JP2004350430A - Portable charger - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a convenient portable charger that can charge a portable electronic apparatus away from home. <P>SOLUTION: A main case 1 has a throttle 11 suitable for the dimension of the internal face of a subcase 2, and is inserted to the subcase 2. Dry batteries B1, B2 accommodated in the main case 1 and the subcase 2 contact with terminals 41, 42, 51 and 52, are made conductive to a connector 3 via a connecting circuit 43, and charge the electronic apparatuses connected to the connector 3. The degree of the insertion of the main case 1 to the subcase 2 is adjusted in accordance with magnitudes of the dry batteries B1, B2, and the main case 1 and the sub case 2 are fastened with fasteners at the adjusted position. The dry batteries B1, B2 are held by holding springs 61, 62 irrespective of the magnitudes, and disposed on the same axial line. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a portable charger for charging a portable electronic device such as a portable telephone and a PDA (Personal Data Assistant).
[0002]
[Prior art]
With the advancement of mobile technology, various portable electronic devices such as mobile phones, PDAs, and mobile computers have become widespread. One of the bottlenecks of such portable electronic devices is the problem of charging. Advances in battery technology have made it possible to use the battery for long periods of time. However, if the battery runs out while you are away from home, unless you bring your own charger and you are not in a place with an AC outlet, The use of portable electronic devices becomes impossible.
[0003]
[Problems to be solved by the invention]
The present invention has been made to solve the above-described problems, and has the technical significance of providing a convenient portable charger that can charge a portable electronic device while away from home.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, an invention according to claim 1 of the present application is a portable charger for charging a portable electronic device, and is provided in a pair of main body cases for storing dry batteries therein and one main body case. And a connector.
The connector has a shape that can be connected to the charging terminal of the portable electronic device,
One or both main body cases are provided with terminals for contacting the electrodes of the stored dry battery and conducting the electrodes to the connector,
The pair of main body cases has a configuration in which dry batteries of different sizes can be stored while ensuring conduction with the connector.
According to a second aspect of the present invention, in order to solve the above-mentioned problem, in the configuration of the first aspect, the pair of main body cases have a structure in which one is inserted into the other, and the size of a dry battery to be stored is The structure is such that the degree of insertion can be adjusted according to
According to a third aspect of the present invention, in order to solve the above-mentioned problem, a fastener for fastening a pair of main body cases at an insertion position corresponding to the size of a dry battery to be stored is provided in the configuration of the second aspect. It has the structure of.
According to a fourth aspect of the present invention, in the configuration of the third aspect, the fastener is a projection provided on an inner surface of one of the main body cases located on the outer side, and is provided on the inner side. The outer surface of the other main body case is formed with a plurality of recesses into which projections are fitted corresponding to the insertion positions.
According to another aspect of the present invention, there is provided a portable charger for charging a portable electronic device, wherein the portable charger is provided in a pair of body cases accommodating dry batteries therein and one body case. And a connector.
The connector has a shape that can be connected to the charging terminal of the portable electronic device,
One or both main body cases are provided with terminals for contacting the electrodes of the stored dry battery and conducting the electrodes to the connector,
The pair of main body cases can accommodate dry batteries of different sizes while ensuring conduction with the connector,
Even when the pair of main body cases are separated from each other, a conduction securing tool is provided to ensure conduction of the dry battery to the connector.
According to a sixth aspect of the present invention, in order to solve the above problem, in the configuration of the fifth aspect, the conduction securing member is a magnet that maintains the contact of the dry battery with the terminal by a magnetic force. .
According to a seventh aspect of the present invention, in order to solve the above problem, in the configuration of the sixth aspect, the magnet is also used as the terminal.
Further, in order to solve the above-mentioned problem, according to an eighth aspect of the present invention, in the configuration according to any one of the first to seventh aspects, the pair of main body cases are mounted on the same shaft regardless of the size of the dry battery. It holds a dry battery, and has a configuration in which a holding spring for holding the dry battery on this shaft is provided.
[0005]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention (hereinafter, embodiments) will be described.
FIG. 1 is a schematic external view of a portable charger according to a first embodiment of the present invention, wherein (1) is a front view, (2) is a side view, and (3) is a case where the main body cases 1 and 2 are completely inserted. FIG. FIG. 2 is a schematic cross-sectional view of the portable charger of the first embodiment, (1) is a schematic front cross-sectional view, and (2) is a schematic plan cross-sectional view.
