TWI473286B - Quick release energy module - Google Patents
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- TWI473286B TWI473286B TW101122670A TW101122670A TWI473286B TW I473286 B TWI473286 B TW I473286B TW 101122670 A TW101122670 A TW 101122670A TW 101122670 A TW101122670 A TW 101122670A TW I473286 B TWI473286 B TW I473286B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Description
本發明是有關於一種能源模組,且特別是有關於一種快拆式能源模組。The invention relates to an energy module, and in particular to a quick release energy module.
攜帶式電子裝置如影音播放機與遊戲機的使用越來越普遍。伴隨著使用者使用時間的提高,電子產品的電力補給已成為使用者所關注的問題之一。The use of portable electronic devices such as video players and game consoles is becoming more and more popular. With the increase in user usage time, the power supply of electronic products has become one of the concerns of users.
為解決前述之電力補給之問題,隨身攜帶充電裝置為目前使用者最常採用之解決方案。然而,目前常見之充電裝置多為具有堅硬外殼之充電器,收納不易。且,目前的充電裝置多採用室內交流電做為電壓源,在使用上亦相當不便。In order to solve the aforementioned problem of power supply, the portable charging device is the most commonly used solution for current users. However, the current common charging devices are mostly chargers with a hard outer casing, which is difficult to store. Moreover, the current charging device mostly uses indoor alternating current as a voltage source, and is also inconvenient in use.
因此,本發明之一技術態樣是在提供一種快拆式能源模組,用以解決以上先前技術所遭遇到的困難。Therefore, one aspect of the present invention provides a quick release energy module to solve the difficulties encountered in the prior art.
根據本發明一實施方式,一種快拆式能源模組包含可撓式太陽能板、可撓式超級電容、可撓式容置袋與快拆元件。可撓式太陽能板具有相對之入光面與背光面。可撓式超級電容電性連接可撓式太陽能板,且位於可撓式太陽能板之背光面。可撓式太陽能板與可撓式超級電容容設於可撓式容置袋中。快拆元件設置於可撓式容置袋。According to an embodiment of the invention, a quick release energy module comprises a flexible solar panel, a flexible super capacitor, a flexible receiving pocket and a quick release component. The flexible solar panel has a relative light incident surface and a backlight surface. The flexible supercapacitor is electrically connected to the flexible solar panel and is located on the back surface of the flexible solar panel. The flexible solar panel and the flexible super capacitor are housed in a flexible accommodating bag. The quick release component is placed in the flexible receiving pocket.
在本發明一或多個實施方式中,上述之可撓式太陽能板與可撓式超級電容之間的相對位置受到可撓式容置袋的拘束,使得可撓式超級電容固定於可撓式太陽能板之背光面。In one or more embodiments of the present invention, the relative position between the flexible solar panel and the flexible supercapacitor is restrained by the flexible receiving pocket, so that the flexible super capacitor is fixed to the flexible The back surface of the solar panel.
在本發明一或多個實施方式中,上述之快拆式能源模組更包含一結件,此結件將可撓式超級電容固定於可撓式太陽能板之背光面。In one or more embodiments of the present invention, the quick-release energy module further includes a junction member that fixes the flexible super capacitor to the backlight surface of the flexible solar panel.
在本發明一或多個實施方式中,上述之結件為黏膠、膠帶、膠紙、膠布、雙面膠、泡棉膠、釘扣、束帶、束套或上述之任意組合。In one or more embodiments of the present invention, the above-mentioned knots are adhesive, tape, adhesive tape, tape, double-sided tape, foam rubber, staple, band, bundle or any combination thereof.
在本發明一或多個實施方式中,上述之可撓式太陽能板與可撓式超級電容並聯。In one or more embodiments of the present invention, the flexible solar panel described above is connected in parallel with the flexible supercapacitor.
在本發明一或多個實施方式中,上述之快拆式能源模組更包含一可撓式電池,此可撓式電池電性連接可撓式太陽能板與可撓式超級電容。上述之可撓式電池位於可撓式超級電容背對可撓式太陽能板的一面,且此可撓式電池亦容設於可撓式容置袋中。In one or more embodiments of the present invention, the quick-release energy module further includes a flexible battery electrically connected to the flexible solar panel and the flexible super capacitor. The flexible battery is located on the side of the flexible supercapacitor facing the flexible solar panel, and the flexible battery is also accommodated in the flexible receiving pocket.
在本發明一或多個實施方式中,上述之可撓式太陽能板、可撓式超級電容與可撓式電池之間的相對位置受到可撓式容置袋的拘束,使得可撓式超級電容固定於可撓式太陽能板之背光面,並使得可撓式電池固定於可撓式超級電容背對可撓式太陽能板的該面。In one or more embodiments of the present invention, the relative position between the flexible solar panel, the flexible supercapacitor and the flexible battery is restrained by the flexible receiving pocket, so that the flexible super capacitor It is fixed to the back surface of the flexible solar panel and allows the flexible battery to be fixed to the side of the flexible supercapacitor facing the flexible solar panel.
在本發明一或多個實施方式中,上述之快拆式能源模組更包含一結件,此結件將可撓式超級電容固定於可撓式太陽能板之背光面,並將可撓式電池固定於可撓式超級電 容背對可撓式太陽能板的該面。In one or more embodiments of the present invention, the quick-release energy module further includes a junction member that fixes the flexible super capacitor to the backlight surface of the flexible solar panel, and is flexible The battery is fixed to the flexible super battery Back to the side of the flexible solar panel.
