TW201916530A - Mobile power bank with wireless charging and discharging function capable of receiving an electromagnetic wave from an external wireless charger, and wirelessly supplying electric energy to an external portable smart device - Google Patents
Mobile power bank with wireless charging and discharging function capable of receiving an electromagnetic wave from an external wireless charger, and wirelessly supplying electric energy to an external portable smart device Download PDFInfo
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Abstract
Description
本發明涉及一種行動電源,在此專指具有無線充放電功能的行動電源。 The invention relates to a mobile power source, which specifically refers to a mobile power source with a wireless charging and discharging function.
惟,隨著智慧型手機與各種可攜式行動通訊或多媒體影音裝置的普遍化,現代人每天日常生活中,甚至是在工作中,幾乎隨時隨地使用著這些通訊裝置,以至於常常發生電力不足而需要隨時加以充電,但,傳統手機或平板電腦(iPad),甚至是智慧型手表、行動電源,當電力不足,需要充電時,無論是在家中、室內或外出在戶外時,均需要使用連接線之兩端接頭相互電性連接手機與行動電源(或行動電源對行動電源進行充電、以充電線連通市電對行動電源充電),才能進行充電,一旦忘記攜帶連接線,就無法進行充電,且在每一次充電過程中,反覆地將連接線的兩端接頭插進與抽出,俾使連接線的接頭容易磨損,接頭與電線連接處更容易發生斷裂之情況,導致充電無法正常進行,同時,更會造成手機、平板電腦(iPad)與行動電源的接口鬆動損壞,必須花費金錢維修手機或平板電腦(iPad),有時,甚至整台昂貴的手機或平板電腦(iPad)無法維修,不但如此,在充電過程中,連接線也常常發生纏繞、糾結,或斷裂毀損的現象, 更會因連接線的牽絆,稍一不小心就會拉扯到連接線,造成手機或行動電源掉落地上而損壞之情況發生,造成嚴重的損失,讓使用者感到相當地不便;因此,由以上得知,此些缺失,俾使傳統對手機或平板電腦(iPad)…等各種通訊或智慧型裝置以有線進行充電之方式,或以有線方式對行動電源本身進行充電,均存在許多不便與困擾,已不符合現代人的需求;有鑑於此,如何能克服上述之缺點,讓隨身攜帶的行動電源不用藉由連接線就能直接對手機或智慧型裝置進行充電,同時,當隨身攜帶的行動電源需要充電時,亦可不需要連接線或充電線就能被加以充電,大幅提昇行動電源使用的便利性與實用性,乃是本發明人欲解決的技術問題及技術效果。 However, with the popularization of smart phones and various portable mobile communications or multimedia video and audio devices, modern people use these communication devices almost anytime, anywhere in their daily lives, even at work, so that power shortages often occur. It needs to be recharged at any time. However, traditional mobile phones or tablets (iPad), even smart watches, mobile power supplies, need to be connected when there is insufficient power to charge, whether at home, indoors or outdoors. The two ends of the cable electrically connect the mobile phone and the mobile power source (or the mobile power source charges the mobile power source, and the charging line is connected to the city power source to charge the mobile power source) before charging can be performed. Once you forget to carry the connection line, you cannot charge it, and During each charging process, the connectors at both ends of the cable are repeatedly inserted in and pulled out, so that the connectors of the cable are prone to wear and tear, and the connection between the connector and the wire is more prone to breakage. It will also cause the interface of the mobile phone, tablet computer (iPad) and mobile power to become loose and damaged. Money to repair a mobile phone or tablet (iPad). Sometimes, even the entire expensive mobile phone or tablet (iPad) cannot be repaired. Not only that, the cable is often tangled, tangled, or broken during the charging process. In addition, due to the connection cable's drag, if you accidentally pull the connection cable, it will cause the mobile phone or mobile power supply to fall to the ground and be damaged. This will cause serious losses and make users feel inconvenient; therefore, From the above, these shortcomings have caused many inconveniences in the traditional way of charging various communication or smart devices such as mobile phones or tablet computers (iPad), etc. by wire, or charging the mobile power source by wire. It is no longer in line with the needs of modern people. In view of this, how to overcome the shortcomings mentioned above, so that the portable power bank can directly charge the mobile phone or smart device without a connection cable, and at the same time, when carrying When the mobile power source needs to be charged, it can also be charged without connecting cables or charging cables, which greatly improves the convenience of mobile power And practicality, but the present invention wishes to solve the technical problem and technical effects.
