side of the second correcting transmission line (10), the third moving platform (12) is arranged at the right side of the second vision positioning module (11), the second printing module (13) is arranged at the right side of the third moving platform (12), the fourth moving platform (14) is connected with the left side of the second detection module (4);

the first printing module (8) is provided with a first printing platform (24), the second printing module (13) is provided with a second printing platform (25), the first printing platform (24) is provided with a first high platform (26) and a first low platform (27), the second printing platform (25) is provided with a second high platform (28) and a second low platform (29), the first high platform (26) is arranged in front of the first low platform (27), and the second low platform (29) is arranged in front of the second high platform (28);

-said first printing table (24) and said second printing table (25) being provided with cleaning means comprising: the brush rod (30), bristles (31), a first sliding rail (32), a first sliding rod (23), a second sliding rod (33), a supporting plate (34), a mounting block (35), a sliding hole (36), a swinging rod (37), a swinging block (38), a first screw (39), a second screw (40), a first spring (41), a convex column (42), a stop lever (43), a baffle (44), a sliding block (45), a second sliding rail (46), a first gear (47), a second gear (48), a third gear (49), a driving shaft (50) and a first motor (51);

the both ends of brush-holder stud (30) respectively with two first slide rail (32) sliding connection, first slide rail (32) set up first printing platform (24) or the both sides of second printing platform (25), brush-holder stud (30) bottom is provided with brush hair (31), brush hair (31) are clean first printing platform (24) or the surface of second printing platform (25), brush-holder stud (30) middle part with the one end of first slide bar (23) is connected, the other end of first slide bar (23) passes one backup pad (34) with installation piece (35) fixed connection, installation piece (35) both sides are provided with slide opening (36), slide opening (36) with second slide bar (33) sliding connection, the both ends of second slide bar (33) are connected with two backup pad (34), installation piece (35) front end with the upper end of swinging arms (37) is articulated, the front end of installation piece (35) with the swinging arms (38), swinging arms (38) are close to the bottom of swinging arms (37) and the bottom of swinging arms (43) is provided with the protruding column (41) and the top is close to the swing arms (37), the installation piece (35) is provided with the protruding column (41) and the top is provided with the protruding column (37) Two ends of the first screw rod (39) are respectively and rotatably connected with the two supporting plates (34), two ends of the second screw rod (40) are respectively and rotatably connected with the two supporting plates (34), the swinging block (38) is installed between the first screw rod (39) and the second screw rod (40), the rotating directions of the threads on the first screw rod (39) and the second screw rod (40) are opposite, and threads respectively matched with the first screw rod (39) and the second screw rod (40) are arranged on two sides of the swinging block (38);

the both ends of second slide rail (46) are respectively with two backup pad (34) are connected, second slide rail (46) are provided with two slider (45), slider (45) top is provided with baffle (44), the vertical face of baffle (44) with the slip direction of slider (45) is out of plumb.

2. A biplate solar cell printing structure as defined in claim 1 wherein the first correcting transmission line (5) is provided with a front weighing machine (15) on the left side and the second correcting transmission line (10) is provided with a rear weighing machine (16) on the right side, the front weighing machine (15) comprising: a first cross transmission line (17), a third correction transmission line (18), a first weighing module (19), the rear weighing machine (16) comprising: second cross transmission line (20), fourth are corrected transmission line (21), second weighing module (22), first weighing module (19) sets up the one end of transmission line (18) is corrected to the third, the other end that transmission line (18) was corrected to the third is provided with first cross transmission line (17), first cross transmission line (17) right side is provided with first correction transmission line (5), transmission line (18) traffic direction is corrected to the third with first correction transmission line (5) traffic direction is perpendicular, second weighing module (22) set up the one end of transmission line (21) is corrected to the fourth, the other end that transmission line (21) was corrected to the fourth is provided with second cross transmission line (20), second cross transmission line (20) left side is provided with transmission line (10) is corrected to the second, transmission line (21) traffic direction is corrected to the fourth with transmission line (10) traffic direction is corrected to the second.

3. The printing structure of a double-solar cell plate as claimed in claim 1, wherein one end of the first screw (39) penetrates through the other support plate (34) and is fixedly connected with the first gear (47), one end of the second screw (40) penetrates through the other support plate (34) and is fixedly connected with the second gear (48), the third gear (49) is meshed with the first gear (47) and the second gear (48), the third gear (49) is connected with one end of the driving shaft (50), and the other end of the driving shaft (50) is connected with an output shaft of the first motor (51).

4. The printing structure of the double solar cells of claim 1, wherein the bottom of the sliding block (45) is provided with a screw hole (52), the screw hole (52) is in threaded connection with a third screw (53), one end of the third screw (53) is rotatably connected with one of the supporting plates (34), and the other end of the third screw (53) is connected with the output end of a second motor (54) through the other supporting plate (34).

5. The printing structure of the biplate solar cells as claimed in claim 1, wherein a dust collecting device is further disposed on the supporting plate (34), the dust collecting device comprises: a dust collection box (55), an exhaust port (56), an air inlet (57), a fan (58), a dust collection cavity (59), a filter screen (60), a second spring (61), a connecting rod (62), a push rod (63), a rotating rod (64), a vibration ring (65), a fixing plate (66), a vibrating plate (67), a boss (68), a hose (69) and a dust suction hole (70), wherein the dust collection box (55) is arranged on the supporting plate (34), the air inlet (57) is arranged on the dust collection box (55), the air inlet (57) is communicated with the dust collection cavity (59), the dust collection cavity (59) is arranged in the dust collection box (55), the dust collection cavity (59) is communicated with the exhaust port (56), the filter screen (60) is arranged at the communication position of the dust collection cavity (59) and the exhaust port (56), the vibrating plate (67) is arranged above the filter screen (60), the vibrating plate (67) is connected with one end of the push rod (63), the other end of the push rod (63) is connected with the bottom of the vibration ring (65), the middle of the push rod (63) is connected with the fixing plate (66), and one end of the fixing plate (55) is connected with the vertical surface of the fixing plate (66), the other end of fixed plate (66) with the bottom of gas vent (56) is connected, vibration ring (65) top is connected with the one end of connecting rod (62), the other end of connecting rod (62) passes through second spring (61) with dust collection box (55) inner wall top is connected, be provided with on driving shaft (50) fan (58), on driving shaft (50) with three the one end of dwang (64) is connected, vibration ring (65) inner circle is provided with two boss (68), brush-holder stud (30) cavity, air inlet (57) with the one end intercommunication of hose (69), the other end of hose (69) passes through the middle part top of brush-holder stud (30) with the inside intercommunication of brush-holder stud (30), brush-holder stud (30) bottom is provided with a plurality ofly dust absorption hole (70).

6. The printing structure of the double-piece solar cell as claimed in claim 5, wherein the dust suction holes (70) are uniformly distributed at the bottom of the brush bar (30).

7. The biplate solar cell printing structure as defined in claim 5 wherein the membrane (67) is circular in shape.