在本發明一或多個實施方式中,上述之結件為黏膠、膠帶、膠紙、膠布、雙面膠、泡棉膠、釘扣、束帶、束套或上述之任意組合。In one or more embodiments of the present invention, the above-mentioned knots are adhesive, tape, adhesive tape, tape, double-sided tape, foam rubber, staple, band, bundle or any combination thereof.
在本發明一或多個實施方式中,上述之可撓式太陽能板、可撓式超級電容與可撓式電池並聯。In one or more embodiments of the present invention, the flexible solar panel and the flexible supercapacitor are connected in parallel with the flexible battery.
在本發明一或多個實施方式中,上述之快拆元件為黏扣帶、拉鍊、鈕釦、扣夾、扣環、螺栓、螺帽、排釦、卡榫扣具、掛勾、套袋、磁鐵、可重複黏貼之膠帶、綁帶、綁繩、綁線、吊環、溝槽、別針、雙D扣、插扣、螺絲、鎖釦或上述之任意組合。In one or more embodiments of the present invention, the quick release component is a fastening tape, a zipper, a button, a buckle, a buckle, a bolt, a nut, a buckle, a buckle, a hook, and a bag. , magnets, re-stickable tape, straps, tying ropes, tie wires, loops, grooves, pins, double D buckles, buckles, screws, locks, or any combination of the above.
在本發明一或多個實施方式中,上述之可撓式容置袋為織物袋、塑膠袋、含金屬箔的包裝袋或上述之任意組合。In one or more embodiments of the present invention, the flexible receiving bag is a fabric bag, a plastic bag, a metal foil-containing bag, or any combination thereof.
在本發明一或多個實施方式中,上述之可撓式容置袋具有一入光口,此入光口暴露出至少部分之可撓式太陽能板之入光面。In one or more embodiments of the present invention, the flexible accommodating bag has an optical entrance opening that exposes at least a portion of the illuminating surface of the flexible solar panel.
本發明另一技術態樣是一種應用上述快拆式能源模組的衣物。Another aspect of the present invention is a garment using the above-described quick release energy module.
根據本發明一實施方式,一種衣物包含衣物本體、快拆式能源模組與輸出線路。快拆式能源模組透過快拆元件可拆卸地將可撓式容置袋裝設於衣物本體上。輸出線路電性連接快拆式能源模組至待充電元件。According to an embodiment of the invention, a garment includes a garment body, a quick release energy module, and an output line. The quick release energy module detachably mounts the flexible accommodating bag on the body of the garment through the quick release component. The output line is electrically connected to the quick-disconnecting energy module to the component to be charged.
在本發明一或多個實施方式中,上述之衣物本體包含至少一下擺反折,輸出線路至少部分容設於下擺反折中。In one or more embodiments of the present invention, the garment body includes at least a back swing and the output line is at least partially received in the hem of the hem.
在本發明一或多個實施方式中,上述之輸出線路具有 一接頭,用以供待充電元件連接。此外,上述之衣物更包含一防水蓋,此防水蓋適於蓋設接頭。In one or more embodiments of the present invention, the output line has A connector for connecting the components to be charged. In addition, the above-mentioned clothes further comprise a waterproof cover adapted to cover the joint.
在本發明一或多個實施方式中,上述之輸出線路具有一接頭,用以供快拆式能源模組連接。此外,上述之衣物更包含一防水蓋,此防水蓋適於蓋設接頭。In one or more embodiments of the present invention, the output line has a connector for connecting the quick-release energy module. In addition, the above-mentioned clothes further comprise a waterproof cover adapted to cover the joint.
以下將以圖式揭露本發明之複數個實施方式,為明確說明起見,許多實務上的細節將在以下敘述中一併說明。然而,應瞭解到,這些實務上的細節不應用以限制本發明。也就是說,在本發明部分實施方式中,這些實務上的細節是非必要的。此外,為簡化圖式起見,一些習知慣用的結構與元件在圖式中將以簡單示意的方式繪示之。The embodiments of the present invention are disclosed in the following drawings, and the details of However, it should be understood that these practical details are not intended to limit the invention. That is, in some embodiments of the invention, these practical details are not necessary. In addition, some of the conventional structures and elements are shown in the drawings in a simplified schematic manner in order to simplify the drawings.
第1圖繪示依照本發明一實施方式之快拆式能源模組100的立體圖。第2圖繪示沿第1圖之線段2的剖面圖。如圖所示,一種快拆式能源模組100包含可撓式太陽能板110、可撓式超級電容120、可撓式容置袋130與快拆元件140。可撓式太陽能板110具有相對之入光面112與背光面114。可撓式超級電容120電性連接可撓式太陽能板110,且位於可撓式太陽能板110之背光面114。可撓式太陽能板110與可撓式超級電容120容設於可撓式容置袋130中。快拆元件140設置於可撓式容置袋130。FIG. 1 is a perspective view of a quick-release energy module 100 according to an embodiment of the invention. Figure 2 is a cross-sectional view along line 2 of Figure 1. As shown, a quick release energy module 100 includes a flexible solar panel 110, a flexible supercapacitor 120, a flexible receiving pocket 130, and a quick release component 140. The flexible solar panel 110 has a light incident surface 112 and a backlight surface 114. The flexible supercapacitor 120 is electrically connected to the flexible solar panel 110 and is located on the backlight surface 114 of the flexible solar panel 110. The flexible solar panel 110 and the flexible super capacitor 120 are accommodated in the flexible receiving pocket 130. The quick release component 140 is disposed on the flexible receiving pocket 130.
