JP5335353B2 - Battery packaging container and battery package - Google Patents

Description

  The present invention relates to a battery packaging container and a battery package.

In recent years, with the widespread use of mobile devices such as mobile phones and digital cameras, batteries used as these power sources are increasingly used.
The battery is stored in a blister pack made of translucent resin so that the buyer can visually recognize the battery when selling at the store, and in this state, the pack is sold on a hook. ing. In addition, in the sale of a battery, although it may be sold in a single unit, a plurality of batteries may be stored in one blister pack in consideration of the actual use and convenience in the distribution stage. Many. The battery blister pack is proposed in, for example, Patent Documents 1 to 3.

In Patent Documents 1 to 3, a shallow dish-shaped tray portion having a cup portion for storing a battery and a cover portion covering the opening of the tray portion are combined by engagement or pasting with an adhesive tape or the like. Blister packs have been proposed. And in the tray part, in order to prevent the battery accommodated during conveyance etc. from moving inside, the cup part is divided according to the external shape of the battery.
JP 2000-7024 A JP 2003-252370 A JP 2005-126103 A

However, in the blister packs including those proposed in Patent Documents 1 to 3, the tray part and the cover part are in close contact with each other, so if the blister pack is accidentally dropped, The impact is transmitted along the tray wall to the battery stored inside.
Here, in the battery, the connection between the electrode body housed inside and the battery terminal is made with a tab which is a metal foil having a band shape or the like, and when a strong impact is applied from the outside, the tab is May be cut off. In addition, the separator interposed between the positive electrode plate and the negative electrode plate in the electrode body may be damaged by impact. As described above, since the battery may not be used when it receives a strong impact from the outside, it is necessary to prevent the battery from being subjected to a strong impact including during transportation.

  The present invention has been made in view of the above-described problem, and is capable of reliably protecting a battery stored in the battery while preventing damage to itself against an external impact during transportation or the like. An object of the present invention is to provide a packaging container and a battery package.

In order to achieve the above object, the present invention adopts the following configuration.
In the battery packaging container according to the present invention, a battery storage space is formed inside by assembling the tray and the cover. In the battery packaging container according to the present invention, the tray has a shallow dish shape having a battery storage portion formed in a cup shape and a flange-shaped edge portion provided on the outer edge of the battery storage portion. The cover is formed so as to cover the battery storage portion and the edge portion of the tray.

In the battery packaging container according to the present invention, on the line connecting at least a part of the outer edge of the edge of the cover and the battery storage part of the tray with the shortest distance, a buffering part for reducing impact from the outside is provided. It is characterized by that.
In the battery packaging container according to the present invention, the tray and the cover may be formed continuously by sharing one side, or the tray and the cover may be formed as separate parts.

  Further, the battery package according to the present invention is one in which one or a plurality of batteries are housed in a packaging container, and the battery packaging container according to the present invention is used as the packaging container. And

  As described above, in the battery packaging container according to the present invention, the shock absorbing buffer is provided on the line connecting at least a part of the outer edge of the edge of the cover and the battery storage part of the tray at the shortest distance. ing. For this reason, in the battery packaging container according to the present invention, even if the packaging container in which the battery is stored is accidentally dropped during transportation or the like, it is buffered in the path through which the impact from the outside is transmitted. By providing the part, the internal battery and the packaging container are not damaged.

As described above, in the case of the battery packaging container according to the present invention, when the battery packaging container containing the battery is accidentally dropped by providing a buffer in the path through which the impact is transmitted. Even if it exists, transmission of the impact force to a battery can be suppressed and damage to a packaging container can be suppressed.
In addition, about the location which provides a buffer part, according to the storage form etc. of a battery, it is desirable to provide according to the location with the high probability of grounding at the time of the fall in a cover and a tray, or a location equivalent to this.

Since the battery package according to the present invention includes the battery packaging container according to the present invention, the same effect as described above can be obtained.
In the battery packaging container and the battery package according to the present invention, the following variations can be adopted as an example.
In the battery packaging container and the battery package according to the present invention described above, at least a part of the outer side of the cover protrudes outward from the corresponding part of the edge of the tray, and the buffering part includes the protruding part of the cover and the tray. It is possible to adopt a configuration in which it is provided on a line connecting the battery storage unit in the shortest distance. As a result, when falling, the cover first hits the floor or the ground, and the impact is not directly transmitted to the tray having the battery storage portion.

