TW202024915A - Lighting controlling system based on testing status and method thereof - Google Patents

Abstract

A lighting controlling system based on testing status and method thereof is disclosed. By providing at least one rack with at least one placing space, wherein each placing space has at least one light-emitting element and a position identification code. When a device under test (DUT) set in the placing space performs a testing process, the DUT is continuously generating a testing status for transmitting to a server, so that generates a driving signal by a server, and transmits the driving signal to the rack for driving the light-emitting element corresponds to the placing space of the DUT for displaying. The mechanism is help to improve the find convenience for the under testing device.

Description

基於測試狀態的燈控系統及其方法Lamp control system and method based on test state

本發明涉及一種燈控系統及其方法，特別是基於待測裝置的測試狀態之燈控系統及其方法。The invention relates to a light control system and a method thereof, in particular to a light control system and a method based on the test state of a device to be tested.

近年來，隨著自動化技術的普及與蓬勃發展，各種實現自動化的應用便如雨後春筍般湧現，如：無人機房、無人工廠等等。In recent years, with the popularization and vigorous development of automation technology, various automated applications have sprung up like bamboo shoots after a rain, such as unmanned aerial vehicles, unmanned factories, and so on.

一般而言，無人機房或無人工廠並非完全沒有人員存在，而是使用自動化設備將所需人員降至最低，並且保留看守、維護自動化設備的人員。舉例來說，無人工廠同時具有多條生產線，每條生產線具有一個監控端監控相應生產線的生產、製造、測試等狀態，此時，至少需要一位人員來回巡視各條生產線的監控端，以確保所有生產線的狀態皆正常。由於此方式需要人員時常往返各監控端才能得知設備的當前狀態或者是否發生問題，當機房或工廠的面積龐大、生產線眾多時，人員巡視的效率將大幅低落且無法即時反應。另一方面，當人員欲前往維護時，也無法直接從設備或機架裝置的外觀來即時得知欲維護的設備的位置以及詳細的測試狀態，而是需要逐一比對設備序號來確認是否是欲維護的設備後，再進行後續的處理，故具有設備位置查找不便的問題。Generally speaking, unmanned aerial vehicles or unmanned factories are not completely without personnel, but use automation equipment to minimize the required personnel and retain personnel who guard and maintain the automation equipment. For example, an unmanned factory has multiple production lines at the same time, and each production line has a monitoring terminal to monitor the production, manufacturing, and testing status of the corresponding production line. At this time, at least one person needs to patrol the monitoring terminal of each production line to ensure The status of all production lines is normal. Since this method requires personnel to go back and forth to each monitoring terminal to know the current status of the equipment or whether there is a problem, when the computer room or factory has a large area and many production lines, the efficiency of personnel inspections will be greatly reduced and no immediate response will be possible. On the other hand, when personnel want to go for maintenance, they cannot directly know the location of the equipment to be maintained and the detailed test status from the appearance of the equipment or rack device. Instead, they need to compare the equipment serial numbers one by one to confirm whether it is After the equipment to be maintained, subsequent processing is carried out, so there is a problem of inconvenience in finding the location of the equipment.

有鑑於此，便有廠商提出以行動裝置瀏覽各監控端的技術手段，避免人員不斷往返各監控端的情況，有效提升人員巡視效率。然而，此方式在人員發現問題並實地前往欲維護的設備時，同樣需要逐一比對設備序號來確認是否是欲維護的設備，無法直觀地得知設備位置。故仍然存在設備位置查找不便的問題。In view of this, some manufacturers have proposed the technical means of browsing each monitoring terminal with a mobile device to avoid the situation of people constantly going back and forth to each monitoring terminal and effectively improve the efficiency of personnel inspections. However, in this method, when personnel discover problems and go to the equipment to be maintained on the spot, they also need to compare the serial numbers of the equipment one by one to confirm whether it is the equipment to be maintained, and the location of the equipment cannot be intuitively known. Therefore, the problem of inconvenience in finding the location of the device still exists.

綜上所述，可知先前技術中長期以來一直存在設備位置查找不便之問題，因此實有必要提出改進的技術手段，來解決此一問題。In summary, it can be seen that in the prior art, there has been a problem of inconvenience in finding the location of the device for a long time. Therefore, it is necessary to propose improved technical means to solve this problem.

本發明揭露一種基於測試狀態的燈控系統及其方法。The invention discloses a light control system and method based on a test state.

首先，本發明揭露一種基於測試狀態的燈控系統，此系統包含：伺服端及機架裝置。其中，所述伺服端用以接收測試狀態，並且根據測試狀態產生相應的驅動信號並進行傳送，其中，所述測試狀態及驅動信號皆包含位置識別碼；每一機架裝置包含：容置空間、傳輸模組及燈控模組。其中，每一容置空間允許容置待測裝置，以及每一容置空間分別設置對應的發光元件及具唯一性的位置識別碼；傳輸模組用以透過有線或無線方式連接待測裝置及伺服端，並且在待測裝置執行測試時，持續將待測裝置生成的測試狀態傳送至伺服端，以及接收來自伺服端的驅動信號；燈控模組電性連接傳輸模組，用以在接收到驅動信號時，根據此驅動信號及其包含的位置識別碼驅動相應的發光元件顯示相應的顏色。First of all, the present invention discloses a light control system based on a test state. The system includes a server and a rack device. Wherein, the server terminal is used to receive the test state, and generate and transmit corresponding drive signals according to the test state, wherein the test state and the drive signal both include a position identification code; each rack device includes: an accommodation space , Transmission module and light control module. Among them, each accommodating space is allowed to accommodate the device under test, and each accommodating space is provided with a corresponding light-emitting element and a unique position identification code; the transmission module is used to connect the device under test and the The server side, and when the device under test is performing the test, it continuously transmits the test status generated by the device under test to the server side, and receives the drive signal from the server side; the light control module is electrically connected to the transmission module for receiving When driving the signal, the corresponding light-emitting element is driven to display the corresponding color according to the driving signal and the position identification code contained therein.

