JP2012205371A - Portable power supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a waterproof portable power supply device that can be used as a torch as well.SOLUTION: A portable power supply device includes: a power-receiving terminal 43 exposed on one end surface of a body case 10; a power-supplying terminal 42 that is provided on the same surface as the power-receiving terminal 43 is and that supplies power to an external electronic device; a main substrate 38; a sub-substrate 41 onto which the power-receiving terminal 43 and the power-supplying terminal 42 are mounted; a waterproof pouch 50 that accommodates a secondary battery 31 and the main substrate 38 in a waterproof manner; a cap part that covers the surface, of the body case 10, on which the power-receiving terminal 43 and the power-supplying terminal 42 are provided. While the cap part covers the surface, of the body case 10, on which the power-receiving terminal 43 and the power-supplying terminal 42 are provided, in a waterproof manner when fitted to the body case 10, the cap part has a cap connector 21 protruding, the cap connector 21 being placed so as to be inserted into the power-supplying terminal 42 when the cap part is fitted to the body case 10. Further, the cap part includes a load that is supplied with power from the secondary battery 31 to be driven, by inserting the cap connector 21 into the power-supplying terminal 42.

Description

  The present invention relates to a portable power supply device incorporating a rechargeable battery in an exterior case, and more particularly to a portable power supply device that can be used as a portable power supply that supplies electric power to an externally connected electrical device.

  A portable power supply device incorporating a pair of cylindrical batteries inside has been developed (see Patent Document 1). This portable power supply device is used as a portable power supply for electrical equipment as shown in the exploded perspective view of FIG. 14, and an insulating holder 103 is disposed between a pair of cylindrical batteries 101. The cylindrical battery 101 and the circuit board 104 are arranged at fixed positions with the insulating holder 103 to form a battery assembly 109, and the battery assembly 109 is housed in the outer case 102.

JP 2009-131089 A

  As shown in the perspective view from the front of FIG. 15 and the perspective view from the back of FIG. 16, this portable power supply device is provided with a USB A type output connector 110 on the front and a USB B type on the back. An input connector 111 is provided. As a result, power can be supplied from the front and rear. A switch is provided on the upper surface.

  Since this portable power supply device is not waterproof, it has been difficult to use outdoors. In particular, in a situation where water is splashed, there is a possibility that the internal electronic components may be short-circuited or rusted due to water immersion from the gap around the switch or the opening of the USB terminal.

  The present invention has been made in view of such a background. A main object of the present invention is to provide a portable power supply device that can be waterproof.

Means for Solving the Problems and Effects of the Invention

In order to achieve the above object, a portable power supply device according to the first aspect of the present invention includes:
A main body case 10 elongated in one direction, one or more rechargeable secondary batteries 31 housed in the main body case 10, and the secondary battery 31 exposed on one end surface of the main body case 10. A power receiving terminal 43 for receiving power for charging the battery from the outside, a power feeding terminal 42 for supplying power to an external electrical device provided on the same surface as the surface on which the power receiving terminal 43 is provided, and the two A conversion circuit for converting the power of the secondary battery 31 into output power supplied from the power supply terminal 42; and a main board 38 accommodated in the main body case 10 in a posture substantially parallel to the secondary battery 31; A sub-board 41 on which the power receiving terminal 43 and the power feeding terminal 42 are mounted, and a cap portion that covers the surface of the main body case 10 on which the power receiving terminal 43 and the power feeding terminal 42 are provided, The secondary battery 31 and the main board 38 are housed in the main body case 10 as a waterproof structure, and the cap portion is mounted on the main body case 10 and the surface on which the power receiving terminals 43 and the power supply terminals 42 are provided is waterproof. The cap connector 21 is disposed so as to be inserted into the power supply terminal 42 while being covered with the main body case 10, and the cap connector 21 is further inserted into the power supply terminal 42. A load that is driven by power supplied from the secondary battery 31 may be provided. Thus, the power receiving terminal, the power feeding terminal, and the like are covered with the cap to realize a waterproof function, and the cap itself can be fed to be used as an electric device. In particular, by separating the sub board on which the power receiving terminal and the power feeding terminal are mounted from the main board, a structure in which the terminals are exposed while the main board on which the conversion circuit is mounted is insulated with a waterproof bag is realized.

  Further, in the portable power supply device according to the second aspect, a plurality of types of cap portions each having a different load are prepared, and can be selectively attached to the main body case 10. Thereby, portable power supply itself can be utilized as a different kind of electric equipment by changing a cap part.

  Further, in the portable power supply device according to the third aspect, the load can be a light emitting diode LED. Thus, the portable power supply can be used as a waterproof flashlight.

  Furthermore, the portable power supply device according to the fourth aspect includes a cap body 23 in which the cap portion is fitted to the body case 10 and a cap substrate 25 on which the light emitting diode LED is mounted. The cap body 23 is formed by insert-molding the elastic body 60, and the elastic body 60 is formed on the joint surface between the cap body 23 and the body case 10 and the joint surface between the cap body 23 and the substrate, respectively. The waterproof structure can be realized by exposing and elastically deforming the elastic body 60 at each joint surface. Thereby, the structure which can exhibit the waterproof performance of the main body case which attached the cap part reliably is implement | achieved.

  Furthermore, the portable power supply device according to the fifth aspect further includes a waterproof bag 50 for storing the secondary battery 31 and the main board 38 in a waterproof state as a waterproof structure of the secondary battery 31 and the main board 38. be able to. Accordingly, the waterproof structure of the secondary battery and the main board can be easily achieved with the waterproof bag, and the safety can be enhanced with an inexpensive configuration.

