TW595031B - Manufacturing method and device of battery - Google Patents

Abstract

The present invention provides a manufacturing method and device of battery. In manufacturing, one end of a separation film roll arranged on a rotation plate is fixed on the side face of a substrate of a base, wherein the rotation plate is arranged on the base and the substrate is arranged on a first rotating axis and a second rotating axis of the base. Next, the first rotating axis is rotating to make the substrate rotate so that the separation film will encapsulate two side faces of the substrate. Then, the pushing rods of two absorbing rotation devices respectively located at two sides of the substrate of the base will be lowered to absorb the electrode plate in a material vessel of a sliding seat. The two absorbing rotation devices are rotating after absorbing the electrode plate, so that the absorbed electrode plate faces to the side face of the substrate. At this moment, the pushing rods of the two absorbing rotation devices are extended forward at the same time to adhere the electrode plate on the separation film located at two side faces of the substrate. Then, the first rotating axis rotates the substrate by 360 degrees to make the separation film encapsulate the electrode plate located at two sides of the substrate. Finally, the above steps of absorbing the electrode plate, adhering, and rotating the substrate to make the separation film encapsulate the electrode plate are repeated until manufacturing a battery.

Description

595〇3l V. Description of the invention (l) [Technical field to which the invention belongs] The present invention relates to a method for manufacturing a storage battery and a manufacturing device thereof, particularly a method that can simplify the production process and accelerate the production speed, and can reduce the disadvantages of device production. Rater. [Previous technology] With the rapid development of technology, the development of electronic products has been promoted, and the people's lives have become more and more convenient, such as notebook computers, mobile phones, digital cameras, and personal digital assistant devices (PDAs). It provides the convenience of people in daily life and work. Electronic products must have a power supply to operate when in use. The general power supply method is nothing more than using a power plug to plug in a power outlet to supply power, or to supply power through a storage device installed in the electronic product = department. The types include capacitors: batteries and those with positive / negative polarity to store electrical energy. First, please refer to the first figure, which is a three-dimensional schematic diagram of the battery; as shown in the figure, the battery 10 includes-battery core 10A, the battery core 10A is composed of a plurality of negative plates 12 and a plurality of positive plates 14 The separator Ί is between a positive / negative plate 14, 12 and each positive / negative plate 14 is provided with a positive conductive handle 18 and a negative conductive handle 16, and the handle Λ handles 18 and 16 are located On the different side, the multiple positive / negative conductive: 18, 16 are separately connected to one of the external positive / negative conductive handles (connected and fixed. / 扬 汗 正 Κί: Most of the manufacturing methods of electrical appliances, such as the battery manufacturing process, are based on Ϊ and isolation film Long winding of three different materials is used, ^ and this method is easy to form misalignment due to deviations during the winding process. Page 595031 5. Description of the invention (2), it is difficult to inspect and improve the product failure rate. This phenomenon can easily lead to performance shortcomings such as excessive conductive paths, high height, uneven charge and discharge, and other disadvantages in the related position. Although improvements have been proposed in the follow-up, the shortcomings of conventional processes cannot be completely solved. Please = the second picture, which is medium Republic of China Patent No. 9n0891i3, a schematic plan view of the structure of a method for manufacturing a storage battery; as shown in the figure, 1 is a manufacturing method ": a plurality of positive / negative plates i 4, i 2 are arranged in a predetermined order f! 11, and the space between the plates is-space # film 20 'and the front and back ends of the isolation film are respectively reserved with a front isolation film 22 and a rear isolation film 24; The positive / negative plates 14, 12 are folded according to the arrangement order, that is, the front separator 22 is first folded to the first negative plate 12A, and then the second negative plate m to the seventh positive plate 14G, and the rear separator are folded. The arrangement order of 24 is sequentially folded. Therefore, each time the folding is performed, the electrode plates (negative electrode plate 12 or positive electrode plate 14) are stacked and separated from each other by a layer, so that the positive electrode and the negative electrode are separated by a separator. The layers are stacked in layers to complete the folding and assembling operation of the battery. However, when the above method is used to attach the positive / negative plates 14 and 12 to the separator 11, Gu Yiyin positive / negative plates 1 4 and 1 2 The adhesion setting position is inaccurate, so that the inter-isolation film spaced between the plates 2 There is a deviation in the distance, such as the intervals a, b, and c not shown in the first picture. In this way, the distance deviation will accumulate as the folding / negative plates 14, 12 progress. When the deviation value accumulates to a certain value, it will The positive / negative electrode plates 14 and 12 are bent during folding, such as the negative electrode plate 12B and the positive electrode plate 14C shown in the first figure, which will affect the finished product. The quality of the mouth is to improve the product defect rate, so this method is used in Adhesive positive / negative plate

