TWI704475B - Computer cabin and operating method thereof - Google Patents

Abstract

A computer cabin and an operating method thereof are provided. The computer cabin includes a base device, a seat device, a supporting device, a distance sensing module, a pressure sensing module, and a microcontroller. A vertical extension mechanism of the support device vertically surrounds the seat device. The distance sensing module includes a plurality of distance sensors disposed along a horizontal extension mechanism of the supporting device to provide a sensing range around the computer cabin. The pressure sensing module is disposed on the seat device. When the distance sensing module senses that an object closes to computer cabin within a preset distance in the sensing range, the microcontroller controls the supporting device to expand the supporting device. When the object enters the computer cabin and the pressure sensing module senses the seat device carries the object, the microcontroller controls the support device to fold the supporting device.

Description

電腦座艙及其操作方法Computer cockpit and its operation method

本發明是有關於一種座艙，且特別是有關於一種電腦座艙及其操作方法。The present invention relates to a cockpit, and particularly relates to a computer cockpit and an operation method thereof.

隨著電競設備的發展，為了提供更好的使用者體驗，因此座艙式的電腦設備被開發出來。一般來說，座艙式的電腦設備是藉由整合多個顯示器來合併顯示一個完整顯示畫面，以提供大範圍的顯示效果。因此，占有大體積以及重量的顯示器將設置在座艙的支撐結構上，以致於座艙的支撐結構同樣需具有一定體積以及重量。換言之，使用者將受限於這些顯示器以及支撐結構，而可能無法便利地進出座艙。有鑑於此，如何提供使用者可便利的進出座艙，以提供更佳的使用者體驗，以下將提出幾個實施例的解決方案。With the development of gaming equipment, in order to provide a better user experience, cockpit-style computer equipment was developed. Generally speaking, cockpit computer equipment integrates multiple displays to display a complete display screen to provide a wide range of display effects. Therefore, the display that occupies a large volume and weight will be arranged on the supporting structure of the cockpit, so that the supporting structure of the cockpit also needs to have a certain volume and weight. In other words, users will be limited by these displays and supporting structures, and may not be able to easily get in and out of the cockpit. In view of this, how to provide users with convenient access to the cockpit to provide a better user experience, the following will propose solutions in several embodiments.

本發明提供一種電腦座艙及其操作方法可藉由自動展開及收合電腦座艙的功能，以讓使用者可便利地進入電腦座艙，並且可提供良好的使用者體驗效果。The present invention provides a computer cockpit and an operation method thereof, which can automatically expand and collapse the computer cockpit function, so that users can conveniently enter the computer cockpit and provide good user experience effects.

本發明的電腦座艙包括底座裝置、座椅裝置、支撐裝置、距離感測模組、壓力感測模組以及微控制器。座椅裝置設置在底座裝置上。支撐裝置設置在底座裝置上。支撐裝置的垂直延伸機構垂直環繞座椅裝置。距離感測模組包括多個距離感測器。所述多個距離感測器沿著支撐裝置的水平延伸機構配置，以於電腦座艙周圍提供感測範圍。壓力感測模組設置在座椅裝置上。微控制器耦接底座裝置、座椅裝置、支撐裝置、距離感測模組以及壓力感測模組。當距離感測模組於感測範圍感測到物體接近電腦座艙於預設距離內時，微控制器控制支撐裝置展開。當物體進入電腦座艙，並且壓力感測模組感測到座椅裝置承載物體後，微控制器控制支撐裝置收合。The computer cockpit of the present invention includes a base device, a seat device, a supporting device, a distance sensing module, a pressure sensing module, and a microcontroller. The seat device is arranged on the base device. The supporting device is arranged on the base device. The vertical extension mechanism of the support device vertically surrounds the seat device. The distance sensing module includes a plurality of distance sensors. The multiple distance sensors are arranged along the horizontal extension mechanism of the supporting device to provide a sensing range around the computer cockpit. The pressure sensing module is arranged on the seat device. The microcontroller is coupled to the base device, the seat device, the supporting device, the distance sensing module, and the pressure sensing module. When the distance sensing module senses that the object approaches the computer cockpit within a preset distance in the sensing range, the microcontroller controls the support device to expand. When the object enters the computer cockpit and the pressure sensing module senses that the seat device carries the object, the microcontroller controls the support device to close.