  In the battery packaging container and the battery package according to the present invention, a wall surface standing from the main surface of the edge portion is formed at the boundary portion between the battery storage portion and the edge portion in the tray, while the tray is raised in the cover. Standing wall surfaces that face each other when assembled are formed at locations corresponding to the portions where the wall surfaces are formed. In the case of adopting such a configuration, a gap as a buffer portion is provided between the rising wall surface of the tray and the rising wall surface of the cover on a line connecting the protruding portion of the cover and the battery storage portion of the tray with the shortest distance. Can be adopted.

In the battery packaging container and the battery package according to the present invention, the tray and the cover can be assembled by fitting the unevenness provided on the standing wall surfaces.
In the battery packaging container and the battery package according to the present invention, a sponge or the like can be inserted as the buffer portion. However, if the buffer portion is configured with a gap, the cost and weight are reduced. From the point of view, and from the viewpoint of decorativeness and the like, it is superior to the case of renovating a sponge or the like.

  Moreover, in the battery packaging container and the battery package according to the present invention, the tray and the cover have a rectangular shape with R (curvature) at corner portions when they are viewed in plan. In this case, a configuration is adopted in which the radius of curvature of the corner portion of the cover is set to be smaller than the radius of curvature of the corner portion of the tray, and the protruding portion of the cover is configured with the difference in the radius of curvature of the corner portions. be able to. If the protruding portion of the cover is configured in such a form, it is excellent from the viewpoint of decorativeness, and the safety during transportation can be improved.

  Further, in the battery packaging container and the battery package according to the present invention, as described above, the corner portions of the cover and the tray are provided with a curvature (R is added to the corner portion), and the cover protrudes into the corner portion as described above. In the case of forming the portion, a configuration in which a buffer portion is provided on a line connecting the corner portion of the tray and the cover and the battery storage portion of the tray with the shortest distance can be employed. In addition, the projecting part is provided at the corner part because of the experimental and empirical viewpoint that when the battery packaging container containing the battery is dropped, the corner part of the container is easily grounded first. is there.

  Further, in the battery packaging container and the battery package according to the present invention, both the tray and the cover can be formed of a resin material, and at least one of the tray and the cover can have light transmissivity. In the case of adopting such a configuration, when the battery packaging container containing the battery is displayed at the storefront, the purchaser can easily identify the battery contained, and the surface of the battery It has excellent decorativeness due to its design.

In the battery packaging container and the battery package according to the present invention, a configuration in which at least the outer surfaces of the tray and the cover are subjected to antibacterial treatment can be employed. When such a configuration is adopted, even when a large number of people are touched at the transport stage or the like, the purchaser can take the battery package with peace of mind.
Further, in the battery package according to the present invention, there is no limitation on the type or form of the battery accommodated in the interior, but this is particularly effective for obtaining the above-described effect when the nickel hydride secondary battery is accommodated. . That is, the nickel-metal hydride secondary battery is simply larger in weight per volume than the manganese primary battery, nickel cadmium secondary battery, and lithium secondary battery, and the impact force when the package is dropped depends on the weight. This is because it becomes larger.

Hereinafter, the best mode for carrying out the present invention will be described with reference to an example. The embodiment used in the following description is an example used to explain the configuration, operation, and effect of the present invention in an easy-to-understand manner, and the present invention is not limited to the following form other than its essential part. It is not something to receive.
[Embodiment 1]
1. Configuration of Battery Package 1 A battery package 1 according to the present embodiment will be described with reference to FIG.

As shown in FIG. 1, the battery package 1 is comprised from the blister pack 10 as a packaging container, and the some battery 20 accommodated in the inside. Among these, the battery 20 has a cylindrical external shape, and is, for example, a nickel metal hydride secondary battery.
The blister pack 10 is composed of a combination of a tray 12 and a cover 11. In the tray 12, a cup-shaped battery storage portion 12a having a depth in the Z-axis direction and an edge portion 12b provided in a flange shape on the outer edge thereof are integrally configured. As shown in FIG. 1, in the tray 12, a ridge-like portion is formed at the boundary portion between the battery storage portion 12 a and the edge portion 12 b so as to surround the opening edge of the battery storage portion 12 a. The part 12c is configured with a curvature (R).

A partition functioning as a holder for suppressing the movement of the stored battery 20 is provided from the bottom surface of the battery storage portion 12 a in the tray 12.
On the other hand, when the cover 11 is attached to the tray 12, a portion facing the battery storage portion 12a bulges (bulge portion 11a), and a flange-like edge portion on the outer edge of the bulge portion 11a. 11b is integrally formed. Also in the standing wall which becomes a side wall in the bulging portion 11a, the standing wall corner portion 11c is configured with a curvature (R).

