TWM462909U - Logistic management system and lighting device thereof - Google Patents
Logistic management system and lighting device thereof Download PDFInfo
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- TWM462909U TWM462909U TW102202305U TW102202305U TWM462909U TW M462909 U TWM462909 U TW M462909U TW 102202305 U TW102202305 U TW 102202305U TW 102202305 U TW102202305 U TW 102202305U TW M462909 U TWM462909 U TW M462909U
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Abstract
Description
本創作係一種照明裝置,尤其關於一種應用於物流管理系統中之照明裝置。The present invention relates to a lighting device, and more particularly to a lighting device for use in a logistics management system.
在講求效率的現代社會,於物流管理系統中,射頻識別技術的應用越來越廣泛,用來取代以往以人力盤點的勞動作業;主要的實施方式為,在倉庫的主要出入口安裝固定式的射頻識別(RFID)感應器,而進出倉庫的受管貨品上則貼上含有識別資料(即受管貨品資料)的射頻標籤,故當受管貨品進出倉庫的主要出入口時,射頻識別感應器會自動地讀取射頻標籤的射頻標籤訊號,進而使與射頻識別感應器電性相連的伺服裝置獲得受管貨品的資料,以進行後續地電子式的管理,如此自動化的作業程序已大幅減少人力的消耗。In the modern society that emphasizes efficiency, in the logistics management system, the application of radio frequency identification technology is more and more extensive, which is used to replace the labor work that has been manually enumerated in the past; the main implementation method is to install a fixed radio frequency at the main entrance and exit of the warehouse. Identifying (RFID) sensors, and the RFID products containing identification data (ie, managed goods data) are attached to the managed goods entering and leaving the warehouse. Therefore, when the managed goods enter and exit the main entrance of the warehouse, the RFID sensor will automatically The radio frequency tag signal of the radio frequency tag is read, and the servo device electrically connected to the radio frequency identification sensor obtains the data of the managed goods for subsequent electronic management, so that the automated operation program has greatly reduced the labor consumption. .
然而,以往的物流管理系統具有下列缺點:1.射頻識別感應器是須被供電才能進行運作,故必須額外於射頻識別感應器上配上與電源端相通的電源線:2.射頻識別感應器額外佔據了倉庫的空間;3.射頻識別感應器與伺服裝置之間是透過有線通信的方式進行訊號傳遞,牽線作業繁瑣,並破壞倉庫環境的美觀;以及 4.射頻識別感應器通常被裝設於倉庫的高處,如需要進行開/關或其他功能的控制,若非以無線方式進行控制,即需要設置有線的控制開關;然如此一來,也會增加牽線作業上的繁瑣與開關設置成本。However, the previous logistics management system has the following disadvantages: 1. The radio frequency identification sensor must be powered to operate, so it must be additionally equipped with a power supply line connected to the power supply terminal: 2. Radio frequency identification sensor The space occupied by the warehouse is additionally occupied; 3. The signal transmission between the RFID sensor and the servo device is carried out by means of wired communication, the drawing operation is cumbersome, and the beauty of the warehouse environment is damaged; 4. The RFID sensor is usually installed in the high place of the warehouse. If it needs to be controlled by on/off or other functions, if it is not controlled by wireless, it needs to set the wired control switch; otherwise, it will also Increase the cumbersome and switch setup cost of the wire drawing operation.
根據以上的說明可知,習知的物流管理系統仍具有改善的空間。According to the above description, the conventional logistics management system still has room for improvement.
本創作之一目的在提供一種應用於物流管理系統中的照明裝置,尤其係關於一種設置有射頻識別感應器的照明裝置。One of the aims of the present invention is to provide a lighting device for use in a logistics management system, and more particularly to a lighting device provided with a radio frequency identification sensor.
本創作之另一目的在提供一種應用上述照明裝置的物流管理系統。Another object of the present invention is to provide a logistics management system using the above lighting device.
於一較佳實施例中,本創作提供一種一種應用於物流管理系統中之照明裝置,包括:一發光源;以及一射頻識別(RFID)感應器,用以讀取配置於至少一受管貨物上之至少一射頻標籤訊號,以於一貨物流通環境中進行一物流管理作業。In a preferred embodiment, the present disclosure provides a lighting device for use in a logistics management system, comprising: a lighting source; and a radio frequency identification (RFID) sensor for reading and configuring at least one managed cargo At least one RF tag signal is used to perform a logistics management operation in a cargo circulation environment.
