阅读说明：本技术 一种印刷电池生产线 (Printed battery production line ) 是由 李锐源 于 2021-07-20 设计创作，主要内容包括：本发明公开了一种印刷电池生产线,其结构包括设备箱、控制器、观测窗、导接槽、连接座,设备箱两端与连接座末端螺栓固定,连接座内侧与导接槽外端间隙配合,导接槽整体与设备箱两侧嵌固连接,设备箱表面与观测窗外侧铰接连接,观测窗右侧与控制器整体间隙配合,设备箱包括滚动架、刷拭架、输送带、工作台、设备组件,滚动架底部与工作台表面嵌固连接,本发明通过印刷板在导料管的辅助下倒入对应原材料,然后通过储蓄腔的储存将其印刷到电池板表面,在配合前端的摆动板在活动栓的辅助下对印刷后的原材料进行刮拭,使其电池表面的厚度得到控制,保持匀称,有效提高了电池板表面印刷的原材料均匀,避免了出产电池出现接触不良的问题发生。(The invention discloses a printed battery production line, which structurally comprises an equipment box, a controller, an observation window, a guide connection groove and a connecting seat, wherein two ends of the equipment box are fixed with bolts at the tail end of the connecting seat, the inner side of the connecting seat is in clearance fit with the outer end of the guide connection groove, the whole guide connection groove is fixedly embedded and connected with two sides of the equipment box, the surface of the equipment box is hinged and connected with the outer side of the observation window, the right side of the observation window is in clearance fit with the whole controller, the equipment box comprises a rolling frame, a brushing frame, a conveying belt, a workbench and equipment components, the bottom of the rolling frame is fixedly embedded and connected with the surface of the workbench, corresponding raw materials are poured in through a printing plate under the assistance of a material guide pipe, then the raw materials are printed on the surface of a battery plate through the storage cavity, the printed raw materials are scraped under the assistance of a movable bolt by a swinging plate at the front end of the matching, so that the thickness of the surface of the battery is controlled and is uniform, the raw material uniformity of the surface printing of the battery plate is effectively improved, and the problem of poor contact of the produced battery is avoided.)

1. The utility model provides a printed battery production line, its structure includes equipment box (1), controller (2), observation window (3), leads and connects groove (4), connecting seat (5), equipment box (1) both ends and the terminal bolt fastening of connecting seat (5), connecting seat (5) inboard with lead and connect groove (4) outer end clearance fit, it is connected wholly with equipment box (1) both sides are inlayed admittedly to lead and connect groove (4), equipment box (1) surface is connected with observation window (3) outside is articulated, observation window (3) right side and the whole clearance fit of controller (2), its characterized in that:

equipment box (1) is including rolling frame (11), brush and wipes away frame (12), conveyer belt (13), workstation (14), equipment unit (15), rolling frame (11) bottom is connected with workstation (14) surface embedded solid, workstation (14) surface and equipment unit (15) whole bolt fastening, equipment unit (15) front end and conveyer belt (13) surface clearance fit, conveyer belt (13) surface and brush and wipe away frame (12) bottom clearance fit.

2. A printed battery production line as claimed in claim 1, wherein: roll frame (11) including pacifying seat (111), crossbeams frame (112), support column (113), pacify seat (111) top and crossbeams frame (112) internal thread and be connected, crossbeams frame (112) both sides are connected with support column (113) top is embedded firmly, support column (113) inboard and pacify seat (111) both sides clearance fit.

3. A printed battery production line as claimed in claim 2, wherein: the flattening seat (111) comprises a rolling cylinder (a1), a column body (a2), a threaded column (a3) and a nested rotating rod (a4), wherein the center of the rolling cylinder (a1) is integrally connected with the nested rotating rod (a4) in a nested mode, two ends of the nested rotating rod (a4) are connected with the inner side of the bottom of the column body (a2) in a welded mode, and the top end of the column body (a2) is fixedly connected with the tail end of the threaded column (a3) in a nested mode.