另外，本發明揭露一種基於測試狀態的燈控方法，應用在具有伺服端及機架裝置的網路環境，其步驟包括：每一機架裝置分別具有容置空間，每一容置空間允許容置待測裝置，以及每一容置空間分別設置對應的發光元件及具唯一性的位置識別碼；每一機架裝置透過有線或無線方式連接待測裝置及伺服端，並且在待測裝置執行測試時，持續將待測裝置生成的測試狀態傳送至伺服端；伺服端根據接收到的測試狀態產生相應的驅動信號，並且將此驅動信號傳送至對應的機架裝置，其中，產生的驅動信號與相應的測試狀態皆包含相同的位置識別碼；機架裝置根據接收到的驅動信號及其包含的位置識別碼，驅動相應的發光元件顯示相應的顏色。In addition, the present invention discloses a light control method based on test status, which is applied in a network environment with a server and a rack device. The steps include: each rack device has an accommodation space, and each accommodation space allows The device to be tested is set, and each accommodating space is provided with a corresponding light-emitting element and a unique position identification code; each rack device is connected to the device under test and the server through a wired or wireless method, and executes on the device under test During the test, the test state generated by the device under test is continuously transmitted to the server; the server generates a corresponding drive signal according to the received test state, and transmits this drive signal to the corresponding rack device, where the generated drive signal It contains the same position identification code as the corresponding test state; the rack device drives the corresponding light-emitting element to display the corresponding color according to the received driving signal and the position identification code contained therein.

本發明所揭露之系統與方法如上，與先前技術的差異在於本發明是透過提供具有容置空間的機架裝置，並且在機架裝置設置對應容置空間的發光元件及位置識別碼，當設置在容置空間的待測裝置執行測試時，持續生成測試狀態並傳送至伺服端，以便伺服端生成相應的驅動信號並傳送至機架裝置，進而驅動與待測裝置的容置空間對應的發光元件顯示指定顏色。The system and method disclosed in the present invention are as above. The difference from the prior art is that the present invention provides a rack device with an accommodating space, and provides a light-emitting element and a position identification code corresponding to the accommodating space on the rack device. When the device under test in the accommodating space performs the test, the test state is continuously generated and transmitted to the server, so that the server generates a corresponding drive signal and transmits it to the rack device, and then drives the light emitting corresponding to the accommodating space of the device The component displays the specified color.

透過上述的技術手段，本發明可以達成提高查找設備位置的便利性之技術功效。Through the above technical means, the present invention can achieve the technical effect of improving the convenience of finding the location of the device.

以下將配合圖式及實施例來詳細說明本發明之實施方式，藉此對本發明如何應用技術手段來解決技術問題並達成技術功效的實現過程能充分理解並據以實施。Hereinafter, the implementation of the present invention will be described in detail with the drawings and embodiments, so as to fully understand and implement the implementation process of how the present invention uses technical means to solve technical problems and achieve technical effects.

在說明本發明所揭露之基於測試狀態的燈控系統及其方法之前，先對本發明所應用的網路環境作說明，所述網路環境包含有線網路或無線網路或兩者組合，以便伺服端與機架裝置之間相互通訊。其中，有線網路可使用電話線、雙絞線、電纜線、光纖等方式連接；無線網路可透過藍牙（Bluetooth）、Wi-Fi、LoRa、ZigBee、CoAP（Constrained Application Protocol）或MQTT（Message Queuing Telemetry Transport）等無線通訊技術來實現。Before describing the light control system and method based on the test state disclosed in the present invention, the network environment to which the present invention is applied will be explained. The network environment includes a wired network or a wireless network or a combination of both, so that The server communicates with the rack device. Among them, wired networks can be connected using telephone lines, twisted pairs, cables, optical fibers, etc.; wireless networks can be connected through Bluetooth, Wi-Fi, LoRa, ZigBee, CoAP (Constrained Application Protocol) or MQTT (Message Queuing Telemetry Transport) and other wireless communication technologies.