Page 6 595031 V. Description of the invention (3) In the process from 14, 12 to the isolation film 11, it is necessary to use very precise equipment to carry out the position adhesion, so as to reduce the deviation value, so it will not be economical and accurate.揞 The equipment positioning is complex and must be maintained and adjusted frequently, which will reduce production efficiency and increase the overall production cost. Stop and stop: Therefore, the present invention proposes a method and a manufacturing device for a storage battery in response to the above problems, which can not only improve the disadvantages of precise positioning of the storage battery during production, but also simplify the production process, thereby increasing production efficiency.

To improve the quality of storage batteries and reduce production costs, so that the above problem can be solved. 0 [Summary of the invention] The main purpose of the present invention is to provide a storage battery and its manufacturing device. Problems in order to simplify the production process and increase product yield, earn production speed and reduce production costs. The secondary object of the present invention is to provide a storage battery and its manufacturing device, which can simplify the manufacturing process of the storage battery, at the cost of :, and can reach a certain production speed to meet the production efficiency. Take the soil for the above purpose, the manufacturer of the electrical storage device of the present invention; ^ One end of an isolation film is fixed on the side of a substrate; after that, the wire will first cover the two sides of the substrate with the isolation film; then Gels are placed on the outer surfaces of the two substrates of the substrate f and the membrane, and then the two polar plates on the brother surface of the substrate are respectively adhered to the outer surfaces of the substrate on the first side, the second side, etc .; Rotate the substrate by 36 °, I isolate it from the upper film

Page 7 595031 V. Description of the invention (4) The two pole plates are adhered. After that, it is repeatedly performed on the outer surface of the isolation film on the two sides of the substrate. At the same time, the two pole plates are respectively placed on the two sides of the substrate. The steps of sticking on the outer surface of the isolation film on the first side and the second side of the substrate, and rotating the substrate 360 degrees so that the isolation film covers the two polar plates that are adhered, until one of them is produced according to the energy storage specifications. The storage device does not cut the isolation film from the position of the isolation film covering the substrate, fixes the cut end of the isolation film covering the electrode plate to the storage device, and finally pulls out the completed lightning accumulator from the substrate. The device for manufacturing a storage battery according to the present invention comprises a machine base, which is provided with a fixed seat, one side of the fixed seat is provided with a first rotating shaft, and the other side of the fixed seat is located with respect to the first rotating shaft. There is a bearing seat. The bearing seat is provided with a second rotating shaft. A base plate is provided between the first rotating shaft and the second rotating shaft. The first rotating shaft system is connected with a motor, that is, the motor system will drive the first rotating shaft to rotate; The machine base is provided with a turntable, which is provided with an isolation film roll, which can be wound around the base plate; the machine base is located below the fixed seat, and two sliding seats are respectively provided on each side, and each sliding seat is provided with a Sliding plate and a pneumatic push rod. There are two troughs on the sliding plate. The troughs are used to place polar plates with multiple polarities. The machine base is located above each sliding base. A rotating fixing base is provided respectively; a suction rotating device, a suction cup is provided at the front end of the pushing rod to suck the pole pieces in the hopper, and after sucking the pole pieces, the suction rotating device will rotate and make Push lever extends to push pole The sheet is pushed out and adhered to the isolation film of the substrate. In order to make your review members have a better understanding and understanding of the structural features of the present invention and the effect achieved, I would like to refer to the preferred embodiment diagram and