The portable charger shown in FIGS. 1 and 2 mainly includes a pair of main body cases 1 and 2 and a connector 3 provided on one main body case 1. Hereinafter, the main body case 1 provided with the connector 3 is referred to as a main case, and the other 2 is referred to as a sub case.
[0006]
The main case 1 is in the shape of a small round box and has an opening on the lower surface. The connector 3 is provided on the upper surface of the main case 1. 1 and 2, the portable charger is drawn with the connector 3 facing upward, but this state does not necessarily mean an actual use state, and the connector 3 may be turned sideways. , May be facing down. The mobile charger of the present embodiment charges a mobile phone. Therefore, the connector 3 is configured to be connectable to the charging terminal of the mobile phone.
The main case 1 has a lower cross-sectional area of approximately 3/4 of the lower side as compared with a portion of approximately 1/4 of the upper side. The portion 11 having a small cross-sectional area is hereinafter referred to as a throttle portion, and the upper portion 12 is referred to as a head portion. Since the cross-sectional areas are different, a step is formed between the head section 12 and the throttle section 11 as shown in FIGS. 1 and 2.
[0007]
On the other hand, the sub-case 2 is also a small box having a rounded shape, and has an opening on the upper surface. The cross-sectional shape of the sub-case 2 is adapted to the cross-sectional shape of the main case 1, particularly, the constricted portion 11 thereof. That is, the shape of the inner surface of the sub-case 2 is substantially equal to the shape of the outer surface of the throttle unit 11, and the size of the inner surface of the sub-case 2 is slightly larger than the size of the outer surface of the throttle unit 11. As shown in FIGS. 1 and 2, the sub case 2 is mounted so as to cover the narrowed portion 11 of the main case 1. The state where the upper end of the sub-case 2 abuts on the step between the squeezed portion 11 and the head portion 12 is a state in which the squeezed portion 11 is completely inserted into the sub-case 2, and in this state, the head portion 12 and the sub-case 2 Is flush.
[0008]
The pair of main body cases 1 and 2 house dry batteries B1 and B2 therein. In the present embodiment, as an example, a structure is adopted in which two elongated dry batteries B1 and B2 such as AA batteries and AAA batteries are arranged side by side. That is, as shown in FIG. 2B, the cross section of the throttle portion 11 of the main case 1 is slightly larger than the cross-sectional shape of the two dry batteries B1 and B2.
[0009]
The head section 12 of the main case 1 is provided with a pair of terminal fittings 41 and 42. One of the terminal fittings 41 is for plus (+), and the other 42 is for minus (-). These terminal fittings are referred to as a main side + terminal 41 and a main side-terminal 42. On the other hand, a pair of terminal fittings 51 and 52 are also provided side by side on the bottom surface of the sub case 2. The position below the main side + terminal 41 is for plus (+), and the position below the main side-terminal 42 is for minus (-). Hereinafter, these terminal fittings 51 and 52 are referred to as a sub-side + terminal and a sub-side-terminal. The portable battery charger of the present embodiment connects two dry batteries B1 and B2 in series, and the sub + terminal 51 and the sub−terminal 52 are short-circuited by a short-circuit plate 53. Each of the sub-side + terminal 51 and the sub-side-terminal 52 has elasticity like a leaf spring.
[0010]
The head section 12 of the main case 1 is provided with a connection circuit 43 for connecting the main-side plus terminal 41 and the main-side minus terminal 42 to the connector 3. When storing the dry batteries B1 and B2, once the sub-case 2 is pulled out of the main case 1 and separated, the + electrode of one dry battery B1 is applied to the main side + terminal 41, and the-electrode of the other dry battery B2 is The two dry batteries B <b> 1 and B <b> 2 are stored in the throttle unit 11 of the main case 1 in a state where the dry batteries B <b> 1 are applied to the side-terminal 42. Then, sub-case 2 is inserted again. Thus, the mounting of the dry batteries B1 and B2 is completed. In the mounted state, the negative electrode of one dry battery B1 is in contact with the sub-terminal 52, and the positive electrode of the other dry battery B2 is in contact with the sub-terminal + terminal 51. At this time, since the sub side-terminal 52 and the sub side + terminal 51 have elasticity, they are sufficiently pressed against the electrodes of the dry batteries B1 and B2, and the contact is complete.