於一較佳實施例中,該物流管理系統包括一伺服裝置,且該伺服裝置訊號連接於該射頻識別感應器,以接收自該射頻識別感應器輸出之該至少一射頻標籤訊號,進而獲得該至少一射頻標籤訊號中所包含之至少一識別資料。In a preferred embodiment, the logistics management system includes a servo device, and the servo device is connected to the radio frequency identification sensor to receive the at least one radio frequency tag signal outputted from the radio frequency identification sensor, thereby obtaining the At least one identification data included in at least one radio frequency tag signal.
於一較佳實施例中,該射頻識別感應器係藉由該至少一射頻標籤訊號而獲得該至少一射頻標籤訊號中所包含之至少一識別資料;其中,該物流管理系統係包括一伺服裝置,且該伺服裝置訊號連接於該射頻識別感應器,以接收自該射頻識別感應器輸出之該至少一識別資料。In a preferred embodiment, the radio frequency identification sensor obtains at least one identification data included in the at least one radio frequency tag signal by using the at least one radio frequency tag signal; wherein the logistics management system includes a servo device And the servo device signal is connected to the radio frequency identification sensor to receive the at least one identification data outputted from the radio frequency identification sensor.
於一較佳實施例中,該伺服裝置以及該照明裝置係 分別包括一無線訊號接收器以及一無線訊號發射器;其中,該無線訊號發射器以及該無線訊號接收器之間係透過一藍芽通信方式進行通訊或一Wi-Fi通信方式進行通訊。In a preferred embodiment, the servo device and the illumination device are Each includes a wireless signal receiver and a wireless signal transmitter; wherein the wireless signal transmitter and the wireless signal receiver communicate via a Bluetooth communication method or a Wi-Fi communication method.
於一較佳實施例中,應用於物流管理系統中之照明裝置,更包括:一切換開關,耦接於一電源端;以及一驅動裝置,電連接於該切換開關、該發光源以及該射頻識別感應器之間,其因應該切換開關之開啟次數而相對應產生一第一致能訊號至該發光源,及/或產生一第二致能訊號至該射頻識別感應器;其中,該發光源以及該射頻識別感應器係分別因應該第一致能訊號以及該第二致能訊號而被啟動。In a preferred embodiment, the lighting device used in the logistics management system further includes: a switch that is coupled to a power terminal; and a driving device electrically connected to the switch, the light source, and the RF Between the identification sensors, corresponding to the number of times the switch is turned on, a first enable signal is generated to the light source, and/or a second enable signal is generated to the radio frequency identification sensor; wherein the light is emitted The source and the RFID sensor are activated according to the first enable signal and the second enable signal, respectively.
於一較佳實施例中,該貨物流通環境係為一倉儲環境或一賣場。In a preferred embodiment, the cargo circulation environment is a warehousing environment or a store.
於一較佳實施例中,本創作亦提供一種一種應用於物流管理系統中之照明裝置,包括:一發光源;一射頻識別(RFID)感應器,用以讀取配置於至少一受管貨物上之至少一射頻標籤訊號,以於一貨物流通環境中進行一物流管理作業;以及一切換開關,耦接於一電源端,並電連接於該發光源以及該射頻識別感應器,且一使用者藉由切換該切換開關之開啟次數而相對應地選擇啟動該發光源及/或該射頻識別感應器。In a preferred embodiment, the present invention also provides a lighting device for use in a logistics management system, comprising: a light source; a radio frequency identification (RFID) sensor for reading and configuring at least one managed cargo At least one radio frequency tag signal for performing a logistics management operation in a cargo circulation environment; and a switch, coupled to a power source end, electrically connected to the illumination source and the radio frequency identification sensor, and used The light source and/or the radio frequency identification sensor are selectively activated by switching the number of times the switch is turned on.
於一較佳實施例中,該物流管理系統包括一伺服裝置,且該伺服裝置訊號連接於該射頻識別感應器,以接收自該射頻識別感應器輸出之該至少一射頻標籤訊號,進而獲得該至少一射頻標籤訊號中所包含之至少一識別資料。In a preferred embodiment, the logistics management system includes a servo device, and the servo device is connected to the radio frequency identification sensor to receive the at least one radio frequency tag signal outputted from the radio frequency identification sensor, thereby obtaining the At least one identification data included in at least one radio frequency tag signal.
於一較佳實施例中,該射頻識別感應器係藉由該至少一射頻標籤訊號而獲得該至少一射頻標籤訊號中所包含之至少一識別資料;其中,該物流管理系統係包括一伺服裝置,且該伺 服裝置訊號連接於該射頻識別感應器,以接收自該射頻識別感應器輸出之該至少一識別資料。In a preferred embodiment, the radio frequency identification sensor obtains at least one identification data included in the at least one radio frequency tag signal by using the at least one radio frequency tag signal; wherein the logistics management system includes a servo device And the wait The device signal is connected to the RFID sensor to receive the at least one identification data output from the RFID sensor.