本發明的電腦座艙的操作方法適於操作電腦座艙。電腦座艙包括由微控制器控制的底座裝置、座椅裝置、支撐裝置、距離感測模組以及壓力感測模組。距離感測模組包括多個距離感測器沿著支撐裝置的水平延伸機構配置，以於電腦座艙周圍提供感測範圍。所述操作方法包括以下步驟：藉由距離感測模組的所述多個距離感測器是否於感測範圍內感測到物體接近電腦座艙於預設距離內，以藉由微控制器控制支撐裝置展開；以及藉由壓力感測模組感測座椅裝置是否承載物體，以藉由微控制器控制支撐裝置收合。The operating method of the computer cockpit of the present invention is suitable for operating the computer cockpit. The computer cockpit includes a base device, a seat device, a supporting device, a distance sensing module, and a pressure sensing module controlled by a microcontroller. The distance sensing module includes a plurality of distance sensors arranged along the horizontal extension mechanism of the supporting device to provide a sensing range around the computer cockpit. The operation method includes the following steps: whether the plurality of distance sensors of the distance sensing module sense an object approaching the computer cockpit within a preset distance within the sensing range, and control by a microcontroller The supporting device is unfolded; and whether the seat device is carrying an object is sensed by the pressure sensing module, and the supporting device is controlled to be folded by the microcontroller.

基於上述，本發明的電腦座艙及其操作方法可自動感測使用者是否接近電腦座艙，以自動展開電腦座艙，並且當使用者進入電腦座艙後，可自動收合電腦座艙。因此，本發明的電腦座艙及其操作方法可讓使用者可便利地進入電腦座艙，並且可提供良好的使用者體驗效果。Based on the above, the computer cockpit and the operating method of the present invention can automatically detect whether the user is approaching the computer cockpit to automatically unfold the computer cockpit, and when the user enters the computer cockpit, the computer cockpit can be automatically folded. Therefore, the computer cockpit and the operation method thereof of the present invention can allow the user to conveniently enter the computer cockpit and provide a good user experience effect.

為讓本發明的上述特徵和優點能更明顯易懂，下文特舉實施例，並配合所附圖式作詳細說明如下。In order to make the above-mentioned features and advantages of the present invention more comprehensible, the following specific embodiments are described in detail in conjunction with the accompanying drawings.

為了使本發明之內容可以被更容易明瞭，以下提出多個實施例來說明本發明，然而本發明不僅限於所例示的多個實施例。又實施例之間也允許有適當的結合。另外，凡可能之處，在圖式及實施方式中使用相同標號的元件/構件/步驟，係代表相同或類似部件。In order to make the content of the present invention more comprehensible, a number of embodiments are presented below to illustrate the present invention, but the present invention is not limited to the illustrated embodiments. The embodiments also allow proper combination. In addition, wherever possible, elements/components/steps with the same reference numbers in the drawings and embodiments represent the same or similar components.

圖1是依照本發明的一實施例的電腦座艙的方塊示意圖。參考圖1，電腦座艙100包括微控制器110、底座裝置120、座椅裝置130、支撐裝置140、顯示裝置150、距離感測模組160以及壓力感測模組170。微控制器110耦接底座裝置120、座椅裝置130、支撐裝置140、顯示模組150、距離感測模組160以及壓力感測模組170。在本實施例中，底座裝置120、座椅裝置130以及支撐裝置140可分別進一步包括有對應的機構特徵、制動效果及實施電路，而本發明並不加以限制。FIG. 1 is a block diagram of a computer cockpit according to an embodiment of the invention. 1, the computer cockpit 100 includes a microcontroller 110, a base device 120, a seat device 130, a supporting device 140, a display device 150, a distance sensing module 160 and a pressure sensing module 170. The microcontroller 110 is coupled to the base device 120, the seat device 130, the supporting device 140, the display module 150, the distance sensing module 160, and the pressure sensing module 170. In this embodiment, the base device 120, the seat device 130, and the support device 140 may further include corresponding mechanism features, braking effects, and implementation circuits, respectively, but the present invention is not limited.

在本實施例中，微控制器110可提供控制信號至底座裝置120、座椅裝置130以及支撐裝置140，以控制底座裝置120、座椅裝置130以及支撐裝置140來實現本發明各實施例所述的機構形態變化以及制動結果。在本實施例中，當距離感測模組160感測到使用者（即申請專利範圍所述的物體）接近電腦座艙100於預設距離內時，微控制器110控制支撐裝置140展開。並且，當使用者進入電腦座艙100，並且當壓力感測模組170感測到座椅裝置130承載使用者後，微控制器110控制支撐裝置140收合。In this embodiment, the microcontroller 110 can provide control signals to the base device 120, the seat device 130, and the support device 140 to control the base device 120, the seat device 130, and the support device 140 to implement the various embodiments of the present invention. The change of the mechanism and the result of braking. In this embodiment, when the distance sensing module 160 senses that the user (ie, the object described in the scope of the patent application) approaches the computer cockpit 100 within a predetermined distance, the microcontroller 110 controls the support device 140 to expand. Moreover, when the user enters the computer cockpit 100 and the pressure sensing module 170 senses that the seat device 130 carries the user, the microcontroller 110 controls the supporting device 140 to collapse.

