CN217753180U - Drying equipment for solar cell printing - Google Patents

Abstract

The utility model discloses a drying equipment for solar wafer printing, include: the flower basket conveying mechanism is used for grabbing and conveying the dried flower baskets, and the drying unit is used for conveying the flower baskets. In this way, a drying equipment for solar wafer printing can carry out independent control to single unit, can not only satisfy drying when a large amount of battery pieces, improves the productivity, can adjust the productivity demand in a flexible way moreover, can also practice thrift at least half the energy resource consumption, reduces the technology waste of battery piece.

Description

Drying equipment for printing solar cell

Technical Field

The utility model relates to a solar photovoltaic cell piece production facility technical field especially relates to a drying equipment for solar cell piece printing.

Background

In developing the copper electroplating process of the photovoltaic cell, the problem of drying the cell is always difficult to solve, and the following problems mainly exist in the drying process of the traditional tunnel furnace:

1. the drying time is long, about 10-15 minutes, and the number of battery pieces needing to be dried at the same time is about 250-325 according to the productivity calculation of a pilot line 1500PCS/H (the productivity of a 3000PCS/H production line is 500-650); the drying process can be completed before the drying process flows to the next station, the previous station is a printing station, the next station is an exposure station, and most of the traditional tunnel furnaces are long, 6m-12m in length, large in occupied area and large in energy consumption; meanwhile, the exposure process needs to be carried out in a dust-free room environment, the whole line is also in the dust-free room, the cost is high, and high-power refrigeration equipment is needed for maintaining a constant temperature environment.

2. The middle test line is unavoidably stopped in debugging or production process to process faults, if a tunnel furnace is used, the tunnel furnace cannot be stopped due to structural limitation, materials produced by subsequent drying can cause a large amount of dried materials to be processed, the capacity loss of the production line is large, and if the materials are not processed in time, the waste of battery pieces can be caused.

3. If different drying process parameters need to be tested, a large number of battery pieces (thousands of battery pieces) need to be tested in a tunnel furnace mode, and waste is serious.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a drying equipment for solar wafer printing, has advantages such as reliable performance height, location accuracy, compact structure, has extensive market prospect in solar photovoltaic wafer production facility's application and popularization simultaneously.

In order to solve the technical problem, the utility model discloses a technical scheme be:

provided is a drying apparatus for solar cell printing, which includes: a flower basket loading and unloading mechanism, a flower basket carrying mechanism for grabbing and carrying the dried flower basket, a drying unit,

a plurality of mutually independent drying units are arranged below the flower basket carrying mechanism, the flower basket loading and unloading mechanism is arranged on the loading position and the unloading position of the drying mechanism so as to convey the battery pieces into the drying flower basket or take the battery pieces out of the drying flower basket,

business turn over dress basket of flowers mechanism includes telescopic transmission line, lifting and drop rotating mechanism, basket of flowers transmission mechanism, lifting and drop rotating mechanism drives stoving basket of flowers from top to bottom and rotary motion, basket of flowers transmission mechanism set up in lifting and drop rotating mechanism's both sides, telescopic transmission line front and back concertina movement for telescopic transmission line stretches into or withdraws from stoving basket of flowers to send into the battery piece or withdraw from stoving basket of flowers.

In a preferred embodiment of the present invention, the drying unit includes a box body, a heating device and a box door for opening or closing the box body, wherein a plurality of heating devices are disposed in the box body, and the box door opening and closing mechanism is movably connected to the box body.

In a preferred embodiment of the present invention, the box is provided with ventilation holes and temperature measuring devices around the box.

In a preferred embodiment of the present invention, the flexible driving mechanism drives the flexible transmission line to stretch back and forth.

In a preferred embodiment of the present invention, a material distributor is further disposed outside the retractable transmission line at the material discharging position to deliver the drying basket to different processing stations or production lines.

The utility model discloses an in the preferred embodiment, basket of flowers transport mechanism includes that Y axle transport module, X axle transport module, Z axle lift module, basket of flowers snatch the mechanism, and Y axle transport module drives X axle transport module along Y axle translation, and X axle transport module drives Z axle lift module along X axle translation, and Z axle lift module drives the basket of flowers and snatchs the mechanism and follow Z axle elevating movement.

In a preferred embodiment of the present invention, the basket gripping mechanism includes a clamping jaw, a gripper or a suction cup.