In the blister pack 10 of the battery package 1 according to the present embodiment, the tray 12 and the cover 11 are both made of a resin material having optical transparency. Further, the tray 12 and the cover 11 have at least the outer surfaces subjected to antibacterial processing.
2. Configuration of Tray 12 and Cover 11 The configuration of the tray 12 and the cover 11 constituting the blister pack 10 will be described with reference to FIG. 2A is a plan view showing the configuration of the tray 12, FIG. 2B is a cross-sectional view showing the AA ′ cross section thereof, and FIG. 2C is a plan view showing the configuration of the cover 11. (D) is sectional drawing which shows the BB 'cross section.

As shown in FIG. 2A, when viewed in plan, the tray 12 is configured such that each edge corner portion 12d on the outer side of the edge portion 12b has a curvature (R). The curvature radii R2 of the _two edge corners 12d on the lower side in the X-axis direction are set to 13 [mm], for example. Further, as described above, the standing wall corner portion 12c is also configured with a curvature (R). The radius of curvature _{R 1} of the upright wall angle portion 12c at two locations in the X-axis direction lower side, for example, is set to 12 [mm]. The battery storage portions 12a are divided into two rows in the X-axis direction, and six batteries 20 are stored in each row, and a total of 12 batteries 20 are stored. Battery 20 is an AA battery in the present embodiment.

As shown in FIG. 2B, the outer surface 12g of the bottom wall of the battery storage portion 12a in the tray 12 is flat and is formed to be substantially parallel to the edge portion 12b.
Returning to FIG. 2A, in the tray 12, two engaging recesses 12 e are formed in the portion extending in the X-axis direction on the standing wall. The engaging recess 12e is recessed from the outer surface side of the standing wall toward the battery storage portion 12a in the Y-axis direction. Further, the tray 12 is provided with a hook hole (hook hole portion 12f) at the top of the X-axis.

As shown in FIG. 2C, the cover 11 is formed with a flange-like edge portion 11b so as to surround the bulging portion 11a when viewed in plan. Then, each edge corner 11d of the outer-edge of the edge portion 11b is configured curvature (R) I hereinafter, the radius of curvature R ₄ of the edge corner 11d of the two positions of the X-axis direction lower side, for example, , 7 [mm].
As for the upright wall corner 11c, as described above, is configured curvature (R) I hereinafter, the radius of curvature R ₃ of two places in the X-axis direction lower side, for example, to 6 [mm] Is set.

As shown in FIG. 2 (d), the bulging portion 11a is provided so as to allow the battery 20 to escape in the radial direction in the Z-axis direction, and its bottom wall outer surface 11g is planar, It is formed so as to be substantially parallel to the portion 11b.
Returning to FIG. 2C, in the cover 11, an engaging convex portion 11 e corresponding to the engaging concave portion 12 e of the tray 12 is formed on the standing wall around the bulging portion 11 a. The engagement convex portion 11e is formed to protrude from the standing wall toward the bulging portion 11a in the Y-axis direction. The cover 11 is also provided with a hook hole (hook hole portion 11f) in the upper portion of the X-axis so as to overlap the hook hole portion 12f when engaged with the tray 12.

3. Advantage of Battery Package 1 Comprising Blister Pack 10 The advantage of battery package 1 according to the present embodiment will be described with reference to FIG. FIG. 3 is a plan view showing a part of the blister pack 10 extracted.
As shown in FIG. 3, in the blister pack 10, the edge 11d of the cover 11 is formed with a radius of curvature R ₄ (for example, 7 [mm]) as described above. On the other hand, the corresponding edge portion 12d of the tray 12 is formed with a curvature radius R ₂ (for example, 13 [mm]). In the blister pack 10, the edge portions 11 d and 12 d of the cover 11 and the tray 12 are formed with a relationship of (R ₄ <R ₂ ), and as a result, as shown in FIG. The edge corner portion 11 d protrudes with respect to the edge corner portion 12 d of the tray 12.

