JP2005143033A - Cradle for portable terminal device provided with fuel cell and portable terminal system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cradle for a portable terminal device and a portable terminal system provided with a fuel cell which is excellent in portability and can be continuously fed for a long time.
A cradle for a mobile terminal device includes a cradle body portion 11 in which a mobile phone 20 is mounted and a fuel cell for supplying power to the mobile phone 20 and a fuel cartridge 12 filled with fuel. The cartridge 12 is configured to be in contact with the end surface 11-1 of the cradle main body 11 on the hinge 23 side of the mobile phone 20.
[Selection] Figure 1

Description

  The present invention relates to a cradle for a mobile terminal device and a mobile phone system including a fuel cell that supplies power to the mobile terminal device, and more particularly to a cradle for mobile terminal device that is attached to the mobile terminal device and supplies power during a call.

  In recent years, various types and functions of mobile terminal devices have been developed, and in particular, mobile phones, which are a type of mobile terminal device, have expanded functions such as video transmission / reception and game play, and expansion of areas where calls and communications are possible. It is possible to talk even in mountainous areas.

  As described above, the power consumption of mobile phones is increasing as the number of functions increases and usage opportunities increase. A mobile phone can charge a secondary battery such as a built-in lithium ion battery from a commercial power source using a power adapter, and can make a call or the like using the power supplied from the secondary battery.

  However, due to the increase in power consumption, the secondary battery may run out when you are away from home. Charge by connecting the charger of the mobile phone at the store or the dry battery to the mobile phone with a dedicated adapter. Can be used.

  By the way, it has been proposed to use a fuel cell as a power supply source for a mobile phone. A fuel cell supplies fuel such as an alcohol aqueous solution to the negative electrode, generates electrons and protons, sends protons to the positive electrode through the electrolyte membrane, and supplies oxygen in the air to the positive electrode to react protons and oxygen to generate electricity. I do. A feature of the fuel cell is that continuous power generation can be performed for a long time by supplying fuel and oxygen.

Patent Document 1 listed below discloses a cradle including a fuel cell that is attached to a mobile phone. The cradle is a handset stand including a charging case used when charging a mobile phone, for example. In the fuel cell, a cylindrical fuel cartridge is entirely inserted into an opening provided in the cradle, fuel is supplied from the fuel cartridge to the fuel cell, power generation is performed, and the generated power is supplied to the mobile phone. It has become so.
US Pat. No. 6,326,097

  However, in the cradle, when the fuel in the fuel cartridge is consumed, it is necessary to replace it with a new fuel cartridge. In particular, when used continuously for a long time, it is necessary to temporarily stop the call, replace the fuel cartridge, send the fuel to the fuel cell, and then connect to the call destination again.

  On the other hand, a method is also conceivable in which a fuel cell and an enlarged fuel cartridge are mounted on the waist and connected to a mobile phone by a power cable to supply power. However, such a cable connection method has a problem that the portability of the mobile phone is significantly impaired.

  Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a cradle for a portable terminal device and a portable terminal system that are provided with a fuel cell that has excellent portability and can be continuously fed for a long time. Is to provide.

  According to one aspect of the present invention, a cradle for a mobile terminal device that is attached to a mobile terminal device and supplies power to the mobile terminal device, the fuel cell and supplying power from the fuel cell to the mobile terminal device A cradle body having a power supply control means for controlling the power supply, a fixing means for holding the mobile terminal device on a first surface facing the mobile terminal device, and a fuel cartridge for filling fuel to be supplied to the fuel cell; The fuel cartridge is disposed in contact with the second surface of the cradle body, and a cradle for a mobile terminal device is provided.

  According to the present invention, the mobile terminal device is mounted on the first surface of the cradle body, and the fuel cartridge is provided on the second surface other than the first surface. Therefore, since the degree of spatial freedom occupied by the fuel cartridge is high, the volume of the fuel cartridge can be selected according to the usage time of the portable terminal device. As a result, even when the mobile terminal device is operated for a long time (battery exhausted), it is possible to prevent power outage. Further, since the cradle main body is directly attached to the portable terminal device, the cable connection is not complicated and the portability is excellent.