  Furthermore, in the portable power supply device according to the sixth aspect, the power receiving terminal 43 and the power feeding terminal 42 can be configured as terminals having different shapes. As a result, the power receiving terminal and the power feeding terminal can be reliably distinguished, and an effect of improving safety by physically preventing erroneous insertion can be obtained.

  Furthermore, in the portable power supply device according to the seventh aspect, the power receiving terminal 43 and / or the power feeding terminal 42 can be standardized terminals. Accordingly, it is possible to supply power to a popular electric device including a terminal that can be connected to a standardized or standardized terminal such as a USB terminal or a charging terminal of a mobile phone.

  Furthermore, in the portable power supply device according to the eighth aspect, the power receiving terminal 43 and / or the power feeding terminal 42 can be a USB terminal. As a result, it is possible to supply power to an electric device that can be supplied with power by a widely used USB terminal.

  Furthermore, in the portable power supply device according to the ninth aspect, the power feeding terminal 42 is a USB standard A terminal, and the power receiving terminal 43 is a USB standard micro terminal. Thereby, a power feeding terminal and a power receiving terminal can be physically distinguished.

It is the perspective view which looked at the portable power unit concerning Example 1 from the slanting upper part. It is a disassembled perspective view of the portable power supply device of FIG. FIG. 3 is a further exploded perspective view of FIG. 2. It is the perspective view which looked at the portable power supply device of FIG. 1 from the back. It is a perspective view which shows the state which puts a strap on the portable power supply device of FIG. FIG. 4 is an exploded perspective view of the core pack of FIG. 3. It is the perspective view which looked at the core pack of FIG. 3 from diagonally downward. It is a top view which shows the core pack of FIG. It is the perspective view which looked at the cap part from the front. It is the perspective view which looked at the cap part of FIG. 9 from the back surface. It is a disassembled perspective view of the cap part of FIG. It is sectional drawing of the cap part of FIG. 6 is a perspective view showing a portable power supply device according to Embodiment 2. FIG. It is a disassembled perspective view which shows the conventional portable power supply device. It is the perspective view which looked at the portable power supply device of FIG. 14 from the front. It is the perspective view which looked at the portable power supply device of FIG. 14 from the back. FIG. 17A is a schematic diagram illustrating a state where an electric device is charged by the portable power supply device according to the first embodiment, and FIG. 17B is a schematic diagram illustrating a state where the electric device is charged.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the embodiment described below exemplifies a portable power supply device for embodying the technical idea of the present invention, and the present invention does not specify the portable power supply device as follows. In addition, the member shown by the claim is not what specifies the member of embodiment. In particular, the dimensions, materials, shapes, relative arrangements, and the like of the constituent members described in the embodiments are not intended to limit the scope of the present invention only to the description unless otherwise specified. It's just an example. Note that the size, positional relationship, and the like of the members shown in each drawing may be exaggerated for clarity of explanation. Further, in the following description, the same name and reference numeral indicate the same or the same members, and detailed description will be omitted as appropriate. Furthermore, each element constituting the present invention may be configured such that a plurality of elements are constituted by the same member and the plurality of elements are shared by one member, and conversely, the function of one member is constituted by a plurality of members. It can also be realized by sharing. In addition, the contents described in some examples and embodiments may be used in other examples and embodiments.
Example 1

  1 to 5 show a portable power supply device 100 according to Embodiment 1 of the present invention. In these drawings, FIG. 1 is a perspective view of the portable power supply device 100 according to the first embodiment when viewed obliquely from above, FIG. 2 is an exploded perspective view of the portable power supply device 100 of FIG. 1, and FIG. 4 is an exploded perspective view, FIG. 4 is a perspective view of the portable power supply device 100 of FIG. 1 as viewed from the back, and FIG. 5 is a perspective view of the portable power supply device 100 of FIG. .

  A portable power supply device 100 shown in these drawings includes a main body case 10 and a cap portion 20. The main body case 10 has a hollow bottomed box shape, houses the secondary battery 31, the main substrate 38, the sub substrate 41, and the like, and closes the open end with the main body cover 12. The main body cover 12 is provided with a power receiving terminal 43 and a power feeding terminal 42. Further, the cap portion 20 is fitted and connected to the main body case 10 so as to close the main body cover 12. The cap unit 20 is attached to the main body case 10 in a watertight manner and functions as a waterproof cap that protects the power receiving terminal 43 and the power feeding terminal 42. In this state, the portable power supply device 100 is waterproof, and can be used as a charging power source suitable for outdoor use. The cap unit 20 is provided with a cap connector 21 and a light emitting diode LED that is turned on by receiving power from the cap connector 21. With the cap portion 20 attached to the main body case 10, the cap connector 21 is inserted into the power supply terminal 42, and the light emitting diode LED can be lit by receiving power supply from the secondary battery 31 of the main body case 10 from here. Accordingly, the portable power supply device 100 can be used as a flashlight. In the cap unit 20, the sub-board 41 provided with the light emitting diode LED also has a waterproof structure, and a waterproof flashlight is realized.