595031

With the detailed description, the explanation is as follows: [Embodiment] Compared with the first system, a first substrate 40 is provided. The second rotation shaft 39 is provided with a perforation 42 and a machine 44. The dispensing front system is provided with a rubber tube 49. A holding cylinder 48 is connected to one side of one of the preferred embodiments of the holding steam. The first rotating shaft 36 can move the position of the first rotating shaft 36 to the second rotating shaft 39. The first is the base plate 4. 0 上 'Fixed seat 32 seat 3 0 Relative to the device 44 series contains please refer to the figure; as shown in the figure, a fixed seat 32 is provided with a picture not shown), 3 2 on the other side of the bearing seat 38 inside 3 9 There is a rotating shaft 36 and a side of the lower cylinder 4 6 with a bit of glue installed on the sides, and the fourth figure is shown. According to the present invention, the fixed seat 32 and the first rotating shaft 3 6 are driven by a motor with a base 30 and a shaft sleeve. 3 4 series and a horse shaft 3 6 series is equipped with a shaft 36 36 at both ends is connected with a three-dimensional schematic seat relative to the base perforation 42 30 series is provided, the shaft sleeve 34 is connected (movable, fixed) The bearing seat 38 is fixed to the position of the second plate 40 separately from the second rotating shaft. 46. The left and right fixing seats 32 of the upper cylinder 48 are also provided with a mounting seat 50, and the cutting seat 51 is provided with a cutting device 51. The cutting device 51 includes a horizontal cylinder 52 provided on the 50-side of the mounting seat. A blade 54 is provided at the front end of the horizontal cylinder 52, and a matching other blade 56 is provided at the position of the other side of the mounting seat 50 relative to the blade 54, and the mounting seat 50 is provided between the two blades 54 and 56. There is a through slot 58 in the system: the base 30 is also provided with a turntable 60, and an isolating film roll 62 is provided on the turntable 60. One end of the isolating film 64 can pass through the two provided on the base 30 and below the turntable 60. The guide rod 66 and the through slot 58 on the mounting base 50 are wound around the substrate 40.