4. A printed battery production line as claimed in claim 3, wherein: roll a section of thick bamboo (a1) and include that silica gel colludes (a11), a section of thick bamboo body (a12), logical heart hole (a13), silica gel colludes (a11) end and section of thick bamboo body (a12) surface and inlays to be connected, section of thick bamboo body (a12) center is connected with the whole embedded of logical heart hole (a13), logical heart hole (a13) outer end and silica gel collude (a11) whole clearance fit.

5. A printed battery production line as claimed in claim 1, wherein: the brushing rack (12) comprises a printing plate (121), a material guide pipe (122), a guide support block (123) and a telescopic column (124), the top end of the printing plate (121) is connected with a flange at the top end of the material guide pipe (122), the top end of the material guide pipe (122) is connected with a flange at the lower surface of the guide support block (123), and two ends of the guide support block (123) are fixedly connected with the top end of the telescopic column (124).

6. A printed battery production line as claimed in claim 5, characterized in that: printing plate (121) include scraper blade (b1), cushion column (b2), pan feeding mouth (b3), scraper blade (b1) top is connected with pan feeding mouth (b3) whole embedded solid, pan feeding mouth (b3) both sides and the whole clearance fit of cushion column (b2), cushion column (b2) end and scraper blade (b1) top surface embedded solid are connected.

7. A printed battery production line as claimed in claim 6, characterized in that: scraper blade (b1) link board (b14) under including swing board (b11), storage cavity (b12), fixed plate (b13), swing board (b11) whole and link board (b14) hinge down on the right side and be connected, storage cavity (b12) whole and link board (b14) inside nested connection down, link board (b14) top and fixed plate (b13) inside nested connection down, fixed plate (b13) lower extreme and storage cavity (b12) inside movable fit.

8. A printed battery production line as claimed in claim 7, wherein: the swing plate (b11) comprises a movable bolt (c1), a plate body (c2) and an anti-roll bar (c3), the inner part of the movable bolt (c1) is connected with the top end of the plate body (c2) in a nested mode, the outer surface of the plate body (c2) is in clearance fit with the top end of the anti-roll bar (c3), and the inner side of the anti-roll bar (c3) is in clearance fit with the movable bolt (c1) integrally.

Technical Field

The invention relates to the technical field of printing, in particular to a printed battery production line.

Background

The printed battery is also called as a paper battery, when the name of the paper battery is complete, the paper battery is produced by adopting a printing process, the paper battery can be as thin as the thickness of a paper sheet, an electrochemical system of the paper battery still adopts a traditional zinc-manganese system, the voltage is 1.5V, the paper battery belongs to a normal voltage range, and meanwhile, the paper battery can be stacked to improve the voltage;

however, the prior art has the following defects: the current printing battery production line because the in-process of printing carries out on the production line, can appear sticking up the limit after because the coating in last stage to the blind angle can appear in the place that the inboard printing of in-process sticking up limit that leads to raw and other materials printing can not be arrived, and then causes the printing battery thickness of output to appear contact failure differently.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a printed battery production line to solve the problem that in the prior art, in the process of printing on the production line, because the raised edge appears after coating in the previous stage, a blind corner appears at the position where the inner side of the raised edge can not be printed in the process of printing raw materials, and the thickness of the produced printed battery is different, and poor contact is caused.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a printed battery production line, its structure includes equipment box, controller, observation window, leads and connects groove, connecting seat, equipment box both ends and the terminal bolt fastening of connecting seat, the connecting seat inboard with lead and connect groove outer end clearance fit, lead and connect the groove wholly with equipment box both sides embedded solid and be connected, equipment box surface is connected with the observation window outside is articulated, the whole clearance fit of observation window right side and controller, equipment box includes that roll frame, brush are wiped away frame, conveyer belt, workstation, equipment unit, roll frame bottom and workstation surface embedded solid and connect, the workstation surface is with the whole bolt fastening of equipment unit, equipment unit front end and conveyer belt surface clearance fit, the conveyer belt surface with brush wipe away frame bottom clearance fit.

