JP6755818B2 - Battery unit - Google Patents

Description

The present invention relates to a battery unit containing a secondary battery, and more particularly to a battery unit suitable for suppressing use when an abnormality occurs in the secondary battery.

It is known that a secondary battery such as a lithium ion secondary battery or a lithium polymer secondary battery expands due to a change in internal pressure due to repeated charging and discharging. This expansion itself is also caused by normal use, but if an abnormality occurs in the battery, the expansion rate will be large, and if it is used as it is, there is a risk of causing heat generation or explosion. is there.

Therefore, when an abnormality occurs in the secondary battery, various techniques for notifying the fact and stopping the use thereof have been proposed. For example, in Patent Documents 1-3, a detection means such as a pressure sensor is provided in an area accommodating a secondary battery, and when the expansion of the secondary battery is detected by this detection means, the occurrence of an abnormality is notified or the secondary battery is notified. A technique for controlling the power supply from the battery to the outside is disclosed.

Further, Patent Document 4 discloses a technique of opening the cover of the casing accommodating the secondary battery and stopping its use when the secondary battery expands abnormally. As a specific method thereof, as in Patent Document 1-3, in addition to electrical control via a sensor, a mechanical unlocking mechanism via a link mechanism is disclosed.

JP-A-2002-117911 Japanese Unexamined Patent Publication No. 2012-195143 Japanese Unexamined Patent Publication No. 2016-27539 Japanese Unexamined Patent Publication No. 2008-226496

Certainly, if the technology is as disclosed in the above patent document, it is considered that the danger caused by using the secondary battery in which the abnormality has occurred can be avoided. However, when a sensor is used to stop the use of the secondary battery as in the technique disclosed in Patent Document 1-3, the mechanism becomes complicated and the heat generated by the secondary battery is caused. Then, if a problem occurs in the sensor itself, there is a possibility that the abnormality cannot be detected.

Further, as in the technique disclosed in Patent Document 4, when the casing cover is opened when an abnormality occurs in the secondary battery, heat generation or expansion is caused by the occurrence of the abnormality. There is a risk of coming into direct contact with the next battery.

Therefore, an object of the present invention is to provide a battery unit having a structure that does not use an electric signal such as a sensor and that can safely notify the user when an abnormality occurs in the secondary battery.

The battery unit according to the present invention for achieving the above object is a battery unit that can be attached and detached for making an electrical connection to a charger and an electronic device, and is a secondary battery and the secondary battery. The casing has a casing provided with an external terminal electrically connected to the secondary battery while covering the battery, and a secondary battery holding portion for holding the secondary battery inside the casing. When an abnormality occurs in the secondary battery, an indicator pin is provided that protrudes to the outside of the casing due to expansion of the secondary battery and prevents electrical connection by the external terminal. ..

Further, in the battery unit having the above-mentioned characteristics, the indicator pin is arranged between the secondary battery and the secondary battery holding portion, and protrudes to the outside through a hole provided in the casing. It is good to say. According to such a feature, when the secondary battery abnormally expands, the indicator pin can be surely projected to the outside of the casing.

Further, in the battery unit having the above-mentioned characteristics, the indicator pin has a pin and a flange, and the flange is arranged on a contact surface with the secondary battery, and between the flange and the secondary battery holding portion. It is preferable that the indicator pin is provided with an urging means for pressing the indicator pin toward the secondary battery side. By having such a feature, it is possible to prevent the indicator pin from protruding to the outside of the casing due to the weight of the secondary battery or the like when the secondary battery is not abnormally expanded.

Further, the battery unit having the above-mentioned characteristics is provided with a key mark for recognizing connection compatibility on the connection surface with the charger or the electronic device, and the indicator pin protrudes at a position where the key mark is changed. It is good to have a configuration that does. By having such a feature, it is possible to prevent an erroneous connection of an incompatible battery unit.

Further, in the battery unit having the above-mentioned characteristics, the indicator pin may be configured so as not to protrude to the outside of the casing due to expansion due to charging / discharging during normal use of the secondary battery. By having such a feature, the battery unit will not become unusable under normal usage conditions.

Further, in the battery unit having the above-mentioned characteristics, the casing is configured to form an electrical connection of the external terminal via a slide mechanism, and the indicator pin prevents the slide operation by the slide mechanism. It can be hooked on the electronic device main body or the charger. By having such a feature, the user can notice that the secondary battery has an abnormality before the connection of the battery unit to the charger or the electronic device is completed.