本發明人有鑒於前述傳統各種可攜式智慧型裝置以有線進行充放電之方式在使用上及功效方面仍有諸多問題無法突破,對此本發明人乃著手進行研究並積極的研發、創作,期以突破現有之技術功能侷限,經多年從事於此一行業之專業經驗與心得,於是發明出本案之發明。 The present inventor has considered that there are still many problems in the use and efficacy of the traditional various portable smart devices that can be charged and discharged by wire. The inventor has set out research and actively researched and developed. In order to break through the limitations of existing technical functions, and after years of professional experience and experience in this industry, the invention of this case was invented.
本發明之主要目的在於具有無線充放電功能的行動電源裝置,乃藉由主體第2面之主感應區以接觸式或非接觸式的方式,對應外部可攜式智慧型裝置之感應區,俾使儲存於主體第2內側上的電池中之電能經過第1控制電路模組以及/或第2控制電路模組,再經過無線電磁感應模組其電磁感應圈之線圈將 電能轉換成電磁波發送出去,進而被可攜式智慧型裝置內部之線圈所接收並轉換成電能,提供可攜式智慧型裝置使用,當外部無線充電器對本發明無線充放電行動電源裝置進行充電時,外部無線充電器之感應區亦以接觸式或非接觸式的方式,對應無線充放電行動電源裝置的主體第2面之主感應區,俾使無線電磁感應模組之線圈接收外部無線充電器之電磁波,並將所接收之電磁波轉換成電能,所述電能經過第1控制電路模組以及/或第2控制電路模組之轉換,進而儲存於電池中,由於線圈係貼附於鐵心板,俾使充電過程中,不但電磁波不會耦合到鄰近的鐵或磁性材料元件,避免造成不必要之損耗或干擾,更可提高無線充放電時,電能轉換之效率,因此,本發明不但可對具有無線充電功能之外部可攜式智慧型裝置進行充電,亦可接收外部無線充電器對其進行充電,徹底解決傳統對手機或其他可攜式智慧型裝置充電時,受到線的束縛與牽絆之不便,提高隨時隨地方便進行充電之實用便利性。 The main object of the present invention is a mobile power device with a wireless charging and discharging function. The main sensing area on the second side of the main body corresponds to the sensing area of an external portable smart device in a contact or non-contact manner. The electric energy stored in the battery stored on the second inner side of the main body passes the first control circuit module and / or the second control circuit module, and then passes through the coil of the electromagnetic induction coil of the wireless electromagnetic induction module to convert the electrical energy into electromagnetic waves and sends it out. It is further received by the coil inside the portable smart device and converted into electrical energy, which is provided for use by the portable smart device. When the external wireless charger charges the wireless charging and discharging mobile power device of the present invention, the induction of the external wireless charger The zone also corresponds to the main induction zone on the second side of the main body of the wireless charging and discharging mobile power device in a contact or non-contact manner, so that the coil of the wireless electromagnetic induction module receives electromagnetic waves from an external wireless charger, and The electromagnetic wave is converted into electric energy, and the electric energy is converted by the first control circuit module and / or the second control circuit module, and then stored. Stored in the battery, because the coil is attached to the iron core plate, so that during the charging process, not only will electromagnetic waves not be coupled to adjacent iron or magnetic material components, avoiding unnecessary loss or interference, but also improving wireless charging and discharging. The efficiency of power conversion. Therefore, the present invention can not only charge external portable smart devices with wireless charging function, but also receive external wireless chargers to charge them, completely solving the traditional problems of mobile phones or other portable devices. When the smart device is charged, it is inconvenient due to the restraint and entanglement of the cable, which improves the practical convenience of convenient charging at any time and anywhere.
為使 貴審查委員能進一步瞭解本發明之結構、特徵及功效所在,茲附以圖式及較佳實施例之詳細說明如後。 In order to allow your reviewers to further understand the structure, features, and functions of the present invention, drawings and detailed descriptions of preferred embodiments are attached below.