以下配合圖式對本發明基於測試狀態的燈控系統及其方法做進一步說明，請先參閱「第1圖」，「第1圖」為本發明基於測試狀態的燈控系統之系統方塊圖，此系統包含：伺服端110及機架裝置120。其中，伺服端110用以接收待測裝置124反饋的測試狀態，並且根據測試狀態產生相應的驅動信號以傳送至相應的待測裝置124所在的機架裝置120，舉例來說，假設測試狀態為「正確」，可產生指定發光元件顯示綠色的驅動信號；假設測試狀態為「錯誤」，可產生指定發光元件顯示紅色的驅動信號；假設測試狀態記載測試進度為100%，可產生指定發光元件顯示綠色的驅動信號；假設測試狀態記載測試進度小於50%，可產生指定發光元件顯示紅色的驅動信號，特別要說明的是，本發明並未以此限定測試狀態的種類與發光元件所顯示的相應顏色。另外，所述測試狀態及驅動信號皆包含位置識別碼。在實際實施上，所述位置識別碼可以由任意的數字、文字及符號組成具有唯一性的字串，甚至將其與機架裝置120及待測裝置124的媒體存取控制位址（MAC Address）或網路位址（IP Address）進行對應以生成對照表，如此一來，伺服端110即可根據位置識別碼及對照表得知哪一個待測裝置124反饋測試狀態，以及驅動信號要傳送至哪一個機架裝置120。要補充說明的是，伺服端110及待測裝置124包含電腦、筆記型電腦、平板電腦、伺服器、智慧型手機等等。The following is a further description of the light control system and method based on the test state of the present invention with the drawings. Please refer to "Figure 1" first. "Figure 1" is the system block diagram of the light control system based on the test state of the present invention. The system includes: a server 110 and a rack device 120. The server 110 is used to receive the test state fed back by the device under test 124, and generate a corresponding drive signal according to the test state to transmit to the rack device 120 where the corresponding device under test 124 is located. For example, suppose the test state is "Correct", it can generate a driving signal for the designated light-emitting element to display green; assuming the test status is "error", it can generate a driving signal for the designated light-emitting element to display red; assuming that the test state records the test progress as 100%, it can generate a designated light-emitting element display Green driving signal; assuming that the test state records that the test progress is less than 50%, it can generate a driving signal for the designated light-emitting element to display red. In particular, the present invention does not limit the type of test state and the corresponding display of the light-emitting element. colour. In addition, both the test state and the driving signal include a position identification code. In actual implementation, the location identification code can be a unique string composed of arbitrary numbers, characters, and symbols, and it can even be combined with the MAC Address (MAC Address) of the rack device 120 and the device under test 124. ) Or IP Address to generate a comparison table. In this way, the server 110 can know which device under test 124 feedbacks the test status according to the location identification code and the comparison table, and the drive signal to be transmitted To which rack device 120. It should be added that the server 110 and the device under test 124 include a computer, a notebook computer, a tablet computer, a server, a smart phone, and so on.

在機架裝置120的部分，每一機架裝置120包含：容置空間121、傳輸模組122及燈控模組123。其中，每一容置空間121允許容置待測裝置124，以及每一容置空間121分別設置對應的發光元件125及具唯一性的位置識別碼126。在實際實施上，所述發光元件125可包含發光二極體、液晶顯示器、電漿顯示器及有機發光二極體至少其中之一。所述位置識別碼可內嵌在一維條碼、二維條碼及無線射頻識別標籤至少其中之一。In the part of the rack device 120, each rack device 120 includes: an accommodation space 121, a transmission module 122, and a light control module 123. Among them, each accommodating space 121 allows the device to be tested 124 to be accommodated, and each accommodating space 121 is provided with a corresponding light-emitting element 125 and a unique position identification code 126 respectively. In actual implementation, the light-emitting element 125 may include at least one of a light-emitting diode, a liquid crystal display, a plasma display, and an organic light-emitting diode. The location identification code can be embedded in at least one of a one-dimensional barcode, a two-dimensional barcode, and a radio frequency identification tag.

傳輸模組122用以透過有線或無線方式連接待測裝置124及伺服端110，並且在待測裝置124執行測試時，持續將待測裝置124生成的測試狀態傳送至伺服端110，以及接收來自伺服端110的驅動信號。在實際實施上，所述傳輸模組可包含RJ45、RS-485、LoRa、Wi-Fi、藍牙、ZigBee、CoAP及MQTT至少其中之一，用以傳送測試狀態及接收驅動信號。The transmission module 122 is used to connect the device under test 124 and the server 110 through a wired or wireless manner, and when the device under test 124 is performing a test, it continuously transmits the test status generated by the device under test 124 to the server 110 and receives The drive signal of the servo terminal 110. In actual implementation, the transmission module may include at least one of RJ45, RS-485, LoRa, Wi-Fi, Bluetooth, ZigBee, CoAP, and MQTT for transmitting test status and receiving driving signals.

燈控模組123電性連接傳輸模組122，用以在接收到驅動信號時，根據此驅動信號及其包含的位置識別碼126驅動相應的發光元件125顯示相應的顏色。舉例來說，假設待測裝置124的容置空間121所對應的發光元件125為全彩發光二極體，當傳送給機架裝置120的驅動信號，其包含的位置識別碼為「4-1」、指定的發光顏色為黃色時，燈控模組123會致能與「4-1」的位置識別碼相應的全彩發光二極體，使其呈現黃色；假設接收到另一驅動信號，其包含的位置識別碼為「4-2」、指定的發光顏色為紅色時，燈控模組123會致能與「4-2」的位置識別碼相應的全彩發光二極體，使其呈現紅色。在實際實施上，根據不同的位置識別碼致能相應的發光元件可透過如：微控制單元、系統單晶片、中央處理單元等等來實現控制。The light control module 123 is electrically connected to the transmission module 122 for driving the corresponding light emitting element 125 to display the corresponding color according to the driving signal and the position identification code 126 contained in the driving signal when the driving signal is received. For example, assuming that the light-emitting element 125 corresponding to the accommodating space 121 of the device under test 124 is a full-color light-emitting diode, when the drive signal transmitted to the rack device 120, the position identification code contained in it is "4-1 When the designated light-emitting color is yellow, the light control module 123 will enable the full-color light-emitting diode corresponding to the position identification code of "4-1" to make it appear yellow; assuming that another driving signal is received, When the position identification code contained in it is "4-2" and the specified light-emitting color is red, the light control module 123 will enable the full-color LED corresponding to the position identification code of "4-2" to make it It appears red. In actual implementation, the corresponding light-emitting elements enabled according to different position identification codes can be controlled by, for example, a micro-control unit, a system-on-a-chip, a central processing unit, etc.