The utility model discloses a preferred embodiment, lifting and drop rotating mechanism includes fixed bolster, first lifting drive mechanism, crane, rotary drive mechanism, goes up pressure strip, second elevating system, lower pressure strip and transition transmission line, go up the pressure strip rotate set up in the top of crane, just rotary drive mechanism drives it and rotates on the crane, the transition transmission line set up in the bottom of crane, second elevating system drive down pressure strip elevating movement between the transition transmission line to with the fixed stoving basket of flowers of last pressure strip cooperation, first lifting drive mechanism set up in on the fixed bolster, and drive the crane up-and-down motion to the unloading of battery piece is carried out to the height that makes stoving basket of flowers cooperation flexible transmission line.

In a preferred embodiment of the present invention, the output end of the second lifting mechanism is rotatably connected to the lower pressing plate.

The utility model discloses a preferred embodiment, stoving basket of flowers includes basket of flowers frame, spacing stand, spacing groove, spacing stand set up in the basket of flowers frame to separate into one or more storage storehouses that are used for placing the battery piece with the basket of flowers frame, just be provided with a plurality of spacing grooves that are used for placing the battery piece on the lateral wall of spacing stand.

The utility model has the advantages that: the single unit can be independently controlled, the drying of a large number of battery pieces can be met, the capacity is improved, the capacity requirement can be flexibly adjusted, at least half of energy consumption can be saved, and the process waste of the battery pieces is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural diagram of a drying apparatus for printing solar cells according to the present invention;

fig. 2 is a schematic structural diagram of a drying unit in the drying apparatus for printing solar cells of the present invention;

fig. 3 is a schematic structural view of a mechanism for loading and unloading a basket for flowers in a drying device for printing solar cells of the present invention;

fig. 4 is a side view schematic structure diagram of the flower basket loading mechanism in the drying device for printing the solar cell.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention includes:

a drying device for solar cell printing adopts a flower basket type structure and is used for drying a cell printed with ink so as to perform subsequent operations such as exposure and development and prevent the ink from being polluted. The structure thereof comprises: drying rack, business turn over dress basket of flowers mechanism 31, basket of flowers transport mechanism 32, stoving unit 33, be provided with a plurality of stoving units that are used for drying the battery piece in the drying rack for snatch and carry stoving basket of flowers the basket of flowers transport mechanism sets up in the top of stoving unit, business turn over dress basket of flowers mechanism sets up on the material loading position and the material level of unloading of drying rack both sides to send into the basket of flowers with the battery piece or take out and send to next station with the battery piece from the basket of flowers.

Wherein, drying unit can dispose a plurality of groups as required, and every heating cabinet all has independent heating temperature control element, and every drying unit can set up different temperature curves, conveniently finds suitable process temperature fast.

Business turn over dress basket of flowers mechanism includes telescopic transmission line 311, lifting and drop rotating mechanism 312, basket of flowers transmission mechanism 313, lifting and drop rotating mechanism sets up in the side of drying rack to drive stoving basket of flowers from top to bottom and rotary motion, basket of flowers transmission mechanism set up in lifting and drop rotating mechanism's both sides, flexible actuating mechanism drive telescopic transmission line is flexible around, makes telescopic transmission line stretch into or withdraw from stoving basket of flowers, thereby sends into the battery piece or withdraws from the stoving basket of flowers.

Wherein, flexible actuating mechanism can drive flexible transmission line as required and stretch out different length to adapt to the battery piece of unidimensional not.

In addition, the outer side of the telescopic transmission line at the discharging position can be further provided with a material distributor 314 so as to convey the drying flower basket to different processing stations or production lines, and the productivity is improved.

Lifting and drop rotating mechanism includes fixed bolster 315, first lifting drive mechanism 316, crane 317, rotary drive mechanism 318, goes up pressure strip 319, second lifting drive mechanism 320, lower pressure strip 321 and transition transmission line 322, go up the pressure strip rotate set up in the top of crane, just rotary drive mechanism drives its rotatory on the crane, with basket of flowers transmission mechanism cooperation transmission stoving basket of transition transmission line set up in the bottom of crane, second lifting drive mechanism drives pressure strip elevating movement between the transition transmission line down to with the fixed stoving basket of last pressure strip cooperation, thereby be convenient for the rotation of stoving basket of flowers, first lifting drive mechanism set up in on the fixed bolster, and drive the crane up-and-down motion for the stoving basket of flowers can align with flexible transmission line, thereby the cooperation flexible transmission line highly carries out the unloading of battery piece on.