[0011]
The portable charger of the present embodiment can be used for charging by installing the dry batteries B1 and B2 of different sizes in the same manner. Hereinafter, this point will be described.
First, as shown in FIG. 2, holding springs 61 and 62 are provided in the throttle portion 11 of the main case 1. The holding springs 61 and 62 are a plurality of leaf springs. As shown in FIG. 2 (2), the holding springs 61, 62 are provided so as to surround each of the stored dry batteries B1, B2. In the present embodiment, about five holding springs 61, 62 form one set, and one dry battery B1, B2 is held.
[0012]
As can be seen from FIG. 2 (2), when a virtual line connecting the sub side-terminal 52 and the main side + terminal 41 is used as an axis, one set of holding springs 61 holding one dry battery B1 is It is provided so as to form a circumference coaxial with the axis. More precisely, one set of the holding springs 61 is provided so as to be in contact with one coaxial circumference in the cross-sectional shape. The same applies to the other set of holding springs 62 that hold the other dry battery B2. It is provided so as to form a coaxial circumference with respect to an imaginary axis connecting the sub side + terminal 51 and the main side − terminal 42.
[0013]
Further, as shown in FIG. 2A, the lower ends of the holding springs 61 and 62 are fixed to the edge of the lower end opening of the throttle unit 11. Each of the holding springs 61 and 62 extends upward from the edge of the lower end opening of the throttle unit 11, and has an upper portion bent inward. In one set of holding springs 61 and 62 for holding one dry battery B1 and B2, the tip of the bent upper portion (hereinafter, bend) is a circle slightly larger than the diameter of the smallest dry battery B1 and B2 to be stored. It forms a lap. The portions of the holding springs 61 and 62 along the inner surface of the throttle portion 11 have a circumference slightly smaller than the diameter of the largest stored dry batteries B1 and B2. Therefore, even when the smallest dry batteries B1 and B2 are stored, the elastic force of the holding springs 61 and 62 acts to hold the dry batteries B1 and B2. The holding springs 61 and 62 are fixed to the inner surface of the throttle 11 at a portion along the inner surface of the throttle 11.
[0014]
Further, the portable charger of the present embodiment includes a fastener for fastening the pair of main body cases 1 and 2 at positions corresponding to different sizes of the dry batteries B1 and B2. In this embodiment, the fastener is formed by a protrusion formed on the inner surface of the sub case 2. In addition, on the outer surface of the squeezing section 11, a concave portion 72 in which the projection 71 fits is provided at a position corresponding to the different size of the dry batteries B1 and B2. In the present embodiment, three concave portions 72 are provided, and can accommodate dry batteries B1 and B2 (for example, AA, AAA, and AAA) of three different sizes. In addition, as the configuration of the fastener, a configuration in which a projection is provided on the outer surface of the throttle unit 11 and a concave portion is provided on the inner surface of the sub case 2 may be used.
[0015]
When the largest dry batteries B1 and B2 are mounted, the sub case 2 is mounted on the main case 1 with the projection 71 fitted in the lowermost concave portion 72. When the smallest dry batteries B1 and B2 are mounted, the squeezing portion 11 is completely inserted into the sub case 2, and the projection 71 is fitted into the uppermost concave portion 72. Further, when the batteries B1 and B2 of the middle size are stored, the projection 71 is fitted in the middle recess 72. The main case 1 and the sub case 2 are made of polycarbonate (PC) resin or the like and have a certain degree of elasticity. When the protrusion 71 is not fitted in the concave portion 72, the sub case 2 is slightly deformed. When the protrusion 71 is fitted in the concave portion 72, the sub case 2 returns to its original shape by elasticity.
As understood from the above description, when the largest (larger diameter) dry batteries B1 and B2 are stored, the bent portions of the respective holding springs 61 and 62 are in the state of being deformed to the outermost. When the smallest dry batteries B1 and B2 are stored, the amount of deformation of the bent portion becomes the smallest.
