RU2002125452A - A power source system consisting of a detachable fuel unit and an energy generation unit, an electrical device driven by a power source system, and a biodegradable shell of the fuel unit used in the system - Google Patents

Claims (51)

1. A power source system that supplies electric power to an external device comprising a fuel loading assembly in which fuel is loaded and an energy generating assembly that can be connected to and disconnected from said fuel loading assembly and generates electricity by using said fuel supplied from said fuel loading assembly. 2. The power supply system according to claim 1, wherein said power supply system can be connected to and disconnected from said external device without limitation. 3. The power supply system according to claim 1, wherein said power supply system is provided with a terminal that supplies electric power to said external device. 4. The power supply system of claim 1, wherein said fuel loading assembly has a degradable assembly made of a degradable material that can be converted into one or a plurality of materials constituting the soil in nature. 5. The power supply system of claim 1, wherein said fuel loading assembly has a degradable assembly made of a material that is degradable, at least in the natural environment. 6. The power source system according to claim 5, wherein said decomposable assembly is made of a material that can decompose as a result of contact with the soil in nature. 7. The power supply system according to claim 6, wherein said degradable assembly is made of biodegradable plastic, which can be destroyed by microbes. 8. The power supply system according to claim 1, wherein said power generation unit is provided with a fuel cell that generates said electric energy as a result of an electrochemical reaction using said fuel supplied from said fuel loading unit. 9. The power supply system of claim 8, in which said fuel cell is a fuel cell with fuel reforming, including a fuel reforming device that reformed said fuel and extracts a specific component, a fuel electrode to which said specific component is supplied, and an air electrode to which oxygen is supplied. 10. The power supply system of claim 9, wherein said fuel reforming apparatus is provided with at least one of a steam reforming reaction unit, a water conversion reaction unit, and a selective oxidative reaction unit. 11. The power supply system according to claim 9, in which said fuel reforming device has a flow path, the depth and width of which, respectively, does not exceed 500 microns. 12. The power source system of claim 9, wherein said fuel reforming apparatus has a heater. 13. The power supply system according to claim 1, wherein said power generation unit has a retention unit that holds said fuel loading unit. 14. The power supply system of claim 13, wherein said fuel loading assembly has an unclosed assembly, other than the assemblies held by said holding assembly of said energy generating assembly, and can extract said fuel loading assembly from said energy generating assembly by physical force applied to the said unclosed node. 15. The power supply system of claim 13, wherein said fuel loading assembly has an unclosed assembly, other than the assemblies held by said holding assembly of said energy generating assembly, and can connect said fuel loading assembly to said energy generating assembly by physical force applied to the said unclosed node. 16. The power source system according to claim 1, wherein said fuel loading assembly comprises: fuel supply means for supplying said fuel for generating energy to said energy generating unit, and means for receiving a by-product for receiving at least a portion of the by-product, generated in said power generation unit, and in which said energy generation unit comprises means for receiving fuel for receiving said fuel for generating energy supplied from said fuel loading unit, and means byproduct feed for supplying at least a portion of the byproduct formed during power generation. 17. The power source system of claim 16, wherein when said fuel loading unit and said energy generating unit are connected to each other, said fuel supplying means of said fuel loading unit is connected to said fuel receiving means of said energy generating unit, and said means supplying a by-product of said power generation unit is connected to said by-product receiving means of said fuel loading unit. 18. A fuel unit that has a cavity used to store fuel, comprising a main body of the fuel shell, which can be connected to the power generation unit and removed from the energy generation unit that generates energy by using said fuel, and has an unclosed unit that is unprotected from said power generation unit when it is connected to said energy generation unit, and a supply channel that is used to supply said fuel to said energy generation unit. 19. The fuel block according to claim 18, wherein said fuel block can be removed from said power generation unit by means of physical force applied to said unclosed node. 20. The fuel unit according to claim 18, wherein said fuel unit can be connected to said power generation unit by means of physical force applied to an unclosed unit. 21. The fuel unit according to claim 18, wherein said fuel unit is provided with an inlet channel that is used to collect a by-product formed by said power generation unit. 22. The fuel block according to claim 18, wherein at least one of: said fuel block and said feed channel includes biodegradable plastic. 23. The fuel block according to claim 18, wherein at least a portion of said fuel sheath is transparent. 24. The fuel block of claim 18, wherein said fuel shell is a shell on which a graduation is used to measure the amount of said fuel and which is at least partially transparent. 25. A fuel unit that has a cavity used to store fuel, comprising a shell that has a feed channel used to discharge said fuel to the outside, and is made of biodegradable material. 