特別要說明的是，本發明的系統更可包含掃描裝置130，用以掃描位置識別碼126以自伺服端110獲得對應此位置識別碼126的待測裝置124的詳細測試信息。在實際實施上，所述位置識別碼可嵌入一維條碼、二維條碼（QR code）、無線射頻識別標籤（Radio Frequency Identification Tag, RFID tag）等等，以供使用者透過掃描器或讀取器進行掃描或感應，進而獲得相應的訊息，如：位置編碼、伺服端110的統一資源識別元（Uniform Resource Identifier, URI）等等，如此一來，便可透過伺服端110的統一資源識別元將位置編碼傳送至伺服端110，使伺服端110根據此位置編碼查詢相應的待測裝置124的詳細測試信息，並且反饋給掃描裝置130供使用者瀏覽。In particular, the system of the present invention may further include a scanning device 130 for scanning the location identification code 126 to obtain the detailed test information of the device under test 124 corresponding to the location identification code 126 from the server 110. In actual implementation, the location identification code can be embedded in a one-dimensional bar code, a two-dimensional bar code (QR code), a radio frequency identification tag (Radio Frequency Identification Tag, RFID tag), etc., for users to read through a scanner or The server scans or senses, and then obtains the corresponding information, such as: location code, Uniform Resource Identifier (URI) of the server 110, etc. In this way, the uniform resource identifier of the server 110 can be used The position code is sent to the server 110, so that the server 110 queries the detailed test information of the corresponding device under test 124 according to the position code, and feeds it back to the scanning device 130 for the user to browse.

特別要說明的是，在實際實施上，本發明所述的各模組皆可利用各種方式來實現，包含軟體、硬體或其任意組合，例如，在某些實施方式中，模組可利用軟體及硬體或其中之一來實現，除此之外，本發明亦可部分地或完全地基於硬體來實現，例如，系統中的一個或多個模組可以透過積體電路晶片、系統單晶片（System on Chip, SoC）、複雜可程式邏輯裝置（Complex Programmable Logic Device, CPLD）、現場可程式邏輯閘陣列（Field Programmable Gate Array, FPGA）等等來實現。本發明可以是系統、方法及／或電腦程式。電腦程式可以包括電腦可讀儲存媒體，其上載有用於使處理器實現本發明的各個方面的電腦可讀程式指令，電腦可讀儲存媒體可以是可以保持和儲存由指令執行設備使用的指令的有形設備。電腦可讀儲存媒體可以是但不限於電儲存設備、磁儲存設備、光儲存設備、電磁儲存設備、半導體儲存設備或上述的任意合適的組合。電腦可讀儲存媒體的更具體的例子（非窮舉的列表）包括：硬碟、隨機存取記憶體、唯讀記憶體、快閃記憶體、光碟、軟碟以及上述的任意合適的組合。此處所使用的電腦可讀儲存媒體不被解釋爲瞬時信號本身，諸如無線電波或者其它自由傳播的電磁波、通過波導或其它傳輸媒介傳播的電磁波（例如，通過光纖電纜的光信號）、或者通過電線傳輸的電信號。另外，此處所描述的電腦可讀程式指令可以從電腦可讀儲存媒體下載到各個計算／處理設備，或者通過網路，例如：網際網路、區域網路、廣域網路及／或無線網路下載到外部電腦設備或外部儲存設備。網路可以包括銅傳輸電纜、光纖傳輸、無線傳輸、路由器、防火牆、交換器、集線器及／或閘道器。每一個計算／處理設備中的網路卡或者網路介面從網路接收電腦可讀程式指令，並轉發此電腦可讀程式指令，以供儲存在各個計算／處理設備中的電腦可讀儲存媒體中。執行本發明操作的電腦程式指令可以是組合語言指令、指令集架構指令、機器指令、機器相關指令、微指令、韌體指令、或者以一種或多種程式語言的任意組合編寫的原始碼或目的碼（Object Code），所述程式語言包括物件導向的程式語言，如：Common Lisp、Python、C++、Objective-C、Smalltalk、Delphi、Java、Swift、C#、Perl、Ruby與PHP等等，以及常規的程序式（Procedural）程式語言，如：C語言或類似的程式語言。計算機可讀程式指令可以完全地在電腦上執行、部分地在電腦上執行、作爲一個獨立的軟體執行、部分在客戶端電腦上部分在遠端電腦上執行、或者完全在遠端電腦或伺服器上執行。In particular, it should be noted that in actual implementation, each module described in the present invention can be implemented in various ways, including software, hardware, or any combination thereof. For example, in some embodiments, the modules can be implemented using Software and hardware or one of them is implemented. In addition, the present invention can also be implemented partially or completely based on hardware. For example, one or more modules in the system can be implemented through integrated circuit chips, system Single chip (System on Chip, SoC), complex programmable logic device (Complex Programmable Logic Device, CPLD), field programmable logic gate array (Field Programmable Gate Array, FPGA) and so on. The invention can be a system, a method and/or a computer program. The computer program may include a computer-readable storage medium loaded with computer-readable program instructions for enabling the processor to implement various aspects of the present invention. The computer-readable storage medium may be a tangible storage medium that can hold and store instructions used by an instruction execution device. equipment. The computer-readable storage medium can be, but is not limited to, an electrical storage device, a magnetic storage device, an optical storage device, an electromagnetic storage device, a semiconductor storage device, or any suitable combination of the foregoing. More specific examples (non-exhaustive list) of computer-readable storage media include hard disks, random access memory, read-only memory, flash memory, optical disks, floppy disks, and any suitable combination of the foregoing. The computer-readable storage medium used here is not interpreted as a transient signal itself, such as radio waves or other freely propagating electromagnetic waves, electromagnetic waves propagating through waveguides or other transmission media (for example, optical signals through fiber optic cables), or through wires Transmission of electrical signals. In addition, the computer-readable program instructions described herein can be downloaded from a computer-readable storage medium to various computing/processing devices, or downloaded via a network such as the Internet, local area network, wide area network and/or wireless network To an external computer device or external storage device. The network may include copper transmission cables, optical fiber transmission, wireless transmission, routers, firewalls, switches, hubs and/or gateways. The network card or network interface in each computing/processing device receives computer-readable program instructions from the network, and forwards the computer-readable program instructions for storage in the computer-readable storage medium in each computing/processing device in. The computer program instructions for performing the operations of the present invention may be combined language instructions, instruction set architecture instructions, machine instructions, machine-related instructions, micro instructions, firmware instructions, or source code or object code written in any combination of one or more programming languages (Object Code), the programming language includes object-oriented programming languages, such as: Common Lisp, Python, C++, Objective-C, Smalltalk, Delphi, Java, Swift, C#, Perl, Ruby, PHP, etc., as well as conventional Procedural programming languages, such as C language or similar programming languages. Computer-readable program instructions can be executed entirely on the computer, partly on the computer, executed as a stand-alone software, partly on the client computer and partly on the remote computer, or entirely on the remote computer or server Executed on.

