TWM362477U - Solar-controlled power supply module of automatic vending machine - Google Patents

Solar-controlled power supply module of automatic vending machine Download PDF

Info

Publication number
TWM362477U
TWM362477U TW97221442U TW97221442U TWM362477U TW M362477 U TWM362477 U TW M362477U TW 97221442 U TW97221442 U TW 97221442U TW 97221442 U TW97221442 U TW 97221442U TW M362477 U TWM362477 U TW M362477U
Authority
TW
Taiwan
Prior art keywords
module
battery
vending machine
power supply
solar
Prior art date
Application number
TW97221442U
Other languages
Chinese (zh)
Inventor
Ying-Chi Huang
Po-An Chen
Hung-Yi Chang
Original Assignee
Int Currency Tech
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Int Currency Tech filed Critical Int Currency Tech
Priority to TW97221442U priority Critical patent/TWM362477U/en
Priority to DE200920008151 priority patent/DE202009008151U1/en
Publication of TWM362477U publication Critical patent/TWM362477U/en
Priority to FR0955582A priority patent/FR2939229B3/en
Priority to CH13172009A priority patent/CH699964A2/en
Priority to ITRM20090183 priority patent/ITRM20090183U1/en

Links

Classifications

    • Y02B10/72

Landscapes

  • Control Of Vending Devices And Auxiliary Devices For Vending Devices (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Description

M362477 五、新型說明: 【新型所屬之技術領域】 本創作係提供一種自動販賣機之太陽能可控制供電模組 ,尤指自動販賣機利用處理模組切換以具高電壓之蓄電池進 行供電,或切換對電壓較低之另一蓄電池進行充電,使太陽 能供電模組可提供自動販賣機更長時間的電源消耗。 【先前技術】M362477 V. New Description: 【New Technology Fields】 This creation provides a solar controllable power supply module for vending machines, especially for vending machines that use processing modules to switch power supplies with high voltage batteries, or to switch Charging another battery with a lower voltage allows the solar power module to provide longer power consumption for the vending machine. [Prior Art]

按,隨著科技不斷的研發精進,人們在生活中使用越來 越多的科技產品’但大錄的科技產品卻㈣要能量來啟動 ,但地球上既有之轉或礦產卻無法貞荷人_使用,導致 能源或礦產不_減少,是以,便有許多人針對此—問題作 研么進而產生有風力發電、潮沙發電、太陽能發電、氣氣 引擎等許多的技術。 在自動販賣機方面,由於自動販#機的設置是為了方便 人們在24小時且全天候的使用,導致自動販賣機開啟的時 間大幅度的延長,便會耗費許多的電力,便有薇商研發出利 用太陽紐電之方式結合在自触賣機上,彻太陽能儲存 電力在畜電池内,便可透過蓄電池供電來減少自動販賣機所 然而’傳統之太陽能發魏置内僅設置有—個蓄電池, 由於隨者季節、氣候及地區之不同,陽光騎之時間亦會有 長短的改變,若長時_處於無陽細射之㈣,太陽能發 3 M362477 電裝置内之蓄電池便會產生耗盡電源之情形,更因蓄電池所 儲存之電力有限,在實際使用上,便產生了經常要派遣人員 對自動販賣機進行更換蓄電池之動作,不僅無法達到節省能 源消耗之目的,更會大幅度提高廠商的人事支出費用。 再者’若直接在太陽能發電裝置内設置有二個蓄電池, 由於二個蓄電池為同時連接於自動販賣機進行供電,若一蓄 電池已耗盡電源,當另一蓄電池對自動販賣機供電時,耗盡 電源之蓄電池會同時進行充電,造成供電之另一蓄電池增加 負載之缺失,導致二個蓄電池可進行供電之時間大為縮短, 且利用太陽能電池進行充電時,亦會同時對二個蓄電池進行 充電,造成充電速度過慢之問題,便會降低太陽能充電之效 果。 是以,如何解決習用自動販賣機使用太陽能發電裝置時 所產生之問顯缺失,即為從事此行業之相騎商所亟欲研 究改善之方向所在者。 【新型内容】 故,創作人有鑑於上述之問題與缺失,乃荒集相關資料 ,經由多彳評估及考量,並以從柄此行業累積之多年經驗 、、、由不斷4作及修改,始心丨出此種可延長蓄電池使用時 間、減少維修次數之自動販賣機之太陽能可㈣供電模組的 創作專利誕生者。 本創作之主要目的乃在於’該處理模纟趨過電壓檢測模 M362477 組對太陽能電池(S ο 1 a r c e丨丨)及充電電池組進 行電壓檢測,微纽H接收檢觀驗控制供給切換模組及 充電模組,使具高電壓之蓄電池進行供電,具低電壓之蓄電 池進行充電’且處理模組之供給切賴組及充電模組為對各 蓄電池之連接電路進行_,讓蓄電池充錢度加快,使耗 盡電力之蓄電池不會成為供電中蓄電池之負載,進而可延長According to the continuous research and development of science and technology, people use more and more technology products in their lives. But the technology products of Dalu are (4) to start with energy, but there is a turn or mineral on the earth but it is impossible to carry people. _ use, resulting in energy or minerals are not reduced, so many people have researched this problem to produce wind power, tidal sofa electricity, solar power, gas engines and many other technologies. In the case of vending machines, since the auto-selling machine is set up to facilitate people's use in 24 hours and all-weather, the time for opening the vending machine is greatly extended, and it will consume a lot of power. By using the solar power method in combination with the self-contact machine, the solar energy storage power in the livestock battery can reduce the vending machine through the battery power supply. However, the traditional solar energy installation has only one battery. Due to the seasonality, climate and region, the time of the sun riding will also change. If the battery is in the long-term (4), the battery in the solar energy 3 M362477 will be depleted. In other cases, due to the limited power stored in the battery, in actual use, there is a tendency to dispatch personnel to replace the battery in the vending machine, which not only fails to achieve the purpose of saving energy consumption, but also greatly improves the personnel of the manufacturer. pay expenses. Furthermore, if two batteries are provided directly in the solar power generation device, since the two batteries are connected to the vending machine for power supply, if one battery is exhausted, when another battery supplies power to the vending machine, The battery of the power source will be charged at the same time, causing the loss of the load of the other battery of the power supply, resulting in a shortening of the time during which the two batteries can be powered, and charging the two batteries simultaneously when charging with the solar battery. The problem of slow charging is reduced, which will reduce the effect of solar charging. Therefore, how to solve the problem of the use of solar power generation devices by conventional vending machines is the direction in which the riders in this industry are eager to study and improve. [New content] Therefore, in view of the above-mentioned problems and deficiencies, the creators have been arbitrarily collecting relevant information, and through many evaluations and considerations, and based on years of experience accumulated in this industry, and constantly revised and revised, The heart of this kind of solar energy can be used to extend the battery life and reduce the number of repairs. The main purpose of this creation is to 'the processing mode is over voltage detection mode M362477 group for solar cell (S ο 1 arce丨丨) and rechargeable battery pack for voltage detection, micro-H receiving inspection and inspection control supply switching module And the charging module enables the battery with high voltage to be powered, and the battery with low voltage to be charged' and the supply module of the processing module and the charging module are connected to the connection circuit of each battery, so that the battery is charged. Accelerate, so that the battery that runs out of power will not become the load of the battery in the power supply, and thus can be extended

