JP3017760B2 - Paper battery - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper battery, and is preferably applied to, for example, a paper battery mounted on an information card.

Summary of the Invention The present invention is a paper battery, after impregnating the periphery of the separator with the electrolyte penetration preventing adhesive or after impregnating the electrolyte penetration preventing material along the inner periphery of the adhesive,
The performance of the paper battery can be improved by being sandwiched between the peripheral portions on the positive and negative electrode sides.

C Prior Art As a conventional information card reader for reading information on an information card, as shown in FIG. 4, for example, a response request signal W1 using a microwave of 2.45 [GHz] as a carrier wave is a response request signal of the information reader 1. The response information signal W2 generated in the generation circuit 2 and emitted from the transmission antenna 3 to the information card 4 and returned from the information card 4 is taken into the response signal processing circuit 6 via the reception antenna 5 of the information reading device 1. Accordingly, it is considered to construct an information card reading system such as an entry / exit person who has the information card 4 as an entry / exit card, and a check for cargo attached with the information card 4 as a tag.

An information card 4 applicable to such an information card reading system includes a dipole antenna 4B attached so as to form a part of a wiring pattern on a wiring board 4A, and an integrated circuit (IC) forming an information signal generating circuit. By connecting the information signal generation circuit 4C of the configuration and the power supply battery 4D by the wiring pattern 4E, and changing the impedance at the feeding point of the dipole antenna 4B according to the information signal generated in the information signal generation circuit 4C. There has been proposed a device in which the reflectance of a carrier wave emitted as a response request signal W1 from the information reading device 1 is changed so that the reflected wave is returned as a response information signal W2 (Japanese Patent Application No. Sho 63).
No.-6292).

The power supply battery 4D of the information card 4 having such a configuration is a wiring board 4A.
A dipole antenna 4B attached so as to form a part of a wiring pattern thereon is connected to an information signal generating circuit 4C having an integrated circuit (IC) structure by a wiring pattern 4E.

As shown in FIG. 5 (A), a paper battery 10 constituting a power supply battery 4D includes a wiring board 4A which is a positive electrode side sheet having a positive electrode active material 12 coated on a positive electrode plate 11, and FIG. 5 (B).
As shown in FIG. 5, after a separator 17 containing an electrolytic solution is interposed between the negative electrode plate 14 and an insulating sheet 19 which is a negative electrode side sheet having the negative electrode active material 15 applied thereto, the positive electrode is placed on the wiring substrate 4A. An adhesive 18 applied around the electrode plate 11 and an adhesive 20 applied around the negative electrode plate 14 on the insulating sheet 19 are superimposed and formed by bonding the wiring board 4A and the insulating sheet 19 together. Have been.

D Problems to be Solved by the Invention Since the separator 17 of the conventional paper battery 10 is not fixed to the wiring board 4A and the insulating sheet 19 as shown in FIG. 6, the life of the paper battery 10 is prolonged. When a large amount of the positive electrode active material 12 and the negative electrode active material 15 are applied to the positive electrode plate 11 and the negative electrode plate 14, the positive electrode active material 12 and the positive electrode active material 12 pass through a gap generated between the end of the separator 17 and the adhesives 18 and 20. The negative electrode active material 15 moves to each other, and the positive and negative electrode active materials 15
There was a problem that the electron transfer reaction progressed at the place where 12 and 15 were in direct contact, deteriorating the performance of the paper battery as a whole.

The present invention has been made in view of the above points, and aims to propose a high-performance paper battery with a simple configuration.

Means for Solving E Problem In order to solve such a problem, in the first invention,
Peripheral portions of the positive and negative side sheets 32 and 33 formed on the inner surface of the central portion with the electrode plates 11 and 14 are permeable to the positive and negative electrode active material layers 12 and 15 formed on the electrode plates 11 and 14, respectively. In a paper battery 30 adhered by the adhesives 18 and 20 with the separator 31 interposed therebetween, the electrolyte penetration preventing adhesive 34 is attached to the peripheral portion of the separator 31.
To impregnate the positive and negative side sheets 32 and 33
And was fixed between the peripheral portions by bonding.

In the second invention, an electrode plate is provided on the inner surface of the central portion.
The positive and negative electrode side sheets 32 and 33 formed by forming 11 and 14 are opposed to the positive and negative electrode active material layers 12 and 15 formed on the electrode plates 11 and 14 with a permeable separator 31 interposed therebetween. In this state, in a paper battery 30 bonded by the adhesives 18 and 20, the peripheral edge of the separator 31 is impregnated with the adhesive 36, and the peripheral edge of the peripheral edge of the positive and negative side sheets 32 and 33. In addition to being sandwiched between and adhered and fixed, the inside of the peripheral portion of the separator 31 impregnated with the adhesive 36 is impregnated with the electrolyte permeation preventing material 37.

Therefore, in the first invention, the peripheral portion of the separator 31 impregnated with the electrolyte permeation preventing adhesive 34 is sandwiched between the peripheral portions of the positive and negative sheets 32 and 33 to thereby remove the peripheral portion of the separator 31. The positive and negative electrode side sheets 32 and 33 are securely adhered between the peripheral portions of the sheets 32 and 33 to prevent the positive and negative electrode active material layers 12 and 15 from going around to the opposite side via the separator 31 and to prevent the electrolyte solution 35 is this separator 31
Can be reliably prevented from penetrating into the peripheral edge portion and leaking to the outside.