接著，請參閱「第2圖」，「第2圖」為本發明基於測試狀態的燈控方法之方法流程圖，應用在具有伺服端110及機架裝置120的網路環境，其步驟包括：每一機架裝置120分別具有容置空間121，每一容置空間121允許容置待測裝置124，以及每一容置空間121分別設置對應的發光元件125及具唯一性的位置識別碼126（步驟210）；每一機架裝置120透過有線或無線方式連接待測裝置124及伺服端110，並且在待測裝置124執行測試時，持續將待測裝置124生成的測試狀態傳送至伺服端110（步驟220）；伺服端110根據接收到的測試狀態產生相應的驅動信號，並且將此驅動信號傳送至對應的機架裝置120，其中，產生的驅動信號與相應的測試狀態皆包含相同的位置識別碼（步驟230）；所述機架裝置120根據接收到的驅動信號及其包含的位置識別碼，驅動相應的發光元件125顯示相應的顏色（步驟240）。透過上述步驟，即可透過提供具有容置空間121的機架裝置120，並且在機架裝置120設置對應容置空間121的發光元件125及位置識別碼126，當設置在容置空間121的待測裝置124執行測試時，持續生成測試狀態並傳送至伺服端110，以便伺服端110生成相應的驅動信號並傳送至機架裝置120，進而驅動與待測裝置124的容置空間121對應的發光元件125顯示驅動信號所指定的顏色。Next, please refer to "Figure 2". "Figure 2" is a method flowchart of the light control method based on the test state of the present invention. It is applied in a network environment with a server 110 and a rack device 120. The steps include: Each rack device 120 has an accommodating space 121, each accommodating space 121 allows the device to be tested 124 to be accommodated, and each accommodating space 121 is respectively provided with a corresponding light-emitting element 125 and a unique position identification code 126 (Step 210); Each rack device 120 is connected to the device under test 124 and the server 110 through a wired or wireless method, and when the device under test 124 performs a test, it continuously transmits the test status generated by the device under test 124 to the server 110 (step 220); the servo terminal 110 generates a corresponding drive signal according to the received test state, and transmits the drive signal to the corresponding rack device 120, wherein the generated drive signal and the corresponding test state both contain the same Position identification code (step 230); the rack device 120 drives the corresponding light-emitting element 125 to display the corresponding color according to the received driving signal and the position identification code contained therein (step 240). Through the above steps, the rack device 120 with the accommodation space 121 can be provided, and the light emitting element 125 and the position identification code 126 corresponding to the accommodation space 121 can be provided in the rack device 120. When the test device 124 executes the test, it continuously generates the test state and transmits it to the server 110, so that the server 110 generates a corresponding drive signal and transmits it to the rack device 120, thereby driving the light emitting corresponding to the housing space 121 of the device under test 124 The element 125 displays the color specified by the drive signal.

在步驟240之後，還可以掃描裝置130掃描位置識別碼126，以便自伺服端110獲得對應位置識別碼126的待測裝置124的詳細測試信息（步驟250）。如此一來，管理者即可快速且便利地得知待測裝置124的詳細測試信息，並且直接對此位置的待測裝置124進行相應的處置，避免以往還要耗費大量時間逐一尋找對應的待測裝置124。After step 240, the scanning device 130 may also scan the location identification code 126 to obtain detailed test information of the device under test 124 corresponding to the location identification code 126 from the server 110 (step 250). In this way, the administrator can quickly and conveniently learn the detailed test information of the device under test 124, and directly deal with the device under test 124 at this location, avoiding the need to spend a lot of time in the past to find the corresponding test information one by one.测装置124。 Measuring device 124.