  This portable power supply device 100 is provided with a structure for putting a strap or shoulder strap that is convenient for carrying. In the example of FIGS. 1 and 5, a U-shaped string insertion portion 22 is provided on the upper surface of the cap portion 20, and a string slit 11 is opened near the bottom surface of the main body case 10. Thereby, the strap ST can be passed through the string insertion portion 22 and the string slit 11, and the portable power supply device 100 can be easily carried with the strap ST. In addition, by passing the strap ST through the cap part 20 and the main body case 10, the cap ST 20 can be communicated with the strap ST even when the cap part 20 is removed from the main body case 10. In the example of FIG. 1 and the like, the string insertion portion 22 is integrally formed near the bottom surface of the cap portion 20. As shown in FIG. 4, the string slit 11 is opened obliquely in cross section from the top surface to the bottom surface in the vicinity of the bottom surface of the main body case 10.

As shown in FIG. 2, a power feeding terminal 42 and a power receiving terminal 43 are provided on the end surface of the main body case 10. A power supply switch 13 is provided on the side surface of the main body case 10. When power is supplied to an externally connected electrical device, the cap unit 20 is removed from the main body case 10 to expose the power supply terminal 42 as shown in FIG. By connecting a plug PG of an ED (for example, a mobile phone) and turning on the power supply switch 13, power supply to the electrical device ED is started. Thereby, it becomes possible to drive the electric device ED or to charge the secondary battery built in the electric device ED. On the other hand, when the secondary battery 31 built in the portable power supply device 100 is charged, the cap portion 20 is similarly removed to expose the power receiving terminal 43 as shown in FIG. The charging of the secondary battery 31 is started by connecting the plug PG of the power supply device PS (for example, an AC adapter connected to a commercial power source). Thereby, the secondary battery 31 built in the main body case 10 can be charged, and the portable power supply device 100 can be repeatedly used as a charger. Hereinafter, details of each member constituting the portable power supply device 100 will be sequentially described.
(Main body case 10)

The main body case 10 has an elongated shape extending in one direction. The main body case 10 shown in the exploded perspective view of FIG. 3 is formed in a bottomed box shape, the upper surface is covered with the main body cover 12, and the core pack 30 and the sub board 41 are accommodated therein. As shown in the exploded perspective view of FIG. 6, the core pack 30 includes a secondary battery 31, a battery holder 32, a main board 38, and a switch plate 39. These are housed in a waterproof bag 50 and sealed. ing. Thus, by covering the core pack 30 of the secondary battery 31 with the waterproof bag 50 to form a waterproof structure, the secondary battery 31 can be protected from water entering the inside of the main body case 10. Moreover, this core pack 30 can absorb the impact of the external force added to the main body case 10 by using the waterproof bag 50 for a cushioning material, and can improve impact strength. The waterproof bag 50 can be made of a material having sufficient strength and water resistance, and is preferably made of a transparent resin. In the example of FIG. 3, it is made of polyethylene. Further, as shown in FIG. 3, a circular switch opening window 14 for exposing the power supply switch 13 is provided on the side surface of the main body case 10.
(Secondary battery 31)

In the example of FIG. 3, the core pack 30 includes one cylindrical battery as the secondary battery 31. This cylindrical battery can be used repeatedly by charging by making it a rechargeable secondary battery 31. For example, the lithium ion secondary battery 31 has a large capacity per unit volume and can be suitably used. However, other secondary batteries such as nickel metal hydride batteries can also be used. In the example of FIG. 3, one 18650 type lithium ion secondary battery is used as the cylindrical battery. However, two or more cylindrical batteries can be used, and not only the cylindrical battery but also a square battery can be used.
(Battery holder 32)

The battery holder 32 forms a battery storage portion 33 that stores one cylindrical battery. In the example of FIG. 3, the battery housing portion 33 has a U-shaped opening that holds the side surface of the secondary battery 31 in a shape along the curved side surface of the cylindrical battery and further holds both end surfaces by the holding plate 34. ing. The battery holder 32 is made of a resin excellent in insulation and heat resistance.
(Main board 38)

  The main board 38 is fixed to the battery holder 32 in a posture substantially parallel to the secondary battery 31. In the example of FIG. 3, the main substrate 38 is fixed to the surface of the battery holder 32 opposite to the surface on which the battery storage portion 33 is provided. By arranging in this way, the secondary battery 31 and the main board 38 are separated from each other, and further, due to the heat insulation of the main board 38 and the battery holder 32, the secondary battery 31 is generated by the heat generated by the semiconductor elements mounted on the main board 38. The situation that is heated is avoided.

  A lead plate 36 is fixed to the bottom surface side of the battery holder 32. In the example of FIG. 3, a lead slit 35 for inserting a lead plate 36 is opened in the holding plate 34 of the battery holder 32, and the lead plate 36 is connected to the battery from the back side of the battery holder 32 through the lead slit 35. Inserted into the storage portion 33 side, an electrical connection between the secondary battery 31 and the main substrate 35 is obtained.

  The main substrate 38 is a flat glass epoxy substrate, and electronic components such as a voltage conversion circuit for converting the voltage of the cylindrical battery are mounted on the front and back surfaces. As the voltage conversion circuit, a DC / DC converter that stabilizes and outputs the output voltage of the cylindrical battery can be suitably used.