Further, in the battery unit having the above-mentioned characteristics, the casing is configured to form an electrical connection of the external terminal via a fitting mechanism, and the indicator pin prevents the connection operation by the fitting mechanism. It can be configured to come into contact with the electronic device main body or the charger. By having such a feature, the user can notice that the secondary battery has an abnormality before the connection of the battery unit to the charger or the electronic device is completed.

According to the battery unit having the above-mentioned characteristics, although it has a structure that does not use an electric signal such as a sensor, it is possible to safely and surely notify the user when an abnormality occurs in the secondary battery. It will be possible.

It is a figure which shows the cross-sectional structure of the battery unit which concerns on embodiment, and the charger to which it connects. It is a figure for demonstrating expansion of a secondary battery and movement of an indicator pin. It is a figure which shows the state of connecting the battery unit in a normal state of a secondary battery to a charger. It is a figure which shows the state of connecting a battery unit in a state where a secondary battery is abnormally expanded to a charger. It is a figure which shows the state of connecting the battery unit of the form which adopted the fitting mechanism as a connection form to a charger. It is a figure which shows the structure of the side cross section of the battery unit which concerns on Example. It is a figure which shows the structure of the bottom surface of the battery unit which concerns on Example. It is a figure which shows the structure of the side cross section of the charger which connects a battery unit. It is a figure which shows the structure of the plane of the charger which connects a battery unit. It is a side sectional view which shows the state which connected the battery unit which the secondary battery is in a normal state to a charger. It is a side sectional view which shows the state of connecting a battery unit in a state where a secondary battery is abnormally expanded to a charger.

Hereinafter, embodiments of the battery unit of the present invention will be described in detail with reference to the drawings.
[Embodiment: Slide type]
First, the battery unit of the present invention will be described with reference to FIGS. 1 to 4. In the drawings, FIG. 1 is a diagram showing a cross-sectional configuration of a battery unit according to an embodiment and a charger to be connected. FIG. 2 is a diagram for explaining the expansion of the secondary battery and the movement of the indicator pin. FIG. 3 is a diagram showing a state in which a battery unit in which the secondary battery is in a normal state is connected to the charger. FIG. 4 is a diagram showing a state in which a battery unit in a state in which the secondary battery is abnormally expanded is connected to the charger.

The battery unit 10 according to the present embodiment has a secondary battery 12 and a casing 14 for accommodating the secondary battery 12. The secondary battery 12 may be a general secondary battery such as a lithium ion secondary battery or a lithium polymer secondary battery. Further, the external shape of the secondary battery 12 is not limited, but in the form shown in FIG. 1, the external shape of the secondary battery 12 is a rectangular parallelepiped. The secondary battery 12 having such a configuration generally has a weak strength of the first main surface 12a and the second main surface 12b having a wide main surface, and contributes to expansion due to an increase in internal pressure during charging and discharging. Become.

The casing 14 has a secondary battery holding portion 16 and an external terminal 18. The secondary battery holding portion 16 is provided inside the casing 14 and is a space for accommodating and holding the above-mentioned secondary battery 12. The secondary battery holding 16 is provided with a surplus space A in the expected expansion direction of the secondary battery 12 so that the casing 14 is not damaged even if the secondary battery 12 expands due to an abnormality. .. Further, although not shown, the secondary battery holding portion 16 is provided with a terminal (internal terminal) or a coupler that is electrically connected to the secondary battery 12, and is provided from the secondary battery 12 to the casing 14 side. It is configured so that the power can be taken out.

The casing 14 is formed by a connecting surface 20 that comes into contact with a connecting device such as an electronic device or a charger 40, and an outer peripheral surface other than the connecting surface 20. The connecting surface 20 is provided with at least an external terminal 18, a connecting means 22, and a locking mechanism 24. The external terminal 18 is electrically connected to a terminal (not shown) provided in the secondary battery holding portion 16 or a coupler, and power is supplied to the electronic device to which the battery unit 10 is connected or from the charger 40. It is an element that makes up.

The connection means 22 plays a role of stabilizing the connection state of the battery unit 10 to the connected device and stabilizing the transfer of electric power by connecting the external terminal 18. The configuration is not limited, but in the present embodiment, a slide mechanism provided with a slide rail having a C-shaped cross section is adopted.

The lock mechanism 24 is a connection state holding mechanism for maintaining a good connection state of the external terminal 18 connected by the connection means 22 and preventing the battery unit 10 from falling or the like. The specific configuration is not limited, but in the form shown in FIG. 1, for example, a protruding pin 24a is provided as a part of the slide rail constituting the connecting means 22. By fitting the protruding pin 24a into the receiving hole 46 provided in the mounting surface 40a of the electronic device or the charger 40, the battery unit 10 is positioned and the connected state is maintained. The locking mechanism 24 is provided with an unlocking portion 24b for controlling the movement of the protruding pin 24a on the outer peripheral surface of the casing 14. This is to release the connection state of the battery unit 10.