以下配合「第3圖」及「第4圖」以實施例的方式進行如下說明，請先參閱「第3圖」，「第3圖」為應用本發明的機架裝置及其燈控之示意圖。在實際實施上，機架裝置120可同時具有多個容置空間121，每一個容置空間121皆具有對應的發光元件（301~303），以及具有唯一性的位置識別碼（311~313），這些位置識別碼（311~313）可分別內嵌在個別的條碼或RFID tag中。如「第3圖」所示意，機架裝置120有三個容置空間121，上方的容置空間121具有對應的發光元件301及位置識別碼311、中間的容置空間121具有對應的發光元件302及位置識別碼312、下方的容置空間121具有對應的發光元件303及位置識別碼313。假設每一個容置空間121皆分別容置有一個待測裝置124，這些待測裝置124在執行測試時皆會持續反饋測試狀態給伺服端110，其中，測試狀態包含位置識別碼、測試進度、測試結果等等。另一方面，伺服端110會根據接收到測試狀態產生相應的驅動信號，並且將此驅動信號傳送給機架裝置120，使機架裝置120根據驅動信號及位置識別碼驅動相應的發光元件301顯示相應的顏色。舉例來說，倘若上方的容置空間121的待測裝置124傳送測試狀態至伺服端110，而且伺服端110根據此測試狀態產生對應的驅動信號，那麼，這個驅動信號會傳送到機架裝置120，由機架裝置120根據驅動信號及其包含的位置識別碼，驅動相應的發光元件301顯示相應的顏色。特別要說明的是，驅動信號除了可指定發光元件的顯示顏色之外，還可以指定發光元件的顯示方式，如：閃爍。The following description will be given in the form of an embodiment in conjunction with "Figure 3" and "Figure 4". Please refer to "Figure 3" first. "Figure 3" is a schematic diagram of the rack device and its light control applying the present invention. . In actual implementation, the rack device 120 can have multiple accommodating spaces 121 at the same time, and each accommodating space 121 has a corresponding light-emitting element (301~303) and a unique position identification code (311~313) , These location identification codes (311~313) can be embedded in individual barcodes or RFID tags. As shown in "Figure 3", the rack device 120 has three accommodating spaces 121, the upper accommodating space 121 has a corresponding light-emitting element 301 and position identification code 311, and the middle accommodating space 121 has a corresponding light-emitting element 302 And the position identification code 312, the accommodating space 121 below has a corresponding light emitting element 303 and the position identification code 313. Assuming that each accommodating space 121 respectively accommodates a device to be tested 124, these devices to be tested 124 will continue to feed back the test status to the server 110 when performing a test, where the test status includes location identification code, test progress, Test results and so on. On the other hand, the servo terminal 110 generates a corresponding driving signal according to the received test state, and transmits the driving signal to the rack device 120, so that the rack device 120 drives the corresponding light-emitting element 301 according to the driving signal and the position identification code. The corresponding color. For example, if the device under test 124 in the upper accommodating space 121 transmits a test state to the server 110, and the server 110 generates a corresponding drive signal according to the test state, then the drive signal is transmitted to the rack device 120 The rack device 120 drives the corresponding light-emitting element 301 to display the corresponding color according to the driving signal and the position identification code contained therein. It should be noted that, in addition to the display color of the light-emitting element, the drive signal can also specify the display mode of the light-emitting element, such as blinking.

如「第4圖」所示意，「第4圖」為應用本發明以掃描器掃描條碼取得詳細測試信息之示意圖。在實際實施上，當管理者在巡視機架裝置120時，倘若發現設置在機架裝置支架400的發光元件420顯示代表位於此處的待測裝置440發生問題的顏色時，如：紅色。此時，管理者可使用掃描裝置130掃描一維條碼411或二維條碼412，用以獲得伺服端110的URI及位置識別碼401（如：「4-5」），以便透過無線網路將位置識別碼401傳送至伺服端110以查詢對應此位置識別碼401的詳細測試信息，伺服端110會將查到的詳細測試信息傳送至掃描裝置130並顯示在顯示器430上供管理者瀏覽。如此一來，管理者可快速且便利地得知此位置的待測裝置440的詳細測試信息，並且直接對此位置的待測裝置440進行相應的處置，避免以往在主控端瀏覽詳細測試信息後，還要耗費大量時間逐一尋找才能找到對應的待測裝置440的情況。As shown in "Figure 4", "Figure 4" is a schematic diagram of applying the present invention to obtain detailed test information by scanning a barcode with a scanner. In actual implementation, when the administrator is patrolling the rack device 120, if it is found that the light-emitting element 420 arranged on the rack device bracket 400 displays a color representing a problem with the device under test 440 located here, such as red. At this time, the administrator can use the scanning device 130 to scan the one-dimensional bar code 411 or the two-dimensional bar code 412 to obtain the URI of the server 110 and the location identification code 401 (such as "4-5"), so that the The location identification code 401 is sent to the server 110 to query the detailed test information corresponding to the location identification code 401. The server 110 sends the found detailed test information to the scanning device 130 and displays it on the display 430 for the administrator to browse. In this way, the administrator can quickly and conveniently learn the detailed test information of the device under test 440 at this location, and directly deal with the device under test 440 at this location, avoiding browsing the detailed test information on the host in the past. After that, it takes a lot of time to search one by one to find the corresponding device under test 440.

綜上所述，可知本發明與先前技術之間的差異在於透過提供具有容置空間的機架裝置，並且在機架裝置設置對應容置空間的發光元件及位置識別碼，當設置在容置空間的待測裝置執行測試時，持續生成測試狀態並傳送至伺服端，以便伺服端生成相應的驅動信號並傳送至機架裝置，進而驅動與待測裝置的容置空間對應的發光元件顯示驅動信號所指定的顏色，藉由此一技術手段可以解決先前技術所存在的問題，進而達成提高查找設備位置的便利性之技術功效。In summary, it can be seen that the difference between the present invention and the prior art is that by providing a rack device with an accommodating space, and setting a light-emitting element and a position identification code corresponding to the accommodating space on the rack device, When the device under test in the space performs the test, the test state is continuously generated and sent to the server, so that the server generates the corresponding drive signal and transmits it to the rack device, and then drives the light emitting element display drive corresponding to the housing space of the device under test The color specified by the signal can solve the problems of the prior art through this technical means, and then achieve the technical effect of improving the convenience of finding the location of the device.