26. The fuel block of claim 25, wherein said fuel block further comprises a protective means for separating a portion of said shell made of biodegradable material from degradation factors for decomposing said portion. 27. The fuel block of claim 26, wherein said protective agent is made of a material that is not destroyed by said fracture factors to decompose said portion of said shell consisting of biodegradable material. 28. The fuel block of claim 26, wherein said protective agent has a film that covers said portion of said shell consisting of biodegradable material. 29. The fuel block of claim 26, wherein said protective agent can be removed from said shell. 30. An energy generator that supplies electric power to a load comprising a power generation module for generating said electricity from fuel, a first interface that allows you to attach and disconnect a fuel storage unit that has a cavity used to store said fuel for said energy generation module and from him, and is used to extract said fuel from said fuel storage unit to said power generation module, and a second interface that allows connection be disconnected and said power generation module to the external device and from which a said load, and is used to output electric power generated by said power generation module, to said external device. 31. The energy generator according to claim 30, wherein said energy generator further comprises a third interface that provides information about a residual amount of fuel in said fuel storage unit to said external device. 32. The energy generator according to claim 30, wherein said energy generator further comprises a third interface into which information about driving said load is inputted. 33. The energy generator according to claim 30, wherein said second interface includes a positive electrode terminal and a negative electrode terminal. 34. The energy generator according to claim 30, wherein a graduation, which may be an indicator of the residual amount of said fuel in said fuel storage unit, is provided on said energy generator. 35. The energy generator according to claim 30, wherein said power generation module includes a fuel cell that has a fuel reforming device that reformed said fuel and extracts a specific component, a fuel electrode to which said specific component is supplied, and an air electrode which is supplied with oxygen. 36. The energy generator according to claim 35, wherein said fuel reforming apparatus is provided with at least one of a steam reforming reaction unit, a water conversion reaction unit, and a selective oxidative reaction unit. 37. The energy generator according to claim 35, wherein said fuel reforming apparatus has a flow path, the depth and width of which does not exceed 500 microns, respectively, and a heater that sets a predetermined temperature in the cavity in said flow path. 38. The energy generator according to claim 30, wherein said power generation module has a capacitor. 39. The energy generator of claim 30, wherein said first interface has an open assembly that leaves said fuel storage assembly open when said fuel storage assembly is connected to said power generation module. 40. The energy generator according to claim 39, wherein said first interface is configured to remove said fuel loading assembly from said power generation module by means of physical force applied to said open assembly. 41. The energy generator according to claim 39, wherein said open node of said first interface has a first open part and a second open part located opposite said first open part, and the first interface is configured such that said fuel loading assembly is ejected from said second open part by physical force applied to said first open part. 42. The energy generator according to claim 39, wherein said first interface is configured to couple said fuel loading assembly to said power generation module by means of physical force applied to said open assembly. 43. A device driven by electric power, comprising a load that is powered by said electric power; and a power supply system, which can be connected to and disconnected from said device without limitation, and which supplies electric power generated from fuel to said load. 44. The device according to item 43, in which said power source system contains a fuel loading unit, in which said fuel is loaded, and an energy generation unit that can be connected to and disconnected from said fuel loading unit, and which generates said electricity through the use of said fuel supplied from said fuel loading assembly. 45. The device according to item 43, in which said device has a computer. 46. The device according to item 43, in which said device has a display unit. 47. An energy generator that generates energy through the use of fuel, comprising means for generating energy for generating energy by using said fuel loaded into a detachable fuel loading means, and control means for varying in time the output voltage supplied to the load by means of the electricity generated by said means of generating energy. 48. The energy generator according to clause 47, in which said control means controls the change of said output voltage in accordance with the residual amount of said fuel loaded into said means of loading fuel. 49. The energy generator according to clause 47, in which said control means further has a means of determining to determine the residual amount of said fuel loaded into said means of loading fuel. 50. The energy generator of claim 47, wherein said control means controls said output voltage by lowering it when the residual amount of said fuel charged to said fuel loading means decreases. 51. The energy generator according to clause 47, in which the said means of generating energy further comprises a capacitor, which can be charged by the generated electricity.