在本實施方式中,可撓式太陽能板110可以使用層積法製造。舉例來說,製造者可以在可撓曲的不鏽鋼基板上堆疊非晶矽薄膜,來製造可撓式太陽能板110,其中可撓 式太陽能板110的厚度例如可為約1 mm。In the present embodiment, the flexible solar panel 110 can be manufactured by a lamination method. For example, a manufacturer can stack an amorphous germanium film on a flexible stainless steel substrate to fabricate a flexible solar panel 110 in which flexible The thickness of the solar panel 110 can be, for example, about 1 mm.
如第1、2圖所繪示,上述之可撓式太陽能板110與可撓式超級電容120之間的相對位置受到可撓式容置袋130的拘束,使得可撓式超級電容120固定於可撓式太陽能板110之背光面114。也就是說,在本實施方式中,可撓式超級電容120與可撓式太陽能板110之間並不具有結件,而是直接藉由可撓式容置袋130來固定兩者之間的相對位置。As shown in the first and second figures, the relative position between the flexible solar panel 110 and the flexible supercapacitor 120 is restrained by the flexible receiving pocket 130, so that the flexible super capacitor 120 is fixed to The backlight surface 114 of the flexible solar panel 110. That is to say, in the present embodiment, the flexible super capacitor 120 and the flexible solar panel 110 do not have a junction, but are directly fixed by the flexible receiving pocket 130. relative position.
當然,在另一實施方式中,如第3圖所繪示,可撓式超級電容120與可撓式太陽能板110之間也可以具有結件160,並藉由結件160來將可撓式超級電容120固定於可撓式太陽能板110之背光面114。上述之結件160實務上可為黏膠、膠帶、膠紙、膠布、雙面膠、泡棉膠、釘扣、束帶、束套或上述之任意組合。應了解到,雖然第3圖將結件160繪示為黏貼於可撓式超級電容120與可撓式太陽能板110外緣的膠帶,但此並不限制本發明,本發明所屬技術領域中具有通常知識者,亦可視實際需要,彈性選擇結件160的種類。舉例來說,第4圖所繪示之結件即包含黏合於可撓式超級電容120與可撓式太陽能板110之間的黏膠162。Of course, in another embodiment, as shown in FIG. 3 , the flexible super capacitor 120 and the flexible solar panel 110 may also have a connecting member 160 , and the flexible member 160 can be used for flexible The super capacitor 120 is fixed to the backlight surface 114 of the flexible solar panel 110. The above-mentioned knot 160 may be practically an adhesive, a tape, a tape, a tape, a double-sided tape, a foam, a button, a belt, a bundle or any combination thereof. It should be understood that although FIG. 3 illustrates the junction member 160 as a tape adhered to the outer edge of the flexible supercapacitor 120 and the flexible solar panel 110, the present invention is not limited thereto, and has the technical field of the present invention. Usually, the knowledge person can flexibly select the type of the knot member 160 according to actual needs. For example, the junction shown in FIG. 4 includes the adhesive 162 bonded between the flexible super capacitor 120 and the flexible solar panel 110.
第5圖繪示第1圖之快拆式能源模組100的電路圖。如圖所示,上述之可撓式超級電容120可與可撓式太陽能板110並聯,以儲存可撓式太陽能板110所產生的電能。在使用時,上述之可撓式超級電容120與可撓式太陽能板110可透過控制電路170與輸出線路而電性連接至待充電元件300,並藉此提供電能給待充電元件300。上述之待充 電元件300例如可為行動電話、隨身聽、錄音筆、數位相機、數位個人助理(Personal Digital Assistant;PDA)、電子辭典或其他各種手持設備。FIG. 5 is a circuit diagram of the quick-release energy module 100 of FIG. 1. As shown, the flexible supercapacitor 120 described above can be coupled in parallel with the flexible solar panel 110 to store electrical energy generated by the flexible solar panel 110. In use, the flexible supercapacitor 120 and the flexible solar panel 110 can be electrically connected to the component to be charged 300 through the control circuit 170 and the output line, and thereby provide power to the component to be charged 300. Above to be charged The electrical component 300 can be, for example, a mobile phone, a walkman, a voice recorder, a digital camera, a personal digital assistant (PDA), an electronic dictionary, or various other handheld devices.
回到第1、2圖,本實施方式之快拆式能源模組100更可包含一可撓式電池150,此可撓式電池150電性連接可撓式太陽能板110與可撓式超級電容120。上述之可撓式電池150位於可撓式超級電容120背對可撓式太陽能板110的一面122,且此可撓式電池150亦容設於可撓式容置袋130中。Returning to the first and second figures, the quick-disconnecting energy module 100 of the present embodiment may further include a flexible battery 150 electrically connected to the flexible solar panel 110 and the flexible super capacitor. 120. The flexible battery 150 is disposed on a side 122 of the flexible super capacitor 120 opposite to the flexible solar panel 110 , and the flexible battery 150 is also disposed in the flexible receiving pocket 130 .
在本實施方式中,可撓式超級電容120的位置是在可撓式太陽能板110與可撓式電池150之間,這種配置的原因在於:可撓式超級電容120的耐高溫能力一般會比可撓式電池150好,因此將可撓式超級電容120夾置於可撓式太陽能板110與可撓式電池150之間,可以有效防止可撓式電池150因高溫而損壞或效能變差。In the present embodiment, the position of the flexible super capacitor 120 is between the flexible solar panel 110 and the flexible battery 150. The reason for this configuration is that the high temperature resistance of the flexible super capacitor 120 is generally It is better than the flexible battery 150. Therefore, the flexible super capacitor 120 is sandwiched between the flexible solar panel 110 and the flexible battery 150, which can effectively prevent the flexible battery 150 from being damaged or deteriorated due to high temperature. .