充電電池組供應電源之時間、使用壽命,更可減少工作人員 進行維修更換之缝,來達_低維修及人事成本之目的。 本創作之次要㈣乃在於,該電壓檢測模組偵測太陽能 ^ (Solar cell)、充電電池組及自動販賣機 ^電壓後,微處帥可於接收職進行處理後,控制指示燈 拉組讓其發出相對應之燈光,可了解自動販賣機之太陽能可 控制供電模_織是在充電或供電,亦可料工作人員進 仃維修時,透_示賴組之燈絲躺各構件狀況,由於 不需開啟自脑賣機靖各構件進行制,_可節省維修 步驟及加快維修速度。 【實施方式】 構造 如下 為達成上述目的及功效,本創作所朗之技術手段及其 ,兹緣圖就摘叙較佳實關詳加朗其特徵與功能 ’俾利完全瞭解。 請_-、崎标,係為本_較佳實施例之方塊 圖、示意圖,由圖巾所示可清楚看出該自_賣機之太陽能 5 M362477 可控制供賴組縣括電賴組1、處戦組2所組成;其 中: 該電源模組1為至少包括太陽能電池(s〇iar C e 1 1) 11、充電電池組12,充電電池組12内為設 有複數蓄電池,且複數蓄電池可為第一蓄電池工2工、第二 蓄電池12 2。 # 該處理模組2為峨處驾2 i連接有可對太陽能電池 11、充電電池組12及自動販賣機3進行檢測之電麗檢測 模組2 2,且微處理器21連接有可與充電電池組!2、自 動販賣機3連接之供給切換模組2 3,其供給切換模組2 3 内設有二個以上之供電控制器,其複數供電控制器可為第一 供。電控制器231及第二供電控制器2 3 2,且第一供電控 制益231、第二供電控制器232分別連接於第一蓄電池 一 121及第—蓄電池工2 2,再於微處理器21連接有與太 陽能電池11、充電電池組12連接之充電模組2 4,其充 電杈組2 4為設有二_上之充電控彻,轉數充電控制 咨可為連接第一蓄電池121之第一充電控制器24工、連 接第二蓄電池122之第二充電控制器242,並於充電模 組^又連設有與太陽能電池u、第—充電控制器Mi 控制器2 4 2連接之昇降壓模組24 3,且微處 、接有指示燈模組2 5,再以微處理n2l連接有 提i、處理她2内各構件電源之纽電源模組2 6。 M362477 上述之充電電池組i 2可具有二個、三個或更多之蓄電 池,其僅具讓各蓄電池可受到處理模組2進行切換,以輪流 對自動販賣機3進行供電或受太陽能電池11進行充+之功 能即可,师此㈣限本創作之專利範圍,如彻其他修掷 及等效結構變化,均應同理包含於本創作之專利範圍内,合 予陳明。 請參閱第-、二、三圖所示,係為本創作較佳實施例之 方塊圖、健實關之步誠額(―)、較佳實施例之步 驟處裎圖(二)’由圖+所示可清楚看出該電源模組丄與處 理模組2啟動時,為依照下列步驟進行: (10 0)開始。 、 (1 0 1)檢測第—蓄電池1 2 1紐是否大於i丄伏特, 若為是,則進行步驟(1〇2),若為否,則進 行步驟(1〇 3)。 (1〇 2)第一蓄電池121供給自動販賣機3電源,再進 行步驟(1〇 7)。 (1〇 3)第一蓄電池丄2丄之低電壓指示燈亮起,再進行 步驟(10 4)。 (10 4)檢測第二蓄電池12 2電壓是否大於11伏特, 若為是,進行步驟(10 5),若為否,進行步 驟(1 0 6 ) 10 5)第一蓄電池12 2供給自動販賣機3電源,再進 M362477 行步驟(1 Ο 7)。 (1 Ο 6)第二蓄電池χ 2 2之低電壓指示燈亮起,再進行 步驟(10 2)。 (107) 太陽能電池χ丄電壓是否大於7伏特,若為是, 則進行步驟(108),若為否,進行步驟^丄 0 1)。 (108) 第-蓄電池2 1是否輸出電力,若為是,進行 >*驟(111) ’右為否,進行步驟(1 〇 9 ) 〇 (10 9)檢測第一蓄電池丄21電壓是否大於丄丄伏特, 若為是,進行步驟(1〇 i),若為否,進行步 驟(1 1 0 )。 (110) 第一蓄電池121進行充電,再進行步驟(1〇 1) ° (111) 檢測第二蓄電池122電壓是否大於i丄伏特, 若為是,進行步驟(110),若為否,進行步 驟(1 12)。 (112 )第二蓄電池12 2進行充電,再進行步驟(1〇 1) ° 由上述步驟可得知,當電源模組工與處理模組2啟動時 ’會先細第—蓄電池1 2 1電壓,並判斷是否以第一蓄電 池1 2 1供電,若第—蓄電池丄2 i不供電,再侧第二蓄 8 M362477 電池12 2並判斷是否以第二蓄電池工2 2進行供電,若第 二蓄電池12 2之電壓小於預設供電電壓,則依然以第一蓄 電池121進行供電,利用此檢測方法,便可在第—蓄電池 121供應電源使電壓低於預設供電電壓時,切換成第二蓄 電池12 2進行供電,而第一蓄電池丄2丄便可進行充電, 而第二蓄電池1 2 2供應電驗f壓低於預設供電電壓時, # 則再次切換成第一蓄電池121進行供電,讓第二蓄電池工 2 2可以進行充電。 由於當一蓄電池進行供電,且太陽能電池1丄電壓大於 預設充電電壓時,太陽能電池工i便會對另一未進行供電之 蓄電池進行充電,由於氣候、季節、地點等原因,使得自動 販賣機並非一直受到太陽光照射,若遇到連續多天皆無陽光 照射時,本創作之電賴、處理模組2進行切換供 φ 電之蓄電池’便可延長第一蓄電池121及第二蓄電池i 2 2之使用壽命。 上述檢測第-蓄電池121及第二蓄電池工22之預設 供電電壓,可為^^、“^^或其他伏特’而 太陽能電池11檢測之預設充電電壓,則可為9、8、7或 其他伏特,其伏特值可隨使用者需求進行變更,且預設供電 電壓為大於預設充電電壓’其僅具檢測電壓低於預設供電電 壓時,更換另-電池進行供電之魏’且使太陽能電池丄工 檢測電壓高於預設充電電壓時,啟動太陽能電池i i對一蓄 9 M362477 電池進行充電即可,非目此即紐本解之專補圍,如利 用其他修狀等效結構變化,均朗理包含於本創作之專利 範圍内,合予陳明。 凊參閱第一、四圖所示,係為本創作較佳實施例之方塊 圖、不意圖’由圖中所示可清楚看出該處理餘2之電槪 測枳組2 2為可對電源模組1之太陽能電池i丄、充電電池 組12及自動販賣機3進行檢測,且將檢測訊號傳輸至微處 理器21後,微處理器21可作電壓是否高於或低於預設供 電電壓、預設充電電壓之判斷,並將結果傳輪至指示燈模組 2 5,指示燈模組2 5内為具有複數之發光元件,便可透過 相對應之發光元件發亮來顯示太陽能電池1 1、充電電池組 12及自動販賣機3之電壓狀況。 另,太陽能電池1 1於接收太陽光進行蓄電後,其電壓 可能不符合充電電池組12内各蓄電池所需之充電電壓,透 過處理模組2之昇降壓模組243對太陽能電池1χ之電壓 進行昇壓或降壓後,便可提供給充電電池組丄2進行充電。 請再參閱第一、四圖所示,係為本創作較佳實施例之方 塊圖、示意圖,由圖中所示可清楚看出該供給切換模組2 3 可設有二個以上相對應於各蓄電池之供電控制器,且充電模 組2 4可設有二個以上相對應於各蓄電池之充電控制器,其 供電控制器及充電控制器之數量為相對應於蓄電池之數量, 可為二個、三個或三個以上之數量,其僅具使單一供電控制 M362477 f、充電控制器可依據微處理器2 !所發設之峨,來控制 早-蓄電池進行供電或充電之功糾可,非目此即侷限本創 作之專利翻,如姻其他修飾鱗效結構變化,均應同理 包含於本創作之專利範圍内,合予陳明。 上述本創作之自動販賣機之太陽能可控制供電模組於實 際使用時,為可具有下列各項優點,如: (-)該處理模組2透過電壓檢測模組2 2對太陽能電池丄 1及充電電池組12進行電壓檢測,並將檢測訊號傳 至微處理器21,微處理器21便可依據檢測結果控 制供給切換模組2 3及充電模組2 4,使具高電麼之 蓄電池進行供電’而太陽能電池11則對具低電壓之 蓄電池進行充電,由於充電電池組丄2之各蓄電池可 分別進行供電、充電,便可絲充電電她! 2供應 自動販賣機3電源之時間。 (二) 該充電電驗1 2之各蓄電池因受處理歡2切換, 而可利用高電壓之蓄電池進行供電,低電壓之蓄電池 進行充電’且處雜組2之供給切換模組2 3及充電 模組2 4為對各蓄電池之連接電路進行切換,若一蓄 電池耗盡電力時,其亦不會成為另—供電中蓄電池之 負載,不僅可以加快充電速度,更可延長充電電池組 12的使用壽命。 (三) 該充電電池組i 2之各蓄電池因分別進行供電、充電 11 M362477 ,即可延長各蓄電池之使用壽命,而工作人員亦可減 少進行維修更換之次數,進而可降低人事成本。 (四)該電壓檢測模組2 2偵測太陽能電池1i、充電電池 組12及自動販賣機3之電壓後,可傳輸訊號至微處 理器21進行處理,微處理器2丄則可傳輪訊號至指 示燈模組2 5,讓指示燈模組2 5發出相對應之燈光 _ ,工作人員即可在未開啟自動販賣機3並進行檢測前 ,就得知自動販賣機之太陽能可控制供f模組為處於 充電或供電之狀態,以及各構件狀況,由於不需一一 進行檢測,進而可節省維修步驟及時間。 故’本創作為主要針對自触f機之太陽能可控制供電 模組,而透過處理模組2對電源模组工内充電電池組丄2之 各蓄電池進行電壓檢測,並以高電壓之蓄電池進行供電,而 • 低電壓之蓄電池則進行充電,以延長充電電池組12供電時 間及減少維修讀為主要賴重點,惟,以上所述僅為本創 作之較佳實施例而已’非因此即侷限本創作之專利範圍,故 舉凡運用本創作獅書·朗容所為之㈣修飾及等效結 構變化,均應同理包含於本創作之專利範圍Θ,合予陳明。 *、’不上所述’本創作上述自動販賣機之太陽能可控制供電 模組於使用時,為確實能達到其功效及目的,故本創作誠為 實用f生U之創作’為符合新型專利之申請要件,差依法 提出申凊,盼轉早日賜准本案,以保障創作人之辛苦創 12 M362477 作,倘若鈞局審委有任何稽疑,請不吝來函指示,創作人 定當竭力配合,實感德便。