The rolling frame is further improved, the rolling frame comprises a smoothing seat, a cross beam frame and support columns, the top end of the smoothing seat is in threaded connection with the inside of the cross beam frame, two sides of the cross beam frame are connected with the top ends of the support columns in an embedded mode, the inner sides of the support columns are in clearance fit with the two sides of the smoothing seat, the cross beam frame is integrally rectangular and blocky and is distributed at the top ends of the support columns, and the central position and the lower end of the cross beam frame are in threaded connection with the top end of the smoothing seat.

The invention is further improved, the smoothing seat comprises a rolling cylinder, a column body, a threaded column and a nested rotating rod, the center of the rolling cylinder is integrally nested and connected with the nested rotating rod, two ends of the nested rotating rod are welded and connected with the inner side of the bottom of the column body, the top end of the column body is fixedly embedded and connected with the tail end of the threaded column, the nested rotating rods are distributed at the lower end of the column body, the tops of the two ends of the nested rotating rods are fixedly embedded and connected with the inner wall of the column body, and the rolling cylinder is nested on the surface.

The invention is further improved, the rolling cylinder comprises a silica gel hook, a cylinder body and a through hole, the tail end of the silica gel hook is fixedly connected with the surface of the cylinder body, the center of the cylinder body is integrally fixedly connected with the through hole, the outer end of the through hole is in clearance fit with the whole silica gel hook, the whole silica gel hook is made of rubber materials, the tail end of the silica gel hook is fixedly embedded on the surface of the cylinder body, and the inner side of the silica gel hook is in clearance fit with the through hole.

The invention is further improved, the brushing rack comprises a printing plate, a material guide pipe, guide support blocks and telescopic columns, the top end of the printing plate is connected with a flange at the top end of the material guide pipe, the top end of the material guide pipe is connected with a flange at the lower surface of the guide support block, two ends of each guide support block are fixedly embedded and connected with the top end of the telescopic column, two telescopic columns are arranged and distributed on two sides of the printing plate, and the top of each telescopic column is fixedly embedded and connected with the bottom of the corresponding guide support block.

The invention is further improved, the printing plate comprises a scraping plate, buffer columns and a feeding port, the top ends of the scraping plate and the feeding port are integrally embedded and fixedly connected, two sides of the feeding port are in clearance fit with the buffer columns integrally, the tail ends of the buffer columns are embedded and fixedly connected with the surface of the top ends of the scraping plate, the two buffer columns are distributed at the top ends of the scraping plate, the bottoms of the buffer columns are embedded and fixedly connected with the top ends of the scraping plate, and the inner sides of the buffer columns are in clearance fit with the feeding port.

The invention is further improved, the scraper comprises a swinging plate, a material storage cavity, a fixed plate and a lower connecting plate, the swinging plate is integrally hinged with the lower connecting plate at the right lower part, the material storage cavity is integrally connected with the lower connecting plate in an embedded manner, the top end of the lower connecting plate is connected with the fixed plate in an embedded manner, the lower end of the fixed plate is movably matched with the interior of the material storage cavity, the swinging plate is distributed at the right lower corner of the lower connecting plate and is hinged with the lower connecting plate, and the inner side of the swinging plate is in clearance fit with the lower connecting plate.

The invention is further improved, the swing plate comprises a movable bolt, a plate body and an anti-tilting rod, the inner part of the movable bolt is connected with the top end of the plate body in a nested manner, the outer surface of the plate body is in clearance fit with the top end of the anti-tilting rod, the inner side of the anti-tilting rod is in clearance fit with the movable bolt integrally, the anti-tilting rod is integrally distributed on the outer end surface of the plate body, and the top part of the anti-tilting rod is in clearance fit with the outer wall of the plate body.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects;

1. when the smoothing seat is used for conveying printed batteries on the surface of the conveyor belt, the nested rotating rod is nested in the through hole to realize auxiliary rotation, so that the silica gel hook embedded on the surface of the cylinder body smoothes the corner tilting attempted by the previous step of coating in the rotating process, the surface is jacked by the cylinder body when the silica gel hook is hooked, secondary edge tilting is prevented, and the problem of printing blind areas caused by edge tilting around the batteries before printing is effectively solved.