(1)‧‧‧無線充放電行動電源裝置 (1) ‧‧‧Wireless charging and discharging mobile power device
(10)‧‧‧主體 (10) ‧‧‧Subject
(100)‧‧‧主感應區 (100) ‧‧‧Main induction zone
(11)‧‧‧第1殼體 (11) ‧‧‧The first case
(110)‧‧‧主體第1面 (110) ‧‧‧The first side of the body
(111)‧‧‧主體第1內側 (111) ‧‧‧The first inside of the body
(12)‧‧‧第2殼體 (12) ‧‧‧The second case
(120)‧‧‧主體第2面 (120) ‧‧‧The second side of the body
(121)‧‧‧主體第2內側 (121) ‧‧‧ 2nd inside of the body
(20)‧‧‧電池 (20) ‧‧‧Battery
(31)‧‧‧第1控制電路模組 (31) ‧‧‧The first control circuit module
(32)‧‧‧第2控制電路模組 (32) ‧‧‧The second control circuit module
(50)‧‧‧無線電磁感應模組 (50) ‧‧‧Wireless electromagnetic induction module
(51)‧‧‧電磁感應圈 (51) ‧‧‧Electromagnetic induction coil
(511)‧‧‧鐵心板 (511) ‧‧‧Core Plate
(5110)‧‧‧背面 (5110) ‧‧‧Back
(512)‧‧‧線圈 (512) ‧‧‧Coil
(60)‧‧‧感應面端 (60) ‧‧‧Sensor face
(600)‧‧‧感應區 (600) ‧‧‧Sensor Zone
(61)‧‧‧可攜式智慧型裝置 (61) ‧‧‧Portable smart device
(62)‧‧‧無線充電器 (62) ‧‧‧Wireless Charger
(7)‧‧‧充電電量顯示 (7) ‧‧‧Charge display
第1圖:係本發明較佳實施例分解立體示意圖。 FIG. 1 is an exploded perspective view of a preferred embodiment of the present invention.
第2圖:係本發明較佳實施例立體示意圖(一)。 FIG. 2 is a schematic perspective view (1) of a preferred embodiment of the present invention.
第3圖:係本發明較佳實施例剖面示意圖(一)。 Fig. 3: Schematic sectional view (1) of the preferred embodiment of the present invention.
第4圖:係本發明較佳實施例鐵心板背面示意圖。 FIG. 4 is a schematic diagram of a back side of a core plate according to a preferred embodiment of the present invention.
第5圖:係本發明較佳實施例立體示意圖(二)。 FIG. 5 is a three-dimensional schematic diagram (b) of a preferred embodiment of the present invention.
第6圖:係本發明較佳實施例剖面示意圖(二)。 Fig. 6 is a schematic cross-sectional view of the preferred embodiment of the present invention (2).
第7圖:係本發明較佳實施例示意圖。 FIG. 7 is a schematic diagram of a preferred embodiment of the present invention.
第8圖:係本發明較佳實施狀態剖面示意圖。 Fig. 8 is a schematic sectional view of a preferred embodiment of the present invention.
第9圖:係本發明較佳實施狀態透視圖。 Fig. 9 is a perspective view of a preferred embodiment of the present invention.
為使 貴審查委員能進一步瞭解本發明之結構、特徵及功效所在,茲附以較佳實施例並配合圖式詳細說明如後。 In order to allow your reviewers to further understand the structure, features, and functions of the present invention, preferred embodiments are described in detail below in conjunction with the drawings.