The time and service life of the rechargeable battery pack supply power supply can reduce the number of repairs and replacements for the staff to achieve the goal of low maintenance and personnel costs. The second (4) of this creation is that after the voltage detection module detects the solar cell, the rechargeable battery pack and the vending machine voltage, the micro-smart can be processed after receiving the job, and the control indicator pull group Let it send out the corresponding lighting, you can understand the solar energy controllable power supply mode of the vending machine. The weaving is charging or power supply, and it can also be used by the staff to enter and repair the filthy group. There is no need to open the various parts of the brain to sell the machine, _ can save maintenance steps and speed up the maintenance. [Embodiment] The structure is as follows. In order to achieve the above objectives and effects, the technical means of this creation and its elaboration are better and more detailed. Please _-, 崎标, is the block diagram and schematic diagram of the preferred embodiment. It can be clearly seen from the towel. The solar energy of the self-selling machine 5 M362477 can be controlled by the Lai Group. The power module 1 is composed of at least a solar cell (s〇iar C e 1 1) 11 and a rechargeable battery pack 12, and the rechargeable battery pack 12 is provided with a plurality of batteries, and a plurality of batteries It can be a first battery and a second battery 12 2 . # The processing module 2 is connected to the battery 2, and has a battery detection module 2 2 for detecting the solar battery 11, the rechargeable battery pack 12 and the vending machine 3, and the microprocessor 21 is connected and rechargeable. Battery! 2. The supply switching module 2 is connected to the vending machine 3, and the supply switching module 2 3 is provided with two or more power supply controllers, and the plurality of power supply controllers may be the first supply. The electric controller 231 and the second power supply controller 232, and the first power supply control 231 and the second power supply controller 232 are respectively connected to the first battery 121 and the second battery 2, and then to the microprocessor 21. A charging module 24 connected to the solar battery 11 and the rechargeable battery pack 12 is connected, and the charging unit 24 is provided with a charging control on the second battery, and the number of charging control can be connected to the first battery 121. A charging controller 24 is connected to the second charging controller 242 of the second battery 122, and the charging module is further connected with a lifting voltage connected to the solar battery u and the first charging controller Mi controller 2 4 2 The module 24 3 is connected to the indicator module 25, and the micro-processing n2l is connected to the button power module 26 for processing the power of each component in the 2 device. M362477 The above rechargeable battery pack i 2 may have two, three or more batteries, which only allow each battery to be switched by the processing module 2 to power the vending machine 3 in turn or by the solar battery 11 It is sufficient to carry out the function of charging + (4) Limiting the scope of patents of this creation, such as other repairs and equivalent structural changes, should be included in the scope of the patent of this creation, and be combined with Chen Ming. Please refer to the block diagrams of the preferred embodiment of the present invention, and the steps of the preferred embodiment ("), the steps of the preferred embodiment (Fig. 2) + It can be clearly seen that when the power module 丄 and the processing module 2 are started, the following steps are performed: (10 0) start. (1 0 1) Check if the first battery 1 2 1 is greater than i volts, if yes, proceed to step (1〇2), and if no, proceed to step (1〇 3). (1〇 2) The first storage battery 121 supplies the power to the vending machine 3, and the steps (1 to 7) are performed. (1〇 3) The low voltage indicator of the first battery 丄2丄 lights up, and then proceed to step (10 4). (10 4) detecting whether the voltage of the second battery 12 2 is greater than 11 volts, if yes, proceeding to step (10 5), if not, performing step (1 0 6 ) 10 5) supplying the first battery 12 2 to the vending machine 3 Power, go to the M362477 line step (1 Ο 7). (1 Ο 6) The low voltage indicator of the second battery χ 2 2 lights up, and then proceed to step (10 2). (107) Whether the solar cell χ丄 voltage is greater than 7 volts, if yes, proceed to step (108), and if