雖然本發明以前述之實施例揭露如上，然其並非用以限定本發明，任何熟習相像技藝者，在不脫離本發明之精神和範圍內，當可作些許之更動與潤飾，因此本發明之專利保護範圍須視本說明書所附之申請專利範圍所界定者為準。Although the present invention is disclosed in the foregoing embodiments as above, it is not intended to limit the present invention. Anyone familiar with similar art can make some changes and modifications without departing from the spirit and scope of the present invention. Therefore, the present invention The scope of patent protection shall be determined by the scope of the patent application attached to this specification.

110:伺服端120:機架裝置121:容置空間122:傳輸模組123:燈控模組124:待測裝置125:發光元件126:位置識別碼130:掃描裝置301~303:發光元件311~313:位置識別碼400:機架裝置支架401:位置識別碼411:一維條碼412:二維條碼420:發光元件430:顯示器440:待測裝置步驟210:每一機架裝置分別具有至少一容置空間，每一容置空間允許容置一待測裝置，以及每一容置空間分別設置對應的至少一發光元件及具唯一性的一位置識別碼步驟220:每一機架裝置透過有線或無線方式連接所述待測裝置及伺服端，並且在所述待測裝置執行測試時，持續將所述待測裝置生成的至少一測試狀態傳送至該伺服端步驟230:該伺服端根據接收到的所述測試狀態產生相應的一驅動信號，並且將該驅動信號傳送至對應的所述機架裝置，其中，產生的該驅動信號與相應的所述測試狀態皆包含相同的該位置識別碼步驟240:所述機架裝置根據接收到的該驅動信號及其包含的該位置識別碼，驅動相應的所述發光元件顯示相應的顏色步驟250:以掃描裝置掃描該位置識別碼以自該伺服端獲得對應該位置識別碼的該待測裝置的一詳細測試信息110: Servo end 120: Rack device 121: Housing space 122: Transmission module 123: Light control module 124: Device to be tested 125: Light-emitting element 126: Position identification code 130: Scanning device 301~303: Light-emitting element 311 ~313: location identification code 400: rack device bracket 401: location identification code 411: one-dimensional barcode 412: two-dimensional barcode 420: light-emitting element 430: display 440: device to be tested Step 210: each rack device has at least An accommodating space, each accommodating space allows accommodating a device under test, and each accommodating space is provided with at least one corresponding light-emitting element and a unique position identification code. Step 220: Each rack device passes through The device under test and the server are connected in a wired or wireless manner, and when the device under test is performing a test, continue to transmit at least one test state generated by the device under test to the server. Step 230: the server according to The received test state generates a corresponding drive signal, and transmits the drive signal to the corresponding rack device, wherein the generated drive signal and the corresponding test state both include the same position identification Code Step 240: The rack device drives the corresponding light-emitting element to display the corresponding color according to the received driving signal and the position identification code contained therein. Step 250: Scan the position identification code with the scanning device to display the corresponding color. The server obtains a detailed test information of the device under test corresponding to the position identification code

第1圖為本發明基於測試狀態的燈控系統之系統方塊圖。 第2圖為本發明基於測試狀態的燈控方法之方法流程圖。 第3圖為應用本發明的機架裝置及其燈控之示意圖。 第4圖為應用本發明以掃描器掃描條碼取得詳細測試信息之示意圖。Figure 1 is a system block diagram of the light control system based on the test state of the present invention. Figure 2 is a flow chart of the method of controlling the lamp based on the test state of the present invention. Figure 3 is a schematic diagram of the rack device and its light control applying the present invention. Figure 4 is a schematic diagram of using the present invention to scan a barcode with a scanner to obtain detailed test information.

110:伺服端 110: server

120:機架裝置 120: rack device

121:容置空間 121: housing space

122:傳輸模組 122: Transmission module

123:燈控模組 123: Light control module

124:待測裝置 124: device under test

125:發光元件 125: light-emitting element

126:位置識別碼 126: Location ID

130:掃描裝置 130: Scanning device

Claims (10)

