CN207602714U - A kind of stacked wafer cells producing device - Google Patents

Abstract

The utility model discloses a kind of stacked wafer cells producing devices, multiple first lamination processing assemblies and multiple second lamination processing assemblies are arranged alternately successively, and multiple first feeding-passages and multiple second feeding-passages are sequentially communicated, each lamination processing assembly includes upper and lower two pole piece material roller, two diaphragm material rollers, two pole piece cutting mechanisms, thermal composite machine structure.Pass through the stacked wafer cells producing device of above-mentioned optimization design, structural design optimization is reasonable, by being arranged alternately multiple first lamination processing assemblies and multiple second lamination processing assemblies, the stacking processing of multi-layer stacks is realized in stacked wafer cells manufacturing process, and it can realize that positive and negative anodes are alternately laminated, it realizes the Ion transfer between adjacent positive and negative anodes, convenient for the processing of subsequent multi-layer lamination, greatly improves processing efficiency and product quality.

Description

A kind of stacked wafer cells producing device

Technical field

The utility model is related to technical field of lithium ion more particularly to a kind of stacked wafer cells producing devices.

Background technology

The core of limitation laminated batteries production efficiency is lamination process at present.The common Z-type laminating machine effect in domestic market Rate is relatively low, and more number of devices is needed during large-scale engineering, takes up a large area, is laid out complicated and homogeneity of product Difference.The combined type lamination techniques in market are introduced successively now, after realizing that diaphragm and pole piece are compound by the use of gluing diaphragm Lamination, combination process is all compound using single positive plate and negative plate progress at present.

Utility model content

To solve technical problem present in background technology, the utility model proposes a kind of stacked wafer cells producing devices.

The utility model proposes a kind of stacked wafer cells producing device, including multiple first lamination processing assemblies and multiple Two lamination processing assemblies；

First lamination processing assembly includes the first pole piece material roller, the first diaphragm material roller, the first pole piece cutting mechanism, the second pole Sheet stock roller, the second diaphragm material roller, the second pole piece cutting mechanism, the first thermal composite machine structure；

The first feeding-passage, the first pole piece material roller, the first diaphragm material roller, the second pole piece material are equipped in first thermal composite machine structure Roller, the second diaphragm material roller are located at the feed inlet side of first feeding-passage and are arranged in parallel successively, the first pole piece material roller and First diaphragm material roller is located above first feeding-passage and the first diaphragm material roller is located at the first pole piece material roller far from the first heat Composite structure side, the second pole piece material roller and the second diaphragm material roller are located at below first feeding-passage and the second pole piece material roller Positioned at the second diaphragm material roller far from the first thermal composite machine structure side, the first pole piece cutting mechanism is used to cut the first pole piece It cuts, the second pole piece cutting mechanism is used to cut the second pole piece；

Second lamination processing assembly includes third pole piece material roller, third diaphragm material roller, third pole piece cutting mechanism, quadrupole Sheet stock roller, the 4th diaphragm material roller, the 4th pole piece cutting mechanism, the second thermal composite machine structure；

The second feeding-passage, third pole piece material roller, third diaphragm material roller, quadrupole sheet stock are equipped in second thermal composite machine structure Roller, the 4th diaphragm material roller are located at the feed inlet side of second feeding-passage and are arranged in parallel successively, third pole piece material roller and Third diaphragm material roller is located above second feeding-passage and third diaphragm material roller is located at third pole piece material roller far from the second heat Composite structure side, quadrupole sheet stock roller and the 4th diaphragm material roller are located at below second feeding-passage and quadrupole sheet stock roller Positioned at the 4th diaphragm material roller far from the second thermal composite machine structure side, third pole piece cutting mechanism is used to cut third pole piece It cuts, the 4th pole piece cutting mechanism is used to cut the 4th pole piece；

Multiple first lamination processing assemblies and multiple second lamination processing assemblies are alternately arranged successively, and multiple described first Feeding-passage is connected with multiple second feeding-passages and is sequentially communicated.

Preferably, each first lamination processing assembly further includes that the first pole piece crosses roller, the first diaphragm crosses roller, the second pole piece mistake Roller, the second diaphragm cross roller, and each second lamination processing assembly further includes that third pole piece crosses roller, third diaphragm crosses roller, the 4th pole piece Cross roller, the 4th diaphragm crosses roller.