請參閱第1圖、第2圖、第3圖、第4圖、第5圖、第6圖、第7圖、第8圖以及第9圖所示,本發明無線充放電行動電源裝置(1)主要包含有主體(10)、電池(20)、第1控制電路模組(31)、無線電磁感應模組(50);該主體(10)更包含有第1外殼(11)與第2外殼(12);其中,主體(10)外部形成有主體第1面(110)與主體第2面(120);所述無線電磁感應模組(50)進一步包含有電磁感應圈(51)以及第2控制電路模組(32);其中,電磁感應圈(51)包含有鐵心板(511)以及線圈(512),所述鐵心板(511)係設置於第2外殼(12)之主體第2內側(121)上,線圈(512)設置於主體第2內側(121)與鐵心板(511)之間,亦即貼靠於鐵心板(511)的背面(5110)上(如第4圖所示),俾使鐵心板(511)與線圈(512)相互貼附;其中,線圈(512)捲繞之形狀可依據需要為圓形、矩形或其他幾何形狀,且可依據 需要設置為至少一層,其捲繞之圈數亦可依據需要捲繞為任意圈數,以降低空窗區並加強散熱效果為目的,並提高電磁波轉換與無線充放電之最佳效率;該鐵心板(511)係為可應用於高頻之磁性材料的鐵氧磁體,由鐵與其他元素的氧化物所構成的晶體結構,在高溫與特定之方式、時間下將鐵氧磁體材料燒結而成,具有高導磁率之特性,由於其各細小磁域並非同一方向排列,因此並不會像一般磁鐵展現出N極或S兩極;其中,第2控制電路模組(32)亦設置於第2外殼(12)之主體第2內側(121)上並與線圈(512)電性相連接,所述第2控制電路模組(32)主要功能為無線充放電控制之電路模組(請參閱第2圖以及第3圖所示),俾使主體第2面(120)形成有主感應區(100);該電池(20)係與第1控制電路模組(31)電性相連接並均設置於第1外殼(11)之主體第1內側(111)上;所述第2控制電路模組(32)與第1控制電路模組(31)亦電性相連接,俾使本發明無線充放電行動電源裝置(1)不但可對具有無線充電功能之外部可攜式智慧型裝置(61)進行充電,亦可接收外部無線充電器(62)對其進行充電;所述可攜式智慧型裝置(61)可依據需為具有無線充電功能之手機、平板電腦(iPad)或無線充電器,無線充電器包含具有無線充電功能之行動電源裝置;本發明亦可如第5圖與第6圖所示,不設置第2控制電路模組(32),而將第2控制電路模組(32)合併設置於第1控制電路模組(31),同樣能藉由第1控制電路模組(31)實施無線充放電之控制功能,亦即第1控制電路模組(31) 亦可兼具無線充放電控制之電路模組,此時,設置於第2外殼(12)之主體第2內側(121)上的無線電磁感應模組(50)之線圈(512)係電性連接第1控制電路模組(31);其中,第1控制電路模組(31)係控制無線充放電功能之啟動或關閉;請再參閱第8圖以及第9圖所示,當本發明無線充放電行動電源裝置(1)對外部可攜式智慧型裝置(61)進行充電時,同樣地,無線充放電行動電源裝置(1)的主體第2面(120)之主感應區(100)亦可以接觸式或非接觸式的方式,對應外部可攜式智慧型裝置(61)之感應面端(60)所形成的感應區(600),俾使儲存於電池(20)中之電能經過第1控制電路模組(31)以及/或第2控制電路模組(32),再經過無線電磁感應模組(50)之線圈(512)將電能轉換成電磁波發送出去,進而被可攜式智慧型裝置(61)內部之線圈所接收並轉換成電能,提供可攜式智慧型裝置(61)使用,此充電過程,本發明無線充放電行動電源裝置(1)係為放電狀態;而當外部無線充電器(62)對本發明無線充放電行動電源裝置(1)進行充電時,外部無線充電器(62)之感應面端(60)所形成的感應區(600)係可以接觸式或非接觸式的方式,對應無線充放電行動電源裝置(1)的主體第2面(120)之主感應區(100),俾使無線電磁感應模組(50)之線圈(512)接收外部無線充電器(62)之電磁波,並將所接收之電磁波轉換成電能,所述電能係經過第1控制電路模組(31)以及/或第2控制電路模組(32)之轉換,進而儲存於電池(20)中,達到無線充放電之功效,並由被充電之 無線充放電行動電源裝置(1)、可攜式智慧型裝置(61)或無線充電器(62)之充電電量顯示(7)來顯示其充電狀態;當在充放電過程中,所述電磁波經過線圈(512)轉換時,由於線圈(512)係貼附於鐵心板(511),不但電磁波不會耦合到鄰近的鐵或磁性材料元件,避免造成不必要之損耗或干擾,提高無線充放電時,電能轉換之效率,符合無線充電聯盟WPC(Wireless Power Consortium)Qi之無線充電國際標準;本發明無線充放電行動電源裝置(1)還包含有輸入埠、輸出埠以及電源連接埠,所述輸入埠、輸出埠以及電源連接埠係設置於主體(10)之側邊且分別與第1控制電路模組(31)電性相連接;其中,輸入埠可為USB輸入孔,以提供外部電源電性相連接,經過輸入埠或電源連接埠以有線方式接收外部電源所提供之電力,並傳送至第1控制電路模組(31),再由第1控制電路模組(31)以充電模式監控,對電池(20)進行充電;所述輸出埠可為USB輸出孔,以供手機、平板電腦、智慧手錶…等,各種可攜式智慧型裝置(61)之相關電子產品以有線方式電性相連接。 Please refer to FIG. 1, FIG. 2, FIG. 3, FIG. 4, FIG. 5, FIG. 6, FIG. 7, FIG. 8, and FIG. 9. The wireless charging and discharging mobile power device of the present invention (1 ) Mainly includes a main body (10), a battery (20), a first control circuit module (31), and a wireless electromagnetic induction module (50); the main body (10) further includes a first casing (11) and a second casing (12); wherein the first surface (110) and the second surface (120) of the main body (10) are formed on the outside of the main body (10); the wireless electromagnetic induction module (50) further includes an electromagnetic induction coil (51) and a second A control circuit module (32); wherein the electromagnetic induction coil (51) includes a core plate (511) and a coil (512), and the core plate (511) is provided on the second inner side of the main body of the second casing (12) (121), the coil (512) is arranged between the second inner side (121) of the main body and the core plate (511), that is, it is abutted on the back (5110) of the core plate (511) (as shown in FIG. 4) ), So that the core plate (511) and the coil (512) are attached to each other; wherein the winding shape of the coil (512) can be circular, rectangular or other geometric shapes as required, and can be set to at least one layer as required, The number of windings can also be rolled as required The number of turns is arbitrary, with the purpose of reducing the empty window area and enhancing the heat dissipation effect, and improving the best efficiency of electromagnetic wave conversion and wireless charging and discharging; the core plate (511) is a ferrite magnet that can be applied to high-frequency magnetic materials The crystal structure composed of iron and oxides of other elements is formed by sintering ferrite magnet materials at high temperature and a specific manner and time. It has the characteristics of high magnetic permeability, because its small magnetic domains are not aligned in the same direction. Therefore, it does not show N poles