  The portable terminal device rotates between an open position and a folded position around a terminal device fixing portion having a microphone and operation keys, a speaker, a display portion, and a hinge portion provided in the terminal device fixing portion. The terminal device fixed portion is mounted on the cradle main body portion by the fixing means, and the second surface of the cradle main body portion has the movable portion in the open position. It is good also as a structure which is the end surface at the side of the said microphone or a speaker. Since the fuel cartridge is provided on the end surface of the cradle main body that holds the mobile terminal device cradle when making a call with the mobile terminal device attached to the microphone or the speaker side, it hinders calls and operations. In addition, a fuel cartridge having a volume corresponding to the usage time of the portable terminal device can be provided.

  According to another aspect of the present invention, there is provided a mobile terminal system including a mobile terminal device and any one of the mobile terminal device cradle that supplies power to the mobile terminal device. ADVANTAGE OF THE INVENTION According to this invention, the portable terminal system which can be used continuously for a long time and is excellent in portability is realizable.

  The portable terminal device includes a terminal device fixing portion having a microphone and an operation key, a speaker, and a liquid crystal display portion, and is between an open position and a folded position with a hinge portion provided in the terminal device fixing portion as a center. It is good also as a structure which consists of a terminal-device movable part rotated by. At the time of carrying, it can be carried in a compact form with the movable part of the terminal device in the folded position, and is excellent in portability. Further, even if the operation is performed in the open position, the fuel cartridge does not hinder a call or operation.

  ADVANTAGE OF THE INVENTION According to this invention, the cradle for portable terminal devices and portable terminal system which can be used continuously for a long time and are excellent in portability are realizable.

  FIG. 1 is a perspective view showing a state in which a mobile phone is mounted on a mobile phone cradle according to an embodiment of the present invention. In the present embodiment, a mobile phone will be described as an example of the mobile terminal device.

  Referring to FIG. 1, a mobile phone 20 is attached to a mobile phone cradle 10 according to the present embodiment, and a power adapter 30 (AC-DC converter) for connecting to an external power source, for example, a commercial power source, is connected. Possible configuration.

  The mobile phone 20 includes a mobile phone main body portion 21 in which operation keys 24 and a microphone 25 are provided on the inner surface 21-1, and a mobile phone movable portion 22 in which a liquid crystal display portion 26 and a speaker 27 are provided on the inner surface 22-1. Connected by the hinge part 23, the mobile phone movable part 22 is rotatable around the hinge part 23. The mobile phone 20 can be folded so that the inner surface 21-1 of the mobile phone main body 21 and the inner surface 22-1 of the mobile phone movable unit 22 face each other while being mounted on the mobile phone cradle 10. Further, the mobile phone movable portion 22 can be opened and operated by pressing the operation key 24 while looking at the liquid crystal display portion 26, or the main body portion (cradle main body portion 11) of the mobile phone cradle 10 is gripped. Then, it is possible to make a call like a normal mobile phone. The liquid crystal display unit 26 is not limited to the liquid crystal, and may be a display using organic EL (electroluminescence) or the like.

  The mobile phone cradle 10 is generally composed of a cradle main body 11 containing a fuel cell (not shown) and a fuel cartridge 12 filled with fuel. The fuel cartridge 12 is disposed in contact with the end surface 11-1 of the cradle main body 11 on the hinge portion 23 (speaker 27 with the mobile phone movable portion 22 in the open position) side of the mobile phone. Further, an external power supply connection portion 13 for connecting the power adapter 30 is disposed on the end surface 11-2 on the microphone 25 side. The cradle main body 11 holds the mobile phone main body 21 with its inner surface 11-3 facing the outer surface 21-2 of the mobile phone main body 21. For convenience of the following description, the fuel cartridge 12 side is referred to as the rear portion of the cradle main body portion 11 and the side on which the external power supply connection portion 13 is disposed is referred to as the front portion of the cradle main body portion 11.