Preferably, the first pole piece crosses roller, the first diaphragm crosses roller, the second pole piece crosses roller, the second diaphragm crosses roller, third pole piece mistake Roller, third diaphragm cross roller, the 4th pole piece crosses roller, the 4th diaphragm crosses roller using without driving one-way wheel.

Preferably, the first thermal composite machine structure includes being located at the first promotion baking oven above first feeding-passage and is located at First below first feeding-passage fixes baking oven, and the second thermal composite machine structure includes being located above second feeding-passage Second promoted baking oven and below second feeding-passage second fix baking oven.

Preferably, the third that third thermal composite machine structure includes being located above the third feeding-passage promotes baking oven and is located at Third below the third feeding-passage fixes baking oven, and the 4th thermal composite machine structure includes being located above the 4th feeding-passage The 4th promoted baking oven and below the 4th feeding-passage the 4th fix baking oven.

Preferably, first feeding-passage and second feeding-passage are horizontally extending.

Preferably, multiple first feeding-passages and second feeding-passage are located in same level.

In the utility model, the stacked wafer cells producing device that is proposed, multiple first lamination processing assemblies and multiple second Lamination processing assembly is arranged alternately successively, and multiple first feeding-passages and multiple second feeding-passages are sequentially communicated, often A lamination processing assembly includes upper and lower two pole piece material roller, two diaphragm material rollers, two pole piece cutting mechanisms, thermal composite machine structure. By the stacked wafer cells producing device of above-mentioned optimization design, structural design optimization is reasonable, by being arranged alternately multiple first laminations Processing assembly and multiple second lamination processing assemblies realize the stacking processing of multi-layer stacks in stacked wafer cells manufacturing process, and And can realize that positive and negative anodes are alternately laminated, and realize the Ion transfer between adjacent positive and negative anodes, convenient for the processing of subsequent multi-layer lamination, Greatly improve processing efficiency and product quality.

Description of the drawings

Fig. 1 be the utility model proposes a kind of stacked wafer cells producing device structure diagram.

Fig. 2 be the utility model proposes a kind of stacked wafer cells producing device processing stacked wafer cells structure diagram.

Specific embodiment

As illustrated in fig. 1 and 2, Fig. 1 be the utility model proposes a kind of stacked wafer cells producing device structure diagram, figure 2 be the utility model proposes a kind of stacked wafer cells producing device processing stacked wafer cells structure diagram.

With reference to Fig. 1 and 2, the utility model proposes a kind of stacked wafer cells producing device, processed including multiple first laminations Component and multiple second lamination processing assemblies；

First lamination processing assembly include the first pole piece material roller 11, the first diaphragm material roller 13, the first pole piece cutting mechanism 15, Second pole piece material roller 12, the second diaphragm material roller 14, the second pole piece cutting mechanism 16, the first thermal composite machine structure；

The first feeding-passage, the first pole piece material roller 11, the first diaphragm material roller 13, the second pole are equipped in first thermal composite machine structure Sheet stock roller 12, the second diaphragm material roller 14 are located at the feed inlet side of first feeding-passage and are arranged in parallel successively, the first pole 11 and first diaphragm material roller 13 of sheet stock roller is located above first feeding-passage and the first diaphragm material roller 13 is located at the first pole piece Expect that roller 11 is located at the described first charging and leads to far from the first thermal composite machine structure side, the second pole piece material roller 12 and the second diaphragm material roller 14 Below road and the second pole piece material roller 12 is located at the second diaphragm material roller 14 far from the first thermal composite machine structure side, the first pole piece cutting machine For being cut to the first pole piece, the second pole piece cutting mechanism 16 is used to cut the second pole piece structure 15；

Second lamination processing assembly include third pole piece material roller 21, third diaphragm material roller 23, third pole piece cutting mechanism 25, Quadrupole sheet stock roller 22, the 4th diaphragm material roller 24, the 4th pole piece cutting mechanism 26, the second thermal composite machine structure；

The second feeding-passage, third pole piece material roller 21, third diaphragm material roller 23, quadrupole are equipped in second thermal composite machine structure Sheet stock roller 22, the 4th diaphragm material roller 24 are located at the feed inlet side of second feeding-passage and are arranged in parallel successively, third pole Sheet stock roller 21 and third diaphragm material roller 23 are located above second feeding-passage and third diaphragm material roller 23 is located at third pole piece Expect that roller 21 is located at the described second charging and leads to far from the second thermal composite machine structure side, quadrupole sheet stock roller 22 and the 4th diaphragm material roller 24 Below road and quadrupole sheet stock roller 22 is located at the 4th diaphragm material roller 24 far from the second thermal composite machine structure side, third pole piece cutting machine For being cut to third pole piece, the 4th pole piece cutting mechanism 26 is used to cut the 4th pole piece structure 25；

Multiple first lamination processing assemblies and multiple second lamination processing assemblies are alternately arranged successively, and multiple described first Feeding-passage is connected with multiple second feeding-passages and is sequentially communicated.

