JP2001102017A - Thin electric cell of pack structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thin electric cell of a pack structure loaded in a cellular phone, etc., which has a terminal portion that contact fault with an apparatus body o the other party, occurs rarely, even though the terminal is deformed. SOLUTION: A thin electric of pack structure is detachably loaded as a driving electrical source in main body of an electronic apparatus. A terminal portion A1 of the thin electric cell engages a terminal portion of the apparatus body to form an integral structure. The terminal portion A1 of the thin electric cell comprises a terminal body 3b and a resin mold body 3 fixing the terminal body.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thin battery having a pack structure which is removably mounted as a driving power source on various electronic devices, and more particularly, the thin battery is temporarily deformed by an external force applied to the electronic device. Even in this case, contact failure between the terminal of the electronic device and the terminal of the thin battery is unlikely to occur. It relates to a thin battery.

[0002]

2. Description of the Related Art For example, a battery mounted on a portable telephone is a rectangular thin battery having a thickness of about 5 to 6 m, and is detachably mounted and fixed to the back of the telephone body. In this case, three flat terminals are usually exposed on one side of the battery, flush with the surface of the battery, and three flat terminals are also provided at positions corresponding to the flat terminals on the battery side on the battery mounting surface of the telephone body. When the battery is mounted on the telephone body, the flat terminals are exposed, and the flat terminals are in surface contact with each other, so that electrical connection can be obtained.

In addition, a PDA (personal digital assista)
nt), the battery and the body each have a plurality (eg, 6
) Flat terminals are exposed. By the way, in the above-mentioned thin battery, a predetermined power generation element is sealed in an exterior material of, for example, an aluminum laminated film to form a thin battery main body, and the ends of the positive and negative electrodes of the power generation element are pulled out from the battery main body as leads. A circuit board on which a drive control circuit is mounted is connected to the lead. However, since this alone is insufficient in strength, and in order to prevent short-circuiting at each element or connection part, the above-described entirety is housed in a case having a predetermined thickness to form a pack structure, thereby securing strength as the whole battery. Is being done.

In this thin battery, three flat terminals are formed on the surface of the circuit board, and three holes are provided on one surface of the case at positions corresponding to the positions of the flat terminals. , When the whole described above is stored in the case,
The flat terminal is designed to be flush with the hole of the case. On the other hand, with the trend toward smaller, thinner, lighter, and more sophisticated mobile phones, there is an increasing demand for similar types of thin batteries to be mounted on them. The demand for further thinning is particularly strong.

[0005] In order to meet the demand for further thinning, the thickness of the battery body should be further reduced, and the thickness of the case should be further reduced accordingly. Even if such measures are taken, the thickness of the case that secures the strength of the entire battery is reduced, so that the strength of the entire pack structure is insufficient, and the following problems are likely to occur.

For example, if an external force such as torsion is applied to the mobile phone for some reason, the thin battery will be easily bent or distorted following the external force. as a result,
This is a problem that the normal surface contact state between the flat terminal on the battery side and the flat terminal on the phone main body is broken, resulting in poor contact between the two. In the case of a thin battery having a flat terminal exposed on one side, there is generally the following problem.

First, since the flat terminal and the battery surface are flush with each other, careless handling during storage in a bag or bag, for example, may cause an external short circuit due to contact with other metal articles. is there. In addition, since the flat terminal is exposed, the surface of the terminal is contaminated by sweat or the like, and the conduction state with the partner terminal may be deteriorated when the flat terminal is mounted on the telephone body.

[0008]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems in a conventional thin battery having a pack structure, and suppresses occurrence of poor contact with a telephone body even if the battery is deformed. It is another object of the present invention to provide a novel thin battery having a pack structure having a terminal portion designed to prevent occurrence of an external short circuit due to careless handling.

[0009]

According to the present invention, there is provided a thin battery having a pack structure which is detachably mounted as a drive power source for a main body of an electronic apparatus. A pack, wherein the terminal portion and the device main body are engaged with each other to form an integrated structure, and the terminal portion on the battery side comprises a terminal main body and a resin mold body for fixing the terminal main body. A thin battery having a structure is provided.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIG. 1, a thin battery 1 of the present invention is mounted on a predetermined portion of a device main body 2 and used for actual use. Terminal A of structure
A terminal portion B having a structure to be described later, which corresponds to the structure of the terminal portion A, is formed at a portion of the device main body 2 to be connected to the terminal portion A on the battery side. And
When the battery 1 is mounted on the device main body 2, the terminal portions A and B are mechanically engaged with each other at that time to form an integrated structure.

Therefore, even if an external force is applied to the whole and the thin battery 1 and the device main body 2 are deformed such as bending, the connecting portion A and the connecting portion B are already engaged and integrated at the time of mounting. Since it has a single connection structure irrelevant to the battery 1 and the device main body 2, contact failure unlike the case of a flat plate terminal does not occur. First, an example of the thin battery of the present invention is shown in FIG.