  FIG. 2 is a plan view of the cradle for a mobile phone according to the present embodiment, and FIG. 3 is a perspective view from the outer surface of the mobile terminal device. 2 and 3, the inner surface 11-3 of the cradle main body 11 has locking members 14 a and 14 b for engaging with a recess 28 provided on the side of the mobile phone main body 21 and a mobile phone. A connection connector 15 for supplying power to the telephone 20 is provided. The locking member 14a provided at the front portion of the inner surface 11-3 is adapted to engage with the two concave portions 28 provided on the microphone 25 side. Referring to FIG. 4 (A) showing an enlarged engagement portion, the locking member 14a is provided with a spring 16 at its base, and spring stress is applied in the left direction of the drawing, that is, in the direction of the mobile phone main body 21. It has come to be. The claw portion 14a-1 of the locking member 14a is placed on the lower inner wall of the recess 28 so that the mobile phone cannot be easily moved upward.

  Returning to FIG. 2 and FIG. 3, the locking member 14 b provided at the rear part of the inner surface 11-3 of the cradle main body 11 is adapted to engage with the two recesses 28 provided on the hinge part 23 side. Referring to FIG. 4 (B) showing the engaging member 14b in an enlarged manner, the claw portion 14b-1 of the engaging member 14b is located on the lower side of the recess 28 as in FIG. 4 (A). The mobile phone main body 21 is placed on the inner wall so that it cannot be easily detached upward. Further, the locking member 14 b is provided with a convex portion 14 b-2 that is connected to the claw portion 14 b-1 and protrudes from the side portion 11-4 of the cradle main body portion 11. Referring to FIG. 4C, by pushing down the convex portion 14 b-2, the claw portion 14 b-1 is separated from the concave portion 28, and the mobile phone main body portion 21 can be detached from the cradle main body portion 11.

  When the mobile phone 20 is attached to the cradle main body 11, the microphone 25 side of the mobile phone 20 is pushed into the front of the inner surface 11-3 of the cradle main body 11, and the claw portion 14a- of the front locking member 14a is inserted. 1 and the concave portion 28 of the mobile phone main body 21 are engaged, and then the mobile phone 20 is pressed against the inner surface 11-3 of the cradle main body 11 to move the hinge 23 side of the mobile phone main body 21 downward. Then, the claw portion 14b-1 of the rear locking member 14b and the concave portion 28 of the mobile phone main body 21 are engaged.

  When removing the cellular phone 20, first, the convex portions 14b-2 of the two locking members 14b at the rear of the cradle main body 11 are simultaneously pushed downward to move in the direction in which the locking member 14b is opened. Is released, the hinge part 13 side of the mobile phone main body 11 is removed from the cradle main body 11, and then the mobile phone 20 is moved obliquely rearward so that two locking members at the front of the cradle main body 11 are obtained. The engagement with 14a is released.

  As described above, since the mobile phone main body 21 is engaged and fixed to the cradle main body 11 in the mobile phone 20, an operation such as holding the cradle main body 11 and pressing an operation key of the mobile phone 20 is performed. Even if a phone call is made or a phone call is made, the mobile phone main body 21 and the cradle main body 11 can be used safely without being detached from each other. Further, since the mobile phone main body 21 is fixed to the cradle main body 11, the mobile phone movable portion 22 can be folded and carried in a compact form.

  FIG. 5 is a schematic cross-sectional view of a mobile phone cradle equipped with a mobile phone. Referring to FIG. 5, the cradle main body 11 includes a fuel introduction path 31 through which fuel is supplied from the fuel cartridge 12 that is in contact with the rear end surface 11-1, a fuel cutoff portion 32 that blocks fuel introduction, and a fuel A fuel cell 33 having a fuel chamber 34 connected to the introduction path 31, a control unit 41 that controls the supply of power generated by the fuel cell 33 to the mobile phone 20, and the power adapter 30 shown in FIG. 1 are connected. The external power connection unit 13 is supplied with power from an external power source, and the connection connector 15 is used to supply power to the mobile phone 20.