Further, the main board 38 is mounted not only with the discharge of the secondary battery 31 but also with a charging circuit for charging the secondary battery 31 after the discharge so that it can be used again. The charging circuit includes a conversion circuit that converts electric power supplied from the outside via the power receiving terminal 43 into a voltage necessary for charging. The main board 38 is also provided with a discharge switch for starting discharge. The discharge switch is a push switch, and is operated by pressing a discharge switch cover 37 provided on the front surface side of the main board 38.
(Switch plate 39)

  The user operates to push the discharge switch with the power supply switch 13 exposed on the main body case 10. At this time, a switch plate 39 is interposed between the discharge switch cover 37 and the power supply switch 13 inside the main body case 10 so that the discharge switch cover 37 can be easily operated by the power supply switch 13. The switch plate 39 is disposed so as to overlap the upper surface of the main board 38 from the outer surface of the waterproof bag 50, and functions as an intermediate member for operating the discharge switch. As described above, the circular switch opening window 14 for exposing the power supply switch 13 is provided on the side surface of the main body case 10, and the power supply switch 13 of the switch plate 39 exposed to the switch opening window 14 is pressed. As a result, the discharge switch is indirectly operated through the discharge switch cover 37, and discharge is started. Thus, by making the discharge switch a push switch, the gap of the switch opening window 14 can be made smaller than that of a slide switch or the like, and the possibility of flooding can be reduced.

If the discharge switch on the main board 38 can be pressed directly from the switch plate through the waterproof bag, the discharge switch cover can be omitted. However, in this case, it is necessary to raise the protrusion that protrudes from the switch plate to the discharge switch. When the main board and the secondary battery protected by the waterproof bag are inserted into the cylindrical outer case, the switch plate If the protrusion becomes high, it becomes difficult to insert. For this reason, in the example of FIGS. 7-8, the discharge switch cover 37 is provided and the protrusion amount of the switch plate 39 is suppressed.
(Waterproof bag 50)

  Since the main body case 10 has a gap between the switch opening window 14 and the power supply switch 13, it is difficult to prevent water from entering the main body case 10 from here. The water immersed in the interior may cause problems such as corrosion of the main board 38 and short-circuiting of the secondary battery 31. Therefore, it is necessary to take waterproof measures. In this example, the core pack 30 of the secondary battery 31 is stored in the waterproof bag 50, and the opening is watertightly closed and stored in the main body case 10. Since this portable power supply device 100 houses the core pack 30 in which the main board 38 is connected to the secondary battery 31 in the waterproof bag 50, the main board 38 is also made into a waterproof structure together with the secondary battery 31. Can be stored in case 10. In particular, in this structure, in addition to the secondary battery 31 and the main board 38, the entire core pack 30 including the connection part of the secondary battery 31 and the main board 38 can be stored in the waterproof bag 50. For this reason, in the ideal state, both the secondary battery 31 and the main board 38 can be accommodated in the main body case 10 as a waterproof structure. According to this structure, since the connecting portion between the secondary battery 31 and the main board 38 can also be stored in the waterproof bag 50, it is not necessary to apply a sealing material or the like in order to make this portion waterproof. Further, there is no problem that the sealing material is deteriorated and cannot be held in the waterproof structure. The portable power supply device 100 having this structure has a very simple structure in which only the lead wire 55 is drawn from the waterproof bag 50. Therefore, only the lead wire 55 can be pulled out from the opening of the waterproof bag 50 with a waterproof structure, and the entire secondary battery 31 and the main board 38 can be stored in the main body case 10 as a waterproof structure.

  As shown in FIG. 6, the waterproof bag 50 is formed by forming a flexible sheet into a bag shape. A plastic sheet can be used as the flexible sheet of the waterproof bag 50. For the plastic sheet, polyethylene, polyimide (PI), polyethylene imide (PEI), pet (PET), or the like can be used. These plastic sheets are characterized by excellent flexibility and heat resistance. In addition, the electrolyte discharged when the safety valve of the secondary battery 31 is opened is not melted or causes a chemical reaction. However, other plastic sheets can be used as the flexible sheet.

  The waterproof bag 50 illustrated in FIG. 6 includes a storage unit that stores the core pack 30 of the secondary battery 31, and a part of the waterproof bag 50 is opened to draw out the lead wire 55. The waterproof bag 50 stores the core pack 30 of the secondary battery 31 in the storage portion, and leads the lead wire 55 drawn out from the core pack 30 to the outside from the opening. The storage part of the waterproof bag 50 is formed in a shape and size that can store the core pack 30 of the secondary battery 31. The waterproof bag 50 is a bag shape that follows the outer shape of the core pack 30 of the secondary battery 31 to be stored, for example, a rectangular parallelepiped shape or a rectangular tube shape slightly larger than the outer shape of the core pack 30 so that the core pack 30 can be stored without difficulty. It can be. However, the waterproof bag may be cylindrical or elliptical.

  As shown in FIGS. 6 to 8, the waterproof bag 50 has a storage portion in a bag shape that can store the core pack 30 of the secondary battery 31, and the core pack 30 of the secondary battery 31 is stored in this portion. An opening, which is a portion from which the lead wire 55 is drawn out, is narrowed down to form a lead lead-out portion 52. In the waterproof bag 50 shown in the figure, the opening and the storage are made into a cylindrical shape having the same thickness. This waterproof bag 50 can be mass-produced efficiently and inexpensively by cutting a plastic-formed tube into a predetermined length. The waterproof bag 50 shown in the figure is formed into a bag shape in which one end of a flexible sheet formed into a cylindrical shape is welded or bonded and the other end is an opening. Further, the core pack 30 of the secondary battery 31 is inserted into the housing portion of the waterproof bag 50 formed in a bag shape, the lead wire 55 is pulled out from the opening portion, and this portion is narrowed down to form the lead lead-out portion 52.