在本實施例中，微控制器110可包括具有輸出控制指令以及運算功能的中央處理單元（Central Processing Unit, CPU），或是其他可程式化之一般用途或特殊用途的微處理器（Microprocessor）、數位信號處理器（Digital Signal Processor, DSP）、可程式化控制器、特殊應用積體電路（Application Specific Integrated Circuits, ASIC）、可程式化邏輯裝置（Programmable Logic Device, PLD）、其他類似處理裝置或這些裝置的結合。In this embodiment, the microcontroller 110 may include a central processing unit (CPU) with output control commands and arithmetic functions, or other programmable general-purpose or special-purpose microprocessors (Microprocessor) , Digital Signal Processor (DSP), Programmable Controller, Application Specific Integrated Circuits (ASIC), Programmable Logic Device (PLD), and other similar processing devices Or a combination of these devices.

在本實施例中，顯示模組150可包括一或多個顯示器（Display），並且所述一或多個顯示器可形成平面或具有曲率的顯示面。在本實施例中，顯示模組150設置在支撐裝置140上，並且顯示面朝向座椅裝置130。當使用者進入電腦座艙100，並且壓力感測模組170感測到座椅裝置130承載物體後，微控制器110驅動顯示模組150，以提供顯示功能。In this embodiment, the display module 150 may include one or more displays (Display), and the one or more displays may form a plane or a curved display surface. In this embodiment, the display module 150 is disposed on the supporting device 140, and the display surface faces the seat device 130. When the user enters the computer cockpit 100 and the pressure sensing module 170 senses the object carried by the seat device 130, the microcontroller 110 drives the display module 150 to provide a display function.

在本實施例中，距離感測模組160可包括多個距離感測器，並且這些距離感測器可例如是多個紅外線感測器（Infrared sensor）或多個超聲波感測器（Ultrasonic sensor）等，而本發明並不限制距離感測器的類型。在本實施例中，距離感測模組160可設置於支撐裝置140，並且於電腦座艙100周圍提供感測範圍，以自動感測使用者與電腦座艙100之間的距離。In this embodiment, the distance sensing module 160 may include a plurality of distance sensors, and the distance sensors may be, for example, a plurality of infrared sensors (Infrared sensors) or a plurality of ultrasonic sensors (Ultrasonic sensor). ), etc. The present invention does not limit the type of distance sensor. In this embodiment, the distance sensing module 160 may be disposed on the supporting device 140 and provide a sensing range around the computer cockpit 100 to automatically sense the distance between the user and the computer cockpit 100.

在本實施例中，壓力感測模組170可包括多個壓力感測器，並且這些壓力感測器可例如是荷重元（Load Cell）或多個壓力感測器（Force sensor），本發明並不限制壓力感測器的類型。在本實施例中，壓力感測模組170設置於座椅裝置130，以自動感測座椅裝置130是否承載使用者。In this embodiment, the pressure sensing module 170 may include a plurality of pressure sensors, and these pressure sensors may be, for example, a load cell (Load Cell) or a plurality of pressure sensors (Force sensors). The present invention The type of pressure sensor is not limited. In this embodiment, the pressure sensing module 170 is provided in the seat device 130 to automatically detect whether the seat device 130 is carrying the user.

圖2是依照本發明的圖1實施例的電腦座艙的結構示意圖。參考圖1以及圖2，電腦座艙100的結構可如圖1所示。在本實施例中，座椅裝置130設置在底座裝置120上。支撐裝置140設置在底座裝置120上。支撐裝置140的垂直延伸機構141垂直環繞座椅裝置130。支撐裝置140的水平延伸機構142水平環繞座椅裝置130。在本實施例中，顯示模組150包括多個顯示器151~153。顯示器151~153在水平延伸機構142上連續配置，以環繞座椅裝置130，並且顯示器151~153形成的具有曲率的顯示面朝向座椅裝置130。2 is a schematic diagram of the structure of the computer cockpit according to the embodiment of FIG. 1 of the present invention. 1 and 2, the structure of the computer cockpit 100 may be as shown in FIG. 1. In this embodiment, the seat device 130 is provided on the base device 120. The supporting device 140 is provided on the base device 120. The vertical extension mechanism 141 of the supporting device 140 vertically surrounds the seat device 130. The horizontal extension mechanism 142 of the support device 140 surrounds the seat device 130 horizontally. In this embodiment, the display module 150 includes a plurality of displays 151 to 153. The displays 151 to 153 are continuously arranged on the horizontal extension mechanism 142 to surround the seat device 130, and the curved display surface formed by the displays 151 to 153 faces the seat device 130.