於一較佳實施例中,該伺服裝置以及該照明裝置係分別包括一無線訊號接收器以及一無線訊號發射器;其中,該無線訊號發射器以及該無線訊號接收器之間係透過一藍芽通信方式進行通訊或一Wi-Fi通信方式進行通訊。In a preferred embodiment, the servo device and the illumination device respectively comprise a wireless signal receiver and a wireless signal transmitter; wherein the wireless signal transmitter and the wireless signal receiver pass through a Bluetooth device The communication method performs communication or a Wi-Fi communication method for communication.
於一較佳實施例中,應用於物流管理系統中之照明裝置更包括:一驅動裝置,電連接於該切換開關、該發光源以及該射頻識別感應器之間,其因應該切換開關之開啟次數而相對應產生一第一致能訊號至該發光源,及/或產生一第二致能訊號至該射頻識別感應器;其中,該發光源以及該射頻識別感應器係分別因應該第一致能訊號以及該第二致能訊號而被啟動。In a preferred embodiment, the lighting device applied to the logistics management system further includes: a driving device electrically connected between the switching switch, the light source and the RFID sensor, and the switching switch is turned on. Correspondingly, a first enable signal is generated to the illumination source, and/or a second enable signal is generated to the radio frequency identification sensor; wherein the illumination source and the radio frequency identification sensor are respectively the first The enable signal and the second enable signal are activated.
於一較佳實施例中,本創作亦提供物流管理系統,包括:一貨物流通環境;一發光源;一射頻識別(RFID)感應器,用以讀取配置於至少一受管貨物上之至少一射頻標籤訊號,以於該貨物流通環境中進行一物流管理作業;以及一切換開關,耦接於一電源端,並電連接於該發光源以及該射頻識別感應器,且一使用者藉由切換該切換開關之開啟次數而相對應地選擇啟動該發光源及/或該射頻識別感應器。In a preferred embodiment, the creation also provides a logistics management system comprising: a cargo circulation environment; a lighting source; and a radio frequency identification (RFID) sensor for reading at least one of the at least one managed goods An RF tag signal for performing a logistics management operation in the cargo circulation environment; and a switch coupled to a power terminal and electrically connected to the illumination source and the RFID sensor, and a user Switching the number of times the switch is turned on and correspondingly selecting to activate the light source and/or the RFID sensor.
於一較佳實施例中,物流管理系統更包括:一驅動裝置,電連接於該切換開關、該發光源以及該射頻識別感應器之間,其因應該切換開關之開啟次數而相對應產生一第一致能訊號至該發光源,及/或產生一第二致能訊號至該射頻識別感應器; 其中,該發光源以及該射頻識別感應器係分別因應該第一致能訊號以及該第二致能訊號而被啟動。In a preferred embodiment, the logistics management system further includes: a driving device electrically connected between the switching switch, the illumination source, and the radio frequency identification sensor, corresponding to the number of times the switch is turned on. a first consistent signal to the illumination source and/or a second enable signal to the radio frequency identification sensor; The illumination source and the radio frequency identification sensor are activated according to the first enable signal and the second enable signal, respectively.
於一較佳實施例中,該驅動裝置包括:一計數控制單元,用以計數該切換開關之開啟次數而相對應輸出該第一致能訊號至該發光源,及/或輸出該第二致能訊號至該射頻識別感應器;以及一驅動電路,用以驅動該發光源及/或該射頻識別感應器進行運作。In a preferred embodiment, the driving device includes: a counting control unit for counting the number of times the switching switch is turned on and correspondingly outputting the first enabling signal to the illumination source, and/or outputting the second The signal can be sent to the RFID sensor; and a driving circuit for driving the illumination source and/or the RFID sensor to operate.
於一較佳實施例中,該計數控制單元係包括一可程式化之微控制器或一正反器。In a preferred embodiment, the counting control unit includes a programmable microcontroller or a flip-flop.
於一較佳實施例中,當該切換開關處於關閉狀態超過一時間長度,該計數控制單元將重新計數該切換開關之開啟次數。In a preferred embodiment, when the switch is in the off state for more than a period of time, the count control unit will recount the number of times the switch is turned on.
於一較佳實施例中,該計數控制單元包括一電容,用以提供該計數控制單元於該時間長度內之電力。In a preferred embodiment, the counting control unit includes a capacitor for providing power of the counting control unit for the length of time.