In the specific work process of the stacked wafer cells producing device of the present embodiment, in a lamination processing assembly, first Diaphragm material volume is unreeled the first membrane unwinding first, and then the first pole piece material roller unreels the first pole piece in the first diaphragm, simultaneously Second pole piece and the second diaphragm unreel the second pole piece and the second diaphragm respectively below the first diaphragm, and the first pole piece cutting mechanism is complete Into cutting for the first pole piece, the second pole piece cutting mechanism completes cutting for the second pole piece, the first pole piece, the first diaphragm, the second pole Piece, the second diaphragm are delivered into simultaneously by forming four-layer structure in the first thermal composite machine structure, then sequentially entering follow-up and then passing through The roll-in of the first composite press roller group is crossed, then proceedes to second lamination processing assembly, third pole piece and third diaphragm are covered in Above first pole piece, the 4th pole piece and the 4th diaphragm are covered in below the second diaphragm；And so on, form multiple stacked wafer cells.

In the present embodiment, the stacked wafer cells producing device proposed, multiple first lamination processing assemblies and multiple second Lamination processing assembly is arranged alternately successively, and multiple first feeding-passages and multiple second feeding-passages are sequentially communicated, often A lamination processing assembly includes upper and lower two pole piece material roller, two diaphragm material rollers, two pole piece cutting mechanisms, thermal composite machine structure. By the stacked wafer cells producing device of above-mentioned optimization design, structural design optimization is reasonable, by being arranged alternately multiple first laminations Processing assembly and multiple second lamination processing assemblies realize the stacking processing of multi-layer stacks in stacked wafer cells manufacturing process, and And can realize that positive and negative anodes are alternately laminated, and realize the Ion transfer between adjacent positive and negative anodes, convenient for the processing of subsequent multi-layer lamination, Greatly improve processing efficiency and product quality.

In a specific embodiment, each first lamination processing assembly further includes the first pole piece and crosses roller 17, the first diaphragm mistake Roller 19, the second pole piece cross roller 18, the second diaphragm crosses roller 110, each second lamination processing assembly further include third pole piece cross roller 27, Third diaphragm crosses roller 29, the 4th pole piece crosses roller 28, the 4th diaphragm crosses roller 210, further, the first pole piece cross roller 17, first every Film crosses roller 19, the second pole piece crosses roller 18, the second diaphragm crosses roller 110, third pole piece crosses roller 27, third diaphragm crosses roller 29, quadrupole Piece crosses roller 28, the 4th diaphragm crosses roller 210 using without driving one-way wheel, by setting roller, ensures each material roller feed entrance point Stablize, improve charging precision.

In the specific design method of thermal composite machine structure, the first thermal composite machine structure includes being located on first feeding-passage The first of side promotes baking oven 31 and the first fixation baking oven 32 below first feeding-passage, the second thermal composite machine structure packet The second promotion baking oven 41 above second feeding-passage and second below second feeding-passage is included to consolidate Determine baking oven 42, the third that third thermal composite machine structure includes being located above the third feeding-passage promotes baking oven 51 and positioned at described Third below third feeding-passage fixes baking oven 52, and the 4th thermal composite machine structure includes being located above the 4th feeding-passage 4th promotes baking oven 61 and the 4th fixation baking oven 62 below the 4th feeding-passage.

In other specific embodiments, first feeding-passage and second feeding-passage prolong in the horizontal direction It stretches, multiple first feeding-passages and second feeding-passage are located in same level, ensure multiple pole piece charging speed Degree is consistent, so as to ensure end product quality.