  The fuel cartridge 12 abuts on the end surface 11-1 at the rear of the cradle main body 11 and is fixed by fitting. The fuel delivery port 12a of the fuel cartridge 12 has a convex shape. On the other hand, the concave portion 11-1a is fitted to the end surface 11-1 of the cradle main body portion 11.

  FIG. 6 is an enlarged perspective view showing how the fuel cartridge is attached to the cradle body. Here, attention is paid to the position where the fuel cartridge 12 is attached. Referring to FIG. 6, the fuel delivery port 12 a of the fuel cartridge 12 is inserted and fixed in a recess 11-1 a provided on the rear end surface 11-1 of the cradle main body 11. By attaching the fuel cartridge 12 to such a position, the shape of the fuel cartridge can be expanded in the X direction shown in FIG. 6, that is, in the rear direction, so that the degree of freedom in selecting the volume of the fuel cartridge 12 is increased. Even when such a fuel cartridge 12 is mounted, the fuel cartridge 12 is spaced apart from the cradle body 11 that is gripped when talking or pressing an operation key. Never become. When the mobile phone 20 is used continuously for a long time, the fuel cartridge 12 having a large volume, for example, a long rear side can be mounted, so that it is possible to prevent power outage (battery exhaustion) during a call.

  Note that locking means for engaging the fuel cartridge 12 with the cradle body 11 may be further provided as long as the portability is not significantly impaired. The shape of the fuel cartridge 12 is not limited to that shown in FIG. 6, and may be a shape that swells in a direction perpendicular to the X direction, that is, in the width or height direction. The volume of the fuel cartridge 12 can be increased.

  Furthermore, the fuel delivery port 12a of the fuel cartridge 12 may be substantially circular as shown in FIG. 6, or may be an oblong with a wide opening area and a wide width. By setting the opening area wide, the fuel can be supplied and the air can be introduced simultaneously, thereby facilitating the fuel supply. A plurality of fuel delivery ports may be provided.

  Returning to FIG. 5, a fuel blocking portion 32 is provided between the fuel delivery port 12 a and the fuel introduction path 31. The fuel shut-off unit 32 is provided with, for example, a shutter-like valve that can move up and down, and is manually moved up and down to open and close the fuel shut-off unit 32. The fuel shut-off unit 32 shuts off the flow of fuel in the fuel introduction path 31, and in particular prevents the fuel in the fuel chamber 34 from flowing back to the fuel cartridge 12.

As a method for introducing the fuel from the fuel cartridge 12 into the fuel chamber 34 of the fuel cell 33, for example, a method of shaking the fuel by hand to introduce the fuel from the fuel cartridge 12 into the fuel chamber 34 can be cited. When the fuel is, for example, a methanol aqueous solution, the methanol is converted into CO ₂ , protons and electrons in the fuel electrode 35, so that the methanol is consumed and the volume of the methanol aqueous solution in the fuel chamber 34 decreases sequentially. A space is formed. The fuel shut-off portion 32 provided in the fuel introduction path 31 is opened, the cradle main body portion 11 is set up so that the fuel cartridge 12 faces upward, and the fuel is introduced into the space of the fuel chamber 34 by shaking by hand. In this way, the fuel can be replenished sequentially. The side wall 11-4 of the cradle body 11 may be formed of a transparent plate so that the amount of fuel in the fuel chamber 34 can be visualized so that the remaining amount of fuel can be easily recognized. May be monitored. It is possible to prevent running out of fuel.

  Further, although not shown, a micro pump may be provided in the fuel introduction path 31 so that the fuel is sequentially supplied to the fuel chamber 34. As a micro pump, miniaturization of the pump unit and low power consumption are problems, but for example, the diaphragm is reciprocated by a DC motor or the like, and at the time of inhalation, only the intake valve is opened and the fuel is partitioned by the diaphragm. It is also possible to use a fuel that is introduced into the staying part, and only the discharge valve is opened at the time of discharge, and the fuel in the staying part is pushed out by the diaphragm so as to send out the fuel. The methanol aqueous solution in the fuel chamber 34 can be constantly replenished, and a decrease in power generation efficiency due to a decrease in the amount of fuel can be prevented.