於一較佳實施例中,物流管理系統更包括一伺服裝置,且該伺服裝置訊號連接於該射頻識別感應器,以接收自該射頻識別感應器輸出之該至少一射頻標籤訊號,進而獲得該至少一射頻標籤訊號中所包含之至少一識別資料。In a preferred embodiment, the logistics management system further includes a servo device, and the servo device is connected to the radio frequency identification sensor to receive the at least one radio frequency tag signal output from the radio frequency identification sensor, thereby obtaining the At least one identification data included in at least one radio frequency tag signal.
於一較佳實施例中,該射頻識別感應器係藉由該至少一射頻標籤訊號而獲得該至少一射頻標籤訊號中所包含之至少一識別資料;其中,該物流管理系統更包括一伺服裝置,且該伺服裝置訊號連接於該射頻識別感應器,以接收自該射頻識別感應器輸出之該至少一識別資料。In a preferred embodiment, the radio frequency identification sensor obtains at least one identification data included in the at least one radio frequency tag signal by using the at least one radio frequency tag signal; wherein the logistics management system further comprises a servo device And the servo device signal is connected to the radio frequency identification sensor to receive the at least one identification data outputted from the radio frequency identification sensor.
於一較佳實施例中,該伺服裝置以及該照明裝置係分別包括一無線訊號接收器以及一無線訊號發射器;其中,該無線訊號發射器以及該無線訊號接收器之間係透過一藍芽通信方式進行通訊或一Wi-Fi通信方式進行通訊。In a preferred embodiment, the servo device and the illumination device respectively comprise a wireless signal receiver and a wireless signal transmitter; wherein the wireless signal transmitter and the wireless signal receiver pass through a Bluetooth device The communication method performs communication or a Wi-Fi communication method for communication.
1‧‧‧照明裝置1‧‧‧Lighting device
1’‧‧‧照明裝置1'‧‧‧Lighting device
2‧‧‧貨物流通環境2‧‧‧Cargo circulation environment
2’‧‧‧貨物流通環境2’‧‧‧Cargo circulation environment
3‧‧‧伺服裝置3‧‧‧Servo
4‧‧‧物流管理系統4‧‧‧Logistics Management System
5‧‧‧受管貨品5‧‧‧Managed goods
4’‧‧‧物流管理系統4’‧‧‧Logistics Management System
9‧‧‧電源端9‧‧‧Power terminal
11‧‧‧燈具主體11‧‧‧Lighting body
12‧‧‧發光源12‧‧‧Light source
13‧‧‧射頻識別感應器13‧‧‧RF sensor
14‧‧‧驅動裝置14‧‧‧ drive
15‧‧‧無線訊號發射器15‧‧‧Wireless Signal Transmitter
16‧‧‧切換開關16‧‧‧Toggle switch
21‧‧‧出入口21‧‧‧ entrances and exits
31‧‧‧無線訊號接收器31‧‧‧Wireless signal receiver
51‧‧‧射頻識別標籤51‧‧‧RF tags
141‧‧‧驅動電路141‧‧‧ drive circuit
142‧‧‧計數控制單元142‧‧‧Counting Control Unit
圖1:係為本創作應用於物流管理系統中之照明裝置於第一較佳實施例的方塊概念示意圖。Figure 1 is a block diagram conceptual view of a first preferred embodiment of a lighting device for use in a logistics management system.
圖2:為應用圖1所示照明裝置之物流管理系統的方塊概念示意圖。Fig. 2 is a block diagram showing the concept of a logistics management system for applying the lighting device shown in Fig. 1.
圖3:係為一較佳應用圖1所示照明裝置之貨物流通環境的環境示意圖。Fig. 3 is a schematic view showing the environment of a goods circulation environment in which the lighting device shown in Fig. 1 is preferably applied.
圖4:係為本創作應用於物流管理系統中之照明裝置於第二較佳實施例的方塊概念示意圖。Figure 4 is a block diagram conceptual view of a second preferred embodiment of a lighting device for use in a logistics management system.
圖5:係為應用圖4所示照明裝置之物流管理系統的方塊概念示意圖。Figure 5 is a block diagram showing the logistics management system of the lighting device shown in Figure 4.