在本實施方式中,可撓式電池150可為鋰離子電池與軟性電路板的組合。一般來說,可撓式電池150的厚度越厚,其電容量越大。然而,過厚的可撓式電池150也會讓快拆式能源模組100的可撓性降低。因此,在本發明一實施方式中,快拆式能源模組100的厚度可為約3.8~8 mm。應了解到,此一厚度範圍僅為例示,不應用以限制本發明,本發明所屬技術領域中具有通常知識者,應視實際需要彈性選擇快拆式能源模組100的厚度。In the present embodiment, the flexible battery 150 can be a combination of a lithium ion battery and a flexible circuit board. In general, the thicker the flexible battery 150 is, the larger its capacitance is. However, an excessively thick flexible battery 150 also reduces the flexibility of the quick release energy module 100. Therefore, in an embodiment of the invention, the quick-release energy module 100 may have a thickness of about 3.8 to 8 mm. It should be understood that the thickness range is merely exemplary and is not intended to limit the present invention. Those having ordinary knowledge in the technical field of the present invention should flexibly select the thickness of the quick-release energy module 100 according to actual needs.
同樣地,上述之可撓式電池150、可撓式太陽能板110與可撓式超級電容120之間的相對位置,受到可撓式容置 袋130的拘束,使得可撓式電池150固定於可撓式超級電容120,背對可撓式太陽能板110的該面122。也就是說,在本實施方式中,可撓式電池150與可撓式太陽能板110及/或可撓式超級電容120之間並不具有結件,而是直接藉由可撓式容置袋130來固定三者之間的相對位置。Similarly, the relative position between the flexible battery 150, the flexible solar panel 110 and the flexible super capacitor 120 is flexibly accommodated. The restraint of the bag 130 causes the flexible battery 150 to be secured to the flexible supercapacitor 120, facing away from the face 122 of the flexible solar panel 110. That is to say, in the present embodiment, the flexible battery 150 and the flexible solar panel 110 and/or the flexible super capacitor 120 do not have a junction, but directly by the flexible receiving pocket. 130 to fix the relative position between the three.
同樣地,在另一實施方式中,如第3圖所繪示,可撓式電池150與可撓式太陽能板110及/或可撓式超級電容120之間也可以具有結件160,並藉由結件160來將可撓式電池150固定於可撓式超級電容120,背對可撓式太陽能板110的該面122。上述之結件160實務上可為黏膠、膠帶、膠紙、膠布、雙面膠、泡棉膠、釘扣、束帶、束套或上述之任意組合。應了解到,雖然第3圖將結件160繪示為黏貼於可撓式電池150與可撓式太陽能板110及/或可撓式超級電容120外緣的膠帶,但此並不限制本發明,本發明所屬技術領域中具有通常知識者,亦可視實際需要,彈性選擇結件160的種類。舉例來說,第4圖所繪示之結件即包含黏合於可撓式電池150與可撓式超級電容120之間的黏膠164。Similarly, in another embodiment, as shown in FIG. 3 , the flexible battery 150 and the flexible solar panel 110 and/or the flexible super capacitor 120 may also have a junction 160 and The flexible battery 150 is secured to the flexible supercapacitor 120 by the junction 160, facing away from the face 122 of the flexible solar panel 110. The above-mentioned knot 160 may be practically an adhesive, a tape, a tape, a tape, a double-sided tape, a foam, a button, a belt, a bundle or any combination thereof. It should be understood that although FIG. 3 illustrates the junction 160 as a tape adhered to the outer edge of the flexible battery 150 and the flexible solar panel 110 and/or the flexible supercapacitor 120, this does not limit the present invention. Those having ordinary knowledge in the technical field to which the present invention pertains may also flexibly select the type of the knot member 160 according to actual needs. For example, the junction shown in FIG. 4 includes an adhesive 164 bonded between the flexible battery 150 and the flexible super capacitor 120.
同樣地,如第5圖所示,上述之可撓式電池150可與可撓式太陽能板110及/或可撓式超級電容120並聯,以儲存可撓式太陽能板110所產生的電能。在使用時,上述之可撓式電池150、可撓式超級電容120與可撓式太陽能板110可透過控制電路170與輸出線路而電性連接至待充電元件300,並藉此提供電能給待充電元件300。Similarly, as shown in FIG. 5, the flexible battery 150 described above may be connected in parallel with the flexible solar panel 110 and/or the flexible supercapacitor 120 to store electrical energy generated by the flexible solar panel 110. In use, the flexible battery 150, the flexible super capacitor 120 and the flexible solar panel 110 can be electrically connected to the component to be charged 300 through the control circuit 170 and the output line, and thereby provide power to be treated. Charging element 300.
回到第1圖,上述之快拆元件140實務上可為黏扣帶、 拉鍊、鈕釦、扣夾、扣環、螺栓、螺帽、排釦、卡榫扣具、掛勾、套袋、磁鐵、可重複黏貼之膠帶、綁帶、綁繩、綁線、吊環、溝槽、別針、雙D扣、插扣、螺絲、鎖釦或上述之任意組合。應了解到,以上所舉之快拆元件140僅為例示,並非用以限制本發明,本發明所屬技術領域中具有通常知識者,應視實際需要彈性選擇快拆元件140的種類。Returning to Fig. 1, the quick release component 140 described above may be a fastening tape, Zippers, buttons, clips, buckles, bolts, nuts, buckles, snap fasteners, hooks, bagging, magnets, re-stickable tape, straps, tying ropes, tie wires, rings, grooves Slot, pin, double D buckle, buckle, screw, lock or any combination of the above. It should be understood that the above-described quick release component 140 is merely illustrative and is not intended to limit the present invention. Those skilled in the art to which the present invention pertains may flexibly select the type of quick release component 140 as needed.