In the blister pack 10 having the relationship between the edge corner portion 11d of the cover 11 and the edge corner portion 12d of the tray 12, the impact force F is first applied to the cover 11 when it is accidentally dropped. It will be.
As described above, in the blister pack 10, the rising wall corner portion 11 c of the cover 11 is formed with a curvature radius R ₃ (for example, 6 [mm]). On the other hand, the corresponding upright wall corner 12c of the tray 12 is formed with a curvature radius R ₁ (for example, 12 [mm]). In the blister pack 10, the rising wall corners 11 c and 12 c of the cover 11 and the tray 12 are formed with a relationship of (R ₃ <R ₁ ), whereby a gap is formed between the cover 11 and the tray 12. (Gap 10a) is provided.

  The gap 10a is formed on a line connecting the edge corner portion 11d of the cover 11 and the battery storage portion 12a of the tray 12 with the shortest distance when the blister pack 10 is viewed in plan. Therefore, even when the blister pack 10 (battery package 1) containing the battery 20 is accidentally dropped as described above, the impact force input from the edge corner portion 11d of the cover 11 is weakened by the gap 10a. It will be. That is, in the battery package 1, the gap 10 a functions as a buffer portion against an external impact.

  As described above, in the battery package 1, even when the battery package 1 is accidentally dropped, the impact force F is input from the edge corner portion 11d of the cover 11 and then weakened by the gap 10a as the buffer portion. Is transmitted only to the tray 12. For this reason, in the battery package 1 including the blister pack 10 having the above-described configuration, it is possible to reliably protect the battery 20 that is housed even against an impact received during transportation. Further, in the battery package 1 according to the present embodiment, by providing the gap 10a, damage to the blister pack 10 itself at the time of dropping can be suppressed.

Further, in the blister pack 10 according to the present embodiment, the cover 11 and the tray 12 are made of a light-transmitting resin material, so that the stored battery 20 is visible from the outside of the blister pack 10. It is excellent from the viewpoints of product identification and decoration.
Furthermore, since the outer surfaces of the cover 11 and the tray 12 are antibacterial treated, even if the battery package 1 is touched by a large number of people during transportation or the like, the purchaser can safely hold it. can do.
[Embodiment 2]
1. Configuration of Battery Package 2 The configuration of the battery package 2 according to Embodiment 2 will be described with reference to FIG. In the following, description will be made centering on differences from the first embodiment, and detailed description of the same components will be omitted.

As shown in FIG. 4, in the battery package 2 according to the present embodiment, a total of eight batteries 40 are housed inside the blister pack 30 composed of a combination of a cover 31 and a tray 32. . For this reason, the tray 32 and the cover 31 are narrower in the Y-axis direction than the tray 12 and the cover 11 of the first embodiment.
Similar to the tray 12, the tray 32 is formed by integrally forming a battery storage portion 32 a and an edge portion 32 b. Further, the cover 31 is formed by integrally forming a bulging portion 31a and an edge portion 31b bulging in the Z-axis direction. The tray 32 and the cover 31 are both made of a resin material and have light transmittance.

In the present embodiment, an AAA type battery is employed as the battery 40.
2. Configuration of Tray 32 and Cover 31 Each configuration of the tray 32 and the cover 31 will be described with reference to FIG. FIG. 5A is a plan view showing the configuration of the tray 32, and FIG. 5B is a plan view showing the configuration of the cover 31.

As shown in FIG. 5 (a), also in the tray 32, similarly to the tray 12, the edge corner portion 32d has a curvature (R), and the standing wall corner portion 32c also has a curvature (R). It is configured with. Of the edge corner portion 32d, two edge corner portions 32d on the lower side in the X-axis direction are configured with a radius of curvature R ₆ (for example, 13 [mm]). Of the standing wall corners 32c, the two standing wall corners 32c on the lower side in the X-axis direction are configured with a radius of curvature R ₅ (for example, 12 [mm]).

The tray 32 also has a total of four engagement recesses 32e formed on the standing wall, and a hook hole (hook hole 32f) is formed in the upper portion in the X-axis direction.
Next, as shown in FIG. 5 (b), the cover 31 has an edge corner portion 31d having a curvature (R), and the peripheral wall of the bulging portion 31a. A corner (standing wall corner) 31c of a certain standing wall is also configured with a curvature (R). In the cover 31, two edge corners 31d on the lower side in the X-axis direction among the edge corners 31d are configured with a radius of curvature R ₈ (for example, 7 [mm]). Of the standing wall corners 31c, the two standing wall corners 31c on the lower side in the X-axis direction are configured with a radius of curvature R ₇ (for example, 6 [mm]).