請參閱圖1,其為本創作應用於物流管理系統中之照明裝置於第一較佳實施例的方塊概念示意圖。照明裝置1的燈具主體11設置有發光源12、射頻識別(RFID)感應器13以及驅動裝置14,且驅動裝置14具有驅動電路141,並電連接於電源端9、發光源12以及射頻識別感應器13之間;其中,發光源12用以提供照明,射頻識別感應器13用以讀取任一射頻標籤的射頻標籤訊號,而驅動電路141則用以接收來自電源端9的電力,進而能夠驅動發光源12及/或射頻識別感應器13進行運作。Please refer to FIG. 1, which is a block conceptual diagram of a lighting device in a logistics management system according to a first preferred embodiment. The illuminating device 11 of the illuminating device 1 is provided with a illuminating source 12, a radio frequency identification (RFID) sensor 13 and a driving device 14, and the driving device 14 has a driving circuit 141 and is electrically connected to the power terminal 9, the illuminating source 12, and the radio frequency identification sensor. The light source 12 is used to provide illumination, the RFID sensor 13 is used to read the RF tag signal of any RF tag, and the drive circuit 141 is configured to receive power from the power terminal 9 The illumination source 12 and/or the radio frequency identification sensor 13 are operated.
請參閱圖2與圖3,圖2為應用圖1所示照明裝置之物流管理系統的方塊概念示意圖,圖3為一較佳應用圖1所示照明裝置之貨物流通環境的環境示意圖。首先定義本案之貨物流通環境,其係為用來進行進貨作業、出貨作業以及盤點作業中之至少一者的作業環境,如倉儲環境、大賣場、超場等,且貨物流通環境2具有供受管貨品5進出的至少一出入口21,而每一出入口 21的鄰近處(如上方)皆設置有照明裝置1,且每一照明裝置1與其相對應之出入口21的距離不超過射頻識別感應器13的感應距離。Please refer to FIG. 2 and FIG. 3 . FIG. 2 is a schematic diagram of a block diagram of a logistics management system using the lighting device shown in FIG. 1 , and FIG. 3 is a schematic diagram of a preferred environment for the cargo circulation environment of the lighting device shown in FIG. 1 . First, the cargo circulation environment of the present case is defined, which is an operating environment for performing at least one of a purchase operation, a shipment operation, and an inventory operation, such as a storage environment, a hypermarket, a super field, etc., and the goods circulation environment 2 has a supply environment. At least one entrance and exit 21 of the managed goods 5 entering and exiting, and each entrance and exit The illumination device 1 is disposed adjacent to (as above) 21, and the distance between each illumination device 1 and its corresponding entrance 21 does not exceed the sensing distance of the RFID sensor 13.
接下來說明本較佳實施例中的物流管理系統4,其包括貨物流通環境2、照明裝置1以及伺服裝置3,且伺服裝置3訊號連接於照明裝置1;較佳者,伺服裝置3包括無線訊號接收器31,而照明裝置1更包括無線訊號發射器15;其中,無線訊號發射器15以及無線訊號接收器31之間係透過一藍芽通信方式進行通訊或一Wi-Fi通信方式進行通訊,但不以此為限,任何有線通信的方式或無線通信的方式皆可使本案據以實施。此外,雖然圖2中僅示意了無線訊號發射器15單獨存在於燈具主體11中,並電連接於射頻識別感應器13,惟無線訊號發射器15亦可存在於射頻識別感應器13內,或與射頻識別感應器13成為一體的功能組合元件。Next, the logistics management system 4 in the preferred embodiment will be described, which includes a cargo circulation environment 2, a lighting device 1 and a servo device 3, and the servo device 3 is connected to the lighting device 1; preferably, the servo device 3 includes wireless The signal receiver 31, and the illumination device 1 further includes a wireless signal transmitter 15; wherein the wireless signal transmitter 15 and the wireless signal receiver 31 communicate via a Bluetooth communication method or a Wi-Fi communication method. However, without limitation, any wired communication method or wireless communication method can be implemented in this case. In addition, although FIG. 2 only illustrates that the wireless signal transmitter 15 is separately present in the luminaire main body 11 and is electrically connected to the radio frequency identification sensor 13, the wireless signal transmitter 15 may be present in the radio frequency identification sensor 13, or A functional combination element integrated with the RFID sensor 13.