[0016]
The portable dry batteries B1 and B2 having the above configuration are carried together with the mobile phone when going out. When the battery of the mobile phone is almost exhausted, the batteries 3 and B2 are stored and the connector 3 is connected to the charging terminal of the mobile phone as described above. Thereby, the mobile phone is charged. According to the present embodiment, the mobile phone can be charged if the batteries B1 and B2 are provided, which is very convenient. It is troublesome to carry a charging device dedicated to a mobile phone, and charging cannot be performed in a place without an AC outlet. Since the batteries B1 and B2 are small, it is not troublesome to carry them, and even if they do not carry them, they can be easily purchased at a convenience store or a stand at a station. Therefore, even if the cell phone runs out of battery, it can be easily charged immediately.
[0017]
In addition, the present embodiment is more convenient because it supports dry batteries of different sizes. That is, if only one type of dry battery is supported, charging cannot be performed unless the dry battery is held or purchased. In the present embodiment, the battery can be charged if it has any of the corresponding three types of dry batteries or can be purchased.
[0018]
Further, in the present embodiment, since the fastener is provided, the engagement state of the pair of main body cases 1 and 2 is stable when the dry batteries B1 and B2 of each size are mounted. For this reason, there is no possibility that the battery cases B1 and B2 will pop out due to the main body cases 1 and 2 being dislodged by any beat. In addition to the combination of the protrusions 71 and the recesses 72 described above, a structure in which a spring is used to fasten by an elastic force or a structure in which a magnet is used to fasten may be employed.
Further, in the present embodiment, the holding springs 61 and 62 for holding the dry batteries B1 and B2 on the same axis are provided regardless of the size of the dry batteries B1 and B2. There is an advantage that the batteries B1 and B2 are stably stored in the cases 1 and 2.
[0019]
Next, a portable charger according to a second embodiment of the present invention will be described.
FIG. 3 is a schematic external view of a portable charger according to a second embodiment of the present invention, wherein (1) is a front view and (2) is a side view. FIG. 3 is a view showing a state where the main body cases 1 and 2 are completely inserted. FIG. 4 is a schematic front sectional view of the portable charger of the second embodiment.
[0020]
Similarly to the first embodiment, the portable charger of the second embodiment is mainly constituted by a pair of body cases 1 and 2 including a main case 1 and a sub case 2 and a connector 3 provided on the main case 1. ing. A major feature of the portable charger of this embodiment is that, in order to further increase the types of dry batteries B1 and B2 that can be used, even when the main case 1 and the sub case 2 are separated, the dry batteries B1 and B2 can be stored and charged. The point is that we can do it. Specifically, a conduction securing device is provided for ensuring conduction of the dry batteries B1 and B2 in the sub case 2 even when the main case 1 and the sub case 2 are separated. In the present embodiment, the conduction securing tool is based on a magnetic force, and is configured by a magnet.
[0021]
The main case 1 includes a throttle unit 11 and a head unit 12 as in the first embodiment. The height of the constricted portion 11 is considerably smaller than that of the first embodiment. Correspondingly, the height of the subcase 2 is considerably smaller than that of the first embodiment. Also in this embodiment, in the completely inserted state, the upper end of the sub case 2 abuts on the step between the throttle unit 11 and the head unit 12, and the main case 1 and the sub case 2 are flush with each other.
[0022]
The magnet as a conduction securing tool is also used for the terminals 41, 42, 51, 52. That is, the main side + terminal 41 and the main side-terminal 42 are magnets. The shapes of the main side plus terminal 41 and the main side minus terminal 42 are the same as in the first embodiment. In addition, as shown in FIG. 4, a magnet base 8 is provided on the bottom surface of the sub case 2. The magnet base 8 is fixedly provided on the short-circuit plate 53, and the magnet base 8, the short-circuit plate 53, and the sub-side terminals 51 and 52 are all magnets. The magnet base 8, the short-circuiting plate 53, and the pair of sub-side terminals 51, 52 are made of an integral metal, and may be magnetized.
