CN103401012A - Laminated mobile power supply - Google Patents

Abstract

The invention discloses a laminated mobile power supply which comprises a shell, at least one thin film battery unit and a fixing unit for each thin film battery unit, wherein the fixing unit is used for fixing each thin film battery unit on the shell; each thin film battery unit comprises a mounting unit and a plurality of laminated thin film battery groups; the thin film battery groups are arranged in parallel; each thin film battery group comprises at least one thin film battery; the mounting unit is used for fixing the thin film battery groups. According to the scheme, the thin film batteries are laminated, so that the laminated mobile power supply can load larger output and has an extremely good market prospect.

Description

A kind of stacked portable power source

Technical field

The present invention relates to portable power source, in particular, a kind of stacked portable power source.

Background technology

American I nfinite Power Solutions(IPS) the Thinergy series thin film battery of company's design, thickness is only 0.17 millimeter, inside does not contain liquid state or organic polymer electrolyte and other heavy metal harmful substances, all uses the solid state chemistry raw material.Minimum a area is only 25.4 millimeters * 12.7 millimeters, with size, the thin and thick of half stamp, is as good as.

Under reference condition, the charging interval is 10 minutes, under extreme condition if guarantee that the charging current several seconds can be full of; Annual leakage loss is only 1%; The life-span of this battery 50% deep discharge can reach 100000 times.

But this battery standard voltage is only 4.1 volts, and capacity also only reaches 1 milliampere of left and right, is difficult to use in the high product of electric weight demand separately.

Therefore, there is defect in prior art, needs to improve.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of novel stacked portable power source.

Technical scheme of the present invention is as follows: a kind of stacked portable power source, and it comprises housing, at least one hull cell unit and fixed cell thereof; Described fixed cell is for being fixed in described housing by described hull cell unit; Described hull cell unit comprises the hull cell group of installation unit and some stacked settings; Each described hull cell group is arranged in parallel; Described hull cell group comprises at least one hull cell; Described installation unit is for fixing each described hull cell group.

Preferably, in described stacked portable power source, described installation unit comprises at least two rectangular frames, and described rectangular frame inner laminated arranges described hull cell group.

Preferably, in described stacked portable power source, described installation unit comprises two rectangular conductive frameworks, and the positive pole of each described hull cell group connects respectively the first rectangular conductive framework, and negative pole connects respectively the second rectangular conductive framework.

Preferably, in described stacked portable power source, the described hull cell group of each in described hull cell unit is stacked is set to regular cuboid; The positive pole of each described hull cell group is arranged at the first surface of described regular cuboid; The negative pole of each described hull cell group is arranged at the described first surface of described regular cuboid or the another side relative with described first surface.

Preferably, in described stacked portable power source, the described hull cell group staggered floor of each in described hull cell unit is stacked is set to irregular cuboid; The positive pole of each described hull cell group is arranged at the first end of described irregular cuboid; The negative pole of each described hull cell group is arranged at the described first end of described irregular cuboid or the other end relative with described first end.

Preferably, in described stacked portable power source, described hull cell group comprises at least two hull cells, the described hull cell series connection of each in described hull cell group.

Preferably, in described stacked portable power source, described housing outer wall one side at least arranges solar panel, and it is connected with described hull cell unit, for giving the charging of described hull cell unit.

Preferably, in described stacked portable power source, the area of described solar panel is greater than 200 square centimeters.

Preferably, in described stacked portable power source, described housing outer wall also arranges a display module; And, described enclosure interior also arranges a detection module, it is connected with described display module, described solar panel, described hull cell unit respectively, for detection of the job information of described solar panel, described hull cell unit, and shows by described display module; Described job information comprise at least charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current, solar illuminance, charging remaining time one of them.

Preferably, in described stacked portable power source, described enclosure interior also arranges the wireless routing module, and it is connected with described hull cell unit, be used to realizing network, connects, and wireless routing function is provided.

Adopt such scheme, the present invention adopts the stacked hull cell that arranges, and can carry larger output, has fabulous market prospects.

The accompanying drawing explanation

Fig. 1 is the schematic diagram of one embodiment of the present of invention;

Fig. 2 is the schematic diagram of an alternative embodiment of the invention;

Fig. 3 is the schematic diagram of another embodiment of the present invention.

Embodiment

For the ease of understanding the present invention, below in conjunction with the drawings and specific embodiments, the present invention will be described in more detail.In accompanying drawing, provided preferred embodiment of the present invention.But the present invention can realize in many different forms, is not limited to the described embodiment of this specification.On the contrary, provide the purpose of these embodiment be make the understanding of disclosure of the present invention more comprehensively thorough.