在本實施例中，距離感測模組160包括多個距離感測器161~163，例如是紅外線感測器。距離感測器161~163沿著水平延伸機構配置，以於電腦座艙100周圍提供感測範圍，但本發明並不限於此。圖2所示的距離感測器161~163的位置僅為本發明的一種實施範例。在一實施例中，距離感測模組160可包括更多個距離感測器，並且環繞電腦座艙100設置，以提供360度的感測效果。並且，在另一實施例中，底座裝置120為可旋轉，並且當距離感測模組160感測使用者接近電腦座艙100時，距離感測模組160進一步判斷使用者接近的方向，並且微控制器110控制底座裝置120旋轉，以使電腦座艙100的座艙入口可朝向使用者接近的方向，以利使用者進入電腦座艙100。In this embodiment, the distance sensing module 160 includes a plurality of distance sensors 161 to 163, such as infrared sensors. The distance sensors 161 to 163 are arranged along the horizontal extension mechanism to provide a sensing range around the computer cockpit 100, but the present invention is not limited to this. The positions of the distance sensors 161 to 163 shown in FIG. 2 are only an embodiment of the present invention. In an embodiment, the distance sensing module 160 may include more distance sensors and arranged around the computer cockpit 100 to provide a 360-degree sensing effect. Moreover, in another embodiment, the base device 120 is rotatable, and when the distance sensing module 160 senses that the user is approaching the computer cockpit 100, the distance sensing module 160 further determines the direction in which the user is approaching, and micro The controller 110 controls the rotation of the base device 120 so that the cockpit entrance of the computer cockpit 100 can face the direction in which the user approaches, so that the user can enter the computer cockpit 100.

在本實施例中，壓力感測模組170例如包括多個荷重元171~173。荷重元171~173分別設置於如圖2所示的座椅裝置130的頭部支撐件131、背部支撐件132以及臀部支撐件133。在本實施例中，微控制器110依據荷重元171~173是否分別感測到荷重增加，來判斷座椅裝置130是否完全承載使用者，以控制支撐裝置140收合。換言之，由於座椅裝置130於不同部位分別設置有荷重元171~173，因此若全部的荷重元171~173皆感測到荷重增加於門檻值，則微控制器110確認使用者已完全乘坐在座椅裝置130。然而，圖2所示的荷重元171~173的位置僅為本發明的一種實施範例。在其他實施例中，荷重元171~173的設置位置可依據不同使用需求依序且/或分別控制不同的裝置，本發明並不加以限制。In this embodiment, the pressure sensing module 170 includes a plurality of load cells 171 to 173, for example. The load cells 171 to 173 are respectively provided on the head support 131, the back support 132, and the buttocks support 133 of the seat device 130 as shown in FIG. 2. In this embodiment, the microcontroller 110 determines whether the seat device 130 is fully supporting the user according to whether the load cells 171 to 173 respectively sense the load increase, so as to control the folding of the support device 140. In other words, since the seat device 130 is provided with load cells 171 to 173 in different parts, if all the load cells 171 to 173 sense that the load increases above the threshold value, the microcontroller 110 confirms that the user has completely seated in Seating device 130. However, the positions of the load cells 171 to 173 shown in FIG. 2 are only an embodiment of the present invention. In other embodiments, the installation positions of the load cells 171 to 173 can be controlled sequentially and/or respectively to control different devices according to different usage requirements, which is not limited by the present invention.

圖3是依照本發明的一實施例的電腦座艙的操作示意圖。參考圖3，本實施例的操作流程S310~S370用以說明電腦座艙200的操作流程。須先說明的是，本實施例的座椅裝置230還包括鍵盤托盤280，並且電腦座艙200上的任意位置可進一步設置有發光單元（圖未示）。在步驟S310中，當電腦座艙200周圍無使用者靠近時，電腦座艙200操作於休眠模式或省電模式，並且支撐裝置240以及鍵盤托盤280為收合狀態。在步驟S320中，當使用者B靠近電腦座艙200於預設距離內時，電腦座艙200的支撐裝置240以及鍵盤托盤280為展開狀態，並且發光單元可被點亮，以提供燈光變化。並且，電腦座艙200的其他相關配件也被開啟。3 is a schematic diagram of the operation of the computer cockpit according to an embodiment of the present invention. Referring to FIG. 3, the operation procedures S310 to S370 of this embodiment are used to illustrate the operation procedure of the computer cockpit 200. It should be noted that the seat device 230 of this embodiment further includes a keyboard tray 280, and any position on the computer cockpit 200 may be further provided with a light-emitting unit (not shown). In step S310, when there is no user approaching around the computer cockpit 200, the computer cockpit 200 is operated in a sleep mode or a power saving mode, and the supporting device 240 and the keyboard tray 280 are in a folded state. In step S320, when the user B approaches the computer cockpit 200 within a preset distance, the supporting device 240 and the keyboard tray 280 of the computer cockpit 200 are in an unfolded state, and the light-emitting unit can be lit to provide a light change. In addition, other related accessories of the computer cockpit 200 are also turned on.

在步驟S330中，當分別設置於座椅裝置230的臀部支撐件、背部支撐件以及頭部支撐件的多個荷重元依序感測到荷重增加（例如超過預設荷重值）時，表示使用者B坐在座椅裝置230上，並且使用者的背部及頭部依序依靠在座椅裝置230上。換言之，電腦座艙200可判斷使用者B已完全乘坐在座椅裝置230上。因此，在步驟S340中，電腦座艙200的支撐裝置240以及鍵盤托盤280將收合，以讓使用者B可開始進行遊戲或相關電腦操作，本發明並不加以限制。In step S330, when a plurality of load elements respectively provided on the hip support, back support, and head support of the seat device 230 sense an increase in load (for example, exceeding a preset load value), it means using The person B sits on the seat device 230, and the user's back and head rest on the seat device 230 in sequence. In other words, the computer cockpit 200 can determine that the user B is completely seated on the seat device 230. Therefore, in step S340, the supporting device 240 and the keyboard tray 280 of the computer cockpit 200 will be folded so that the user B can start the game or related computer operations, which is not limited by the present invention.