In the battery unit 10 according to the present embodiment having such a basic configuration, a through hole 14b is provided in the side wall 14a on the connection surface side of the secondary battery holding portion 16. An indicator pin 26 is arranged in the surplus space A between the secondary battery 12 and the side wall 14a on the connecting surface side.

The indicator pin 26 includes a pin 26a and a flange 26b, and the pin 26a is configured to have a diameter that allows it to be inserted into a through hole 14b provided in the side wall surface 14a on the connecting surface side. The flange 26b is an element that serves as a retaining force, a pressing force receiver, and a reaction force receiver for preventing the indicator pin 26 from falling out of the through hole 14b to the outside of the casing 14. The flange 26b does not ask the specific shape as long as it fulfills each function of retaining, pressing force receiving, and reaction force receiving, and is, for example, a disk having a larger area than the through hole 14b. be able to.

An urging means 28 for pressing the indicator pin 26 toward the secondary battery 12 is arranged between the side wall 14a on the connecting surface side and the flange 26b. This is to prevent the pin 26a of the indicator pin 26 from protruding from the through hole 14b when the indicator pin 26 is in the non-operating state (when the secondary battery 12 is not abnormally expanded). The composition and material of the urging means 28 are not limited, but it is assumed that the sheet is made of urethane, sponge, or the like as a member capable of generating urging force while corresponding to the narrowness of the surplus space A. good.

As shown in FIG. 2, the length of the pin 26a is a length that forms a protrusion amount D depending on the expansion at the time of abnormality while ensuring the grace distance d due to the shrinkage prevention due to the charging / discharging of the secondary battery 12 at the normal time. The thickness t1 of the side wall 14a on the connecting surface side, the thickness t2 of the urging means 28 when compressed, the thickness t3 of the flange 26b, and the width W of the surplus space A are taken into consideration. Note that e1 indicates 1/2 of the expansion distance of the secondary battery 12 during normal use, and e2 indicates 1/2 of the abnormal expansion distance of the secondary battery 12.

Here, the grace distance d satisfies the relationship of d> 2 × e1 in relation to e1. Further, in the relationship with e2, the relationship of d <2 × e2 is satisfied. The grace distance d is a moving distance at which the pin 26a does not protrude from the connecting surface 20.

A charger 40 is shown as an example of a connected device for connecting the battery unit 10 having such a configuration. The charger 40 has at least a connecting means 42, a connecting terminal 44, and a receiving hole 46. In the form shown in FIG. 1, the connecting means 42 employs a slide mechanism so as to correspond to the connecting means 22 of the battery unit.

[Connection]
The state of connecting the battery unit 10 having the above configuration and the charger 40 will be described with reference to FIGS. 3 and 4.
First, a case where the battery unit 10 in which the secondary battery 12 is in a normal state is connected to the charger 40 will be described with reference to FIG. First, as shown in FIG. 3A, the connection surface 20 of the battery unit 10 and the mounting surface 40a of the charger 40 face each other, the connection means 22 and 42 are aligned, and the battery unit 10 is in the direction indicated by the arrow B. Slide.

Subsequently, as shown in FIG. 3B, the battery unit 10 is slid in the direction of arrow B. At this time, since the indicator pin 26 does not protrude from the through hole 14b, the sliding operation is not hindered and the indicator pin 26 can be slid to the state shown in FIG. 3C.

When the state shown in FIG. 3C is reached by the sliding operation, the protruding pin 24a of the lock mechanism 24 is fitted into the receiving hole 46 provided in the charger 40, and the battery unit 10 is locked. When such a state is reached, the external terminal 18 of the battery unit 10 and the connection terminal 44 of the charger 40 are connected, and electric power is supplied.

Next, a case where the battery unit 10 in which the secondary battery 12 is abnormally expanded is connected to the charger 40 will be described with reference to FIG.
When the secondary battery 12 is abnormally expanded, the pin 26a of the indicator pin 26 protrudes toward the connection surface 20 from the through hole 14b provided in the side wall 14a on the connection surface side. In such a state, as shown in FIG. 4A, the connection surface 20 of the battery unit 10 and the mounting surface 40a of the charger 40 are opposed to each other, the connection means 22 and 42 are aligned, and the directions indicated by the arrows B. When the battery unit 10 is slid, the following state is obtained.