no, proceed to step 丄 0 1). (108) Whether the first battery 2 1 outputs electric power, and if yes, proceed with >*step (111) 'right no, perform step (1 〇 9 ) 〇 (10 9) to detect whether the voltage of the first battery 丄 21 is greater than丄丄 volt, if yes, proceed to step (1〇i), if no, proceed to step (1 1 0 ). (110) The first storage battery 121 is charged, and then the step (1〇1) ° (111) is performed to detect whether the voltage of the second storage battery 122 is greater than i丄V. If yes, proceed to step (110). If no, proceed to step (1 12). (112) The second battery 12 2 is charged, and then the step (1〇1) ° is performed. According to the above steps, when the power module and the processing module 2 are started, the voltage of the battery 1 2 1 is first And determining whether the first battery 1 2 1 is powered, if the first battery 丄 2 i is not powered, the second side is 8 M362477 battery 12 2 and determining whether to supply power by the second battery 2 2 if the second battery 12 When the voltage of 2 is less than the preset power supply voltage, the first battery 121 is still powered. With the detection method, when the first battery 121 is supplied with the power source to make the voltage lower than the preset power supply voltage, the second battery 12 2 is switched. Power is supplied, and the first battery 丄2丄 can be charged, and when the second battery 12 2 supplies the test f voltage lower than the preset power supply voltage, # then switches to the first battery 121 to supply power, and the second battery Worker 2 2 can be charged. Since when a battery is powered and the voltage of the solar cell is greater than the preset charging voltage, the solar cell worker i charges another unpowered battery, and the vending machine is caused by climate, season, location, and the like. It is not always exposed to sunlight. If there is no sunlight for many days, the battery and processing module 2 of the present invention can switch the battery for the battery to extend the first battery 121 and the second battery i 2 2 The service life. The preset supply voltage for detecting the first battery 121 and the second battery 22 may be ^^, "^^ or other volts" and the preset charging voltage detected by the solar battery 11 may be 9, 8, or 7 For other volts, the volt value can be changed according to the user's demand, and the preset power supply voltage is greater than the preset charging voltage. When the detection voltage is lower than the preset power supply voltage, the battery is replaced by another battery. When the solar cell completion detection voltage is higher than the preset charging voltage, the solar cell ii is activated to charge a 9 M362477 battery, which is not the case of the New Zealand solution, such as the use of other modified equivalent structural changes. Included in the scope of this creation patent, and is given to Chen Ming. 凊 See the first and fourth figures, which are block diagrams of the preferred embodiment of the present invention, and are not intended to be clear from the figure. It can be seen that the power measurement unit 2 2 of the processing 2 can detect the solar battery i丄, the rechargeable battery pack 12 and the vending machine 3 of the power module 1, and transmit the detection signal to the microprocessor 21. , the microprocessor 21 can be used as electricity Whether it is higher or lower than the preset power supply voltage, the preset charging voltage is judged, and the result is transmitted to the indicator module 2 5 , and the indicator module 25 5 has a plurality of light-emitting elements, which can be correspondingly transmitted The light-emitting elements are illuminated to display the voltage status of the solar battery 1 1 , the rechargeable battery pack 12 and the vending machine 3. In addition, after receiving the sunlight for storage, the solar battery 11 may not meet the voltages in the rechargeable battery pack 12 . The charging voltage required for the battery is boosted or stepped down by the voltage rise and fall module 243 of the processing module 2, and then supplied to the rechargeable battery pack 丄2 for charging. Please refer to the first, 4 is a block diagram and a schematic diagram of a preferred embodiment of the present invention. It can be clearly seen from the figure that the supply switching module 2 3 can be