此外,雖然第1圖將快拆元件140繪示為位於可撓式容置袋130的相對兩短邊,但實務上快拆元件140的位置也是可以調整的,例如在本發明部分實施方式中,快拆元件140也可以位於可撓式容置袋130的相對兩長邊。或者,快拆元件140也可以是單一個,其位置可以是可撓式容置袋130的短邊其中之一、長邊其中之一或中央區域。In addition, although FIG. 1 illustrates the quick release element 140 as being located on opposite short sides of the flexible receiving pocket 130, the position of the quick release element 140 can be adjusted, for example, in some embodiments of the present invention. The quick release component 140 can also be located on opposite sides of the flexible receiving pocket 130. Alternatively, the quick release element 140 may be a single one, which may be located at one of the short sides of the flexible receiving pocket 130, one of the long sides, or a central region.
上述之可撓式容置袋130實務上可為織物袋、塑膠袋、含金屬箔的包裝袋(例如:鋁箔包)或上述之任意組合。應了解到,以上所舉之可撓式容置袋130僅為例示,並非用以限制本發明,本發明所屬技術領域中具有通常知識者,應視實際需要彈性選擇可撓式容置袋130的種類。The above flexible accommodating bag 130 may be a fabric bag, a plastic bag, a metal foil-containing bag (for example, an aluminum foil bag) or any combination thereof. It should be understood that the above-mentioned flexible accommodating bag 130 is merely an example and is not intended to limit the present invention. Those skilled in the art to which the present invention pertains should flexibly select the flexible accommodating bag 130 according to actual needs. kind of.
在本發明部分實施方式中,可撓式容置袋130可以有一定程度的防水或防濕氣能力,以避免內部的元件受水氣影響而損壞。舉例來說,在本發明一實施方式中,可撓式容置袋130可為內夾防水層的織物袋,例如內夾聚四氟乙烯(Polytetrafluoroethene;PTFE)防水層的織物袋。或者,在本發明其他實施方式中,上述之可撓式容置袋130亦可直接為各式塑膠袋,例如聚乙烯(Polyethylene;PE)袋。應了解到,可撓式容置袋130是否具有防水或防濕氣能力 應視實際需要而定。舉例來說,如果快拆式能源模組100設計成不可清洗的,可撓式容置袋130當然也就不需要具有防水或防濕氣的能力。In some embodiments of the present invention, the flexible receiving pocket 130 may have a degree of waterproof or moisture resistant capability to prevent internal components from being damaged by moisture. For example, in an embodiment of the invention, the flexible receiving pocket 130 can be a fabric bag with a waterproof layer, such as a fabric bag with a polytetrafluoroethene (PTFE) waterproof layer. Alternatively, in other embodiments of the present invention, the flexible accommodating bag 130 may be directly used for various plastic bags, such as polyethylene (PE) bags. It should be understood whether the flexible receiving pocket 130 has the ability to be waterproof or moisture resistant. It should be determined according to actual needs. For example, if the quick release energy module 100 is designed to be non-cleanable, the flexible receiving pocket 130 certainly does not need to be waterproof or moisture resistant.
當可撓式容置袋130的材質為不透明時,可撓式容置袋130上可開設一入光口132,此入光口132暴露出至少部分之可撓式太陽能板110之入光面112。此外,為了維持入光口132的防水能力,入光口132部分可覆蓋有透明防水膜180,例如聚乙烯(Polyethylene;PE)膜。當然,當所選用之可撓式容置袋130的材質為透明時,可撓式容置袋130上亦可選擇不設置入光口132。When the material of the flexible accommodating bag 130 is opaque, an optical port 132 can be formed in the flexible accommodating bag 130, and the illuminating port 132 exposes at least a portion of the illuminating surface of the flexible solar panel 110. 112. In addition, in order to maintain the waterproof capability of the light entrance 132, the light entrance 132 may be partially covered with a transparent waterproof film 180, such as a polyethylene (PE) film. Of course, when the material of the flexible accommodating bag 130 is transparent, the flexible accommodating bag 130 may also be configured not to be provided with the optical port 132.
第6圖繪示應用第1圖之快拆式能源模組100的衣物200的正視圖。第7圖繪示第6圖之衣物200的後視圖。如第6、7圖所示,衣物200包含衣物本體210、快拆式能源模組100與輸出線路220。快拆式能源模組100透過快拆元件140可拆卸地將可撓式容置袋130裝設於衣物本體210上。輸出線路220電性連接快拆式能源模組100至待充電元件。FIG. 6 is a front elevational view of the garment 200 to which the quick release energy module 100 of FIG. 1 is applied. Figure 7 is a rear elevational view of the garment 200 of Figure 6. As shown in FIGS. 6 and 7, the garment 200 includes a garment body 210, a quick-release energy module 100, and an output line 220. The quick release energy module 100 detachably mounts the flexible receiving pocket 130 on the garment body 210 through the quick release component 140. The output line 220 is electrically connected to the quick-disconnecting energy module 100 to the component to be charged.
在第6、7圖中,上述之衣物本體210包含至少一下擺反折212。輸出線路220至少部分容設於下擺反折212中。亦即,輸出線路220至少一部分可隱藏於下擺反折212中,如此不但可以固定輸出線路220的位置,還可以維持衣物200的美觀。In Figures 6 and 7, the garment body 210 described above includes at least a pendulum reflex 212. The output line 220 is at least partially received in the hem reflex 212. That is, at least a portion of the output line 220 can be concealed in the hem of the hem, so that not only the position of the output line 220 can be fixed, but also the aesthetics of the garment 200 can be maintained.