or S poles like ordinary magnets; among them, the second control circuit module (32) is also arranged on the second inner side (121) of the main body of the second casing (12) and is connected with the coil (512 ) Is electrically connected, and the second control circuit module (32) mainly functions as a circuit module for wireless charge and discharge control (see Figures 2 and 3), so that the second surface of the main body (120 ) Is formed with a main induction area (100); the battery (20) is electrically connected to the first control circuit module (31) and is arranged on the first inner side (111) of the main body of the first casing (11); The second control circuit module (32) and the first control circuit module (31) are also electrically connected, so that the present invention wirelessly Discharge mobile power device (1) can not only charge external portable smart device (61) with wireless charging function, but also receive external wireless charger (62) to charge it; said portable smart type The device (61) can be a mobile phone, a tablet computer (iPad) or a wireless charger with a wireless charging function according to the need. The wireless charger includes a mobile power device with a wireless charging function; the invention can also be shown in Figures 5 and 6 As shown, the second control circuit module (32) is not provided, and the second control circuit module (32) is combined with the first control circuit module (31). Similarly, the first control circuit module (31) 31) Implement the control function of wireless charge and discharge, that is, the first control circuit module (31) can also have the circuit module of wireless charge and discharge control. At this time, it is set on the second inner side of the main body of the second casing (12) The coil (512) of the wireless electromagnetic induction module (50) on (121) is electrically connected to the first control circuit module (31); wherein, the first control circuit module (31) controls the activation of the wireless charging and discharging function Or closed; please refer to FIG. 8 and FIG. 9 again, when the wireless charging and discharging action of the present invention When the source device (1) charges the external portable smart device (61), similarly, the main induction area (100) of the second surface (120) of the main body of the wireless charging and discharging mobile power device (1) can also be contacted. Type or non-contact type, corresponding to the sensing area (600) formed by the sensing surface end (60) of the external portable smart device (61), so that the electric energy stored in the battery (20) undergoes the first control The circuit module (31) and / or the second control circuit module (32), and then the electric energy is converted into electromagnetic waves by the coil (512) of the wireless electromagnetic induction module (50), and then sent by the portable smart device ( 61) The internal coil receives and converts it into electrical energy and provides it for use by a portable smart device (61). During this charging process, the wireless charging and discharging mobile power device (1) of the present invention is in a discharging state; and when an external wireless charger (62) When the wireless charging / discharging mobile power device (1) of the present invention is being charged, the sensing area (600) formed by the sensing surface end (60) of the external wireless charger (62) can be contact or non-contact Corresponding to the main sensing area (100) of the second surface (120) of the main body of the wireless charging and discharging mobile power device (1), The coil (512) of the wireless electromagnetic induction module (50) receives the electromagnetic waves of the external wireless charger (62), and converts the received electromagnetic waves into electrical energy, which is passed through the first control circuit module (31) and / Or the conversion of the second control circuit module (32), and then stored in the battery (20), to achieve the effect of wireless charging and discharging, and is charged by the wireless charging and discharging mobile power supply device (1), portable smart device (61) or the charging power display (7) of the wireless