As described above, in the blister pack 10, the edge portions 31d and 32d of the cover 31 and the tray 32 are formed with the relationship of (R ₈ <R ₆ ) as in the first embodiment. Thus, the edge corner portion 31 d of the cover 31 protrudes outward with respect to the edge corner portion 32 d of the tray 32. Therefore, also in the blister pack 30 according to the present embodiment, when the battery 40 is accidentally dropped with the battery 40 stored, an impact force is first applied to the edge corner portion 31d of the cover 31. .

Also in the blister pack 30, the curvature radius R ₇ of the rising wall corner portion 31 c in the cover 31 and the curvature radius R ₅ of the standing wall corner portion 32 c in the tray 32 have the relationship (R ₇ <R ₅ ). Since the cover 31 and the tray 32 are formed, a gap as a buffer portion is provided between the cover 31 and the tray 32 as in the first embodiment.
Also in the battery package 2 according to the present embodiment, the buffer portion in the blister pack 30 has the shortest distance between the edge corner portion 31d where the cover 31 protrudes from the tray 32 and the battery storage portion 32a of the tray 32. It is formed on the connecting line.

3. Advantages of battery package 2 provided with blister pack 30 The blister pack 30 according to the present embodiment also has the same configuration as the blister pack 10 according to the first embodiment in the shock absorbing structure against the external impact force. Therefore, the same effect as described above can be obtained. That is, even when the battery package 2 is accidentally dropped, the impact force is input from the edge corner portion 31d of the cover 31 and then weakened by the gap between the cover 31 serving as a buffer portion and the tray 32. Then, it is transmitted to the tray 32. For this reason, in the battery package 2 including the blister pack 30 having the above-described configuration, it is possible to protect the blister pack 30 and the battery 40 accommodated therein even against an impact received during transportation.
[Other matters]
The first embodiment and the second embodiment are examples used for easily explaining the configuration of the present invention. Therefore, the present invention is not limited to the first and second embodiments except for the essential part. For example, the number of storage batteries is 12 in Embodiment 1 and 8 in Embodiment 2, but the number of storage batteries may be 1 or 13 or more. Also good.

  In the first embodiment and the second embodiment, among the four corners 11d and 31d of the covers 11 and 31, the two corners 11d and 31d on the lower side in the X-axis direction correspond to this. However, this form may be applied to the edge corners 11d and 31d of all the four covers 11 and 31. Is possible.

  Moreover, all the locations of the outer sides of the edge portions 11b and 31b of the covers 11 and 31 may protrude outward from the outer sides of the edge portions 12b and 32b of the trays 12 and 32, and the edge corner portions. It can also be set as the structure which protrudes only parts other than 11d and 31d. The locations of the covers 11 and 31 to be protruded can be determined by analyzing the mode related to the dropping of the battery package in accordance with the storage form of the batteries 20 and 40.

  Further, the corners 11d, 31d, 12d, and 32d of the covers 11 and 31 and the trays 12 and 32 do not necessarily have to have a curvature, and may have a form with a corner or a taper cut. . In the first embodiment and the second embodiment, the covers 11 and 31 and the trays 12 and 32 are separate parts. However, the cover and the tray may be formed continuously. Specifically, a configuration is adopted in which the cover and the tray are formed so as to share one side of each other, and after the battery is stored in the battery storage unit, the cover is overlapped on the tray so as to be folded back on the one side. You can also.

In the first embodiment and the second embodiment, the gap 10a is formed between the covers 11 and 31 and the trays 12 and 32 as a buffer portion for reducing the impact from the outside. It is also possible to adopt a configuration in which a sponge or rubber is sandwiched. However, from the viewpoint of suppressing an increase in cost, it is desirable to configure the buffer portion with a gap.
Further, in Embodiment 1 and Embodiment 2 described above, the cylindrical nickel-metal hydride secondary battery is a storage battery, but the shape of the battery and the type of battery are not limited thereto. For example, the present invention can be applied to a battery package containing a square type or coin type battery, or a battery package containing a manganese primary battery, a nickel cadmium battery, or a lithium ion battery. The present invention can also be applied.