[0023]
When the dry batteries B1 and B2 are stored in the second embodiment, one dry battery B1 is inserted with its + electrode in contact with the main terminal + terminal 41, and the other dry battery B2 is inserted into its main electrode-terminal. Insert while hitting 42. Thereafter, the sub-case 2 is covered from below, and the negative electrode of one dry battery B1 is brought into contact with the sub-terminal 52, and the positive electrode of the other dry battery B2 is brought into contact with the sub-terminal + terminal 51. First, the batteries B1 and B2 may be housed in the sub case 2, and then the batteries B1 and B2 may be brought into contact with the main terminals 41 and 42 to be held by magnetic force.
[0024]
As shown in FIG. 4, when large dry batteries B <b> 1 and B <b> 2 are stored, the sub case 2 is separated from the main case 1. Also in this case, the sub-case 2 is kept from separating from the dry batteries B1 and B2 by the magnetic force of the terminals 41, 42, 51 and 52, and the conduction of the two dry batteries B1 and B2 is ensured. When the smallest dry batteries B1 and B2 are stored, the upper end of the subcase 2 abuts on the step between the squeezing portion 11 and the head portion 12 as in the first embodiment, and the battery is completely inserted.
[0025]
According to the second embodiment, a conduction securing tool is provided to ensure conduction of the dry batteries B1 and B2 in the sub case 2 even when the main case 1 and the sub case 2 are separated from each other. Many types of dry batteries B1 and B2 can be used. In the case of the first embodiment, it is assumed that the dry batteries B1 and B2 are mounted in a state where the sub case 2 is locked to the main case 1, so that the height of the throttle portion 11 of the main case 1 and the sub case 2 Only the dry batteries B1 and B2 up to the sum of the heights of 2 (twice the height of the throttle unit 11) can be stored essentially. According to the second embodiment, longer dry batteries B1 and B2 can be accommodated, and there is essentially no limitation on the length. In this respect, it is more convenient.
[0026]
It is not an essential condition that the magnet serving as the conduction securing device is also used for the sub-side terminals 51 and 52, and a magnet may be provided separately from the sub-side terminals 51 and 52. For example, a magnet may be provided on the inner surface of the side portion of the sub-case 2 to thereby hold the batteries B1 and B2 while ensuring conduction with the sub-side terminals 51 and 52. However, if the magnet as the conduction securing device is also used for the sub-side terminals 51 and 52, the structure of the charger is simplified, and there is an advantage that the cost can be reduced by reducing the number of parts.
[0027]
It is not an essential condition that the conduction securing tool is a magnet, and there may be a conduction securing tool other than a magnet. For example, there may be a case in which a leaf spring or the like is provided to hold the batteries B1 and B2 while ensuring conduction by elastic force, or a case where the batteries B1 and B2 are held while conduction is secured by a fitting mechanism. When the conduction securing member is formed of a magnet, there is an advantage that the structure can be simplified in comparison with a mechanical one.
[0028]
In each of the above embodiments, the dry batteries B1 and B2 are elongated with a circular cross section such as AA or AAA. However, the batteries B1 and B2 may be configured to be mounted in a single or AAA shape. In some cases, a cubic dry battery is mounted. Such a device can be similarly implemented.
[0029]
In addition, portable electronic devices to be charged are not only mobile phones, but also mobile computers such as PDAs and notebook computers, digital viewers such as electronic dictionaries and electronic books, IC recorders, digital cameras, portable CD players, Various portable electronic devices such as an MD player and an MP3 player can be configured to be charged. The connector 3 of the portable charger is configured according to the shape of the charging terminal of the portable electronic device to be charged.
[0030]
In each of the above embodiments, the number of stored dry batteries is two, but this is not limited, and a type that stores only one dry battery may be used, or three, four, or more dry batteries may be used. It may be a type that stores dry batteries.
It is not an essential condition that the connector 3 is provided on the main case 1, and the connector 3 may be provided on the sub case 2. Further, a terminal for conducting the dry battery to the connector 3 may be provided only in one of the main body cases 1 and 2. For example, in the case of a cubic dry battery such as a 12V dry battery having a pair of electrodes on one surface, it may be sufficient that only one of the main body cases 1 and 2 has a pair of terminals.
[0031]
【The invention's effect】
As described above, according to the invention of claim 1 of the present application, the convenience that the portable electronic device can be charged with the dry battery is provided. In addition, since it is compatible with batteries of different sizes, the convenience is further enhanced.