  The fuel cell 33 is provided with fuel cells above and below the fuel chamber 34, respectively, and the fuel cells are shown from the fuel chamber 34 side as a fuel electrode 35 / solid electrolyte membrane 36 / air electrode 38 (since they are thin layers). .) Are stacked, and an air electrode 38 is provided on the outer side of the cradle body 11, that is, toward the inner surface 11-3 and the outer surface 11-5 of the cradle body. Each of the fuel electrode 35 and the air electrode 38 is connected to the control unit 41 by a wiring 39, and electric power generated by power generation is supplied to the control unit 41.

The fuel electrode 35 and the air electrode 38 are laminated with a current collector made of a highly corrosion-resistant alloy mesh such as stainless steel and a carbon paper coated with a catalyst layer having a thickness of about 50 μm to 300 μm made of Pt or Pt—Ru alloy fine particles. Thus, the catalyst layer comes into contact with the solid electrolyte membrane 36. The solid electrolyte membrane 36 is made of a proton conductive polymer material. For example, Nafion N-115 (trade name) manufactured by DuPont can be used. On the fuel electrode 35 side, a methanol aqueous solution of fuel (for example, a 10 vol% methanol aqueous solution) is supplied from the fuel chamber 34, and a reaction of CH ₃ OH + H ₂ O → CO ₂ + 6H ⁺ + 6e ⁻ occurs on the catalyst surface of the catalyst layer. The generated protons are conducted through the solid electrolyte membrane 36, and the electrons flow through the connected external circuit (the control unit 41 and the like) and reach the air electrode 38. Oxygen in the air is supplied to the air electrode 38 side, and a reaction of 3 / 2O ₂ + 6H ⁺ + 6e− → 3H ₂ O occurs on the catalyst surface of the catalyst layer.

  It is preferable that a large number of openings are provided in the inner surface 11-3 and the outer surface 11-5 of the cradle main body 11 facing the air electrode 38. For example, as shown in FIG. 2, a large number of circular openings 11-3a are provided in the partition wall of the inner surface 11-3. The oxygen in the air taken in from the opening contributes to the reaction at the air electrode 38.

  As shown in FIG. 5, in order to facilitate air intake, between the inner surface 11-3 of the cradle main body 11 and the outer surface 21-2 of the mobile phone main body 21 facing it, 0.5 mm to 5 mm ( It is preferable that a gap having a height h of 2 mm to 4 mm) is provided. If it is smaller than 0.5 mm, it is difficult for air to flow in. If it exceeds 5 mm, the thickness increases and the compactness decreases.

  FIG. 7 is a block diagram showing a mobile phone cradle and a mobile phone according to the present embodiment. Referring to FIG. 7, the mobile phone 20 corresponds to the fuel cell 33 built in the cradle body 11 or the voltage conversion circuit 30 (corresponding to the power adapter 30 shown in FIG. 1) connected to the cradle body 11. ) To supply power from an external power source, and the power in the mobile phone 20 is used to charge the built-in secondary battery 51 or to operate the load unit 52 for making a mobile phone call or the like. used.

  In the cradle main body 11, the output of the fuel cell 33 is connected to the power supply switching circuit 43 via the FC protection circuit 42. On the other hand, the voltage conversion circuit 30 to which an external power supply is connected is connected to the power supply switching circuit 43 via the external power supply connection unit 13.