This thin battery has a battery body 1A such as a film battery connected to a circuit board 1B on which a predetermined circuit is mounted via positive and negative leads 1a, 1a. It is structured to be housed in a housing composed of the lower case 1D. And, on the circuit board 1B,
A terminal portion A1, which will be described later, is provided, and a cut portion 1b having substantially the same shape as the outer shape of the terminal portion A1 is formed on a side portion of the upper case 1C.

Therefore, this thin battery has a rectangular shape when formed into a pack structure, and has a terminal portion A1 from one side thereof.
Only the front of will be exposed. The terminal portion A1 is formed entirely of an electrically insulating resin, and has a resin mold body 3 having three square insertion holes 3a on the front surface;
It is fixed to the inner wall of the insertion hole 3a by molding so that its surface is exposed, and is composed of, for example, a copper terminal body 3b connected to a predetermined terminal (not shown) of the circuit board 1B.

On the other hand, as shown in FIG. 3, three terminals 4 are protruded from a portion corresponding to the terminal portion A1 on the device main body 2 on which the thin battery is mounted. Side terminal portion B1 is formed. Here, the cross-sectional shape of the terminal 4 is similar to the above-described insertion hole 3a of the terminal portion A1, and is slightly larger. As shown in FIG. 1, when the thin battery 2 is slid and mounted on the device main body 2, the terminal 4 of the device main body protruding from the surface 2 a is inserted into the insertion hole 3 a of the terminal portion A 1. Is inserted into. Insertion hole 3
Since a is slightly smaller in diameter than the terminal 4, the insertion hole 3a is slightly enlarged. At this time, the terminal 4 is secured without moving in the insertion hole 3a due to the elasticity of the resin mold body 3, and the terminal portion A1 and the terminal portion B2 are firmly engaged to form an integrated structure. Then, the surface contact state is reliably realized between the terminal body 3b in the insertion hole 3a and the side surface of the terminal 4, and even if the thin battery or the device body is deformed,
The above-described integrated structure of the terminal portion A and the terminal portion B, which are one kind of separate structures, continues to exist irrespective of the deformation, so that the surface contact state is also ensured.

In this integrated structure, the terminal A
The one insertion hole 3a may be circular instead of square.
In that case, the terminal 4 in the terminal portion B2 has a columnar shape. The terminal body 3b of the terminal portion A1 is
Instead of a flat plate shape as shown in the figure fixed to the inner wall of a, it may have a tube shape as a whole. In this case, the terminal 4 is gripped by the entire inner wall of the insertion hole 3a, so that poor contact is less likely to occur.

FIG. 4 shows a thin battery of the present invention having another terminal portion A2. The terminal portion A2 is composed of a box-shaped resin mold body 3 having one opening as a whole and a terminal body 3b fixed to the inner wall of the resin molded body 3 by molding, and the terminal portion A2 is formed on the upper surface of the circuit board 1B. It is mounted at a predetermined position. Then, on one side of the upper case 1C,
Cut portion 1b having substantially the same shape as the outer shape of terminal portion A2
Are formed.

Therefore, when the pack structure is assembled,
As shown in FIG. 5, on one side of the thin battery, the front surface of the terminal portion A2 is present as a recess, and the terminal body 3b is located therein.
Will be expressed. The terminal portion B2 of the device main body that engages with the terminal portion A2 has, for example, the following structure as shown in FIG.

The terminal portion B2 is composed of a pair of terminals 4, 4 arranged above and below at a predetermined interval, and the vertical interval between the pair of terminals 4, 4 is the terminal portion A.
2 is slightly smaller than the thickness of the lower case 1D side. When the thin battery 1 is mounted by sliding on the device main body 2, the lower case side portion of the terminal portion A <b> 2 of the battery 1 is sandwiched between the pair of terminals 4 and 4. Due to the elasticity of the pair of terminals 4 and 4, the terminal main body 3b of the terminal portion A2 and the upper terminal 4 of the terminal portion B2 are pressed and engaged with each other to form an integrated structure.

FIG. 7 shows still another thin battery. In this thin battery, a circuit board 1B is formed into a projecting shape 1c at the center thereof, and a terminal main body 3b is formed there. On the side, a concave portion 1d is formed so as to cover the back and side portions of the protruding portion 1c during the entire assembly. Therefore, when the whole is assembled, a terminal portion having the same structure as that of the terminal portion A2 shown in FIG. 5 is formed. Therefore, also in the case of this thin battery, by adopting the terminal portion B2 as shown in FIG. 6 as the terminal portion on the device body side, an integrated structure in which both terminal portions are engaged when the battery is mounted is formed. can do.

FIG. 8 is a diagram showing an example of a terminal portion A3 formed on another thin battery of the present invention. This terminal part A3
Are three slits 3c with front, lower and upper openings
And a terminal body 3b disposed in the slits 3c, and the terminal A3 is mounted on the lower surface of the circuit board 1B.

The terminal body 3b has a spring structure having _two terminal pieces 3b ₁ and 3b ₂ which are branched from the tip piece 3d and face each other. This is indicated by arrows in the figure in the slit portion 3c. The tip piece 3d is positioned above the upper opening of the resin mold body 3 and connected to a terminal (not shown) of the circuit board 1B, and the two terminal pieces 3b ₁ , 3
b ₂ is fixed in the slit portion by boundary walls 3e and pressure of each slit portions at its spring pressure.