That is, the pin 26a protruding from the connection surface 20 comes into contact with the end portion of the mounting surface 40a and is caught, which hinders the sliding of the battery unit 10. Therefore, the external terminal 18 of the battery unit 10 and the connection terminal 44 of the charger 40 are not connected, and the user can be surely notified of the abnormality of the secondary battery 12.

[Action / Effect]
According to the battery unit 10 according to the present embodiment, when the secondary battery 12 expands due to an abnormality, the secondary battery 12 in which heat generation or expansion occurs is still contained in the casing 14. The attachment and energization of the battery unit 10 to connected devices such as the charger 40 and electronic devices are hindered. Therefore, it is possible to safely and surely notify the user of the abnormality of the secondary battery 12.

In the above description, the through hole 14b is described so that the hole shape is round, but it may be a square or a polygon. In this case, the shape of the pin 26a of the indicator pin 26 may also match the shape of the through hole 14b.

[Transformation form: Fitting type]
In the battery unit 10 according to the above embodiment, the battery unit 10 is connected to a connected device such as a charger 40 or an electronic device by a slide mechanism. However, the battery unit 10 according to the present invention does not limit the form of connection to the connected device.

For example, as shown in FIG. 5, when an abnormality occurs in the secondary battery 12 in the battery unit 10 which adopts the connection type by the fitting mechanism having the hook portion 14c and the lock mechanism 24, as shown in FIG. 5 (A). The pin 26a of the indicator pin 26 projects from the connection surface 20. In such a state, the hook portion 14c is engaged with the hook receiver 40b of the charger 40, and the battery unit 10 is rotated in the direction of the arrow C to perform the connection operation.

At this time, as shown in FIG. 5B, when the pin 26a protruding from the connection surface 20 comes into contact with the mounting surface 40a, the operation of rotating the battery unit 10 in the direction of the arrow C is hindered, and the connection surface 20 is prevented. And the mounting surface 40a cannot be brought into contact with each other. Therefore, the lock mechanism 24 is not operated, and the connection between the external terminal 18 and the connection terminal 44 is hindered. Therefore, even with the battery unit 10 adopting such a connection form, the same effect as that of the above-described embodiment can be obtained.

[Example]
Next, a specific example in the case where the battery unit according to the present invention is adopted as a battery for a camera will be described with reference to FIGS. 6 to 9. Note that FIG. 6 is a diagram showing a configuration of a side cross section of the battery unit according to the embodiment, and FIG. 7 is a diagram showing a configuration of a bottom surface of the battery unit according to the embodiment. Further, FIG. 8 is a diagram showing a configuration of a side cross section of a charger connecting the battery unit, and FIG. 9 is a diagram showing a planar configuration of the charger connecting the battery unit.

As a matter of course, the battery unit 10 according to this embodiment also has a secondary battery 12 and a casing 14 for accommodating the secondary battery 12 as in the above embodiment. Therefore, the same reference numerals are given to the parts having the same function, and detailed description thereof will be omitted. The casing 14 includes a secondary battery holding portion 16 and an external terminal 18, and includes a connecting means 22 by a slide mechanism and a locking mechanism 24. Further, a through hole 14b is provided in the connection surface 20 of the casing 14, and the pin 26a of the indicator pin 26 arranged in the secondary battery holding portion 16 can be projected.

Further, in the battery unit 10 according to the present embodiment, a slight protrusion 30 as a key mark is formed on the connection surface 20 constituting the connection means 22. By providing a recess 50 corresponding to the protrusion 30 on the charger 40 or the electronic device to be connected so that the connection can be made when the protrusion 30 and the recess 50 match, the model is different, etc. This is because it is possible to prevent erroneous connection of the battery unit due to the above.

Further, the charger 40 shown in FIG. 9 is provided with a terminal cover 48 that covers at least a part of the connection terminals 44 when not in use. By sliding the terminal cover 48 along the sliding direction of the slide mechanism (direction indicated by the arrow D), the connection terminal 44 is exposed during use, and the battery unit 10 can be connected to the external terminal 18. In the charger 40 having such a configuration, the terminal cover 48 is provided with a recess 50 corresponding to the key mark.

The through hole 14b for projecting the pin 26a of the indicator pin 26 is located on the front side (insertion side) in the sliding direction of the connecting surface 20 constituting the connecting means 22 with respect to the position where the protruding portion 30 which is the key mark is provided. It is provided. This is because, in such an arrangement form, when the pins are protruding, it is impossible to connect the battery unit 10 because the key marks do not match.

As described above, even if the appearance form is unique in terms of design, it is a part of the present invention as long as it has a configuration for exerting the functions of the elements listed in the above-described embodiment. Can be regarded as.