  FIG. 8 is a flowchart showing the power source switching operation of the power source switching circuit. 7 and 8, the voltage detection circuit 44 detects the voltage on the output side of the voltage conversion circuit 30 and determines whether or not an external power supply is connected (S100). When the voltage on the output side of the voltage conversion circuit 30 is higher than the predetermined voltage Vo, it is determined that the external power supply is connected and converted to the predetermined voltage, and the power supply switching circuit 43 is connected to the external power supply side. (S102). If the voltage on the output side of the voltage conversion circuit 30 is smaller than the predetermined voltage Vo, it is determined that the external power source is not connected or has not been converted to the predetermined voltage, and the power supply switching circuit 43 is operated as a fuel. It switches so that the battery 33 side may be connected (S104). With such a configuration, when an external power source is connected, power supply from the fuel cell 33 can be cut off to prevent waste of fuel. Note that it may be determined whether or not an external power source is connected at all times or at predetermined time intervals. It may be determined whether or not an external power source is connected when the voltage conversion circuit 30 is connected.

  The power supply switching circuit 43 is connected to the built-in secondary battery 51 or the load unit 52 of the mobile phone 20 through the mobile phone connector 15. When the mobile phone 20 is turned off or in a standby state, the internal secondary battery 51 is charged from the external power source or the fuel cell 33.

FIG. 9 is a flowchart showing the operation of the FC protection circuit. Referring to FIGS. 7 and 9, the FC protection circuit 42 detects the amount of power supplied from the fuel cell and determines whether or not the predetermined amount of power supplied P ₀ is exceeded (S110). When the amount of power supplied from the fuel cell 33 exceeds a predetermined amount of supplied power P ₀ , the FC protection circuit 42 cuts off the connection to the power supply switching circuit 43 and stops the supply of power to the fuel cell 33. (S112). On the other hand, when the amount of power supplied from the fuel cell 33 is less than or equal to the predetermined amount of supplied power P ₀ , the FC protection circuit 42 is turned on to supply power from the fuel cell.

FIG. 10 is a diagram illustrating an example of the FC protection circuit. Referring to FIG. 10, the FC protection circuit 42 is provided with an FET 48 between the output side A of the fuel cell and the input side B of the power supply switching circuit, and the internal resistance (ON resistance) between the drain and source of the FET 48 and the drain A potential difference V _BA between AB caused by the source current (= on-resistance × drain-source current) is detected by the voltage detection circuit 45. When the potential difference V _BA exceeds the potential difference corresponding to the predetermined supply power amount P ₀ (= supply power amount P ₀ × on-resistance / electromotive voltage of the fuel cell 33), the ON-OFF voltage generation circuit 46 causes the FET 48 to The FET 48 is turned off by changing the gate voltage. The ON-OFF voltage generation circuit 46 may activate the voltage detection circuit 45 again after a predetermined time has elapsed after turning off the FET 48 to detect the potential difference _VBA . The FC protection circuit 42 is not limited to the above circuit, and a known method for detecting and determining power consumption may be used.

  For example, when the mobile phone 20 is used with the mobile phone cradle 10 mounted on the mobile phone 20, the power consumption of the load unit 52 may exceed a predetermined amount of power supplied to the fuel cell. For example, this is a case where a moving image is reproduced / transmitted. In such a case, the fuel cell 33 may malfunction, and the malfunction can be avoided by providing the FC protection circuit 42. When the supply of power from the fuel cell is stopped, the load unit 52 of the mobile phone 20 receives the supply of power from the built-in secondary battery 51, so that there is no trouble in calling or the like.

  The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to the specific embodiments, and various modifications and changes can be made within the scope of the present invention described in the claims. It can be changed.

  For example, in the above-described embodiment, an example in which power is supplied from an external power source has been described.

  Further, the concentration of the methanol aqueous solution is not limited to 10 vol%, and may be, for example, 5 vol% to 69 vol%. Furthermore, it is not limited to methanol, Dimethyl ether (DME), ethanol, ethylene glycol, etc. may be sufficient.

  Further, although the fuel cell 33 shown in FIG. 5 is provided with the fuel cells on the upper and lower sides of the fuel chamber 34, either one may be provided. Further, in order to increase the output voltage, the combustion battery cells may be divided and electrically connected in series, and a booster circuit may be provided on the output side.