2. According to the invention, the corresponding raw materials are poured into the printing plate under the assistance of the material guide pipe, then the printing plate is printed on the surface of the battery plate through the storage of the storage cavity, and the printed raw materials are wiped under the assistance of the movable bolt matched with the swinging plate at the front end, so that the thickness of the surface of the battery is controlled and kept uniform, the uniformity of the printed raw materials on the surface of the battery plate is effectively improved, and the problem of poor contact of the produced battery is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a printed battery production line according to the present invention.

Fig. 2 is a schematic top view of the equipment box of the present invention.

Fig. 3 is a front view of the rolling frame according to the present invention.

Fig. 4 is a schematic view of the internal structure of the leveling seat of the present invention.

Fig. 5 is a schematic perspective view of the rolling cartridge of the present invention.

FIG. 6 is a front view of the brush holder according to the present invention.

FIG. 7 is a schematic perspective view of a printing plate of the present invention.

FIG. 8 is a side view of the squeegee of the present invention.

FIG. 9 is a schematic view showing the internal structure of the swing plate of the present invention.

In the figure: an equipment box-1, a controller-2, an observation window-3, a guide connection groove-4, a connection seat-5, a rolling frame-11, a brushing frame-12, a conveying belt-13, a workbench-14, an equipment component-15, a smoothing seat-111, a cross beam frame-112, a support column-113, a rolling cylinder-a 1, a column body-a 2, a threaded column-a 3, a nested rotating rod-a 4, a silica gel hook-a 11, a cylinder body-a 12, a through hole-a 13, a printing plate-121, a material guide pipe-122, a guide support block-123, a telescopic column-124, a scraper-b 1, a buffer column-b 2, a material inlet-b 3, a swinging plate-b 11, a storage cavity-b 12, a fixed plate-b 13, a lower connecting plate-b 14, a movable bolt-c 1, a material storage tank-b 2, a material storage tank-b 3624, a swinging plate-b 11, a movable bolt-b 3683, a sliding plate, plate body-c 2, anti-roll bar-c 3.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without any inventive work based on the embodiments of the present invention belong to the protection scope of the present invention.

The invention is further described below with reference to the accompanying drawings:

example 1

As shown in figures 1 to 5:

its structure includes equipment box 1, controller 2, observation window 3, leads and connects groove 4, connecting seat 5, 1 both ends of equipment box and 5 terminal bolt fastenings of connecting seat, 5 inboards of connecting seat and lead and connect 4 outer end clearance fit in groove, lead and connect the groove 4 wholly and equipment box 1 both sides embedded solid to be connected, 1 surface of equipment box is connected with 3 outside articulated of observation window, 3 right sides of observation window and 2 whole clearance fit of controller, equipment box 1 includes that roll frame 11, brush are wiped away frame 12, conveyer belt 13, workstation 14, equipment subassembly 15, roll frame 11 bottom and 14 surface embedded solid connections of workstation, 14 surfaces of workstation and 15 whole bolt fastenings of equipment subassembly, 15 front ends of equipment subassembly and 13 surface clearance fits of conveyer belt, 13 surfaces of conveyer belt and brush are wiped away 12 bottom clearance fits.

Wherein, roll frame 11 including pacifying seat 111, crossbeam frame 112, support column 113, pacify 111 tops of seat and crossbeam frame 112 internal thread connection, crossbeam frame 112 both sides and the 113 top of support column built-in connection, 113 inboard and the 111 both sides clearance fit of pacifying of support column, crossbeam frame 112 wholly is rectangle cubic, distributes on 113 tops of support column, and central point puts and lower extreme and pacifies a 111 top screwed connection, wherein pacifies seat 111 and is favorable to assisting pacifying the front end through the corner of coating, avoids the panel problem that the dog-ear appears all around to take place to influence battery normal use.