Then, as shown in FIG. 9, the resin molded body 3 is mounted on the lower surface of the circuit board 1B, and the notch is formed so that the lower part of the resin molded body 3 is exposed during the entire assembly. The thin battery is assembled by arranging it in the lower case 1D in which 1e is formed, and further arranging the upper case 1D in which the cut portion 1d is formed. Therefore, in the assembled thin battery, as shown in FIG. 10, the front portion of the resin mold body 3 is exposed from the cut portion of the upper case 1 </ b> C of the battery 1, and the cut portion formed on the rear surface of the lower case 1 </ b> D. From above, a terminal portion A3 in which the lower portion of the resin mold body 3 is exposed is formed.

As shown in FIG. 11, the terminal portion B3 of the main body of the device, which engages with the terminal portion A3, comprises a plate-shaped terminal 4 protruding from a surface of the terminal portion A3 facing the terminal piece 3b. . The thickness of the terminal 4 is the same as that of the terminal piece 3 described above.
It is slightly larger than the interval between b ₁ and 3b ₂ . When the battery 1 is mounted on the main body of the device, the terminal 4 is inserted between the terminal strips 3b ₁ and 3b ₂ in the terminal portion A3, but this terminal is sandwiched by the elasticity of the boundary wall 3e of the resin mold body 3. As a result, a pair of terminal pieces 3b ₁ and 3b ₂ are engaged with each other to form an integrated structure.

In the case of the terminal portion A3, since a slit is also exposed on the back side of the lower case, as shown in FIG. The terminal 4 can also be engaged with the slit portion exposed in FIG. FIG. 13 is a drawing showing another thin battery of the present invention. The terminal portion A4 of the thin battery is obtained by extracting a lead wire 3f from the battery 1 and connecting a lead 3g made of a resin mold in which a terminal body (not shown) is integrally formed. And a terminal to be engaged with the connector 3g is formed on the device body side,
An integrated structure can be assembled by fitting them together.

In each of the above examples, the terminal portion is formed in one stage. However, the terminal portion in the present invention is not limited to this mode, and the insertion holes are formed in two stages, upper and lower. The formed structure may be used.

[0026]

As is apparent from the above description, the thin battery of the present invention is designed so that its terminals engage with the terminals of the main body of the apparatus to form an integrated structure. Even if the thin battery or the device main body is deformed by bending or the like due to an external force, poor contact between the two terminal portions does not occur, and the battery has high reliability as a device mounting battery. .

Further, since the terminal main body in the terminal portion on the battery side is not exposed to the surface, external short-circuiting due to contact with a metal article hardly occurs, and furthermore, contamination due to sweat or the like hardly occurs.

[Brief description of the drawings]

FIG. 1 is a schematic side view showing a state in which a thin battery is mounted on a device main body.

FIG. 2 is an exploded perspective view showing an example of the thin battery of the present invention.

FIG. 3 is a partial perspective view showing a device main body provided with a terminal portion B1 corresponding to the terminal portion A1 of the thin battery of FIG. 2;

FIG. 4 is an exploded perspective view of a thin battery including another terminal portion A2.

FIG. 5 is a partial perspective view showing an example of the thin battery of FIG. 4 assembled.

FIG. 6 is a terminal section B of a device main body on which the thin battery of FIG. 4 is mounted.
FIG.

FIG. 7 is an exploded perspective view showing still another thin battery of the present invention.

FIG. 8 is an exploded perspective view for explaining another battery-side terminal portion A3.

FIG. 9 is an exploded perspective view showing a thin battery having the terminal portion A3 of FIG.

FIG. 10 is a partial perspective view showing a terminal portion in the thin battery of FIG. 9;

FIG. 11 is a terminal portion B3 of the device main body with which the terminal portion A3 is engaged.
FIG.

12 is a schematic side view showing an example of a state in which the thin battery of FIG. 9 is mounted on a device main body.

FIG. 13 is a partial perspective view showing another thin battery of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Thin battery 1A Battery main body 1B Circuit board 1C Upper case 1D Lower case 1a Lead 1b Cut portion 1c Projection portion of circuit board 1d Upper case recess 1e Cut portion of lower case 1D 2 Device main body 3 Resin molded body 3a Insert hole 3b Terminal body 3c Slit portion 3d Tip piece of terminal body 3b 3e Boundary wall between slit portions 3c 4 Terminal on device side A1, A2, A3, A4 Terminal portion on battery side B1, B2, B3, B4 Terminal on device side Department

Claims (2)

[Claims] 1. A thin battery having a pack structure removably mounted as a drive power source on a main body of an electronic device, wherein a terminal portion of the thin battery and a terminal portion of the device main body are engaged with each other and integrally formed. Wherein the terminal portion on the battery side comprises a terminal body and a resin mold body for fixing the terminal body. 2. The electronic device is a mobile phone or a PDA.
The thin battery having a pack structure according to claim 1, which is a (personal digital assistant).