又,每一受管貨品5上皆配置含有識別資料(即受管貨品的資料)的射頻標籤51,故當任一受管貨品5進出貨物流通環境2中的任一出入口21時,與該任一出入口21相對應之照明裝置1的射頻識別感應器13會自動地讀取該任一受管貨品5上之射頻標籤51的射頻標籤訊號;接著,一較佳實施方式為,藉由照明裝置1中的無線訊號發射器15將該射頻標籤訊號傳送至伺服裝置3的無線訊號接收器31,而伺服裝置3則於無線訊號接收器31接收到射頻標籤訊號後,判別射頻標籤訊號中的識別資料,如此即能夠獲得受管貨品5的資料而達成電子式的管理;另一較佳實施方式為,射頻識別感應器13於讀取該射頻標籤訊號後就判別射頻標籤訊號中的識別資料,再藉由照明裝置1中的無線訊號發射器15將該識別資料傳送至伺服裝置3的無線訊號接收器31,如此伺服裝置3即能夠獲得受管貨品5的資料而達成電子式的管理。Moreover, each of the managed goods 5 is provided with a radio frequency tag 51 containing identification data (ie, information of the managed goods), so when any managed goods 5 enters and exits any of the entrances and exits 21 of the cargo circulation environment 2, The radio frequency identification sensor 13 of the illumination device 1 corresponding to any of the entrances and exits 21 automatically reads the radio frequency tag signal of the radio frequency tag 51 on any of the managed goods 5; and then, by a preferred embodiment, by illumination The wireless signal transmitter 15 in the device 1 transmits the radio frequency tag signal to the wireless signal receiver 31 of the servo device 3, and the servo device 3 determines the radio frequency tag signal after the wireless signal receiver 31 receives the radio frequency tag signal. The identification data is such that the data of the managed goods 5 can be obtained and the electronic management is achieved. In another preferred embodiment, the RFID sensor 13 discriminates the identification data in the RF tag signal after reading the RF tag signal. The identification data is transmitted to the wireless signal receiver 31 of the servo device 3 by the wireless signal transmitter 15 in the illumination device 1, so that the servo device 3 can obtain the managed goods 5 Expected to achieve electronic management.
請參閱圖4~圖5,圖4為本創作應用於物流管理系統中之照明裝置於第二較佳實施例的方塊概念示意圖,圖5為應用圖4所示照明裝置之物流管理系統的方塊概念示意圖。其中, 本實施例之照明裝置1’大致類似於本案第一較佳實施例中所述者,在此即不再予以贅述。Please refer to FIG. 4 to FIG. 5 . FIG. 4 is a schematic diagram of a block diagram of a lighting device in a logistics management system according to a second preferred embodiment. FIG. 5 is a block diagram of a logistics management system using the lighting device shown in FIG. 4 . Conceptual diagram. among them, The illumination device 1' of the present embodiment is substantially similar to that described in the first preferred embodiment of the present invention, and will not be further described herein.
而本實施例與前述第一較佳實施例不同之處在於,照明裝置1’更包括一切換開關16,其電連接於電源端9以及驅動裝置14之間,如此一來,當切換開關16被開啟(turn on)時,電源端9就能提供電力使驅動裝置14驅動發光源12及/或射頻識別感應器13進行運作,而當切換開關16被關閉(turn off)時,電源端9則無法提供電力予驅動裝置14,因此照明裝置1呈停機狀態。The difference between the present embodiment and the foregoing first preferred embodiment is that the illuminating device 1 ′ further includes a switch 16 electrically connected between the power terminal 9 and the driving device 14 , such that when the switch 16 is switched When turned on, the power terminal 9 can provide power to cause the driving device 14 to drive the illumination source 12 and/or the radio frequency identification sensor 13 to operate, and when the diverter switch 16 is turned off, the power terminal 9 Then, power cannot be supplied to the driving device 14, and therefore the lighting device 1 is in a stopped state.
又,切換開關16係可為原本已設置於室內牆壁上的切換開關,抑或是設置於燈具主體11上的切換開關,且於本較佳實施例中,使用者可藉由切換切換開關16的開啟次數而相對應地選擇啟動發光源12及/或射頻識別感應器13。Moreover, the switch 16 can be a switch that has been originally installed on the indoor wall, or a switch that is disposed on the lamp body 11, and in the preferred embodiment, the user can switch the switch 16 by switching The number of times of opening is correspondingly selected to activate the illumination source 12 and/or the radio frequency identification sensor 13.
詳言之,於本較佳實施例中,驅動裝置14還包括電連接於驅動電路141的計數控制單元142,其係用以計數切換開關16的開啟次數而相對應輸出第一致能訊號S1至發光源12,及/或輸出第二致能訊號S2至射頻識別感應器13,發光源12以及射頻識別感應器13則分別因應第一致能訊號S1以該第二致能訊號S2而被啟動。較佳者,計數控制單元142係為一正反器或一可程式化之微控制器,但不以此為限。In detail, in the preferred embodiment, the driving device 14 further includes a counting control unit 142 electrically connected to the driving circuit 141 for counting the number of times the switching switch 16 is turned on and correspondingly outputting the first enabling signal S1. To the illumination source 12, and/or output the second enable signal S2 to the radio frequency identification sensor 13, the illumination source 12 and the radio frequency identification sensor 13 are respectively enabled by the first enable signal S1 by the second enable signal S2. start up. Preferably, the counting control unit 142 is a flip-flop or a programmable microcontroller, but is not limited thereto.