  The waterproof bag 50 can store the core pack 30 of the secondary battery 31 with a waterproof structure by closing the narrowed lead extraction portion 52 with a closing tool (not shown). As the obturator, for example, a binding tool such as a binding band that binds the lead extraction portion 52 from the outside can be used. Moreover, a wire rod and an adhesive tape can also be used for the binding tool. Furthermore, the obturator is configured such that, for example, the gap between the lead wire 55 drawn out from the waterproof bag 50 and the opening is filled with an adhesive or a sealant, and the opening of the waterproof bag 50 is securely bonded by a structure such as binding from the outside. Can be blocked.

  Furthermore, although the waterproof bag is not shown, the lead lead-out portion 52 can be closed with a cord bush. The cord bushing is molded with a rubber-like elastic body such as rubber or soft plastic, and the lead wire is inserted in a water-tight manner, and the flexible sheet of the waterproof bag is water-tightly sealed along the outer peripheral surface. it can. As described above, the cord bush of the rubber-like elastic body can pull out the lead wire while elastically sandwiching the lead wire or the flexible sheet of the waterproof bag and sealing the waterproof structure. The cord bush, which is a rubber-like elastic body, can be formed by insert-molding a lead wire and inserting the lead wire in a water-tight manner, or by inserting the lead wire in a state of being press-fitted into the through hole. Since the above cord bush seals the lead wire and the waterproof bag separately, there is a feature that both the lead wire and the waterproof bag can be reliably closed with a waterproof structure. However, the obturator can also draw out the lead wire from the waterproof bag with a waterproof structure by sandwiching both the lead wire and the flexible sheet in a watertight manner.

  As described above, the waterproof bag 50 in which the lead lead-out portion 52 is closed with a waterproof structure effectively prevents moisture from entering from the outside and reliably waterproofs the core pack 30 accommodated therein. Further, the waterproof bag 50 closed by the waterproof structure can effectively prevent the electrolyte discharged when the safety valve of the stored secondary battery 31 is opened from leaking outside the waterproof bag 50. is there.

  As shown in FIG. 8, the lead lead-out portion 52 from which the lead wire 55 is pulled out from the waterproof bag 50 is folded back at the end of the core pack 30 and arranged in a lead-out space provided below the battery holder 32. However, the waterproof bag is not specified in the above structure. The waterproof bag can adopt any other structure that can draw out the lead wire connected to the core pack of the secondary battery while housing the core pack of the secondary battery in a waterproof structure.

  As described above, the core pack 30 is accommodated in the waterproof bag 50, and the lead wire 55 pulled out from the main board 38 is pulled out from the waterproof bag 50 in a waterproof structure at the lead lead-out portion 52. The waterproof bag 50 that closes the lead extraction portion 52 with a closing tool or a sealing agent is preferably hermetically closed at the closed portion and can be stored in the main body case 10. In the portable power supply device 100 that hermetically closes the waterproof bag 50 and stores it in the main body case 10, when the air temperature in the waterproof bag 50 changes and expands or contracts, the waterproof bag 50 of the flexible sheet The air bag is not deformed, and air is not exhausted from the waterproof bag 50 or air is not inhaled into the waterproof bag 50. Therefore, it is possible to prevent outside air from entering the inside of the waterproof bag 50 due to temperature change in an ideal state, and to reliably prevent corrosion of the secondary battery 31 and the lead plate 36 caused by condensed water. Furthermore, the waterproof bag 50 that is airtightly closed can effectively prevent condensation and the like by using the gas remaining inside as dry air or inert gas.

  However, in this specification, airtightly closing the waterproof bag does not mean only a state in which the opening and closing of the waterproof bag is blocked by completely shutting in and out of the air, but the air in the waterproof bag is externally closed. It is used in a broad sense including a state in which it can be evacuated, for example, a state in which the waterproof bag is pressed from the outside and closed so that the air inside the waterproof bag can be exhausted under pressure. In this state, in the normal state where no pressure is applied from the outside, air does not enter or leave the waterproof bag. Therefore, outside air does not enter the inside of the waterproof bag due to temperature change. However, the portable power supply device of the present invention does not necessarily need to hermetically close the waterproof bag.

  Further, the waterproof bag 50 that closes the lead lead-out portion 52 with a closing tool or a sealing agent is preferably closed in a state where the internal air is exhausted, or after the opening is closed, the internal air is exhausted. When the inside of the waterproof bag 50 is filled with air, it becomes inflated like a balloon and its volume increases, making it difficult to store in the outer case, and also during storage in the outer case and impact etc. This is because the flexible sheet is easily damaged when received. In other words, the waterproof bag 50 in a state in which the air inside is exhausted, that is, the entire bag is squeezed, can be easily stored in the exterior case by reducing the volume, and can be extremely damaged during storage or when shocked. Can be reduced.

  The waterproof bag 50 can exhaust the air from the closed portion to the outside by pressing the waterproof bag 50 from the outside to increase the pressure in the bag after closing the lead lead-out portion 52 with the closing tool. Further, the waterproof bag 50 can exhaust the internal air while sucking the internal air, that is, closing the lead extraction portion 52 in a state where the internal pressure is reduced. The waterproof bag 50 can, for example, exhaust the air in the waterproof bag 50 from the lead lead-out portion 52 and depressurize the inside of the waterproof bag 50 to adhere to the surface of the core pack 30. The waterproof bag 50 can be decompressed by inserting a suction nozzle into the lead lead-out portion 52 to suck the air inside. The waterproof bag 50 can be airtightly closed by exhausting the internal air and then closing the lead lead-out portion 52 with a sealing agent such as silicone resin.