It should be noted that, when element is called as " being fixed in " another element, can directly can there be element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may have simultaneously centering elements.The term that this specification uses " vertical ", " level ", " left side ", " right side " and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology of using of this specification and scientific terminology are with to belong to the implication that those skilled in the art of the present invention understand usually identical.The term that uses in specification of the present invention in this specification, just in order to describe the purpose of specific embodiment, is not be used to limiting the present invention.The term that this specification uses " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.The lithium battery that this specification is related or poly-lithium battery, referred to comprise the storage battery of lithium ion, includes but not limited to that positive pole or negative pole have adopted the storage battery of lithium ion.

As shown in Figure 1, one embodiment of the present of invention are, a kind of stacked portable power source 100, and it comprises housing (not shown), at least one hull cell unit 101 and fixed cell thereof; Described fixed cell is for being fixed in described housing by described hull cell unit; For example, each hull cell unit is stacked, adopts metal frame or plastic frame to tighten in its outside, and adopts screw to be fixed in described housing; Perhaps, be adhesively fixed due to described housing, preferred, adopt heat conductive silica gel that each stacked hull cell is adhered fixed in described housing.

Described hull cell unit comprises the hull cell group of installation unit and some stacked settings; Each described hull cell group is arranged in parallel; Described hull cell group comprises at least one hull cell; Described installation unit is for fixing each described hull cell group.For example, as depicted in figs. 1 and 2, described installation unit comprises at least two rectangular frames, comprises the first rectangular frame 102 and the second rectangular frame 103; Described rectangular frame inner laminated arranges described hull cell group.Preferably, as shown in Figure 3, described installation unit comprises two rectangular conductive frameworks, and the positive pole of each described hull cell group connects respectively the first rectangular conductive framework 102a, and negative pole connects respectively the second rectangular conductive framework 103a.

For example, stacked portable power source arranges the hull cell unit of some parallel connections, and each hull cell unit is arranged in parallel some hull cell groups, and each hull cell group parallel connection or series connection arrange some hull cells; And for example, stacked portable power source arranges the hull cell unit of some series connection, and each hull cell unit is arranged in parallel some hull cell groups, and each hull cell group parallel connection or series connection arrange some hull cells; Preferably, the unit-modularized setting of each hull cell, is arranged to a module by described hull cell unit that is, and/or, each described hull cell unit unification is arranged to a module.Like this, be convenient to safeguard and install.

Preferably, described hull cell unit and hull cell group thereof, and hull cell wherein, be preset shape, according to the shape of terminal, described preset shape is set; Preferably, described preset shape is irregular shape, its inner setting space or empty section, for example, described preset shape is the incomplete annular with otch, own font, T font, zigzag or its combination, and for example, described preset shape is the middle cuboid that manhole or rectangular through-hole are set, by that analogy.

Preferably, after each hull cell unit parallel connection or series connection, be connected to an incoming end, described incoming end is connected to an administrative unit, and it is connected to the output of described housing by output switch; Administrative unit arranges detecting module and adjustment module, detecting module obtains detecting result for the charging current of detecting outside charging equipment, for example, when described output connects output device and output switch conducting, the charging current of the outside charging equipment of detecting; Adjustment module is for according to the detecting result, regulating charging current, and administrative unit is for controlling charging output.Preferably, administrative unit also arranges handover module, be used to accepting outside control, by external user manual switchover charging current, by administrative unit, controls charging output.Preferably, administrative unit is controlled described handover module by a microprocessor.Preferably, microprocessor also is connected with detecting module, adjustment module respectively, controls described detecting module, described adjustment module.

Preferably, as shown in Figure 1 to Figure 3, the described hull cell group of each in described hull cell unit is stacked is set to regular cuboid; The positive pole 105 of each described hull cell group is arranged at the first surface of described regular cuboid; As shown in Figure 2, the negative pole 104 of each described hull cell group is arranged at the described first surface of described regular cuboid, or as shown in Figure 1, the negative pole 104 of each described hull cell group is arranged at the another side that described regular cuboid is relative with described first surface.And for example, the described hull cell group staggered floor of each in described hull cell unit, namely non-ly overlap fully, stackedly is set to irregular cuboid; For example, adopt the identical hull cell group of specification, non-overlap fully stacked, between gap viscose glue is set, such as the heat conduction viscose glue etc., or support frame spare is set, a plurality of support frame spares form a support frame on the whole; And for example, adopt the different hull cell group of specification stacked, between gap viscose glue is set, such as the heat conduction viscose glue etc., or support frame spare is set, a plurality of support frame spares form a support frame on the whole.The positive pole of each described hull cell group is arranged at the first end of described irregular cuboid; The negative pole of each described hull cell group is arranged at the described first end of described irregular cuboid or the other end relative with described first end.