No. (¾, page 595031) V. Description of the invention (6) The machine base 30 is located on both sides of the fixed base 32 and is provided with a first slide base and a 70-second slide base 80 respectively. There are a sliding plate, 82, and a pneumatic push rod 74, 84. The sliding plates 72, 82 are pushed to move left and right on the sliding seats 70, 80. Two sliding slots 76, 72 are provided on the sliding plates 72, 82. 77 and 86, 87 'Feeders 76, 77, 86, 87 are used to place multiple electrode plates coated with active materials and have conductive handles, of which 76 and 86 are positive electrode plates 79, and The 77 and 87 series put the negative plate 89; the base 30 is located above the -slide = seat 70 and the second slide seat 80, and each is provided with a first rotating fJJ90 and a second rotating fixed seat 94, the first A rotation fixed seat ㈣ and = ^ turn solid ^ seat 94 are respectively provided on the first-the first suction rotation device MF a suction rotation device 95 'the first and second suction rotation 7 T3 and 96 are provided with a front end The suction cup 97 is capable of sucking the positive / negative electrode sheets 79, 89 in the material tanks 76, 77, 86, 87. ㈣ = See FIG. 2 The fourteenth figure is each im J Γ θ of the device of the present invention for making a storage battery, as shown in the figure It is shown that, in the production of the electrical storage device, as in the second place, the side of the substrate 40 through which one end of the isolation film 64 is passed first, iron: 8 is pressed and fixed, and a metal body is adhered to the substrate 4. The side spacer : 2 Figure 4: The inner pole plate 99 is slightly larger than the width of the inner pole plate 99. The width of the second pole is as the rotation of the first-axis 36, and then as shown in the seventh figure, the side pole plate 99 is driven At this time, the rotation causes the isolation film 64 to cover the inside so that the front end 挟 = 4 =: =: 46 will move upwards, and the two sides of the cylinder 48 will be supported; = the two sides of the base plate 40 will be extended, and drive Adjust the two sides of the substrate 40 to move in contact with each other, and point 10, page 595031-V. Description of the invention (7) The eunuch points within the eunuch 4 9 are located on the outside of the isolation film 64 on both sides of the substrate 4 Then, as shown in the eighth figure, the two sides of the driving cylinder 48 are driven to move outward and the upper and lower cylinders 4 and 6 are moved downward, while the pneumatic pushing rods 74 and 84 push the sliding plates 72 and 82 to make the trough. 76, 86 move directly below the first suction rotation fruit 92 and the second suction rotation device 95, while the first suction rotation device 92 and the second suction rotation device The pushing rods 93 and 96 of the rotating device 95 will move downward, so that the sucker 97 at the front end sucks the positive plate 79 (when the inner electrode plate 99 is the negative plate sun guard), and then as shown in the ninth figure, the first A suction rotation device 92 and a second suction rotation device 95 will suck the positive electrode plate 79 toward the side of the substrate 40 after the suction to the positive electrode plate, and the push rods 93 and 2 of the second suction rotation device 95 will rotate. Will: The positive electrode plate M, which is out of rotation, is adhered to the outer surface of the isolation film 64 on both sides of the substrate 40. Take the rotation and turn the two sides of the moving seat 70. The slot 77 is set to 95. The outer side of the dispensing system is the same as the device 95. The substrate 40 is positive and the second and 87 are shifted. As shown in the figure, the first suction rotation device 92 and the second suction system return to the original state, and the first rotation shaft 36 system rotates 360 degrees, so that the insulation film 64 covers the substrate 40 and the plate 79 ′ and is simultaneously pushed. The levers 74 and 84 act to move the slide plates 72 and 82 on the first slide seat 80 to the outside, and move to the upper and lower cylinders 46 of the first suction rotation device 92 and the second suction rotation dispensing device 44. Move upwards so that the colloidal points are not on the isolation membrane μ ^ located on both sides of the substrate 40. As shown in Fig. 11 and Fig. 12, its action is shown in Fig. 9. Push rods 9 3 and 9 6 It moves down and sucks 595031. V. Description of the invention (8) The negative plate 89 in the troughs 77 and 87, and then rotates the first and second suction rotation devices 92 and 95 to stick the sucked negative plate 89 in place. On the outer surfaces of the isolation films 64 on both sides of the substrate 40, the first, The suction rotation devices 92 and 95 will return to their original state, and the first rotation shaft 36 will rotate to rotate the substrate 40 by 36 ° to cover the insulation film 64, and the negative plates 8 on both sides of the substrate 40. 9; Hereafter, repeat the seventh picture above = ΐ ΐ second picture, dispense, attach the positive plate 79, and rotate the substrate 40 to make the separation film == positive plate 79, attach the negative plate 89, and rotate the substrate 40 to make the separation film Μ Ϊ Device: 8.9 movements until 51 movements are made according to the specifications of the stored electrical energy. After the second movement, as shown in the thirteenth figure, the cutting device film 64 on the assembly base 50 is driven to cover the substrate 40. The position of the isolation film 64 is cut to isolate the 56 and the person is to move 2 to 52 in the direction of the isolation film 64 to make the blade 54 film 64 cut the second film "cut" and remove the 40-end of the isolation substrate covering the electrode plate. As shown in the fourteenth figure, it is the production of the accumulator. 'And the completed accumulator is taken out to finish the publication 7 Γ and refer to the fifteenth figure, which is made by Xuan Xue and Wu J. ; As shown in the discussion on the structure of one animal electrical appliance, the positive / negative plates 79 and 89 are formed from the above-mentioned I, 22 series. From time to time, it can be seen from the first and second steps that when the inner electrode plate 99 is a negative electrode plate-a negative electrode plate 89: ;; = ,: device 92, all are based on a positive electrode plate 79 and the outer side of the isolation film 64 The isolation film on the first side and the second side of the substrate 40, that is, on the first side and the second negative plate of the substrate 40

The outer side of page 12 is based on-positive plate 79. V. Description of the invention (9) No .: The separator 64 is located between the positive and negative plates 79_. When 99 is the positive electrode plate, the electrode plate turning devices 92 and 95 are both-negative electrode plate 89, a positive isolation film 2 = the outer surface of the isolation plate 64 located on the first side and the second side of the substrate 40. The two sides are arranged in the order of side and second side. The two embodiments of 屮 冰 L 贝 拽 89, a positive plate 79 & m are set according to the set Mu / # 悝 板 M, 89 on the separation film 64 ， 正 / 贝 照 proper direction spots #. ,, Zhen finger plates 79, 89 must be in accordance with 1: # i + each positive pole of the storage battery produced by the square white stick fork; the positive conductive handle 78 of fe 79 is located on the same Side, and the side where the handle 88 of the mother positive electrode plate 79 is provided. The cross-section of the negative electrode conductive of the negative plate 89 :::::: = ◎ ◎-storage battery The steps in the sixth figure are omitted, and the substrate 4 is covered in the process of ㈣ + G ^. On both sides: Back: ㈡ make the coffee bag and the first-suction rotation through i9tir is the same as the above steps, then