在步驟S350中，當分別設置於座椅裝置230的頭部支撐件、背部支撐件以及臀部支撐件的多個荷重元依序感測到荷重減少（例如荷重值歸零）時，表示使用者B將離開座椅裝置230，並且使用者的頭部、背部及頭部將依序離開在座椅裝置230。換言之，電腦座艙200可判斷使用者B是否離開（站立在底座裝置220上）座椅裝置230上。因此，電腦座艙200的支撐裝置240以及鍵盤托盤280將展開。在步驟S360中，當使用者B離開電腦座艙200，但使用者B未遠離於預設距離時，電腦座艙200的支撐裝置240以及鍵盤托盤280暫不收合。因此，在步驟S370中，當使用者B遠離電腦座艙200超過預設距離時，電腦座艙200的支撐裝置240以及鍵盤托盤280將收合，並且發光單元以及電腦座艙200的其他相關配件也被關閉。據此，本實施例的電腦座艙200可藉由座艙機構的自動展開功能以及自動收合功能，來提供良好的使用者操作體驗。In step S350, when a plurality of load cells respectively provided on the head support, back support, and buttocks support of the seat device 230 sense the load reduction in sequence (for example, the load value returns to zero), it indicates that the user B will leave the seat device 230, and the user's head, back and head will leave the seat device 230 in sequence. In other words, the computer cockpit 200 can determine whether the user B leaves (standing on the base device 220) on the seat device 230. Therefore, the supporting device 240 and the keyboard tray 280 of the computer cockpit 200 will be unfolded. In step S360, when the user B leaves the computer cockpit 200, but the user B is not far away from the preset distance, the support device 240 and the keyboard tray 280 of the computer cockpit 200 are temporarily not folded. Therefore, in step S370, when the user B is far away from the computer cockpit 200 by more than a preset distance, the supporting device 240 and the keyboard tray 280 of the computer cockpit 200 will be folded, and the light-emitting unit and other related accessories of the computer cockpit 200 will also be closed . Accordingly, the computer cockpit 200 of this embodiment can provide a good user operating experience through the automatic expansion function and the automatic folding function of the cockpit mechanism.

另外，關於本實施例的電腦座艙200的其他相關裝置以及實施方式，可參考上述圖1及圖2實施例的內容，而獲致足夠的教示、建議以及實施說明，因此不多加贅述。並且，以下藉由圖4A至圖7B來針對本發明的電腦座艙的相關機構的制動方式詳細說明之。In addition, with regard to other related devices and implementations of the computer cockpit 200 of this embodiment, please refer to the content of the above-mentioned embodiment of FIG. 1 and FIG. 2 to obtain sufficient teaching, suggestion, and implementation description, so it is not repeated. In addition, the braking method of the relevant mechanism of the computer cockpit of the present invention will be described in detail below with reference to FIGS. 4A to 7B.

圖4A是依照本發明的一實施例的支撐裝置的收合示意圖。圖4B是依照本發明的一實施例的支撐裝置的展開示意圖。參考圖4A以及圖4B，電腦座艙400的座椅裝置430以及支撐裝置440裝設於底座裝置420上，底座裝置420置於第一方向P1及第二方向P2所形成的平面上。第一方向P1、第二方向P2及第三方向P3彼此相互垂直。在本實施例中，電腦座艙400的支撐裝置440的展開及收合方式例如是在第二方向P2及第三方向P3所形成的平面上旋轉位移。如圖4A所示，當支撐裝置440收合後，使用者坐在座椅裝置430上可觀看設置在支撐裝置440上的顯示模組。並且，如圖4B所示，當支撐裝置440展開後，電腦座艙400可形成座艙入口，以便於使用者進出電腦座艙400。FIG. 4A is a schematic view of the folding of the supporting device according to an embodiment of the present invention. Fig. 4B is an expanded schematic view of the supporting device according to an embodiment of the present invention. 4A and 4B, the seat device 430 and the supporting device 440 of the computer cockpit 400 are installed on the base device 420, and the base device 420 is placed on a plane formed by the first direction P1 and the second direction P2. The first direction P1, the second direction P2, and the third direction P3 are perpendicular to each other. In this embodiment, the expansion and folding method of the supporting device 440 of the computer cockpit 400 is, for example, a rotational displacement on a plane formed by the second direction P2 and the third direction P3. As shown in FIG. 4A, when the supporting device 440 is folded, the user sitting on the seat device 430 can watch the display module provided on the supporting device 440. In addition, as shown in FIG. 4B, when the supporting device 440 is unfolded, the computer cockpit 400 may form a cockpit entrance to facilitate the user to enter and leave the computer cockpit 400.