With above-mentioned arbitrary embodiment, be combined application, described hull cell group comprises at least two hull cells, the described hull cell series connection of each in described hull cell group, for example, described hull cell group comprises five, eight, 13,29 or 40 sequentially hull cells of series connection.And for example, described hull cell group comprises at least two hull cells, the described hull cell parallel connection of each in described hull cell group.

With above-mentioned arbitrary embodiment, be combined application, preferred, described housing outer wall one side at least arranges solar panel, and it is connected with described hull cell unit, for to described hull cell unit, charging; For example, the area of described solar panel is greater than 200 square centimeters.Preferably, described solar panel adopts monocrystalline silicon or polysilicon solar cell.Preferably, described housing outer wall also arranges a display module; And, described enclosure interior also arranges a detection module, it is connected with described display module, described solar panel, described hull cell unit respectively, for detection of the job information of described solar panel, described hull cell unit, and shows by described display module; Described job information comprise at least charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current, solar illuminance, charging remaining time one of them.For example, display module comprises a LCD liquid crystal display screen, and its embedding is arranged on described housing; Preferably, place, upper right corner rotary setting one plastic sheet of described liquid crystal display screen top, be used to providing protection.Like this, can produce ultra-thin, ultralight solar energy and move power supply unit, supply current is large, is applicable to indoorly directly to rechargeable solar battery, and product has extraordinary market application foreground.

With above-mentioned arbitrary embodiment, be combined application, preferably, described enclosure interior also arranges the wireless routing module, it is connected with described hull cell unit, comprise indirect joint, such as by above-mentioned administrative unit connection etc., the wireless routing module obtains power supply from described hull cell unit, for realizing that network connects, and provides wireless routing function.

Further, embodiments of the invention can also be, each technical characterictic of the various embodiments described above, the stacked portable power source that mutually is combined to form.

It should be noted that, above-mentioned each technical characterictic continues combination mutually, forms the various embodiment that do not enumerate in the above, all is considered as the scope of specification record of the present invention; And, for those of ordinary skills, can be improved according to the above description or conversion, and all these improve and conversion all should belong to the protection range of claims of the present invention.

Claims (10)

1. a stacked portable power source, is characterized in that, comprises housing, at least one hull cell unit and fixed cell thereof;

Described fixed cell is for being fixed in described housing by described hull cell unit;

Described hull cell unit comprises the hull cell group of installation unit and some stacked settings;

Each described hull cell group is arranged in parallel;

Described hull cell group comprises at least one hull cell;

Described installation unit is for fixing each described hull cell group.

2. stacked portable power source according to claim 1, is characterized in that, described installation unit comprises at least two rectangular frames, and described rectangular frame inner laminated arranges described hull cell group.

3. stacked portable power source according to claim 2, is characterized in that, described installation unit comprises two rectangular conductive frameworks, and the positive pole of each described hull cell group connects respectively the first rectangular conductive framework, and negative pole connects respectively the second rectangular conductive framework.

4. stacked portable power source according to claim 1, is characterized in that, the described hull cell group of each in described hull cell unit is stacked is set to regular cuboid;

The positive pole of each described hull cell group is arranged at the first surface of described regular cuboid;

The negative pole of each described hull cell group is arranged at the described first surface of described regular cuboid or the another side relative with described first surface.

5. stacked portable power source according to claim 1, is characterized in that, the described hull cell group staggered floor of each in described hull cell unit is stacked is set to irregular cuboid;

The positive pole of each described hull cell group is arranged at the first end of described irregular cuboid;

The negative pole of each described hull cell group is arranged at the described first end of described irregular cuboid or the other end relative with described first end.

According to claim 1 to 5 arbitrary described stacked portable power source, it is characterized in that, described hull cell group comprises at least two hull cells, the series connection of the described hull cell of each in described hull cell group.

7. stacked portable power source according to claim 6, is characterized in that, described housing outer wall one side at least arranges solar panel, and it is connected with described hull cell unit, for to described hull cell unit, charging.

8. stacked portable power source according to claim 7, is characterized in that, the area of described solar panel is greater than 200 square centimeters.

9. stacked portable power source according to claim 8, is characterized in that, described housing outer wall also arranges a display module; And,

Described enclosure interior also arranges a detection module, it is connected with described display module, described solar panel, described hull cell unit respectively, for detection of the job information of described solar panel, described hull cell unit, and show by described display module;

Described job information comprise at least charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current, solar illuminance, charging remaining time one of them.

10. stacked portable power source according to claim 9, is characterized in that, described enclosure interior also arranges the wireless routing module, and it is connected with described hull cell unit, be used to realizing network, connects, and wireless routing function is provided.

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