The transition set 92 is based on a positive plate 79 and a negative electrode; fegq, A The second suction rotation device 95 is based on a negative plate 89 = and is arranged in the order of a positive plate 79 on the first side of the substrate 40. The lateral surface l ·, and the outer surface of the isolation film 64 on the side of the first side and the first side is located on the first side of the substrate 40. A positive plate 79 and the outer side of the isolation film 64 The outer side of the system is a negative plate 89 and: f 4〇 the second side of the separation film 64 j = = sticking to make the storage] = electric handle 78 and the negative conductive handle 88 of the negative plate 89 are located Not = 枉 dao 595031 scale ...

"The first suction rotation device 92 is OK" and the second suction rotation device 9 5 is sequentially adhered to the first outer surface of the substrate 40, that is, a negative plate 8 9 is located on the substrate 40 surface. The outer side of a positive electrode separator film 64 is a positive electrode and adhered in an appropriate direction so that the positive electrode conductive handles 7 8 are located on the same side as the electric handle 8 8. In the same way, as shown in the eighteenth figure, a negative plate 89, a positive plate 7Q, a positive plate 79, a negative plate 89 and a second side of the separation film 64, the first side of the separation film 6 4 outside 7 9 The positive plate 79 of the electrical storage device is arranged in the order of the plate 7 9 and a negative plate 89 on the second side of the substrate 4. The negative electrode different from the negative plate 89 and the above-mentioned production method and device of the electrical storage device can be used. It adopts the method of single-sided production. The production device only needs the suction rotation device or the sliding seat on the same side of the fixed seat 32 in the above embodiment, that is, only the first sliding, the first rotating fixed seat 90 and the first “Sucking rotating device” and other devices located on the same side of the solid holder 32, and adding two troughs on the sliding plate 72, the production of the storage battery can be made by one-sided production. The production method is firstly the positive / negative plate 79 And 89 are placed in the four guide grooves on the sliding plate 72 in the proper order according to the different directions of the positive / negative conductive handles 78 and 88 on the separator 64. Two of the guide grooves are placed with the positive plate 79. , The positive plate 7 placed in the two guide grooves The difference between 9 is that the positions of the positive conductive handles 78 are different, and the other two are placed with the negative plate 89, and the negative plates 8 placed in the two guide tanks are not the same. As described above, one end of the isolation film 64 is fixed on the side surface of the substrate 40, and the inner electrode plate 99 is adhered to the isolation film 64. Then, the substrate 40 is rotated to cover the side surface of the substrate 40 with the isolation film 64. At the same time, the inner electrode plate 99 is covered inside;

P.14 595031 V. Explanation of the invention (11) The-suction rotation device 92 will absorb the positive electrode in order according to the order of the two positive plates 79, the two negative plates 89 and the direction of the positive / negative conductive handles 78 and 88. / Negative plates 79, 89 (when the inner electrode plate 99 is a negative plate), and the second surface is located on the outer surface of the isolation film 64 on the first and second sides of the substrate 40, that is, the first on the substrate 40 The outer side of the isolation film 64 on the side and the second side is arranged in order of two, one negative plate 89, and the substrate 40 will be rotated 180 degrees on the mother adhesive S, and the other plate will rotate 180 degrees, so that the insulation film 64 wraps Cover the electrode plate attached to the first suction Γ2 until the storage battery is manufactured. The schematic cross-sectional view of the storage battery manufactured in this way is like the positive electrode shown in Figure 15: a: also I: ί the opposite way That is, when the inner electrode plate 9 9 is-'the receiver's first suction rotation device 92 series will = ㈣ order and in accordance with the positive / negative conductive handle 78, 8 plate and sequentially suck the positive / negative plate 79, 89, and The positive / negative electrode plate M is located on the first side of the substrate 40 and the -Gamma > t μ 0 again, that is, it is located on the substrate 4. The first surface = film " The outer surface of the surface is the same as that of the outer surface of the isolation film 64. The Ai plate and the positive plate 79 are arranged in the same order as the first.