The first lifting driving mechanism can adopt a lifting screw rod module in the Z direction; the rotary driving mechanism can adopt a structure of a motor and a synchronous wheel synchronous belt; the second lifting mechanism can adopt a lifting cylinder, and the output end of the lifting cylinder can be rotatably connected with the lower pressing plate through a bearing and other structures.

The drying basket 323 may adopt an existing conventional basket structure.

The drying flower basket can further comprise a flower basket frame, limiting stand columns and limiting grooves, the limiting stand columns are arranged in the flower basket frame and divide the flower basket frame into one or more storage bins for containing the battery pieces, and the limiting grooves for containing the battery pieces are arranged on the side walls of the limiting stand columns from top to bottom.

The flower basket carrying mechanism comprises a Y-axis carrying module 324, an X-axis carrying module 325, a Z-axis lifting module (the cooperation of a lifting lead screw module and a lifting cylinder can be adopted, and the height of the lifting mechanism is compressed as far as possible) 326 and a flower basket grabbing mechanism 327, wherein the Y-axis carrying module drives the X-axis carrying module to translate along the Y axis, the X-axis carrying module drives the Z-axis lifting module to translate along the X axis, the Z-axis lifting module drives the flower basket grabbing mechanism to move up and down along the Z axis, and the flower basket grabbing mechanism can adopt various different structures such as clamping jaws and grabbing jaws.

The drying unit comprises a box body 331, heating rods 332, a temperature control system and a box door opening and closing mechanism 333, wherein the box body is internally provided with a plurality of heating rods, the box door opening and closing mechanism is connected with the box body to open or close the box body, and the temperature control system can be used for controlling and connecting the heating rods and the box door opening and closing mechanism.

Wherein, the box is opened all around has ventilation hole and temperature measuring device, ensures the homogeneity of temperature.

In addition, the box body can be externally connected with a hot air source, so that the heating rate is increased; organic waste gas generated by heating is treated by an additional high-temperature combustion treatment part and then returns to a hot air source (the hot air source can be provided by an air heat pump, so that energy is further saved), heat generated by combustion enters a thermal cycle together and is regulated by a temperature control system, and the combusted gas only contains carbon dioxide and water and has no emission of toxic and harmful gases.

The working steps of the drying mechanism comprise:

1. and on the material loading position of the drying mechanism, the transition transmission line is lifted and matched with the flower basket transmission mechanism to convey the dried flower basket to the material loading position.

2. The lifting frame is matched with the telescopic transmission line to adjust the height of the drying flower basket, so that the printed battery pieces are loaded into the limiting groove of the flower basket one by one from top to bottom by the telescopic transmission line.

The method specifically comprises the following steps: the lifting frame drives the drying flower basket to lift, so that the limiting groove at the top of the drying flower basket is aligned with the telescopic transmission line; after the telescopic transmission line extends forwards and enters a storage bin of the drying flower basket, the telescopic transmission line rotates to transmit the printed battery piece forwards into a first limiting groove in the flower basket so as to finish the feeding of the first battery piece; then the lifting frame drives the drying basket to rise, so that the telescopic transmission line is aligned to the limiting groove below the last battery piece, the operation is repeated, and the telescopic transmission line is withdrawn from the drying basket after one storage bin of the drying basket is full of materials.

When 2 or more than 2 storage bins are available, if one storage bin is full of materials, the rotary driving mechanism drives the upper pressing plate to rotate so as to drive the drying basket to rotate for a certain angle (for example, 180 degrees), so that the empty storage bin is aligned with the telescopic transmission line and then the battery piece is mounted once, and the utilization rate of the basket is improved.

3. After the basket of flowers is filled with, rotary driving mechanism drives go up the pressure strip and rotate in order to rotate certain angle (for example 90 °) with the basket of flowers for the opening of storage storehouse is just facing to flexible transmission line, prevents that the battery piece from dropping because of shaking etc. in the transportation drying the basket of flowers.

4. The pressing plate loosens the drying flower basket, and the transition transmission line goes up and down and is matched with the flower basket transmission mechanism to transmit the drying flower basket to an empty flower basket while transmitting the material loading position.

5. During basket of flowers transport mechanism carried full charge stoving basket of flowers into stoving unit, after stoving process time (about 10 minutes), carry the full charge stoving basket of flowers after drying to the unloading in a set of business turn over dress basket of material level mechanism down, the battery piece is under telescopic transmission line, lifting and drop rotating mechanism and basket of flowers transport mechanism's effect, spread out from up a slice of exposure piece down with the battery piece in the basket of flowers to on two flow lines about being transmitted respectively by feed divider 314, make things convenient for follow-up exposure mechanism to expose and handle.