Next, an example in which the battery unit according to this embodiment is connected to the charger will be described with reference to FIGS. 10 and 11.
First, the connection when the secondary battery 12 is in a normal state (when the pin 26a does not protrude due to expansion) will be described with reference to FIG. As shown in FIG. 10, when the secondary battery 12 is in a normal state, when the battery unit 10 is connected to the charger 40 via the connecting means 22, the terminal cover 48 is attached to the external terminal 18. The connection terminal 44 is exposed by being caught in the step portion located in front and sliding in the pushing direction. In this state, the battery unit 10 is further pushed in the sliding direction to connect the external terminal 18 and the connection terminal 44. At this time, the protruding portion 30 as a key mark provided on the connection surface 20 of the battery unit 10 is in a state of being contained in the recess 50 provided in the terminal cover 48.

On the other hand, as shown in FIG. 11, when the secondary battery 12 is in an abnormal state (when the pin 26a is projected due to the expansion of the secondary battery 12), the pin is as shown in FIG. 11 (A). The 26a is caught in the recess 50 provided in the terminal cover 48, and the terminal cover 48 is slid. In this operation, the terminal cover 48 is slid at an earlier stage than the normal operation in which the terminal cover 48 is slid by the step portion located in front of the external terminal 18.

Therefore, when the slide distance of the terminal cover 48 reaches the limit by further pushing the battery unit 10 in the sliding direction, as shown in FIG. 11B, the pin 26a forms a step 50 forming the recess 50 of the terminal cover 48. It gets caught in the portion and prevents the battery unit 10 from being pushed in. As a result, the battery unit 10 cannot be connected, and the user can safely and surely know the abnormality of the secondary battery 12.

It was explained that in each of the above embodiments, the pin 26a has a configuration in which the pin 26a protrudes from the through hole 14b. However, if it is desired to improve the airtightness and waterproofness of the secondary battery arrangement portion, a flexible film made of rubber, silicon or the like may be provided on the protruding portion of the pin 26a.

10 ……… Battery unit, 12 ……… Secondary battery, 12a ……… First main surface, 12b ……… Second main surface, 14 ……… Casing, 14a ……… Connection surface side side wall, 14b… …… Through hole, 14c ………… Hook part, 16 ………… Secondary battery holding part, 18 ………… External terminal, 20 ………… Connection surface, 22 ………… Connection means, 24 ………… Lock mechanism, 24a ……… Protruding pin, 24b ……… Unlocking part, 26 ……… Indicator pin, 26a ……… Pin, 26b ……… Flange, 28 ……… Bending means, 30 ……… Protruding part, 40 ……… Charger, 40a ……… Mounting surface, 40b ……… Hook receiver, 42 ……… Connection means, 44 ……… Connection terminal, 46 ……… Receiving hole, 48 ……… Terminal cover, 50… ...... Recessed.

Claims (7)

A battery unit that can be attached and detached to make an electrical connection to a charger or electronic device.
With a secondary battery
A casing that covers the secondary battery and has an external terminal that is electrically connected to the secondary battery.
It has a secondary battery holding portion that holds the secondary battery inside the casing.
The casing is provided with an indicator pin that protrudes to the outside of the casing due to expansion of the secondary battery and prevents electrical connection by the external terminal when an abnormality occurs in the secondary battery. A battery unit featuring. The first aspect of the present invention is characterized in that the indicator pin is arranged between the secondary battery and the secondary battery holding portion, and is configured to project to the outside through a hole provided in the casing. Battery unit. The indicator pin has a pin and a flange and
The flange is arranged on the contact surface with the secondary battery, and the flange is arranged.
The battery unit according to claim 2, wherein an urging means for pressing the indicator pin toward the secondary battery side is provided between the flange and the secondary battery holding portion. A key mark for recognizing connection compatibility is provided on the connection surface with the charger or electronic device.
The battery unit according to any one of claims 1 to 3, wherein the indicator pin is configured to project at a position where the key mark is changed. The indicator pin according to any one of claims 1 to 4, wherein the indicator pin is configured so as not to protrude to the outside of the casing due to expansion due to charging / discharging during normal use of the secondary battery. Described battery unit. The casing is configured to form an electrical connection of the external terminals via a slide mechanism.
The battery unit according to any one of claims 1 to 5, wherein the indicator pin is hooked on the electronic device main body or the charger so as to prevent the sliding operation by the slide mechanism. The casing is configured to form an electrical connection of the external terminals via a fitting mechanism.
The battery unit according to any one of claims 1 to 5, wherein the indicator pin comes into contact with the electronic device main body or the charger so as to interfere with the connection operation by the fitting mechanism.

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