圖5A是依照本發明的一實施例的支撐裝置的收合示意圖。圖5B是依照本發明的一實施例的支撐裝置的展開示意圖。參考圖5A以及圖5B，電腦座艙500的座椅裝置530以及支撐裝置540裝設於底座裝置520上，底座裝置520置於第一方向P1及第二方向P2所形成的平面上。在本實施例中，電腦座艙500的鍵盤托盤580的展開及收合方式例如是平行於第一方向P1及第二方向P2所形成的平面而旋轉位移。如圖5A所示，當鍵盤托盤580收合後，使用者坐在座椅裝置530上直覺地操作鍵盤托盤580。並且，如圖5B所示，當鍵盤托盤580展開後（並且支撐裝置540同步展開），電腦座艙500可形成座艙入口，以便於使用者進出電腦座艙500。Fig. 5A is a schematic view of the folding of the supporting device according to an embodiment of the present invention. Fig. 5B is an expanded schematic view of the supporting device according to an embodiment of the present invention. 5A and 5B, the seat device 530 and the supporting device 540 of the computer cockpit 500 are installed on the base device 520, and the base device 520 is placed on a plane formed by the first direction P1 and the second direction P2. In this embodiment, the way of expanding and closing the keyboard tray 580 of the computer cockpit 500 is, for example, a rotational displacement parallel to the plane formed by the first direction P1 and the second direction P2. As shown in FIG. 5A, when the keyboard tray 580 is folded, the user sits on the seat device 530 and intuitively operates the keyboard tray 580. Moreover, as shown in FIG. 5B, when the keyboard tray 580 is unfolded (and the supporting device 540 is simultaneously unfolded), the computer cockpit 500 may form a cockpit entrance to facilitate the user to enter and leave the computer cockpit 500.

圖6A是依照本發明的一實施例的座椅裝置的傾斜示意圖。圖6B是依照本發明的一實施例的座椅裝置的持平示意圖。參考圖6A以及圖6B，電腦座艙600的座椅裝置630以及支撐裝置640裝設於底座裝置620上，底座裝置620置於第一方向P1及第二方向P2所形成的平面上。在本實施例中，電腦座艙600的座椅裝置630的傾斜及持平方式例如是相對於第三方向P3而傾斜。如圖6A所示，座椅裝置630可傾斜一角度，以讓使用者坐在座椅裝置630可有更好的操作體驗，並且座椅裝置630的腿部支撐部632可伸展出來，以提供使用者良好的腿部支撐效果。並且，如圖6B所示，座椅裝置630可恢復為水平角度，以利使用者離開座椅裝置630。Fig. 6A is a schematic view of a tilt of a seat device according to an embodiment of the present invention. Fig. 6B is a flat schematic view of a seat device according to an embodiment of the present invention. 6A and 6B, the seat device 630 and the supporting device 640 of the computer cockpit 600 are installed on the base device 620, and the base device 620 is placed on a plane formed by the first direction P1 and the second direction P2. In this embodiment, the tilting and leveling manner of the seat device 630 of the computer cockpit 600 is, for example, tilting with respect to the third direction P3. As shown in FIG. 6A, the seat device 630 can be inclined at an angle, so that the user can have a better operating experience sitting on the seat device 630, and the leg support portion 632 of the seat device 630 can be extended to provide Good leg support for users. Moreover, as shown in FIG. 6B, the seat device 630 can be restored to a horizontal angle to facilitate the user to leave the seat device 630.

圖7A是依照本發明的一實施例的腳踏板的立起示意圖。圖7B是依照本發明的一實施例的腳踏板的收納示意圖。參考圖7A以及圖7B，電腦座艙700的座椅裝置730以及支撐裝置740裝設於底座裝置720上，底座裝置720置於第一方向P1及第二方向P2所形成的平面上。在本實施例中，座椅裝置730可包括腳踏板790。如圖7A所示，當座椅裝置730感測到荷重增加時（例如是上述的頭部支撐件感測到荷重增加），電腦座艙700的微控制器可控制腳踏板790立起。並且，如圖7B所示，當座椅裝置730感測到荷重減少時（例如是上述的頭部支撐件感測到荷重減少），電腦座艙700的微控制器可控制腳踏板790恢復至水平狀態，以利使用者離開座椅裝置730。Fig. 7A is a schematic view of a foot pedal erected according to an embodiment of the present invention. Fig. 7B is a schematic view of the storage of the foot pedal according to an embodiment of the present invention. 7A and 7B, the seat device 730 and the supporting device 740 of the computer cockpit 700 are installed on the base device 720, and the base device 720 is placed on a plane formed by the first direction P1 and the second direction P2. In this embodiment, the seat device 730 may include a foot pedal 790. As shown in FIG. 7A, when the seat device 730 senses an increase in load (for example, the aforementioned head support senses an increase in load), the microcontroller of the computer cockpit 700 can control the foot pedal 790 to stand up. And, as shown in FIG. 7B, when the seat device 730 senses a decrease in load (for example, the head support senses a decrease in load), the microcontroller of the computer cockpit 700 can control the foot pedal 790 to return to The horizontal state facilitates the user to leave the seat device 730.