The flattening seat 111 comprises a rolling cylinder a1, a column body a2, a threaded column a3 and a nested rotating rod a4, the center of the rolling cylinder a1 is connected with the nested rotating rod a4 in an integral nested manner, two ends of the nested rotating rod a4 are connected with the inner side of the bottom of the column body a2 in a welded manner, the top end of the column body a2 is fixedly embedded and connected with the tail end of the threaded column a3, the nested rotating rods a4 are distributed at the lower end of the column body a2, the tops of the two ends of the nested rotating rod a4 are fixedly embedded and connected with the inner wall of the column body a2, and the surface of the nested rotating rod a4 is embedded and connected with the rolling cylinder a1, wherein the nested rotating rod a4 is beneficial to assisting the rolling cylinder a1 to rotate, the rolling cylinder a1 of the nested rotating rod is driven by rotation phase change, and the rolling cylinder a1 further performs corresponding flattening operation on the periphery of the battery panel.

Wherein, a section of thick bamboo a1 includes that silica gel colludes a11, a section of thick bamboo body a12, logical heart hole a13, silica gel colludes a11 end and section of thick bamboo body a12 surface embedded solid and is connected, section of thick bamboo body a12 center is connected with the whole embedded solid of logical heart hole a13, the whole clearance fit of logical heart hole a13 outer end and silica gel collude a11, silica gel colludes a11 whole adoption rubber material and makes and forms, and terminal embedded solid is on a section of thick bamboo body a12 surface, and inboard rather than logical heart hole a13 formation clearance fit, and wherein silica gel colludes a11 and is favorable to scraping all around at rotatory in-process and battery through section of thick bamboo body a12 to strickleing off with its side of perk, appear omitting or the blind angle can not carry out the printing material loading when avoiding follow-up raw and other materials.

The specific working principle is as follows:

the invention connects the front step and the back step through the connecting seat 5 by the equipment box 1 of the printed battery production line, so that the electromagnetism which is printed under the matching of the guide connecting groove 4 enters the equipment box 1, then the controller 2 is triggered to lead the equipment component 15 on the inner worktable 14 to start to operate, the conveyer belt 13 conveys the battery to the front rolling frame 11 and the lower end of the inner side of the brushing frame 12, the internal operation condition can be monitored through the observation window 3 in the process, when the conveyer belt 13 carries the coated battery and passes through the lower end of the rolling frame 11, the rolling cylinder a1 at the bottom of the column body a2 which is fixedly connected with the threaded column a3 is movably matched, the nested rotating rod a4 drives the rolling cylinder a1 to rotate, so that the silica gel hook a11 which is nested with the surface of the cylinder body a12 hooks the warped edge which is coated, and the whole printed battery keeps flat and waits for the printing of the following raw materials, finally, polishing, when the flattening seat 111 is used for conveying printed batteries on the surface of the conveying belt 13, the nested rotating rod a4 is nested into the through hole a13 to realize auxiliary rotation, so that the silica gel hook a11 embedded on the surface of the cylinder body a12 in the rotation process flattens corners tried by previous coating, the surface of the hook is jacked by the cylinder body a12 in the flat state, secondary edge warping is prevented, and the problem that printing blind areas are caused by edge warping around the batteries before printing is effectively solved.

Example 2:

as shown in fig. 6 to 9:

the brushing rack 12 includes a printing plate 121, a material guiding pipe 122, a supporting guide block 123 and two telescopic columns 124, the top end of the printing plate 121 is connected to the top end of the material guiding pipe 122 through a flange, the top end of the material guiding pipe 122 is connected to the lower surface of the supporting guide block 123 through a flange, two ends of the supporting guide block 123 are fixedly connected to the top end of the telescopic column 124, the two telescopic columns 124 are distributed on two sides of the printing plate 121, and the top of the supporting guide block 123 is fixedly connected to the bottom of the supporting guide block 123, wherein the supporting guide block 123 facilitates guiding raw materials into the printing plate 121 under the cooperation of the material guiding pipe 122, so as to provide raw materials for the printing plate 121 to be printed.