charger (62) to display its charging status; when the electromagnetic wave is converted by the coil (512) during the charging and discharging process, since the coil (512) is attached to Iron core plate (511), not only electromagnetic waves will not be coupled to adjacent iron or magnetic material components, avoid unnecessary loss or interference, improve the efficiency of power conversion during wireless charging and discharging, and comply with the Wireless Power Consortium (WPC) Qi's international standard for wireless charging; the wireless charging / discharging mobile power device (1) of the present invention further includes an input port, an output port, and a power connection port, and the input port, output port, and power connection port are provided in the main body (10). Side They are electrically connected to the first control circuit module (31) respectively. Among them, the input port can be a USB input hole to provide an external power supply for electrical connection. The input port or the power connection port is used to receive the external power supply in a wired manner. The power is transmitted to the first control circuit module (31), and then the first control circuit module (31) monitors the charging mode to charge the battery (20); the output port may be a USB output hole, For mobile phones, tablets, smart watches, etc., various electronic products related to portable smart devices (61) are electrically connected in a wired manner.
以上所述者,僅為本發明技術思想及特點之其中的較佳實施例而已,並非用來限定本發明的實施範疇,其他舉凡依本發明相同精神下及專利範圍所做的任何變化與修飾或均等性之安排,皆為本發明保護之技術範疇及專利範圍所涵蓋。 The above are only the preferred embodiments of the technical ideas and characteristics of the present invention, and are not intended to limit the scope of implementation of the present invention. Any other changes and modifications made according to the same spirit and scope of the patent as the present invention Or equal arrangements are covered by the technical scope and patent scope of the invention.
本發明基於以上特點而為一相當傑出且優異之設計;其未見於刊物或公開使用,合於發明專利之申請要件,爰依 法具文提出申請。 The present invention is a rather outstanding and excellent design based on the above characteristics; it has not been seen in publications or public use, and is in line with the application requirements for invention patents.
Claims (10)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106135186A TW201916530A (en) | 2017-10-13 | 2017-10-13 | Mobile power bank with wireless charging and discharging function capable of receiving an electromagnetic wave from an external wireless charger, and wirelessly supplying electric energy to an external portable smart device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106135186A TW201916530A (en) | 2017-10-13 | 2017-10-13 | Mobile power bank with wireless charging and discharging function capable of receiving an electromagnetic wave from an external wireless charger, and wirelessly supplying electric energy to an external portable smart device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| TW201916530A true TW201916530A (en) | 2019-04-16 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW106135186A TW201916530A (en) | 2017-10-13 | 2017-10-13 | Mobile power bank with wireless charging and discharging function capable of receiving an electromagnetic wave from an external wireless charger, and wirelessly supplying electric energy to an external portable smart device |
Country Status (1)
| Country | Link |
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| TW (1) | TW201916530A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113644751A (en) * | 2021-10-12 | 2021-11-12 | 深圳市驰普科达科技有限公司 | Emergency energy storage equipment with wireless charging function, system and control method thereof |
-
2017
- 2017-10-13 TW TW106135186A patent/TW201916530A/en unknown
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113644751A (en) * | 2021-10-12 | 2021-11-12 | 深圳市驰普科达科技有限公司 | Emergency energy storage equipment with wireless charging function, system and control method thereof |
| CN113644751B (en) * | 2021-10-12 | 2022-02-22 | 深圳市驰普科达科技有限公司 | Emergency energy storage equipment with wireless charging function, system and control method thereof |
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