It can be known from the method described above that the order of absorbing and disposing the adhesive electrode plates by making the omission of the inner electrode plate 99 without using the inner electrode plate 99 is based on the outer side of the isolation film 64 of the seventeenth to the fourth side. Take one: Li: in the order of the base 89 and in accordance with the positive / negative conductive handle 78, 88 plate 9, the negative pole, and the outer side of the isolation film 64 located on the second side of the substrate 40, in order.

595031

T V. Description of the invention (12) The sequence of the plate 89 and a positive plate 79 and the direction of the positive / negative conductive handles 78 and 88 are sequentially arranged. However, it can also be set in the opposite way, that is, the order in which the first suction-side turning device 9 2 sucks and attaches the electrode plates is based on the outer surface of the isolation film 64 located on the first side of the substrate 40 as shown in FIG. 18. It is arranged in the order of a negative plate 89 and a positive plate 79 and in accordance with the directions of the positive / negative conductive handles 78 and 88, and the outer side of the separation film 64 on the second side of the substrate 40 is a positive electrode. The order of the plate 79 and a negative plate 89 and the order of the positive / negative conductive handles 78 and 88 are arranged in this order; so during the production process, if the suction rotation device or the sliding seat on the same side of the fixed seat 32 fails, It is also possible to continue the production of the storage battery. It is assumed that when the second suction rotation device "failures", it is only necessary to add words on the sliding plate 72 of the first sliding seat 70; the two guides "slots can be used as described above. The method of surface production is used to produce storage batteries. / To sum up, the method for manufacturing a storage battery of the present invention and its operation is to set one end of the isolation film 64 on the side surface of the substrate 40, so that the insulation film 64 covers the side surface of the substrate 40, And the polar soil f U t, & 庠 庠 庠, # μ — > ▶ The electrode plate is deposited on the isolation film, and the substrate 40 is rotated to make the isolation film 64 and the electrode plate on the isolation film 64. The movement of the outer surface = can be made to produce a storage battery. This is a disadvantage that it is difficult to align and has a high defect rate. In addition, a plurality of sets of turntables 60 and sliding seats can be added to the base plate 30 of the present invention. . At the same time, multiple sets of winding are performed at the same time to produce electricity storage; conversion = production: However, the above is only a comparison of the present invention to limit the scope of implementation of the present invention, so it is based on this;

Page 16 595031 5. The equal changes and modifications of the shape, structure, characteristics and spirit described in the description of the invention (13) shall all be included in the scope of patent application of the present invention. [Comparison of drawing number] 10 Battery 22 Front separator 10A Battery 24 Rear separator 11 Separator 30 Base 12 Negative plate 32 Fixing base 12A First negative plate 34 Shaft sleeve 12B Second negative plate 36 Shaft 12E Fifth negative plate 38 Bearing block 12F Sixth negative plate 39 Second rotating shaft 14 Positive plate 40 Substrate 14C Third positive plate 42 Perforated 14D Fourth positive plate 44 Dispenser 14G Seventh positive plate 46 Upper and lower cylinders 16 Negative conductive handles 48 Holding cylinders 18 Positive conductive handles 49 Dispensing tube 20 Insulation film 50 Assembly base 51 Cutting device 82 Sliding plate 52 Horizontal cylinder 84 Pneumatic push rod 54 Blade 86 Feed trough 56 Blade 87 Feed trough 58 Perforation 88 negative conductive handle 60 turntable 89 negative plate