According to the third aspect of the invention, in addition to the above-described effects, since the fastener is provided, the engagement state of the pair of main body cases is stabilized when the dry batteries of each size are mounted. For this reason, there is no fear that the main battery case will come off and the dry battery will jump out at any time.
Further, according to the invention described in claim 5, the convenience that the portable electronic device can be charged with the dry battery is provided. In addition, since it is compatible with batteries of different sizes, the convenience is further enhanced. Further, since a conduction securing tool is provided to ensure conduction of the dry batteries even when the pair of main body cases are separated, more types of dry batteries can be used. The convenience is further improved in this respect.
According to the sixth aspect of the present invention, in addition to the above-described effects, since the conduction securing member is formed of a magnet, there is a merit that the structure can be simplified as compared with a mechanical one.
According to the seventh aspect of the present invention, in addition to the above-described effects, the magnet as the conduction securing tool is also used for the terminal, so that the structure of the charger is simplified, and the cost is reduced by reducing the number of parts. There are merits that can be achieved.
According to the eighth aspect of the present invention, in addition to the above effects, the holding spring for holding the dry batteries on the same axis regardless of the size of the dry batteries is provided. The advantage that the dry battery is stably stored in the main body case is provided.
[Brief description of the drawings]
FIG. 1 is a schematic external view of a portable charger according to a first embodiment of the present invention, wherein (1) is a front view, (2) is a side view, and (3) is a case where main body cases 1 and 2 are completely inserted. FIG.
FIG. 2 is a schematic cross-sectional view of the portable charger of the first embodiment, (1) is a schematic front cross-sectional view, and (2) is a schematic plan cross-sectional view.
FIG. 3 is a schematic external view of a portable charger according to a second embodiment of the present invention, in which (1) is a front view and (2) is a side view, in which the main body cases 1 and 2 are completely inserted. It is a figure of a state.
FIG. 4 is a schematic front sectional view of a portable charger according to a second embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Main case 11 Throttle part 12 Head part 2 Sub case 3 Connector 41 Main side + terminal 42 Main side-terminal 43 Connection circuit 51 Sub side + terminal 52 Sub side-terminal 61 Holding spring 62 Holding spring 71 Projection 72 Depression 8 Magnet base B1 Batteries B2 Batteries

Claims (8)

A portable charger for charging a portable electronic device, comprising a pair of main body cases for storing dry batteries therein, and a connector provided on one main body case,
The connector has a shape that can be connected to the charging terminal of the portable electronic device,
One or both main body cases are provided with terminals for contacting the electrodes of the stored dry battery and conducting the electrodes to the connector,
A portable charger characterized in that the pair of body cases can accommodate dry batteries of different sizes while ensuring conduction with the connector. 2. The mobile phone according to claim 1, wherein the pair of main body cases have a structure in which one is inserted into the other, and a structure in which the degree of insertion can be adjusted according to the size of a dry battery to be stored. Charger. 3. The portable charger according to claim 2, wherein a fastener for fastening the pair of main body cases is provided at an insertion position corresponding to the size of the dry battery to be stored. The fastener is a protrusion provided on the inner surface of one of the main body cases located on the outer side, and the outer surface of the other main body case located on the inner side has a plurality of recesses into which the protrusions are fitted corresponding to the insertion position. 4. The portable charger according to claim 3, wherein the battery charger is formed. A portable charger for charging a portable electronic device, comprising a pair of main body cases for storing dry batteries therein, and a connector provided on one main body case,
The connector has a shape that can be connected to the charging terminal of the portable electronic device,
One or both main body cases are provided with terminals for contacting the electrodes of the stored dry battery and conducting the electrodes to the connector,
The pair of main body cases can accommodate dry batteries of different sizes while ensuring conduction with the connector,
A portable charger provided with a conduction securing member for ensuring conduction of a dry battery to a connector even when a pair of body cases are separated. The portable charger according to claim 5, wherein the conduction securing member is a magnet that maintains contact of the dry battery with the terminal by a magnetic force. The portable charger according to claim 6, wherein the magnet is also used as the terminal. The pair of main body cases are for accommodating dry batteries on the same shaft regardless of the size of the dry batteries, and a holding spring for holding the dry batteries on this shaft is provided. Item 8. A portable charger according to any one of Items 1 to 7.

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