provided with two or more power supply controllers corresponding to the respective batteries. The charging module 24 can be provided with two or more charging controllers corresponding to the respective batteries, and the number of the power supply controller and the charging controller is corresponding to the number of the batteries, and can be two, three or three. More than one quantity, which only enables a single power supply control M362477 f, the charging controller can control the power supply or charging of the early battery according to the design of the microprocessor 2! The patents of this creation, such as the modification of other modified scale effect structures, should be included in the scope of the patent of this creation, and combined with Chen Ming. The solar controllable power supply module of the above-mentioned automatic vending machine is actually used. In this case, the following advantages can be obtained, such as: (-) The processing module 2 performs voltage detection on the solar cell stack 1 and the rechargeable battery pack 12 through the voltage detecting module 2 2, and transmits the detection signal to the microprocessor. 21, the microprocessor 21 can control the supply switching module 23 and the charging module 24 according to the detection result, so that the battery with high power can supply power, and the solar battery 11 charges the battery with low voltage, because Each battery of the rechargeable battery pack 丄2 can be separately powered and charged, and the wire can be charged to her! 2 Supply time for vending machine 3 power supply. (2) Each battery of the charging test 1 2 is switched by the processing switch 2, and can be powered by a high-voltage battery, and the low-voltage battery is charged, and the supply switching module 2 3 and charging of the group 2 The module 24 is for switching the connection circuit of each battery. If a battery runs out of power, it will not become the load of the battery in the other power supply, which not only speeds up the charging speed, but also prolongs the use of the rechargeable battery pack 12. life. (3) Each battery of the rechargeable battery pack i 2 can extend the service life of each battery by separately supplying power and charging 11 M362477, and the staff can also reduce the number of repairs and replacements, thereby reducing personnel costs. (4) After detecting the voltages of the solar battery 1i, the rechargeable battery pack 12 and the vending machine 3, the voltage detecting module 2 2 can transmit the signal to the microprocessor 21 for processing, and the microprocessor 2 can transmit the signal. To the indicator module 2 5, let the indicator module 2 5 emit the corresponding light _, the staff can know that the solar energy of the vending machine can be controlled before the vending machine 3 is turned on and tested. The module is in a state of being charged or powered, and the condition of each component, since it is not necessary to perform the inspection one by one, thereby saving maintenance steps and time. Therefore, this creation is mainly for the solar controllable power supply module of the self-touching machine, and the voltage is detected by the processing module 2 for each battery of the power module internal rechargeable battery pack 丄2, and is performed with a high-voltage battery. Power supply, and • Low-voltage batteries are charged to extend the power supply time of the rechargeable battery pack 12 and reduce maintenance. The above is only the preferred embodiment of the present invention. The scope of the patents created, so the use of the creation of the lion book Langfang (4) modification and equivalent structural changes, should be included in the scope of the patent of this creation, and combined with Chen Ming. *, 'Not on the above' The solar controllable power supply module of the above-mentioned vending machine can achieve its efficacy and purpose when it is used. Therefore, this creation is practical and practical. The application requirements are poorly submitted in accordance with the law, and it is hoped that the case will be granted as soon as possible to protect the creators' efforts to create 12 M362477. If there is any doubt in the ruling committee, please do not hesitate to give instructions, the creator will try his best to cooperate, real sense Debian.