Moreover, in Embodiment 1 and Embodiment 2 described above, a resin material is used as a constituent material of the covers 11 and 31 and the trays 12 and 32, and the material is light transmissive. However, paper or metal material can be used, and light transmission is not an essential requirement.
Furthermore, in Embodiment 1 and Embodiment 2 described above, the edge corners 11d and 31d at the two lower sides of the edges 11b and 31b of the covers 11 and 31 are the corresponding edge corners 12d and 32d of the trays 12 and 32, respectively. Although a form that protrudes outward is employed, this configuration is not necessarily essential. For example, even if the edges 12b and 32b of the trays 12 and 32 are processed into an accordion shape, the impact from the outside can be reduced. In this case, the corresponding portions of the edge portions 12b and 32b of the trays 12 and 32 processed into an accordion shape function as buffer portions.

  INDUSTRIAL APPLICABILITY The present invention is useful for realizing a battery packaging container and a battery package capable of reliably protecting a battery housed inside even against an impact received during transportation.

1 is a developed perspective view showing a schematic configuration of a battery package 1 according to Embodiment 1. FIG. FIG. 5 is a plan view and a cross-sectional view showing the configuration of the tray 12, and a plan view and a cross-sectional view showing the configuration of the cover 11. 3 is a plan view showing a relative positional relationship between a tray 12 and a cover 11 at a corner portion of the blister pack 10. FIG. 6 is a developed perspective view showing a schematic configuration of a battery package 2 according to Embodiment 2. FIG. FIG. 5 is a plan view and a sectional view showing the configuration of the tray 32, and a plan view and a sectional view showing the configuration of the cover 31.

Explanation of symbols

1,2. Battery package 10,30. Blister pack 11,31. Cover 12,32. Tray 20, 40. battery

Claims (9)

A battery packaging container in which a storage space for a battery is formed inside by assembling a tray and a cover,
The tray has a shallow dish shape having a battery storage portion formed in a cup shape and a flange-shaped edge portion provided on an outer edge of the battery storage portion,
The cover is formed in a state of covering the battery storage portion and the edge portion in the tray,
On a line connecting at least a part of the outer edge of the edge of the cover and the battery storage part of the tray at the shortest distance, a buffer part for reducing impact from the outside is provided ,
The tray is configured with a wall surface standing up from a main surface of the edge portion at a boundary portion between the battery storage portion and the edge portion,
In the cover, in the portion corresponding to the portion where the standing wall surface of the tray is formed, the standing wall surface facing each other when assembled is formed,
On the line connecting the protruding portion of the cover and the battery storage portion of the tray with the shortest distance, a gap is formed as the buffer portion between the standing wall surface of the tray and the standing wall surface of the cover. A battery packaging container characterized by the above. At least a part of the outer side of the cover protrudes outward from a corresponding part of the edge of the tray,
2. The battery packaging container according to claim 1, wherein the buffer portion is provided on a line connecting the protruding portion of the cover and the battery storage portion of the tray at a shortest distance. The battery packaging container according to claim 1 , wherein the tray and the cover are assembled by concavity and convexity provided on each standing wall surface. A battery packaging container in which a storage space for a battery is formed inside by assembling a tray and a cover,
The tray has a shallow dish shape having a battery storage portion formed in a cup shape and a flange-shaped edge portion provided on an outer edge of the battery storage portion,
The cover is formed in a state of covering the battery storage portion and the edge portion in the tray,
On a line connecting at least a part of the outer edge of the edge of the cover and the battery storage part of the tray at the shortest distance, a buffer part for reducing impact from the outside is provided ,
At least a part of the outer side of the cover protrudes outward from a corresponding part of the edge of the tray,
The buffer portion is provided on a line connecting the protruding portion of the cover and the battery storage portion of the tray with the shortest distance ,
The tray and the cover, when viewed in plan, have a rectangular shape with Rs attached to the corners.
The radius of curvature of the corner portion of the cover is set smaller than the radius of curvature of the corner portion of the tray,
A projecting portion of the cover is configured by a difference between a radius of curvature of the corner portion of the cover and a radius of curvature of the corner portion of the tray. 5. The battery packaging container according to claim 4 , wherein the buffer portion is provided on a line connecting the corner portion of the tray and the cover and the battery storage portion with a shortest distance. The tray and the cover are both formed of a resin material,
The tray and at least one of the cover, the battery packaging container according to any one of claims 1 to 5, characterized in that it comprises an optical transparency. The battery packaging container according to any one of claims 1 to 6 , wherein at least an outer surface of the tray and the cover is subjected to antibacterial treatment. A battery package in which one or more batteries are housed in a packaging container,
The battery package according to any one of claims 1 to 7 is used as the packaging container. The battery package according to claim 8 , wherein a nickel hydride secondary battery is applied as the battery.

Images