  Furthermore, although not shown in the figure, the portable power supply device covers the outer side of the waterproof bag that houses the core pack of the secondary battery with a shrinkable tube, or attaches an adhesive tape to the outer side of the waterproof bag to attach the waterproof bag. It can be along the surface of the core pack. The shrinkable tube is a heat shrinkable tube or a rubber-like elastic body. As the heat-shrinkable tube, a tube-shaped sheet of vinyl chloride or polyolefin can be used. For the rubber-like elastic body, flame retardant silicone can be used. These shrinkable tubes can be in a size and shape so as to be in close contact with the surface of the waterproof bag containing the core pack in a contracted state. For example, a polypropylene tape can be used as the adhesive tape.

  As described above, the structure in which the outer periphery of the waterproof bag 50 is covered with a shrinkable tube or an adhesive tape allows the waterproof bag 50, which is a flexible sheet, to be in close contact with the outer peripheral surface of the core pack. It has the advantage that it can be effectively prevented, easily stored in an outer case, and assembled efficiently. Furthermore, since the contact surface with the inner surface of the outer case can be covered with a shrinkable tube or adhesive tape covering the outer periphery of the waterproof bag 50, the flexible sheet of the waterproof bag 50 is sandwiched between the core pack and the outer case and damaged. There is a feature that can effectively prevent.

In the above example, as the waterproof structure of the secondary battery 31 and the main board 38, a configuration in which these are housed in the waterproof bag 50 is adopted. However, the waterproof structure is not limited to this configuration, and the secondary battery is made of resin, for example. A structure in which the periphery of the main substrate is covered, a gap is filled by potting or the like, or the case is sealed with a packing or a sealing material can be used as appropriate.
(Sub-board 41)

  The core pack 30 is waterproofed in this way, and the lead wires 55 drawn from the waterproof core pack 30 are connected to the sub-board 41 as shown in FIG. The sub-board 41 is provided with a power feeding terminal 42 and a power receiving terminal 43. The power supply terminal 42 is a terminal for supplying power to an external electric device. On the other hand, the power receiving terminal 43 is a terminal for receiving power for charging the secondary battery 31 from the outside. The power feeding terminal 42 and the power receiving terminal 43 are exposed on the same end surface of the main body case 10. In the example of FIG. 3, it is expressed from the main body cover 12. Therefore, the power feeding terminal 42 and the power receiving terminal 43 are mounted on the sub board 41 so as to be aligned with the edge of the sub board 41. Note that the power supply terminal 42 and the power receiving terminal 43 need to be exposed for convenience of connection with an external device, and cannot be waterproofed with a waterproof bag because of the structure. Therefore, the sub board 41 on which these terminals are mounted is placed outside the waterproof bag 50, and the sub board 41 is waterproofed by a waterproof structure separate from the main board 38. Here, a silicon bond is applied to the solder parts of the connector parts of the power supply terminal 42 and the power receiving terminal 43 of the sub-board 41 to achieve waterproofing. Thus, by separating the sub-board 41 on which the power receiving terminal 43 and the power supply terminal 42 are mounted from the main board 38, the main board 38 on which the conversion circuit is mounted is insulated with the waterproof bag 50, and the safety is improved. A structure that expresses the kind is realized.

  The power receiving terminal 43 and the power feeding terminal 42 can be distinguished from each other by making the terminal shapes different from each other, and the insertion is physically prevented to improve safety. The power receiving terminal 43 and the power feeding terminal 42 are standardized or standardized terminals. In particular, by using a USB terminal, it is possible to supply power to an electronic device that can be supplied with a widespread USB terminal, and the versatility is improved. In the example of FIG. 3 and the like, the power supply terminal 42 is a USB standard A terminal, while the power receiving terminal 43 is a USB standard micro terminal. Thereby, it can utilize as a portable power supply device with high versatility.

As described above, the waterproof portable power supply device is realized by covering the power supply terminal 42 and the power reception terminal 43 that need to be exposed to the outside with the cap portion 20. In order to realize the waterproof specification, it is necessary to provide a cap on all the terminals. However, in the case of having a plurality of terminals, there is a problem that the structure is complicated because there are a plurality of places to be waterproofed. Therefore, in the portable power supply device 100 according to the first embodiment, the power feeding terminal 42 and the power receiving terminal 43 are gathered in one place, and the structure is covered with one cap portion 20 for simplification. In addition, in the form in which the cap unit 20 is provided with a load so that the cap unit 20 itself can be used as an electrical device, the waterproof structure on the top surface of the cap unit 20 also uses the same elastic body 60. In addition, the waterproof structure can be shared, and further simplification and cost reduction can be realized. Further, when the power feeding terminal 42 and the power receiving terminal 43 are provided on the same surface, the physical shape of each terminal is made different so that a situation where these are mistaken is avoided and safety is improved.
(Main body cover 12)

In the main body cover 12, rectangular opening windows for exposing the power feeding terminal 42 and the power receiving terminal 43 are opened. Thus, by providing the power feeding terminal 42 and the power receiving terminal 43 on the same surface, the opening portions are gathered in one place, so that it is easy to take a waterproof measure. That is, waterproofness can be achieved by covering only the surface on which the power feeding terminal 42 and the power receiving terminal 43 are provided with the cap portion 20.
(Cap part 20)