第8圖繪示第6圖之輸出線路220的正視圖。如圖所示,輸出線路220的兩端分別具有一接頭222、224,這兩個接頭222、224分別用以供待充電元件與快拆式能源模組 100連接。此外,本實施方式之衣物200更可包含兩防水蓋226、228,分別適於蓋設接頭222、224。當使用者欲清洗衣物200時,可先透過快拆元件140拆開快拆式能源模組100與衣物本體210之間的連接,並拆開接頭224與快拆式能源模組100之間的連接。然後,將防水蓋226、228分別蓋設於接頭222、224,即可將衣物200丟入洗衣機中清洗,而不必擔心水氣損壞接頭222、224。Figure 8 is a front elevational view of the output line 220 of Figure 6. As shown in the figure, the two ends of the output line 220 respectively have a connector 222, 224 for the component to be charged and the quick release energy module. 100 connections. In addition, the garment 200 of the present embodiment may further include two waterproof covers 226 and 228 respectively adapted to cover the joints 222 and 224. When the user wants to wash the laundry 200, the connection between the quick-disconnecting energy module 100 and the garment body 210 can be disassembled through the quick-release component 140, and the joint between the joint 224 and the quick-release energy module 100 is disassembled. connection. Then, the waterproof covers 226, 228 are respectively placed on the joints 222, 224, so that the laundry 200 can be thrown into the washing machine for cleaning without worrying about moisture damage to the joints 222, 224.
上述之接頭222、224可為任何規格的接頭,例如:符合通用串列匯流排(Universal Serial Bus;USB)規格之防水接頭。在設計上,接頭222、224可以是公接頭、母接頭或一公一母,以能夠配合快拆式能源模組100與待充電元件上所對應的接頭為主。The above-mentioned joints 222, 224 can be any type of joint, for example, a waterproof joint conforming to the Universal Serial Bus (USB) specification. In terms of design, the joints 222, 224 may be male connectors, female connectors or one male and one female, so as to be able to cooperate with the quick-release energy module 100 and the corresponding joints on the components to be charged.
應了解到,雖然第6、7圖是以衣物200為範例解釋快拆式能源模組100的應用,但此並不限制本發明。事實上,快拆式能源模組100也可以應用在袋包、帽子、汽車遮陽簾、窗簾、帳棚等紡織品上。例如在本發明部分實施方式中,快拆式能源模組100也可以應用在背包上。本發明所屬技術領域中具有通常知識者,應視實際需要彈性選擇快拆式能源模組100的應用方式。It should be understood that although Figures 6 and 7 illustrate the application of the quick release energy module 100 with the garment 200 as an example, this does not limit the invention. In fact, the quick-release energy module 100 can also be applied to textiles such as bags, hats, car sunshades, curtains, tents, and the like. For example, in some embodiments of the present invention, the quick release energy module 100 can also be applied to a backpack. Those having ordinary knowledge in the technical field to which the present invention pertains should flexibly select an application mode of the quick-release energy module 100 according to actual needs.
由以上敘述可知,本發明上述實施方式具有以下優點:(1)快拆式能源模組100能夠以快拆的方式固定在各類衣物200上使用;(2)快拆式能源模組100為可撓式,適用於衣物200的彎曲位置;(3)輸出線路220至少部分容設於下擺反折212中, 因此能夠維持衣物200的美觀;(4)快拆式能源模組100能夠從衣物200上拆卸下來,且輸出線路220的兩端接頭222、224都有防水蓋226、228,因此使用者可以很方便地清洗衣物200;以及(5)本發明上述實施方式將可撓式太陽能板110、可撓式超級電容120與可撓式電池150整合在一起,因此不需要額外的電池盒,也不需要複雜的線路,即可應用太陽能來充電。It can be seen from the above that the above-mentioned embodiments of the present invention have the following advantages: (1) The quick-disconnecting energy module 100 can be fastened and fixed on various types of clothes 200; (2) the quick-disconnecting energy module 100 is Flexible, suitable for the bending position of the garment 200; (3) the output line 220 is at least partially accommodated in the hem of the hem Therefore, the aesthetic appearance of the garment 200 can be maintained; (4) the quick-release energy module 100 can be detached from the garment 200, and the joints 222, 224 of the output line 220 have waterproof covers 226, 228, so the user can Conveniently cleaning the garment 200; and (5) the above embodiment of the present invention integrates the flexible solar panel 110, the flexible supercapacitor 120, and the flexible battery 150, thereby eliminating the need for an additional battery case or With complex wiring, solar energy can be used to charge.
以下將揭露本發明數個實施例,藉此說明上述實施方式之快拆式能源模組,確實能夠提供所需要的性能。應瞭解到,在以下敘述中,已經在上述實施方式中提到的參數將不再重複贅述,僅就需進一步界定者加以補充,合先敘明。Several embodiments of the present invention are disclosed below, thereby illustrating that the quick-release energy module of the above embodiment can indeed provide the required performance. It should be understood that in the following description, the parameters that have been mentioned in the above embodiments will not be repeated, and will be supplemented only if further definitions are needed.