In the second invention, the peripheral portion of the separator 31 impregnated with the adhesive 36 is sandwiched between the peripheral portions of the positive and negative sheets 32 and 33 so that the peripheral portion of the separator 31 is formed of the positive and negative sheets 32. The positive and negative electrode active material layers 12 and 15 can be securely bonded between the peripheral portions of the separators 33 and 33 to prevent the positive and negative electrode active material layers 12 and 15 from wrapping around the opposing sides via the separator 31 and impregnated inside the peripheral portion of the separator 31. The electrolytic solution permeation preventive material 37 prevents the electrolytic solution 35 from infiltrating into the peripheral portion of the separator 31 and leaking to the outside.

G Example Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a paper battery 30 as a whole, and a separator 31 includes a positive-side insulating sheet 32 and a negative-side insulating sheet 33.
The adhesives 18 and 20 have a width sandwiched between the positive and negative side insulating sheets 32 and 33, and a thermosetting and electrolyte-resistant adhesive 34 is applied to the periphery of the separator 31. 5A, FIG. 5B and FIG. 6 except that the separator 31 is fixed to the positive and negative side insulating sheets 32 and 33 by the adhesive 34. .

In the manufacturing process, first, the separator 31 is shown in FIG.
As shown in the figure, the separator is made of rectangular non-woven paper
As shown in FIG. 2 (B), a thermosetting and electrolyte-resistant adhesive 34 is applied to the peripheral edge of the separator 31 by screen printing to sufficiently penetrate the separator 31 and then dried. Then, as shown in FIG. 2 (C), an electrolytic solution 35 is applied to the vicinity of the center of the separator 31 so as to spread over the entire surface except for the adhesive 34, and then, as shown in FIG. 34
Are sandwiched from both sides by a positive-electrode-side insulating sheet 32 and a negative-electrode-side insulating sheet 33, and fixed with adhesives 18 and 20.

According to the above configuration, since the separator 31 is fixed to the positive-electrode-side insulating sheet 32 and the negative-electrode-side insulating sheet 33 with the adhesive 34, the inside of the paper battery 30 can be separated into two chambers, and the long life of the paper battery 30 Even when a large amount of the positive and negative electrode active materials 12 and 15 are applied to the positive electrode plate 11 and the negative electrode plate 14, direct contact between the positive and negative electrode active materials 12 and 15 can be effectively avoided. .

In the embodiment described above, in FIG. 2 (B), a strong thermosetting adhesive
Although the case where 34 is applied has been described, the present invention is not limited to this, and as shown in FIG. 3, the permeation of the electrolytic solution 35 to the inner peripheral side of the adhesive 36 applied to the peripheral portion of the separator is prevented. An electrolyte permeation stopping material 37 having properties may be applied.

Further, in the above-described embodiment, a case has been described in which the present invention is applied to a paper battery of an information card. However, the present invention is not limited to this, and other electronic devices can be widely applied to constituent paper batteries.

H Effects of the Invention As described above, according to the first invention, the peripheral portion of the separator impregnated with the electrolyte permeation preventing adhesive is sandwiched between the peripheral portions of the positive and negative side sheets. The peripheral portion of the separator is securely bonded between the peripheral portions of the positive and negative electrode side sheets, so that the positive and negative electrode active material layers can be prevented from wrapping around to the opposite side via the separator. And it can be reliably prevented from penetrating into the peripheral edge portion and leaking to the outside. Thus, a high-performance paper battery can be realized with a simple configuration.

According to the second invention, the peripheral portion of the separator impregnated with the adhesive is sandwiched between the peripheral portions of the positive and negative side sheets, so that the peripheral portion of the separator is surrounded by the peripheral portions of the positive and negative side sheets. The positive and negative electrode active material layers can be securely bonded to each other to prevent the positive and negative electrode active material layers from wrapping around to the opposite side with the separator interposed therebetween. The liquid can surely be prevented from penetrating into the peripheral portion of the separator and leaking to the outside, and thus a high-performance paper battery can be realized with a simple configuration.

[Brief description of the drawings]

1 is a cross-sectional view showing an embodiment of a paper battery according to the present invention, FIG. 2 is a plan view and a cross-sectional view for explaining a manufacturing process, and FIG. 3 is a plan view for explaining another embodiment of a separator. 4 is a schematic diagram showing the configuration of an information card reading system, FIG. 5 is a plan view for explaining a conventional paper battery, and FIG. 6 is a cross-sectional view of the conventional paper battery. 11 ... Positive electrode plate, 12 ... Negative electrode active material, 14 ... Negative electrode plate,
15 ... Negative electrode active material, 30 ... Paper battery, 31 ... Separator, 32 ... Positive side insulating sheet, 33 ... Negative side insulating sheet, 34 ... Adhesive.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-60-124359 (JP, A) JP-A-60-236463 (JP, A) Jpn. Showa 55-96576 (JP, U) (58) Field (Int.Cl. ⁷ , DB name) H01M 6/12 H01M 10/04

Claims (2)

(57) [Claims] 1. A positive and negative electrode side sheet having an electrode plate formed on an inner surface of a central portion is opposed to a peripheral edge of a positive and negative electrode active material layer formed on the electrode plate with a permeable separator interposed therebetween. In a paper battery bonded with an adhesive in this state, the periphery of the separator is impregnated with an electrolyte permeation preventing adhesive so that the periphery is between the periphery of the positive and negative side sheets. Paper battery characterized by being sandwiched and adhered and fixed. 2. Positive and negative electrode side sheets, each having an electrode plate formed on the inner surface at the center, are opposed to peripheral edges of the positive and negative electrode active material layers formed on the electrode plate with a permeable separator interposed therebetween. In a paper battery that is bonded with an adhesive in a state in which the adhesive is impregnated, the peripheral portion of the separator is impregnated with an adhesive, and the peripheral portion is sandwiched between the peripheral portions of the positive and negative side sheets and bonded. A paper battery, wherein the separator is impregnated with an electrolyte permeation preventing material inside the peripheral portion of the separator impregnated with the adhesive.