Next, an external view of the cap part 20 as viewed from the front is shown in a perspective view of FIG. 9, a perspective view as seen from the back is shown in FIG. 10, an exploded perspective view is shown in FIG. 11, and a cross-sectional view is shown in FIG. As shown in these drawings, the cap portion 20 is sandwiched between a cap body 23 fitted to the body case 10, a cap cover 24 covering the front surface of the cap body 23, and the cap cover 24 and the cap body 23. A cap substrate 25 on which the light emitting diode LED is mounted as a load, and a protective cover 26 that covers the cap substrate 25 are provided.
(Cap body 23)

The cap body 23 has an upper surface opened, and a cap connector 21 to be described later is provided on the bottom surface. As shown in FIG. 11, a cap substrate 25 and a cap cover 24 are fitted into the upper surface opening. Further, a cap connector 21 is projected on the lower surface connecting the main body case 10. As shown in the cross-sectional view of FIG. 12, the lower surface is formed as an opening surface by projecting the joining rib 27 from the end edge so as to surround the outer periphery of the end surface of the main body cover 12 of the main body case 10. Further, as shown in FIG. 3, the end face of the main body cover 12 is formed with a step portion 15 on the periphery so that the joining rib 27 can be fitted. Here, the cap body 23 and the body cover 12 are each formed of a member having excellent insulating properties such as resin. At this time, an elastic body 60 is interposed in order to close the joint surface in a watertight manner.
(Elastic body 60)

  The elastic body 60 is provided on the inner surface of the opening surface of the lower surface of the cap body 23. When the cap part 20 is fitted into the main body case 10, the elastic body 60 interposed between the joining rib 27 and the step part 15 is elastically deformed to eliminate the gap, and a waterproof structure of the joined part is achieved. As the elastic body 60, an elastomer or the like can be suitably used.

On the other hand, on the upper surface of the cap body 23, the elastic body 60 is similarly arranged on the joint surface between the inner surface of the opening and the cap cover 24 so that the waterproof structure is exhibited in the portion where the opening closes the cap cover 24. Is done. Here, an elastomer is insert-molded when the resin cap body 23 is formed, as shown in FIG. 12, in order to make the elastic body 60 having an opening portion watertight between the upper surface and the lower surface of the cap body 23. An elastomer is arrange | positioned so that it may expose to the opening surface inner surface of an upper surface and a lower surface. Thereby, the watertight structure of the upper and lower surfaces of the cap body 23 can be easily achieved. Thus, while the cap part 20 is attached to the main body case 10, the surface provided with the power receiving terminal 43 and the power feeding terminal 42 is covered in a waterproof state, and waterproofing is also achieved on the upper surface of the cap part 20, so that the outdoor A portable power supply with a waterproof structure that can be used is realized.
(Cap substrate 25)

A load that is driven by electric power supplied from the main body case 10 via the cap connector 21 is mounted on the cap substrate 25. In the example of FIG. 11, three light emitting diodes LED are mounted on the cap substrate 25 as a load. Here, three white LEDs are used, but if RGB LEDs are used, they can be used as a color light source capable of full color emission. Further, an LED lighting switch 28 is provided on the cap substrate 25.
(Cap cover 24)

The cap cover 24 is a lens. By covering the cap substrate 25 with the lens, it is possible to appropriately condense or diffuse the light emission of the LED. In addition, an operation switch 29 for switching ON / OFF of lighting of the LED is provided on the top surface. The operation switch 29 elastically presses the surface of the cap cover 24 and operates the lighting switch 28 mounted on the cap substrate 25. That is, a membrane sheet is affixed to the upper surface of the operation switch 29, and water is prevented by the adhesive material (double-sided tape) of the membrane sheet. If it is this structure, it is not necessary to provide an opening window in the cap cover 24, and waterproofness is maintained.
(Protective cover 26)

Further, in the example of FIG. 11, a protective cover 26 is further interposed on the inner surface of the cap cover 24 in order to protect the LED and the cap substrate 25. The protective cover 26 has a through hole 26B into which an LED is inserted. Further, a push switch 26 </ b> C is provided so that the LED operation switch 29 can be operated by the cap cover 24. The push switch 26 </ b> C transmits the force applied to the operation switch 29 provided on the cap cover 24 to the lighting switch 28 mounted on the cap substrate 25.
(Cap connector 21)

  On the other hand, the cap main body 23 protrudes the cap connector 21 arranged to be inserted into the power supply terminal 42 in a state of being mounted on the main body case 10 on the bottom surface side. Preferably, the cap connector 21 is provided integrally with the cap body 23. In the example of FIG. 10, the cap connector 21 is formed integrally with the cap body 23. Thereby, the connection strength between the cap connector 21 and the cap body 23 is increased, and the reliability is improved. The cap part 20 is supplied with electric power from the secondary battery 31 by inserting the cap connector 21 into the power supply terminal 42, can turn on the LED, and can be used as a flashlight or an emergency light. This cap connector is formed in a plug of the same type as the USB standard A terminal. Further, by inserting the cap connector 21 into the power supply terminal 42, there is an advantage that the mechanical connection structure between the cap portion 20 and the main body case 10 can be strengthened.