圖8是依照本發明的一實施例的使用者進入電腦座艙的操作流程圖。參考圖1、圖2以及圖8，本實施例的步驟S810~S840可至少適用於圖1以及圖2實施例的電腦座艙100。在步驟S810中，當距離感測模組160的多個距離感測器161~163於感測範圍感測到物體接近電腦座艙100時，微控制器110進一步藉由距離感測模組160的所述多個距離感測器161~163判斷物體接近的方向。在步驟S820中，微控制器110控制底座裝置120旋轉，以使電腦座艙100的座艙入口朝向所述方向。在步驟S830中，微控制器110藉由距離感測模組160的所述多個距離感設器161~163是否於感測範圍感測到物體接近電腦座艙100於預設距離內，以控制支撐裝置140展開。在步驟S840中，微控制器110藉由壓力感測器170感測到座椅裝置130是否承載物體後，以控制支撐裝置140收合。也就是說，本實施例的電腦座艙100可提供自動感測使用者是否接近的功能，以及自動展開及收合支撐裝置140的功能，以讓使用者可便利且無障礙地進入電腦座艙100。FIG. 8 is a flowchart of the operation of a user entering the computer cockpit according to an embodiment of the present invention. Referring to FIG. 1, FIG. 2 and FIG. 8, steps S810 to S840 of this embodiment may be at least applicable to the computer cockpit 100 of the embodiment of FIG. 1 and FIG. In step S810, when the plurality of distance sensors 161 to 163 of the distance sensing module 160 detects that the object approaches the computer cockpit 100 in the sensing range, the microcontroller 110 further uses the distance sensing module 160 The plurality of distance sensors 161 to 163 determine the direction in which the object approaches. In step S820, the microcontroller 110 controls the base device 120 to rotate so that the cockpit entrance of the computer cockpit 100 faces the direction. In step S830, the microcontroller 110 uses the plurality of distance sensors 161 to 163 of the distance sensing module 160 to sense whether an object approaches the computer cockpit 100 within a preset distance in the sensing range to control The supporting device 140 is deployed. In step S840, the microcontroller 110 senses whether the seat device 130 is carrying an object through the pressure sensor 170, and then controls the supporting device 140 to collapse. That is to say, the computer cockpit 100 of this embodiment can provide the function of automatically sensing whether the user is approaching, and the function of automatically expanding and folding the supporting device 140, so that the user can conveniently and without obstacles enter the computer cockpit 100.

圖9是依照本發明的一實施例的使用者離開電腦座艙的操作流程圖。參考圖1、圖2以及圖9，本實施例的步驟S910~S920可至少適用於圖1以及圖2實施例的電腦座艙100。在步驟S910中，微控制器110依據壓力感測模組170的多個荷重元171~173是否依序由頭部支撐件131、背部支撐件132以及臀部支撐件133分別感測到荷重減少，來判斷物體是否離開座椅裝置130，以控制支撐裝置140展開。在步驟S920中，當微控制器110藉由壓力感測模組170的所述多個荷重元171~173判斷物體離開座椅裝置130時，進一步藉由距離感測模組160判斷物體是否遠離電腦座艙100於另一預設距離外，並且控制支撐裝置收合，以使電腦座艙100進入休眠狀態。因此，本實施例的電腦座艙100可提供自動感測使用者是否離開，並且自動展開及收合支撐裝置140，以讓使用者可便利且無障礙地離開電腦座艙100。FIG. 9 is an operation flowchart of a user leaving the computer cockpit according to an embodiment of the present invention. Referring to FIGS. 1, 2 and 9, steps S910 to S920 in this embodiment can be at least applicable to the computer cockpit 100 of the embodiment in FIGS. 1 and 2. In step S910, the microcontroller 110 detects the load reduction by the head support 131, the back support 132 and the buttocks support 133 according to whether the load cells 171 to 173 of the pressure sensing module 170 are sequentially sensed. To determine whether the object leaves the seat device 130 to control the support device 140 to expand. In step S920, when the microcontroller 110 determines whether the object is away from the seat device 130 through the plurality of load cells 171 to 173 of the pressure sensing module 170, it further determines whether the object is away from the seat device 130 through the distance sensing module 160 The computer cockpit 100 is at another preset distance, and the supporting device is controlled to collapse, so that the computer cockpit 100 enters a sleep state. Therefore, the computer cockpit 100 of this embodiment can automatically detect whether the user leaves, and automatically expand and collapse the supporting device 140, so that the user can leave the computer cockpit 100 conveniently and without obstacles.