13 M362477 【圖式簡單說明】 第一圖係為本創作較佳實施例之方塊圖。 第二圖係為本創作較佳實施例之步驟流程圖(一)。 第三圖係為本創作較佳實施例之步驟流程圖(二)。 第四圖係為本創作較佳實施例之示意圖。 【主要元件符號說明】 1、 電源模組 1 1、太陽能電池 12、充電電池組 2、 處理模組 21、微處理器 2 2、電壓檢測模組 2 3、供給切換模組 2 3 1、第一供電控制器 2 3 2、第二供電控制器 2 4、充電模組 3、 自動販賣機 1 2 1、第一蓄電池 1 2 2、第二蓄電池 2 41、第一充電控制器 2 4 2、第二充電控制器 2 4 3、昇降壓模組 2 5、指示燈模組 2 6、系統電源模組 1413 M362477 [Simple Description of the Drawings] The first drawing is a block diagram of a preferred embodiment of the present invention. The second drawing is a flow chart (1) of the steps of the preferred embodiment of the present invention. The third figure is a flow chart (2) of the steps of the preferred embodiment of the present invention. The fourth figure is a schematic diagram of a preferred embodiment of the present invention. [Description of main component symbols] 1. Power module 1 1 , solar cell 12 , rechargeable battery pack 2 , processing module 21 , microprocessor 2 2 , voltage detecting module 2 3 , supply switching module 2 3 1 , a power supply controller 2 3 2, a second power supply controller 2 4, a charging module 3, a vending machine 1 2 1, a first battery 1 2 2, a second battery 2 41, a first charging controller 2 4 The second charging controller 2 4 3, the buck-boost module 2 5, the indicator module 2 6, the system power module 14