第9圖繪示依照本發明一實施例之快拆式能源模組100的彎曲率示意圖。在以下敘述中,彎曲率的定義為快拆式能源模組100彎曲時的中心高度H除以快拆式能源模組100彎曲時的寬度W。在本實施例中,可撓式太陽能板係採用層積法製造,其中基板的材質為不鏽鋼,光電轉換層的材質為非晶矽,光電轉換層的厚度為1 mm,可撓式太陽能板的尺寸為200 mm x 205 mm x 1 mm(長x寬x厚,基板的厚度極薄,忽略不計)。FIG. 9 is a schematic diagram showing the bending rate of the quick-release energy module 100 according to an embodiment of the invention. In the following description, the bending rate is defined as the center height H when the quick-release energy module 100 is bent divided by the width W when the quick-release energy module 100 is bent. In this embodiment, the flexible solar panel is fabricated by a lamination method, wherein the substrate is made of stainless steel, the photoelectric conversion layer is made of amorphous germanium, and the photoelectric conversion layer has a thickness of 1 mm, and the flexible solar panel is The dimensions are 200 mm x 205 mm x 1 mm (length x width x thickness, the thickness of the substrate is extremely thin, negligible).
在這樣的配置下,快拆式能源模組100彎曲時的中心高度H為6 cm,快拆式能源模組100彎曲時的寬度W為 15 cm,彎曲率為40%。In such a configuration, the center height H of the quick-disconnecting energy module 100 when bending is 6 cm, and the width W of the quick-disconnecting energy module 100 when bending is 15 cm, the bending rate is 40%.
以下表一表示上述實施例之快拆式能源模組的完全充放電測試結果。在以下實驗數據中,充放電測試機的型號為Arbin BT2000,充電模式為固定電壓模式(Constant Voltage Mode;CV Mode),充電電壓為5 V,充電時間為1小時,放電模式為固定電流模式(Constant Current Mode;CC Mode),放電電流為400 mA,最終放電電壓為3 V,樣本數為11。測試時,測試並記錄樣本在水洗20次前後的充電與放電容量。結果顯示水洗前後之快拆式能源模組的充放電效能幾乎沒有差異。Table 1 below shows the complete charge and discharge test results of the quick release energy module of the above embodiment. In the following experimental data, the model of the charge and discharge tester is Arbin BT2000, the charging mode is Constant Voltage Mode (CV Mode), the charging voltage is 5 V, the charging time is 1 hour, and the discharge mode is fixed current mode ( Constant Current Mode; CC Mode), the discharge current is 400 mA, the final discharge voltage is 3 V, and the number of samples is 11. During the test, the charge and discharge capacities of the samples before and after washing 20 times were tested and recorded. The results show that there is almost no difference in the charge and discharge performance of the quick-release energy module before and after washing.
以下將比較可撓式超級電容之有無對快拆式能源模組效能的影響。以下表二列出兩組樣本的規格,在以下兩組樣本中,所有參數及材質均相同,僅可撓式超級電容之有無有所不同。以下表三列出平均照度83.1 mW/cm2 及平均照度39.8 mW/cm2 的效能測試結果。結果顯示有可撓式超級電容的樣本顯然具有更高的效能。測試時,在平均照度83.1 mW/cm2 的情況下,有可撓式超級電容之樣本的模組電流為280 mA,沒有可撓式超級電容之樣本的模組電流為230 mA,兩者差約20%。此外,在平均照度83.1 mW/cm2 的數據中,有可撓式超級電容之樣本的輸出電容量較沒有可撓式超級電容之樣本高18%,而在平均照度39.8 mW/cm2 的數據中,有可撓式超級電容之樣本的輸出電容量較沒有可撓式超級電容之樣本高31%。在以下實驗數據中,所使用的可撓式電池為鋰離子電池,電容量為1500 mAh,能量為5.55 Wh,所使用的充放電測試機為Arbin SCTS。The following will compare the effects of flexible supercapacitors on the performance of quick-release energy modules. Table 2 below lists the specifications of the two sets of samples. In the following two sets of samples, all parameters and materials are the same, and only the flexible supercapacitors are different. Table 3 below shows the results of the performance test with an average illuminance of 83.1 mW/cm 2 and an average illuminance of 39.8 mW/cm 2 . The results show that samples with flexible supercapacitors are clearly more efficient. At the time of the test, in the case of an average illuminance of 83.1 mW/cm 2 , the module current of the sample with the flexible supercapacitor is 280 mA, and the module current of the sample without the flexible super capacitor is 230 mA. About 20%. In addition, in the data with an average illuminance of 83.1 mW/cm 2 , the output capacitance of the sample with the flexible supercapacitor is 18% higher than that of the sample without the flexible supercapacitor, and the data with an average illuminance of 39.8 mW/cm 2 The output capacitance of a sample with a flexible supercapacitor is 31% higher than that of a sample without a flexible supercapacitor. In the following experimental data, the flexible battery used was a lithium ion battery with a capacitance of 1500 mAh and an energy of 5.55 Wh, and the charge and discharge tester used was Arbin SCTS.
註1:系統效能=放電總能量/照射時間,例如:系統效能=(3.56(Wh)x3600(s/h))/(4(h)x60(min/h))=53.4(J/min)。Note 1: System performance = total discharge energy / irradiation time, for example: system performance = (3.56 (Wh) x 3600 (s / h)) / (4 (h) x 60 (min / h)) = 53.4 (J / min) .
雖然本發明已以實施方式揭露如上,然其並非用以限定本發明,任何熟習此技藝者,在不脫離本發明之精神和範圍內,當可作各種之更動與潤飾,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and the present invention can be modified and modified without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached.