Wherein, printing plate 121 includes scraper blade b1, buffering post b2, pan feeding mouth b3, scraper blade b1 top is connected with pan feeding mouth b3 is whole to be embedded solid, pan feeding mouth b3 both sides and the whole clearance fit of buffering post b2, buffering post b2 end and scraper blade b1 top surface are embedded solid and are connected, buffering post b2 is equipped with two, distributes at scraper blade b1 top position, and the bottom is embedded solid with its scraper blade b1 top and is connected, inboard and pan feeding mouth b3 clearance fit, and wherein buffering post b2 is favorable to scraper blade b1 to cushion to can reach suitable printing distance to its lower extreme battery surface, make its thickness can reach the thickness unified and compact.

The scraper b1 comprises a swinging plate b11, a storage cavity b12, a fixed plate b13 and a lower connecting plate b14, the swinging plate b11 is integrally hinged with the lower connecting plate b14 at the right lower side, the storage cavity b12 is integrally connected with the lower connecting plate b14 in an inner nested manner, the top end of the lower connecting plate b14 is connected with the fixed plate b13 in an inner nested manner, the lower end of the fixed plate b13 is movably matched with the storage cavity b12 in an inner movable manner, the swinging plate b11 is distributed at the lower right corner of the lower connecting plate b14 and is hinged with the lower connecting plate b14, and the inner side of the swinging plate b11 is in clearance fit with the lower connecting plate b14, wherein the swinging plate b11 is beneficial to uniformly scraping the printed coating, so that the thickness of the battery surface of the swinging plate can be controlled, and the problem of pothole after raw material printing can be solved.

The swing plate b11 comprises a movable bolt c1, a plate body c2 and an anti-tilt rod c3, the inner portion of the movable bolt c1 is connected with the top end of the plate body c2 in a nested manner, the outer surface of the plate body c2 is in clearance fit with the top end of the anti-tilt rod c3, the inner side of the anti-tilt rod c3 is in clearance fit with the movable bolt c1 integrally, the anti-tilt rod c3 is distributed on the outer end surface of the plate body c2 integrally, and the top of the anti-tilt rod c3 is in clearance fit with the outer wall of the plate body c2 integrally, wherein the anti-tilt rod c3 is beneficial to preventing the plate body c2 from greatly deviating in the scraping process and preventing raw materials caused by overlarge deviation amplitude from being coated on the surface of the battery thickly.

The specific working principle is as follows:

the invention prints the battery board after smoothing through the bottom of the brushing rack 12 under the continuous conveying of the conveying belt 13, so that the raw material is poured into the printing board 121 under the assistance of the guide pipe 122 through the guide block 123, the required height can be adjusted and controlled by the telescopic columns 124 embedded at the two ends, then the pressure control is realized by matching with the buffer column b2 at the top end of the scraper b1, the printing thickness is not uniform enough, when the raw material enters the fixed plate b13 from the feeding port b3 and flows into the storage cavity b12 in the lower connecting plate b14, the raw material is extruded and printed on the surface of the battery board, the thickness of the battery surface can be controlled by matching with the swinging plate b11 at the front end under the assistance of the movable bolt c1, the pothole problem after the raw material is printed can be solved, and finally the anti-tilt rod c3 is matched to prevent the board body c2 from greatly deviating in the scraping process, the invention avoids the problem of excessive coating thickness of raw materials on the surface of the battery caused by excessive offset amplitude, the invention pours the corresponding raw materials into the guide tube 122 by the printing plate 121, then prints the raw materials on the surface of the battery plate by the storage of the storage cavity b12, and wipes the printed raw materials by the swing plate b11 at the front end of the matching part under the assistance of the movable bolt c1, so that the thickness of the surface of the battery is controlled, the balance is kept, the uniformity of the raw materials printed on the surface of the battery plate is effectively improved, and the problem of poor contact of the produced battery is avoided.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein; any reference sign in a claim should not be construed as limiting the claim concerned.