Claims (1)

M362477 「、申請專利範圍: 1、 一種自動販賣機之太陽能可控制供電模組,尤指利用太陽 能讓自動販賣機進行充電之可控制供電模組,其係包括電 源模組、處理模組所組成;其中: 。亥電源模組為设有太能電池(Solar cell) 及具二個以上蓄電池之充電電池組; 3亥處理模組為以微處理器連接有可對太陽能電池、充電電 池組及自動販賣機進行檢測之電壓檢測模組,且微處理器 連接有可與充電電池組、自動販賣機連接以切換電池作電 源供應之供給切換模組,再於微處理器連接有與太陽能電 池、充電電池組連接以切換電池進行充電之充電模組; 俾使電壓檢測模組偵測二個以上蓄電池之電壓後,微處理 器以偵測訊號來控制供給切換模組、充電模組,使具高電 壓之蓄電池對自動販賣機進行供電,且太陽能電池對具高 電壓之蓄電池充電。 2、 ”請專利範圍第i項所述之自動販賣機之太陽能可控制 供電桓組,其中該充電模組又連設有與太陽能電池連接之 昇降壓模組。 3、 如申睛專利範圍第!項所述之自動販賣機之太陽能可控制 供電杈組,其中該微處理器連接有指示燈模組。 4、 如申凊專利範圍第工項所述之自動販賣機之太陽能可控制 供電极組,其中該供給切換模組設有二個以上相對應連接 15 M362477 各蓄電池之供電控制器。 5、 如申請專利範圍第1項所述之自動販賣機之太陽能可控制 供電模組,其中該充電模組設有二個以上相對應連接各蓄 電池之充電控制器。 6、 如申請專利範圍第1項所述之自動販賣機之太陽能可控制 供電模組,其中該處理模組之微處理器連接有可提供運作 電源之糸統電源权組。 16M362477 ", the scope of application for patents: 1. A solar controllable power supply module for a vending machine, especially a controllable power supply module that uses solar energy to charge a vending machine, which comprises a power module and a processing module. Among them: The Hai Power Module is a rechargeable battery pack with a solar cell and two or more batteries; 3 Hai processing module is connected to a solar cell, a rechargeable battery pack and a microprocessor The vending machine performs a voltage detecting module for detecting, and the microprocessor is connected with a supply switching module that can be connected with the rechargeable battery pack and the vending machine to switch the battery for power supply, and then connected to the solar cell with the microprocessor. The charging battery pack is connected to switch the battery to charge the charging module; 俾 after the voltage detecting module detects the voltage of the two or more batteries, the microprocessor controls the supply switching module and the charging module by using the detecting signal to make the device The high-voltage battery supplies power to the vending machine, and the solar battery charges the battery with high voltage. 2. "Please The solar energy range of interest i-th item of the vending machine can control the power supply Huan group, wherein the charging module is connected to the lift and connected with the solar cell module is pressed. 3, such as the scope of the application of the scope of the patent! The solar energy control power supply unit of the vending machine described in the item, wherein the microprocessor is connected with an indicator light module. 4. The solar controllable electrode assembly of the vending machine as described in the application of the patent scope, wherein the supply switching module is provided with two or more power supply controllers corresponding to each of the 15 M362477 batteries. 5. The solar controllable power supply module of the vending machine as claimed in claim 1, wherein the charging module is provided with two or more charging controllers correspondingly connected to the respective storage batteries. 6. The solar controllable power supply module of the vending machine as claimed in claim 1, wherein the microprocessor of the processing module is connected to a power supply group capable of providing operating power. 16
TW97221442U 2008-11-28 2008-11-28 Solar-controlled power supply module of automatic vending machine TWM362477U (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
TW97221442U TWM362477U (en) 2008-11-28 2008-11-28 Solar-controlled power supply module of automatic vending machine
DE200920008151 DE202009008151U1 (en) 2008-11-28 2009-06-12 Solar power supply for a vending machine
FR0955582A FR2939229B3 (en) 2008-11-28 2009-08-07 INTEGRATED SOLAR CELL POWER SUPPLY SYSTEM FOR AN AUTOMATIC DISPENSER
CH13172009A CH699964A2 (en) 2008-11-28 2009-08-26 Power supply system for vending machine, has microprocessor provided for controlling switching module for creating connection between storage batteries and vending machine and controlling solar cell for charging storage batteries
ITRM20090183 ITRM20090183U1 (en) 2008-11-28 2009-11-24 BUILT-IN POWER SUPPLY SYSTEM - SOLAR CELL FOR MACHINE FOR AUTOMATIC SALE.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW97221442U TWM362477U (en) 2008-11-28 2008-11-28 Solar-controlled power supply module of automatic vending machine