Page 17

595031

Page 18 V. Description of the invention (14) 62 Isolation film roll 90 First rotation fixed seat 64 Isolation film 92 First suction rotation device 66 Guide rod 93 Push rod 70 First sliding seat 94 Second rotating fixing seat 72 Slide plate 95 First_ suction rotation device 74 pneumatic push rod 96 push rod 76 feed slot 97 sucker 77 feed slot 98 sheet magnet 78 positive conductive handle 99 inner pole plate 79 positive plate 80 slide. Moving seat 595031 Figure 3 is a schematic perspective view of a battery; Figure 2 is a schematic plan view of the structure of a conventional battery manufacturing method; Figure 3 is a schematic sectional view of the structure of a conventional battery manufacturing method; Figure 4 is a preferred embodiment of the present invention The three-dimensional schematic diagrams; the fifth to fourteenth diagrams are not intended to act on the steps of the device of the present invention for making the electric storage device, the fifteenth diagram is a schematic cross-sectional view of one of the electric storage devices produced by the present invention; the sixteenth diagram is the production of the present invention Out of another A schematic cross-sectional view of a storage battery; FIG. 17 is a schematic cross-sectional view of another storage battery produced by the present invention; and a eighteenth photo is a schematic cross-sectional view of another storage battery produced by the present invention.

Page 19

Claims (1)