In addition, the following additional notes are disclosed regarding the above description.
(Supplementary Note 1) A cradle for a mobile terminal device that is attached to a mobile terminal device and supplies power to the mobile terminal device,
A cradle body having a fuel cell, power supply control means for controlling power supply from the fuel cell to the mobile terminal device, and fixing means for holding the mobile terminal device on a first surface facing the mobile terminal device When,
A fuel cartridge filled with fuel to be supplied to the fuel cell,
The fuel cartridge is disposed in contact with the second surface of the cradle main body, and is a cradle for a portable terminal device.
(Supplementary Note 2) The mobile terminal device includes a terminal device fixing portion having a microphone and an operation key, a speaker, a display portion, and a hinge portion provided in the terminal device fixing portion. And a terminal device movable portion having a rotating portion that rotates between,
The terminal device fixing part is attached to the cradle body by the fixing means,
The cradle for a mobile terminal device according to appendix 1, wherein the second surface of the cradle main body is an end surface on the microphone side or the speaker side when the movable portion is in the open position.
(Additional remark 3) The fuel supply path which supplies a fuel to a cradle main-body part is provided in said 2nd surface, The cradle for portable terminal devices of Additional remark 1 or 2 characterized by the above-mentioned.
(Supplementary Note 4) The supplementary note 3 is characterized in that the fuel supply path is formed by fitting a male connector provided in the fuel cartridge and a female connector formed on an end surface of the main body. The cradle for a portable terminal device described.
(Supplementary note 5) The cradle for a portable terminal device according to supplementary note 3 or 4, wherein the fuel supply passage is provided with a valve for opening and closing the fuel supply passage.
(Additional remark 6) The pump for supplying a fuel to a fuel cell is provided in the said fuel supply path, The cradle for portable terminal devices as described in any one of additional marks 3-5 characterized by the above-mentioned.
(Additional remark 7) The said fuel cell consists of a fuel electrode, a solid electrolyte, and an air electrode, and this air electrode is a 1st surface side of the said cradle main-body part, and / or the opposite side to this 1st surface. The cradle for a portable terminal device according to any one of Supplementary notes 1 to 6, wherein the cradle is provided on the surface side of the portable terminal device.
(Appendix 8) The air electrode is provided on the first surface side of the cradle main body,
The cradle for a mobile terminal device according to appendix 7, wherein a gap is provided between the first surface and an outer surface facing the first surface of the mobile terminal device.
(Additional remark 9) The said electric power supply control means is equipped with the fuel cell protection circuit which interrupts | blocks supply of the electric power from a fuel cell, when the output of a fuel cell is detected and the predetermined output value is exceeded. The cradle for portable terminal devices as described in any one of 1-8.
(Additional remark 10) The said cradle main-body part is further equipped with the external power supply connection part to which an external power supply is connected,
The power supply control means detects whether or not an external power source is connected, and when the voltage detector detects a voltage equal to or higher than a predetermined voltage value, the power from the external power source is portable terminal device. The mobile terminal device cradle according to any one of appendices 1 to 9, further comprising a power supply switching unit that supplies power to the mobile terminal device.
(Additional remark 11) The portable terminal system which consists of a portable terminal device and the cradle for portable terminal devices as described in any one of Additional remarks 1-10 which supply electric power to this portable terminal device.
(Additional remark 12) The said portable terminal device is
A terminal device fixing unit having a microphone and operation keys;
A terminal device movable unit having a speaker, a display unit, and a rotating unit that rotates between an open position and a folded position around a hinge unit provided in the terminal device fixing unit;
The mobile terminal system according to appendix 11, characterized by comprising:

It is a perspective view which shows a mode that the mobile phone was mounted | worn with the cradle for mobile phones which concerns on one embodiment of this invention. It is a top view of the cradle for mobile phones which concerns on this Embodiment. It is a perspective view from the outer surface of a portable terminal device. It is a figure which expands and shows the engaging part of a cradle main-body part and a mobile telephone main-body part, (A) is the front part of a cradle main-body part, (B) is a rear part of a cradle main-body part, (C) is (B). It is a figure which shows a mode that the engagement part shown in FIG. It is a schematic sectional drawing of the cradle for mobile phones equipped with the mobile phone. It is an expansion perspective view which shows a mode that a fuel cartridge is attached to a cradle main-body part. It is a block diagram showing a cradle for mobile phone and a mobile phone according to the present embodiment. It is a flowchart which shows the power supply switching operation | movement of a power supply switching circuit. It is a flowchart which shows operation | movement of FC protection circuit. It is a figure which shows an example of FC protection circuit.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Mobile phone cradle 11 Cradle body part 11-3 Inner surface of cradle body part 11-4 Side surface of cradle body part 12 Fuel cartridge 13 External power supply connection part 14a, 14b Locking member 14a-1, 14b-1 Claw part 15 Connection Connector 20 Mobile phone 21 Mobile phone main body 21-1 Inner surface of mobile phone main body 21-2 External surface of mobile phone main body 22 Mobile phone movable portion 22-1 Internal surface of mobile phone movable portion 23 Hinge portion 24 Operation key 25 Microphone 26 Liquid crystal display unit 27 Speaker 28 Recess 29 Mobile phone side electrode 30 Power adapter 31 Fuel introduction path 32 Fuel shut-off unit 33 Fuel cell 34 Fuel chamber 35 Fuel electrode 36 Solid electrolyte membrane 38 Air electrode 39 Wiring 41 Control unit 42 FC protection circuit 43 Power supply Switching circuit 44, 45 Voltage detection circuit 46 ON-OFF voltage generation circuit 51 Built-in secondary battery 52 Load section

Claims (9)

A cradle for a mobile terminal device that is attached to a mobile terminal device and supplies power to the mobile terminal device,
A cradle body having a fuel cell, power supply control means for controlling power supply from the fuel cell to the mobile terminal device, and fixing means for holding the mobile terminal device on a first surface facing the mobile terminal device When,
A fuel cartridge filled with fuel to be supplied to the fuel cell,
The fuel cartridge is disposed in contact with the second surface of the cradle main body, and is a cradle for a portable terminal device. The portable terminal device rotates between an open position and a folded position around a terminal device fixing portion having a microphone and operation keys, a speaker, a display portion, and a hinge portion provided in the terminal device fixing portion. A terminal device movable part having a rotating part to
The terminal device fixing part is attached to the cradle body by the fixing means,
2. The cradle for a mobile terminal device according to claim 1, wherein the second surface of the cradle main body is an end surface on the microphone side or the speaker side when the movable portion is in an open position.   The cradle for a portable terminal device according to claim 1, wherein a fuel supply path for supplying fuel to the cradle main body is provided on the second surface.   The fuel cell includes a fuel electrode, a solid electrolyte, and an air electrode, and the air electrode is on the first surface side of the cradle body part and / or on the surface side opposite to the first surface. The cradle for a portable terminal device according to any one of claims 1 to 3, wherein the cradle is provided. The air electrode is provided on the first surface side of the cradle body,
The cradle for a mobile terminal device according to claim 4, wherein a gap is provided between the first surface and an outer surface facing the first surface of the mobile terminal device.   The said power supply control means is equipped with the fuel cell protection circuit which detects the output of a fuel cell and interrupts supply of the electric power from a fuel cell when it exceeds a predetermined output value. The cradle for portable terminal devices as described in any one of these. The cradle main body further includes an external power supply connection to which an external power supply is connected,
The power supply control means detects whether or not an external power source is connected, and when the voltage detector detects a voltage equal to or higher than a predetermined voltage value, the power from the external power source is portable terminal device. A cradle for a mobile terminal device according to any one of claims 1 to 6, further comprising a power supply switching unit that supplies the power to the device.   The portable terminal system which consists of a portable terminal device and the cradle for portable terminal devices as described in any one of Claims 1-7 which supply electric power to this portable terminal device. The portable terminal device
A terminal device fixing unit having a microphone and operation keys;
A terminal device movable unit having a speaker, a display unit, and a rotating unit that rotates between an open position and a folded position around a hinge unit provided in the terminal device fixing unit;
9. The mobile terminal system according to claim 8, further comprising:

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