再者,計數控制單元142中具有一電容1421,用以於切換開關16處於關閉狀態時提供一時間長度的電力予計數控制單元142,如此可使計數控制單元142維持一段正常的工作時間,且該時間長度的長短取決於電容1421的規格,也就是說,若是切換開關16處於關閉狀態超過該時間長度,計數控制單元142就會沒有電力而無法執行計數的任務,因此會直到切換開關16再度被開啟時才重新計數計數控制單元142的開啟次數。Furthermore, the counting control unit 142 has a capacitor 1421 for providing a time length of power to the counting control unit 142 when the switching switch 16 is in the off state, so that the counting control unit 142 can maintain a normal working time, and The length of the time depends on the specification of the capacitor 1421, that is, if the switch 16 is in the off state for more than the length of time, the counting control unit 142 has no power and cannot perform the counting task, and thus will switch to the switch 16 again. The number of times the count control unit 142 is turned on is counted again when it is turned on.
接下來舉例說明本較佳實施例中之照明裝置1’的使用方式。當切換開關16首次被開啟時,計數控制單元142僅會輸出第一致能訊號S1至發光源12,使發光源12被啟動而提供照 明,此時射頻識別感應器13是處於停機狀態;而當切換開關16被關閉且於該時間長度內第二度被開啟時,計數控制單元142會同時輸出第一致能訊號S1至發光源12以及輸出第二致能訊號S2至射頻識別感應器13,故於發光源12提供照明的同時,射頻識別感應器13也在運作;又,當切換開關16再度被關閉且於該時間長度內第三度被開啟時,計數控制單元142僅會輸出第二致能訊號S2至射頻識別感應器13,使射頻識別感應器13進行運作,此時發光源12不會提供照明。Next, the manner of use of the lighting device 1' in the preferred embodiment will be exemplified. When the switch 16 is turned on for the first time, the counting control unit 142 only outputs the first enable signal S1 to the illumination source 12, so that the illumination source 12 is activated to provide illumination. Therefore, the radio frequency identification sensor 13 is in a stop state; and when the switch 16 is turned off and turned on for a second time in the length of time, the counting control unit 142 simultaneously outputs the first enable signal S1 to the illumination source. 12 and outputting the second enable signal S2 to the radio frequency identification sensor 13, so that the radio frequency identification sensor 13 is also operating while the illumination source 12 provides illumination; and, when the switch 16 is again turned off and within the length of time When the third degree is turned on, the counting control unit 142 only outputs the second enabling signal S2 to the radio frequency identification sensor 13 to operate the radio frequency identification sensor 13, and the illumination source 12 does not provide illumination.
當然,上述僅為一實施例,切換開關16的開啟次數所對應之照明裝置1’或射頻識別感應器13的控制功能複雜度,並不以此為限,熟悉本技術之人士可依據實際應用需求而進行任何均等的變化設計而有所增/減。Of course, the above is only an embodiment, and the control function complexity of the illumination device 1 ′ or the radio frequency identification sensor 13 corresponding to the number of times the switch 16 is turned on is not limited thereto, and those skilled in the art can use the actual application. Increase or decrease in any equal change design for demand.
舉例來說,本案照明裝置1、1’提供的功能亦可包括射頻識別感應器13保持規律性的運作,而發光源12在第一時間長度中輸出具有第一照明參數的照明光線,並在第二時間中輸出具有第二照明參數的照明光線;其中,第一照明參數可為第一照明亮度,而第二照明參數可為第二照明亮度。基於上述功能,一較佳的應用與實施方式為,複數個照明裝置1、1’平均散佈於貨物流通環境2中的適當處,並於貨物流通環境2中處於無人的狀態下,使每一射頻識別感應器13每隔一預設時間長度啟動一次,以對貨物流通環境2中的受管貨品5進行掃描,並將所讀取到的射頻標籤訊號及其識別資料傳送至伺服裝置3;其中,該些照明裝置1、1’係於射頻識別感應器13對貨物流通環境2中的受管貨品5進行掃描的時輸出具有第二照明參數的照明光線,而於貨物流通環境2中處於有人的狀態下,才輸出具有第一照明參數的照明光線。For example, the functions provided by the lighting device 1, 1' of the present invention may also include the radio frequency identification sensor 13 maintaining regular operation, and the illumination source 12 outputs illumination light having a first illumination parameter for a first time length, and The illumination light having the second illumination parameter is output during the second time; wherein the first illumination parameter may be the first illumination brightness and the second illumination parameter may be the second illumination brightness. Based on the above functions, a preferred application and implementation manner is that a plurality of lighting devices 1, 1' are evenly distributed in an appropriate place in the cargo circulation environment 2, and are in an unmanned state in the cargo circulation environment 2, so that each The RFID sensor 13 is activated once every predetermined time length to scan the managed goods 5 in the goods circulation environment 2, and transmits the read RF tag signals and their identification data to the servo device 3; The illumination devices 1, 1 ′ are outputting the illumination light having the second illumination parameter when the radio frequency identification sensor 13 scans the managed goods 5 in the cargo circulation environment 2, and are in the cargo circulation environment 2 In some people's state, the illumination light with the first illumination parameter is output.