一種基於測試狀態的燈控系統，該系統包含： 一伺服端，用以接收至少一測試狀態，並且根據所述測試狀態產生相應的一驅動信號並進行傳送，其中，所述測試狀態及該驅動信號皆包含一位置識別碼；以及 至少一機架裝置，每一機架裝置包含： 至少一容置空間，每一容置空間允許容置一待測裝置，以及每一容置空間分別設置對應的至少一發光元件及具唯一性的該位置識別碼； 一傳輸模組，用以透過有線或無線方式連接所述待測裝置及該伺服端，並且在所述待測裝置執行測試時，持續將所述待測裝置生成的所述測試狀態傳送至該伺服端，以及接收來自該伺服端的該驅動信號；以及 一燈控模組，電性連接該傳輸模組，用以在接收到該驅動信號時，根據該驅動信號及其包含的該位置識別碼驅動相應的所述發光元件顯示相應的顏色。A light control system based on a test state, the system comprising: a servo terminal for receiving at least one test state, and generating and transmitting a corresponding driving signal according to the test state, wherein the test state and the driving signal The signals all include a location identification code; and at least one rack device, each rack device includes: at least one accommodating space, each accommodating space allows accommodating a device under test, and each accommodating space is provided with a corresponding At least one light-emitting element and a unique position identification code; a transmission module for connecting the device under test and the server through a wired or wireless manner, and continues when the device under test is performing a test Transmitting the test state generated by the device under test to the servo terminal and receiving the driving signal from the servo terminal; and a light control module electrically connected to the transmission module for receiving the driving signal When the signal is signaled, the corresponding light-emitting element is driven to display the corresponding color according to the driving signal and the position identification code contained therein. 根據申請專利範圍第1項之基於測試狀態的燈控系統，其中該系統更包含一掃描裝置，用以掃描該位置識別碼以自該伺服端獲得對應該位置識別碼的該待測裝置的一詳細測試信息。According to the first item of the scope of patent application, the light control system based on the test state, wherein the system further includes a scanning device for scanning the position identification code to obtain from the server side a piece of the device under test corresponding to the position identification code Detailed test information. 根據申請專利範圍第1項之基於測試狀態的燈控系統，其中所述發光元件包含發光二極體、液晶顯示器、電漿顯示器及有機發光二極體至少其中之一。According to the first item of the scope of patent application, the test state-based light control system, wherein the light-emitting element includes at least one of a light-emitting diode, a liquid crystal display, a plasma display, and an organic light-emitting diode. 根據申請專利範圍第1項之基於測試狀態的燈控系統，其中該位置識別碼內嵌在一維條碼、二維條碼及無線射頻識別標籤至少其中之一。According to item 1 of the scope of patent application, the light control system based on test status, wherein the position identification code is embedded at least one of a one-dimensional bar code, a two-dimensional bar code and a radio frequency identification tag. 根據申請專利範圍第1項之基於測試狀態的燈控系統，其中該傳輸模組包含RJ45、RS-485、LoRa、Wi-Fi、藍牙、ZigBee、CoAP（Constrained Application Protocol）及MQTT（Message Queuing Telemetry Transport）至少其中之一。According to the first item of the scope of patent application, the light control system based on test status, the transmission module includes RJ45, RS-485, LoRa, Wi-Fi, Bluetooth, ZigBee, CoAP (Constrained Application Protocol) and MQTT (Message Queuing Telemetry) Transport) at least one of them. 一種基於測試狀態的燈控方法，應用在具有一伺服端及至少一機架裝置的網路環境，其步驟包括： 每一機架裝置分別具有至少一容置空間，每一容置空間允許容置一待測裝置，以及每一容置空間分別設置對應的至少一發光元件及具唯一性的一位置識別碼； 每一機架裝置透過有線或無線方式連接所述待測裝置及該伺服端，並且在所述待測裝置執行測試時，持續將所述待測裝置生成的至少一測試狀態傳送至該伺服端； 該伺服端根據接收到的所述測試狀態產生相應的一驅動信號，並且將該驅動信號傳送至對應的所述機架裝置，其中，產生的該驅動信號與相應的所述測試狀態皆包含相同的該位置識別碼；以及 所述機架裝置根據接收到的該驅動信號及其包含的該位置識別碼，驅動相應的所述發光元件顯示相應的顏色。A light control method based on test status is applied in a network environment with a server and at least one rack device. The steps include: each rack device has at least one accommodating space, and each accommodating space allows A device to be tested is set, and at least one light-emitting element and a unique position identification code are respectively provided in each accommodating space; each rack device is connected to the device to be tested and the server through a wired or wireless manner , And when the device under test is performing the test, continuously transmit at least one test state generated by the device under test to the server; the server generates a corresponding drive signal according to the received test state, and The drive signal is transmitted to the corresponding frame device, wherein the generated drive signal and the corresponding test state both include the same position identification code; and the frame device is based on the received drive signal And the position identification code contained therein drives the corresponding light-emitting element to display the corresponding color. 根據申請專利範圍第6項之基於測試狀態的燈控方法，其中該方法更包含以掃描裝置掃描該位置識別碼以自該伺服端獲得對應該位置識別碼的該待測裝置的一詳細測試信息的步驟。According to item 6 of the scope of patent application, the method of light control based on test status, wherein the method further includes scanning the position identification code with a scanning device to obtain a detailed test information of the device under test corresponding to the position identification code from the server end A step of. 根據申請專利範圍第6項之基於測試狀態的燈控方法，其中所述發光元件包含發光二極體、液晶顯示器、電漿顯示器及有機發光二極體至少其中之一。According to item 6 of the scope of patent application, the light control method based on test conditions, wherein the light-emitting element includes at least one of a light-emitting diode, a liquid crystal display, a plasma display, and an organic light-emitting diode. 根據申請專利範圍第6項之基於測試狀態的燈控方法，其中該位置識別碼內嵌在一維條碼、二維條碼及無線射頻識別標籤至少其中之一。According to item 6 of the scope of patent application, the light control method based on test status, wherein the position identification code is embedded at least one of a one-dimensional bar code, a two-dimensional bar code and a radio frequency identification tag. 根據申請專利範圍第6項之基於測試狀態的燈控方法，其中所述測試狀態及所述驅動信號通過RJ45、RS-485、LoRa、Wi-Fi、藍牙、ZigBee、CoAP（Constrained Application Protocol）及MQTT（Message Queuing Telemetry Transport）至少其中之一進行傳輸。According to item 6 of the scope of patent application, the test state-based light control method, wherein the test state and the driving signal pass RJ45, RS-485, LoRa, Wi-Fi, Bluetooth, ZigBee, CoAP (Constrained Application Protocol) and At least one of MQTT (Message Queuing Telemetry Transport) is used for transmission.

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