In this way, the power receiving terminal 43, the power supply terminal 42, etc. are covered with the cap to realize a waterproof function, and it is also possible to supply power to the cap itself and use it as an electric device, not just as a battery pack for power supply. It can be used as a device with an extremely wide range of use, where the device itself can be used as an electric device as needed.
(Example 2)

  In the above example, the cap portion has been described as being usable as a flashlight using an LED as a load. However, the cap portion is not limited to this configuration. That is, like the portable power supply device 200 shown in Example 2 in FIG. 13, cap parts 20B to 20E using other loads are prepared and exchangeable depending on the application, so that the usage application of the user The portable power supply device can be used in various forms according to the purpose, and the convenience line can be further enhanced. For example, as a load, an electric razor is used in the cap portion 20B, and an electric toothbrush is used in the cap portion 20C, which can be used as goods convenient for the outdoors and travel. It can also be used for cooking-related electric devices such as electric bowls and hand mixers. Alternatively, the cap portion 20D has a radio load, and the cap portion 20E has an emergency buzzer. In addition, if a TV or an emergency signal transmitter that can receive one-segment broadcasting is used, it can also be used as an emergency takeout device in the event of a disaster. Thus, the function can be changed without carrying around a plurality of devices by making the cap part exchangeable as an attachment and changing it according to the application. In particular, as a cause of the bulkiness of such portable devices, the battery portion tends to be large and heavy, and it is advantageous for miniaturization by making the power supply portion common and making only the non-drive device replaceable. Become. In addition, since the power source portion is waterproof, it can be washed with water, and there is an advantage that it can be applied to an electric device that is desired to be used outdoors or to be kept clean.

  The portable power supply device according to the present invention can be suitably used as an emergency charger for charging a mobile phone or a portable music player, or a charger for charging an emergency charger.

DESCRIPTION OF SYMBOLS 100, 200 ... Portable power supply device 10 ... Main body case 11 ... String slit 12 ... Main body cover 13 ... Feed switch 14 ... Switch opening window 15 ... Step part 20, 20B, 20C, 20D, 20E ... Cap part 21 ... Cap connector 22 ... string insertion part 23 ... cap body 24 ... cap cover 25 ... cap substrate 26 ... protective cover; 26B ... through hole; 26C ... push switch 27 ... joining rib 28 ... lighting switch 29 ... operation switch 30 ... core pack 31 ... secondary Battery 32 ... Battery holder 33 ... Battery storage 34 ... Holding plate 35 ... Lead slit 36 ... Lead plate 37 ... Discharge switch cover 38 ... Main board 39 ... Switch plate 41 ... Sub board 42 ... Power supply terminal 43 ... Power reception terminal 50 ... Waterproof bag 52 ... Lead lead-out part 55 ... Lead wire 60 ... Elastic body 101 ... Cylindrical battery 1 2 ... exterior case 103 ... insulating holder 104 ... circuit board 109 ... battery assembly 110 ... output connector 111 ... input connector ED ... electric apparatus PS ... power supply device PG ... plug LED ... light-emitting diodes ST ... strap

Claims (9)

A main body case (10) elongated in one direction,
One or more rechargeable secondary batteries (31) housed in the body case (10);
A power receiving terminal (43) for receiving from the outside power for charging the secondary battery (31), which is exposed on one end surface of the main body case (10),
Provided on the same surface as the power receiving terminal (43), a power supply terminal (42) for supplying power to an external electrical device,
A conversion circuit that converts the power of the secondary battery (31) into output power supplied from the power supply terminal (42) is mounted, and the main body case (10) in a posture substantially parallel to the secondary battery (31). ) Main board (38) housed inside,
A sub-board (41) mounted with a power receiving terminal (43) and a power feeding terminal (42);
A cap portion covering the surface of the main body case (10) where the power receiving terminal (43) and the power feeding terminal (42) are provided;
With
The secondary battery (31) and the main board (38) are housed in a body case (10) as a waterproof structure,
The cap part is
Covering the surface provided with the power receiving terminal (43) and the power feeding terminal (42) in a waterproof state with the body case (10) attached,
In a state of being attached to the main body case (10), the cap connector (21) arranged to be inserted into the power supply terminal (42) is projected,
The portable power supply device further comprises a load driven by being supplied with electric power from the secondary battery (31) by inserting the cap connector (21) into the power supply terminal (42). The portable power supply device according to claim 1,
A plurality of types of caps each having a different load are prepared, and selectively mounted on the main body case (10). The portable power supply device according to claim 1 or 2,
A portable power supply device, wherein the load is a light emitting diode (LED). The portable power supply device according to claim 3,
The cap part is
A cap body (23) fitted to the body case (10);
A cap substrate (25) for mounting the light emitting diode (LED);
With
The cap body (23) is formed by insert molding an elastic body (60),
The elastic body (60) is exposed on the joint surface between the cap body (23) and the body case (10), and the joint surface between the cap body (23) and the substrate, and each joint surface. A portable electric device characterized in that the elastic body (60) is elastically deformed to realize a waterproof structure. The portable power supply device according to any one of claims 1 to 4, further comprising:
The waterproof structure of the secondary battery (31) and the main board (38) includes a waterproof bag (50) for storing the secondary battery (31) and the main board (38) in a waterproof state. Portable electrical equipment. A portable power supply device according to any one of claims 1 to 5,
The portable power supply device, wherein the power receiving terminal (43) and the power feeding terminal (42) are configured as terminals having different shapes. The portable power supply device according to any one of claims 1 to 6,
The portable power supply device, wherein the power receiving terminal (43) and / or the power feeding terminal (42) are standardized terminals. The portable power supply device according to claim 7,
The portable power supply device, wherein the power receiving terminal (43) and / or the power feeding terminal (42) is a USB terminal. It is a portable power supply device of Claim 8, Comprising:
The power supply terminal (42) is a USB standard A terminal,
The portable power supply device, wherein the power receiving terminal (43) is a USB standard micro terminal.

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