此外,上述以換切換開關16的開啟次數而相對應地選擇照明裝置1’所提供之功能亦僅為一種控制照明裝置1’的方式,熟悉本技術之人士可依據實際應用需求而進行任何均等的變 化設計,舉例來說,可變更設計為,採用旋鈕調控的方式來選擇照明裝置1’中的功能。In addition, the function of selecting the illumination device 1 ′ correspondingly by changing the number of times of opening the switch 16 is also only a way of controlling the illumination device 1 ′, and any person familiar with the technology can perform any equalization according to actual application requirements. Change The design, for example, can be modified to select the function in the illumination device 1' in a knob-controlled manner.
特別說明的是,由於照明裝置1、1’是貨物流通環境2中進行各種作業所不能需少的裝置,也就是說,貨物流通環境2中的任何作業皆需要照明裝置1、1’提供照明,故本案於照明裝置1、1’中設置射頻識別感應器13,如此一來射頻識別感應器13與發光源12僅需共用一條與電源端9電性相連的電線,故射頻識別感應器13無須另外配線,亦不會額外佔據了貨物流通環境的空間。此外,本案所提出的物流管理系統4、4’中,射頻識別感應器13與伺服裝置3之間是採用無線通信的方式進行訊號傳遞,因此不需任何的牽線作業,故倉庫環境2的美觀不會被破壞。In particular, since the lighting devices 1, 1' are devices that are not required to perform various operations in the cargo circulation environment 2, that is, any operation in the cargo circulation environment 2 requires illumination devices 1, 1' to provide illumination. Therefore, in the present invention, the radio frequency identification sensor 13 is disposed in the illumination device 1, 1', so that the radio frequency identification sensor 13 and the illumination source 12 only need to share a wire electrically connected to the power supply terminal 9, so the radio frequency identification sensor 13 No additional wiring is required, and there is no additional space for the cargo circulation environment. In addition, in the logistics management system 4, 4' proposed in the present case, the radio frequency identification sensor 13 and the servo device 3 are transmitted by means of wireless communication, so that no wire-drawing operation is required, so the appearance of the warehouse environment 2 Will not be destroyed.
以上所述僅為本創作之較佳實施例,並非用以限定本創作之申請專利範圍,因此凡其它未脫離本創作所揭示之精神下所完成之等效改變或修飾,均應包含於本案之申請專利範圍內。The above description is only the preferred embodiment of the present invention, and is not intended to limit the scope of the patent application of the present invention. Therefore, any equivalent changes or modifications made without departing from the spirit of the present invention should be included in the present case. Within the scope of the patent application.
1’‧‧‧照明裝置1'‧‧‧Lighting device
4’‧‧‧物流管理系統4’‧‧‧Logistics Management System
9‧‧‧電源端9‧‧‧Power terminal
11‧‧‧燈具主體11‧‧‧Lighting body
12‧‧‧發光源12‧‧‧Light source
13‧‧‧射頻識別感應器13‧‧‧RF sensor
14‧‧‧驅動裝置14‧‧‧ drive
15‧‧‧無線訊號發射器15‧‧‧Wireless Signal Transmitter
16‧‧‧切換開關16‧‧‧Toggle switch
31‧‧‧無線訊號接收器31‧‧‧Wireless signal receiver
141‧‧‧驅動電路141‧‧‧ drive circuit
142‧‧‧計數控制單元142‧‧‧Counting Control Unit
Claims (20)
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| TW102202305U TWM462909U (en) | 2013-02-01 | 2013-02-01 | Logistic management system and lighting device thereof |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW102202305U TWM462909U (en) | 2013-02-01 | 2013-02-01 | Logistic management system and lighting device thereof |
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|---|---|
| TWM462909U true TWM462909U (en) | 2013-10-01 |
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