Publications (1)

Publication Number Publication Date
TWM362477U true TWM362477U (en) 2009-08-01

Family

ID=44384497

Family Applications (1)

Application Number Title Priority Date Filing Date
TW97221442U TWM362477U (en) 2008-11-28 2008-11-28 Solar-controlled power supply module of automatic vending machine

Country Status (1)

Country Link
TW (1) TWM362477U (en)

Similar Documents

Publication Publication Date Title
CN203617954U (en) Novel wind and light storage combination power generation system
EP2375540A3 (en) Improved state of charge indicator for a battery charger
EP2333928A3 (en) Solar-powerded battery charging station
CN201628165U (en) Energy-saving LED road lamp with solar energy and wind energy complementation
CN101505565A (en) SoC chip for independent photovoltaic LED lighting special controller
CN103047601A (en) Emergency lighting and evacuation guide device capable of achieving hybrid energy power supply
KR20100109104A (en) Hybrid typed storage apparatus using the sollar cell
ITRM20090183U1 (en) BUILT-IN POWER SUPPLY SYSTEM - SOLAR CELL FOR MACHINE FOR AUTOMATIC SALE.
CN102083260A (en) Light emitting diode LED street lamp control method
CN203015229U (en) Solar energy and commercial power complementary intelligent street lamp controller
CN101387380A (en) Intelligent street lamp for comprehensively utilizing multi energy resources
CN103806724A (en) Stereoscopic parking garage achieving charging by using solar energy
TWM362477U (en) Solar-controlled power supply module of automatic vending machine
CN203039963U (en) PIC 18 F6720 based wind-solar hybrid street-lamp controller
CN201593743U (en) Apartment corridor solar photovoltaic lighting device
CN201391817Y (en) Building solar energy illuminating device
CN101442216B (en) Power supply switching device for assisting natural energy resource power supply
CN201043710Y (en) Solar LED illumination device
CN204090251U (en) Control system of solar energy street lamp
CN206291144U (en) A kind of emergency lighting system for container crane
CN201385685Y (en) Solar energy signal lamp system for train
CN102036445A (en) Infrared sensor controller
CN101860045A (en) Boarding bridge and power supply method thereof
TWM368148U (en) Solar controlled power supply module for vending machine
CN201937315U (en) Digitized charging system of electric-vehicle charging station

Legal Events

Date Code Title Description
MM4K Annulment or lapse of a utility model due to non-payment of fees