6. The reciprocating operation is carried out in such a way that after all the cells in the flower basket are transferred out, the empty flower basket is transferred out by the flower basket transmission mechanism and is carried back to the empty flower basket station of the flower basket loading and unloading mechanism at the loading position by the flower basket carrying mechanism; when the basket is in standby, the basket is carried into the empty heating box 3 by the carrying mechanism to be in standby.

The utility model relates to a drying equipment for solar wafer printing's beneficial effect is:

1. the drying of a large number of battery pieces can be met, and the productivity is improved;

2. the single heating box body which needs to be stopped due to faults can be independently processed while drying, and the capacity is not greatly influenced;

3. different drying process parameters can be tested simultaneously, and the capacity requirement is flexible;

4. compared with a tunnel furnace, the energy consumption is reduced by at least half, and the process waste of the battery plate is reduced.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a drying equipment for solar wafer printing which characterized in that includes: a flower basket loading and unloading mechanism, a flower basket carrying mechanism for grabbing and carrying the dried flower basket, a drying unit,

a plurality of mutually independent drying units are arranged below the flower basket carrying mechanism, the flower basket loading and unloading mechanism is arranged on the loading position and the unloading position of the drying mechanism so as to convey the battery pieces into the drying flower basket or take the battery pieces out of the drying flower basket,

business turn over dress basket of flowers mechanism includes telescopic transmission line, lifting and drop rotating mechanism, basket of flowers transmission mechanism, lifting and drop rotating mechanism drives stoving basket of flowers from top to bottom and rotary motion, basket of flowers transmission mechanism set up in lifting and drop rotating mechanism's both sides, telescopic transmission line front and back concertina movement for telescopic transmission line stretches into or withdraws from stoving basket of flowers to send into the battery piece or withdraw from stoving basket of flowers.

2. The drying equipment for solar cell printing according to claim 1, wherein the drying unit comprises a box body, a heating device and a box door for opening or closing the box body, the box body is internally provided with a plurality of heating devices, and the box door opening and closing mechanism is movably connected with the box body.

3. The drying equipment for solar cell printing according to claim 2, wherein the box body is provided with ventilation holes and temperature measuring devices at the periphery.

4. The drying apparatus for solar cell printing according to claim 1, wherein the telescopic driving mechanism drives the telescopic transmission line to extend back and forth.

5. The drying equipment for solar cell printing is characterized in that a material distributor is further arranged outside the telescopic conveying line at the discharging position so as to convey the drying flower basket to different processing stations or production lines.

6. The drying apparatus for solar cell printing according to claim 1, wherein the basket carrying mechanism comprises a Y-axis carrying module, an X-axis carrying module, a Z-axis lifting module, and a basket grabbing mechanism, the Y-axis carrying module drives the X-axis carrying module to translate along the Y-axis, the X-axis carrying module drives the Z-axis lifting module to translate along the X-axis, and the Z-axis lifting module drives the basket grabbing mechanism to move up and down along the Z-axis.

7. The drying apparatus for solar cell printing according to claim 6, wherein the basket gripping mechanism comprises a clamping jaw, a gripper or a suction cup.

8. The drying equipment for solar wafer printing of claim 1, wherein the lifting and rotating mechanism comprises a fixed support, a first lifting and driving mechanism, a lifting frame, a rotating and driving mechanism, an upper pressure plate, a second lifting and driving mechanism, a lower pressure plate and a transition transmission line, the upper pressure plate is rotatably arranged at the top of the lifting frame, the rotating and driving mechanism drives the upper pressure plate to rotate on the lifting frame, the transition transmission line is arranged at the bottom of the lifting frame, the second lifting and driving mechanism drives the lower pressure plate to move up and down between the transition transmission lines so as to be matched with the upper pressure plate to fix the drying basket, the first lifting and driving mechanism is arranged on the fixed support and drives the lifting frame to move up and down, so that the drying basket is matched with the telescopic transmission line to highly perform loading and unloading of the solar wafer.

9. The drying apparatus for solar cell printing as claimed in claim 1, wherein the output end of the second lifting mechanism is rotatably connected to the lower pressing plate.

10. The drying equipment for solar cell printing according to claim 1, wherein the drying flower basket comprises a flower basket frame, a limiting upright post and a limiting groove, the limiting upright post is arranged in the flower basket frame and divides the flower basket frame into one or more storage bins for placing the cells, and a plurality of limiting grooves for placing the cells are arranged on the side wall of the limiting upright post.

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