2‧‧‧線段2‧‧‧ segments
100‧‧‧快拆式能源模組100‧‧‧Quick-release energy module
110‧‧‧可撓式太陽能板110‧‧‧Flexible solar panels
112‧‧‧入光面112‧‧‧Into the glossy surface
114‧‧‧背光面114‧‧‧Backlit surface
120‧‧‧可撓式超級電容120‧‧‧Flexible supercapacitors
122‧‧‧面122‧‧‧ Face
130‧‧‧可撓式容置袋130‧‧‧Flexible container
132‧‧‧入光口132‧‧‧Into the light port
140‧‧‧快拆元件140‧‧‧ quick release components
150‧‧‧可撓式電池150‧‧‧flexible battery
160‧‧‧結件160‧‧‧Connected
162‧‧‧黏膠162‧‧‧Viscos
164‧‧‧黏膠164‧‧‧Viscos
170‧‧‧控制電路170‧‧‧Control circuit
180‧‧‧透明防水膜180‧‧‧Transparent waterproof membrane
200‧‧‧衣物200‧‧‧ clothing
210‧‧‧衣物本體210‧‧‧ clothing body
212‧‧‧下擺反折212‧‧‧The hem is folded back
220‧‧‧輸出線路220‧‧‧Output line
222‧‧‧接頭222‧‧‧ joint
224‧‧‧接頭224‧‧‧Connectors
226‧‧‧防水蓋226‧‧‧Waterproof cover
228‧‧‧防水蓋228‧‧‧Waterproof cover
300‧‧‧待充電元件300‧‧‧Charging components
W‧‧‧寬度W‧‧‧Width
H‧‧‧高度H‧‧‧ Height
第1圖繪示依照本發明一實施方式之快拆式能源模組的立體圖。FIG. 1 is a perspective view of a quick release energy module according to an embodiment of the invention.
第2圖繪示沿第1圖之線段2的剖面圖。Figure 2 is a cross-sectional view along line 2 of Figure 1.
第3圖繪示依照本發明另一實施方式之快拆式能源模組的剖面圖,其剖面位置與第2圖相同。FIG. 3 is a cross-sectional view showing a quick-disconnecting energy module according to another embodiment of the present invention, the cross-sectional position of which is the same as that of FIG. 2.
第4圖繪示依照本發明再一實施方式之快拆式能源模組的剖面圖,其剖面位置與第2圖相同。4 is a cross-sectional view showing a quick-disconnecting energy module according to still another embodiment of the present invention, the cross-sectional position of which is the same as that of FIG. 2.
第5圖繪示第1圖之快拆式能源模組的電路圖。Figure 5 is a circuit diagram of the quick-release energy module of Figure 1.
第6圖繪示應用第1圖之快拆式能源模組的衣物的正視圖。Figure 6 is a front elevational view of the garment to which the quick release energy module of Figure 1 is applied.
第7圖繪示第6圖之衣物的後視圖。Figure 7 is a rear elevational view of the garment of Figure 6.
第8圖繪示第6圖之輸出線路的正視圖。Figure 8 is a front elevational view of the output line of Figure 6.
第9圖繪示依照本發明一實施例之快拆式能源模組的彎曲率示意圖。FIG. 9 is a schematic diagram showing a bending rate of a quick release energy module according to an embodiment of the invention.
2‧‧‧線段2‧‧‧ segments
100‧‧‧快拆式能源模組100‧‧‧Quick-release energy module
110‧‧‧可撓式太陽能板110‧‧‧Flexible solar panels
112‧‧‧入光面112‧‧‧Into the glossy surface
130‧‧‧可撓式容置袋130‧‧‧Flexible container
132‧‧‧入光口132‧‧‧Into the light port
140‧‧‧快拆元件140‧‧‧ quick release components
Claims (17)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW101122670A TWI473286B (en) | 2012-06-25 | 2012-06-25 | Quick release energy module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW101122670A TWI473286B (en) | 2012-06-25 | 2012-06-25 | Quick release energy module |
Publications (2)
Publication Number | Publication Date |
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TW201401536A TW201401536A (en) | 2014-01-01 |
TWI473286B true TWI473286B (en) | 2015-02-11 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW101122670A TWI473286B (en) | 2012-06-25 | 2012-06-25 | Quick release energy module |
Country Status (1)
Country | Link |
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TW (1) | TWI473286B (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2882082Y (en) * | 2005-11-23 | 2007-03-21 | 孙民兴 | Solar module using high power superhigh capacitor |
TWM351547U (en) * | 2008-07-11 | 2009-02-21 | yi-jun Zhang | Solar powered charging device |
CN201222984Y (en) * | 2008-07-22 | 2009-04-22 | 江贺彬 | Clothes equipped with solar electric charger |
CN201509161U (en) * | 2009-04-22 | 2010-06-16 | 长沙巨力电子科技有限公司 | Solar power module |
TWM421594U (en) * | 2011-07-13 | 2012-01-21 | Ming-Xing Xiao | Protective jacket with thin-film solar cell |
-
2012
- 2012-06-25 TW TW101122670A patent/TWI473286B/en active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2882082Y (en) * | 2005-11-23 | 2007-03-21 | 孙民兴 | Solar module using high power superhigh capacitor |
TWM351547U (en) * | 2008-07-11 | 2009-02-21 | yi-jun Zhang | Solar powered charging device |
CN201222984Y (en) * | 2008-07-22 | 2009-04-22 | 江贺彬 | Clothes equipped with solar electric charger |
CN201509161U (en) * | 2009-04-22 | 2010-06-16 | 长沙巨力电子科技有限公司 | Solar power module |
TWM421594U (en) * | 2011-07-13 | 2012-01-21 | Ming-Xing Xiao | Protective jacket with thin-film solar cell |
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TW201401536A (en) | 2014-01-01 |
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