595031 6. Scope of patent application1. A method for manufacturing a storage battery, which includes the following steps: a. One end of an isolation film is fixed on the side of a substrate; b. The side of the substrate is covered by the isolation film And placing the polar plate on the outer surface of the isolation film on the side of the substrate; c. Covering the plate with the isolation film; d. Placing the polar plate in the proper order On the outer surface of the isolation film on the side of the substrate, and covering the electrode plate with the isolation film; and e. Repeating step d until a storage battery is produced, and then withdrawn from the substrate. ^ 2 The manufacturing method of a storage battery as described in item 1 of the scope of patent application, wherein the substrate is a metal substrate, and in step a, a piece of magnet is placed on the side of the substrate to press and fix the substrate. One end of the isolation film is on the side of the substrate, and the chip magnet can be removed after performing step c. 3. The method for manufacturing a storage battery as described in item (2) of the patent application, wherein steps b and d further include a step of glue, the colloidal point of which is set on the insulation, and the electrode is to be attached. Position to adhere the i-plate to the isolation film. 4. The method of manufacturing a storage battery device as described in item 1 of the scope of the patent application, wherein in the step f, the storage battery device is made in a number, and from the substrate, the substrate is never covered on the substrate Cut the position of the isolation membrane ▲, remove, and fix the cut end of the isolation membrane covering the electrode plate to 595031 5. The method of manufacturing a storage battery as described in item 1 of the scope of patent application, wherein in step b, the substrate is rotated so that the isolation film covers both sides of the substrate, and the two electrodes are simultaneously polarized on both sides of the substrate. The plates are respectively located on the outer surfaces of the isolation film on the first side and the second side of the substrate; in step c, the substrate is rotated by 36 ° to cover the two plates by the isolation film; In step d, the two polar plates are respectively set on the outer surfaces of the isolation film on the first side and the first side of the substrate at the same time on both sides of the substrate, and the substrate is rotated by 360 degrees to isolate the The film covers the two plates. 6 · The method for manufacturing a storage battery as described in item 1 of the scope of patent application, which In step b, the substrate is rotated so that the isolation film covers the side surface of the substrate, and an electrode plate is set on the outer surface of the isolation film on the first side surface, and then the substrate is rotated and The other electrode is disposed on the outer surface of the isolation film on the second side; in step c ', the substrate is rotated 180 degrees so that the isolation film covers the electrode on one side of the substrate; In step d, the polar plate is set on the first side of the substrate on the outer surface of the isolation film on the first side of the substrate. Then, the substrate is rotated 180 degrees to cover the side of the substrate. The electrode plate, and the electrode plate is disposed on the outer surface of the isolation film on the second side surface of the substrate, and the substrate is rotated 180 degrees to cover the electrode on one side of the substrate board. 7. The method of manufacturing a storage battery according to item 5 or item 6 of the scope of the patent application, wherein the electrode plate provided by the separator on the first side of the substrate is provided in the order of a negative plate and a positive plate While located in the base Page 21 595031 VI. Scope of patent application The electrode plates of the separator on the second side of the plate are arranged in the order of a positive electrode plate and a negative electrode plate. 8 · The method of manufacturing a storage battery as described in item 5 or 6 of the scope of the patent application, wherein the electrode plates provided on the separator on the first side of the substrate are arranged in the order of a positive electrode plate and a negative electrode plate The electrode plate provided on the second side of the substrate is provided in the order of a negative electrode plate and a positive electrode plate. 9 · The method for manufacturing a storage battery as described in item 1 of the scope of patent application, wherein the electrode plate is coated with an active material. 10 · The method for manufacturing a storage battery as described in item 5 or 6 of the scope of patent application, wherein in step a, when one end of the isolation film is fixed on the side of the substrate, an inner electrode plate Placed on the side of the substrate 'to be placed on the isolation film; in step b, the substrate is rotated so that the isolation film covers the side of the substrate, and the inner electrode plate is covered by the isolation film, the The inner electrode plate is coated with an active material. 11 · The manufacturing method of a storage battery as described in item 10 of the Shenyan patent scope, wherein when the inner electrode plate is a negative electrode plate, the electrode plates provided on the isolation film on the first side and the first side of the substrate are all in accordance with A positive plate and a negative plate are arranged in this order. 12 · The method for manufacturing a storage battery as described in item 10 of the scope of patent application, wherein when the inner electrode plate is a positive electrode plate, the electrode plates provided on the first side of the substrate and the first side of the separator are all A negative plate and a positive plate are arranged in this order. 13 · A method for manufacturing a storage battery, comprising the following steps: Page 22, 595031 VI. Application scope of patents-a. One end of an isolation film is fixed on the side of a substrate; b. The isolation film covers both sides of the substrate; c. On both sides of the substrate, two polar plates having polarities are respectively disposed on the outer surfaces of the isolation film on the first side and the second side of the substrate; c. Rotate, the substrate 360 degrees, so that the isolation film covers two The plate; and d. Repeat step c and step d 'until a storage battery is produced and then withdrawn from the substrate. W 14 · The method for manufacturing a storage battery as described in item 13 of the scope of the patent application, wherein the substrate is a metal substrate, and in step a, a piece of magnet is placed on the side of the substrate to press and fix it. One end of the isolation film is on a side of the substrate. 15 · The method for manufacturing a storage battery as described in item 13 of the scope of the patent application, wherein the step c further includes a step of glue, the gel point is set at the position where the separator is to be attached to the electrode plate, The electrode plate is adhered to the isolation film. 16 · The method for manufacturing a storage battery according to item 13 of the scope of patent application, wherein in step d, before the storage battery is manufactured and extracted from the substrate, the isolation is never covered on the substrate. The isolation film is cut at the film position, and the cut end of the isolation film covering the electrode plate is fixed on the storage battery. 17 · The method for manufacturing a storage battery as described in item 13 of the scope of the patent application, wherein the electrode plate provided on the first side of the substrate and the separator is provided in the order of a negative plate and a positive plate. The substrate second side (Page 23)% 031 18 · 19 · 20. 21. 22 · 23 · If you are in the middle of the step, please set it on the side of the separation film. They are arranged in the order of a positive plate and a negative plate. The method for manufacturing a storage battery as described in item 13 of Shenyan's patent scope, wherein the electrode plate provided by the separator on the first side of the substrate is arranged in the order of a positive electrode plate and a negative electrode plate, and is located in the An electrode plate provided on the second side of the substrate with the separator is provided in the order of a negative plate and a positive plate. The method for manufacturing a storage battery as described in item 13 of the Shenyan patent scope, wherein the plates are coated with an active material. The method for manufacturing a storage battery according to item 14 of the patent, in step a, when one end of the isolation film is fixed on the substrate, an inner electrode plate is placed on the side of the substrate to isolate the film. Up; in step b, the substrate is rotated to cover the two sides of the substrate, and the inner electrode plate is covered by the spacer. The inner electrode plate is coated with an active material. The method for manufacturing a storage battery device described in item 20 of the patent, wherein when the side electrode plate is a negative electrode plate, the electrode plates provided on the first side of the substrate and the isolation film are arranged in a positive order and a negative order. Of it. According to the method for manufacturing a storage battery according to Item 20 of the declared patent, wherein when the inner electrode plate is a positive electrode plate, the electrode plates provided by the separator on the first side and the second side of the substrate are all [electrode plates] The order of a positive plate is set. A storage device manufacturing device includes: Page 24