The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not This is confined to, in the technical scope that any one skilled in the art discloses in the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (7)

1. a kind of stacked wafer cells producing device, which is characterized in that including multiple first lamination processing assemblies and multiple second laminations Processing assembly；

First lamination processing assembly includes the first pole piece material roller (11), the first diaphragm material roller (13), the first pole piece cutting mechanism (15), the second pole piece material roller (12), the second diaphragm material roller (14), the second pole piece cutting mechanism (16), the first thermal composite machine structure；

The first feeding-passage, the first pole piece material roller (11), the first diaphragm material roller (13), the second pole are equipped in first thermal composite machine structure Sheet stock roller (12), the second diaphragm material roller (14) are arranged in parallel positioned at the feed inlet side of first feeding-passage and successively, the One pole piece material roller (11) and the first diaphragm material roller (13) are above first feeding-passage and first diaphragm material roller (13) position In the first pole piece material roller (11) far from the first thermal composite machine structure side, the second pole piece material roller (12) and second diaphragm material roller (14) position Below first feeding-passage and the second pole piece material roller (12) is positioned at separate first thermal composite machine of the second diaphragm material roller (14) Structure side, the first pole piece cutting mechanism (15) for being cut to the first pole piece, the second pole piece cutting mechanism (16) for pair Second pole piece is cut；

Second lamination processing assembly includes third pole piece material roller (21), third diaphragm material roller (23), third pole piece cutting mechanism (25), quadrupole sheet stock roller (22), the 4th diaphragm material roller (24), the 4th pole piece cutting mechanism (26), the second thermal composite machine structure；

The second feeding-passage, third pole piece material roller (21), third diaphragm material roller (23), quadrupole are equipped in second thermal composite machine structure Sheet stock roller (22), the 4th diaphragm material roller (24) are arranged in parallel positioned at the feed inlet side of second feeding-passage and successively, the Three pole piece material rollers (21) and third diaphragm material roller (23) are above second feeding-passage and third diaphragm material roller (23) position In third pole piece material roller (21) far from the second thermal composite machine structure side, quadrupole sheet stock roller (22) and the 4th diaphragm material roller (24) position Below second feeding-passage and quadrupole sheet stock roller (22) is positioned at separate second thermal composite machine of the 4th diaphragm material roller (24) Structure side, third pole piece cutting mechanism (25) for being cut to third pole piece, the 4th pole piece cutting mechanism (26) for pair 4th pole piece is cut；

Multiple first lamination processing assemblies and multiple second lamination processing assemblies are alternately arranged successively, and multiple first chargings Channel is connected with multiple second feeding-passages and is sequentially communicated.

2. stacked wafer cells producing device according to claim 1, which is characterized in that each first lamination processing assembly also wraps Include that the first pole piece crosses roller (17), the first diaphragm crosses roller (19), the second pole piece crosses roller (18), the second diaphragm crosses roller (110), Mei Ge Two lamination processing assemblies further include third pole piece crosses roller (27), third diaphragm crosses roller (29), the 4th pole piece crosses roller (28), the 4th every Film crosses roller (210).

3. stacked wafer cells producing device according to claim 1, which is characterized in that the first pole piece cross roller (17), first every Film crosses roller (19), the second pole piece crosses roller (18), the second diaphragm crosses roller (110), third pole piece crosses roller (27), third diaphragm crosses roller (29), the 4th pole piece crosses roller (28), the 4th diaphragm crosses roller (210) using without driving one-way wheel.

4. stacked wafer cells producing device according to claim 1, which is characterized in that the first thermal composite machine structure includes being located at institute It states first above the first feeding-passage and promotes baking oven (31) and the first fixation baking oven below first feeding-passage (32), what the second thermal composite machine structure included being located above second feeding-passage second promotes baking oven (41) and positioned at described the Second below two feeding-passages fixes baking oven (42).

5. stacked wafer cells producing device according to claim 1, which is characterized in that third thermal composite machine structure includes being located at institute It states the third above third feeding-passage and promotes baking oven (51) and the third fixation baking oven below the third feeding-passage (52), what the 4th thermal composite machine structure included being located above the 4th feeding-passage the 4th promotes baking oven (61) and positioned at described the The 4th below four feeding-passages fixes baking oven (62).

6. stacked wafer cells producing device according to claim 1, which is characterized in that first feeding-passage and described Two feeding-passages are horizontally extending.

7. stacked wafer cells producing device according to claim 6, which is characterized in that multiple first feeding-passages and institute The second feeding-passage is stated to be located in same level.