綜上所述，本發明的電腦座艙及其操作方法可自動感測使用者是否接近或離開電腦座艙，以自動展開及收合電腦座艙，以讓使用者可便利且無障礙地進入或離開電腦座艙。因此，本發明的電腦座艙及其操作方法可提供良好的使用者體驗效果。In summary, the computer cockpit and its operating method of the present invention can automatically sense whether the user approaches or leaves the computer cockpit, so as to automatically expand and collapse the computer cockpit so that the user can easily and without obstacles enter or leave the computer cockpit. Therefore, the computer cockpit and the operation method thereof of the present invention can provide a good user experience effect.

雖然本發明已以實施例揭露如上，然其並非用以限定本發明，任何所屬技術領域中具有通常知識者，在不脫離本發明的精神和範圍內，當可作些許的更動與潤飾，故本發明的保護範圍當視後附的申請專利範圍所界定者為準。Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Anyone with ordinary knowledge in the technical field can make some changes and modifications without departing from the spirit and scope of the present invention. The scope of protection of the present invention shall be determined by the scope of the attached patent application.

100、200、400、500、600、700:電腦座艙100, 200, 400, 500, 600, 700: computer cockpit

110:微控制器110: Microcontroller

120、220、420、520、620、720:底座裝置120, 220, 420, 520, 620, 720: base unit

130、230、430、530、630、73:座椅裝置130, 230, 430, 530, 630, 73: seat device

131:頭部支撐件131: head support

132:背部支撐件132: Back support

133:臀部支撐件133: hip support

140、240、440、540、640、740:支撐裝置140, 240, 440, 540, 640, 740: support device

141:垂直延伸機構141: Vertical extension mechanism

142:水平延伸機構142: Horizontal extension mechanism

150:顯示模組150: display module

160:距離感測模組160: Distance sensing module

161~163:距離感測器161~163: Distance sensor

170:壓力感測模組170: Pressure sensing module

171~173:荷重元171~173: load element

280、580:鍵盤托盤280, 580: keyboard tray

632:腿部支撐部632: Leg Support

790:腳踏板790: Pedal

B:使用者B: User

P1:第一方向P1: First direction

P2:第二方向P2: second direction

P3:第三方向P3: Third party

S310~S370:操作流程S310~S370: Operation process

S810~S840、S910~S920:步驟S810~S840, S910~S920: steps

圖1是依照本發明的一實施例的電腦座艙的方塊示意圖。 圖2是依照本發明的圖1實施例的電腦座艙的結構示意圖。 圖3是依照本發明的一實施例的電腦座艙的操作示意圖。 圖4A是依照本發明的一實施例的支撐裝置的收合示意圖。 圖4B是依照本發明的一實施例的支撐裝置的展開示意圖。 圖5A是依照本發明的一實施例的支撐裝置的收合示意圖。 圖5B是依照本發明的一實施例的支撐裝置的展開示意圖。 圖6A是依照本發明的一實施例的座椅裝置的傾斜示意圖。 圖6B是依照本發明的一實施例的座椅裝置的持平示意圖。 圖7A是依照本發明的一實施例的腳踏板的立起示意圖。 圖7B是依照本發明的一實施例的腳踏板的收納示意圖。 圖8是依照本發明的一實施例的使用者進入電腦座艙的操作流程圖。 圖9是依照本發明的一實施例的使用者離開電腦座艙的操作流程圖。 FIG. 1 is a block diagram of a computer cockpit according to an embodiment of the invention. 2 is a schematic diagram of the structure of the computer cockpit according to the embodiment of FIG. 1 of the present invention. 3 is a schematic diagram of the operation of the computer cockpit according to an embodiment of the present invention. FIG. 4A is a schematic view of the folding of the supporting device according to an embodiment of the present invention. Fig. 4B is an expanded schematic view of the supporting device according to an embodiment of the present invention. Fig. 5A is a schematic view of the folding of the supporting device according to an embodiment of the present invention. Fig. 5B is an expanded schematic view of the supporting device according to an embodiment of the present invention. Fig. 6A is a schematic view of a tilt of a seat device according to an embodiment of the present invention. Fig. 6B is a flat schematic view of a seat device according to an embodiment of the present invention. Fig. 7A is a schematic view of a foot pedal erected according to an embodiment of the present invention. Fig. 7B is a schematic view of the storage of the foot pedal according to an embodiment of the present invention. FIG. 8 is a flowchart of the operation of a user entering the computer cockpit according to an embodiment of the present invention. FIG. 9 is an operation flowchart of a user leaving the computer cockpit according to an embodiment of the present invention.

100:電腦座艙 100: computer cockpit

110:微控制器 110: Microcontroller

120:底座裝置 120: base device

130:座椅裝置 130: Seat device

140:支撐裝置 140: support device

150:顯示模組 150: display module

160:距離感測模組 160: Distance sensing module

170:壓力感測模組 170: Pressure sensing module

Claims (13)

一種電腦座艙，包括：一底座裝置；一座椅裝置，設置在該底座裝置上；一支撐裝置，設置在該底座裝置上，並且該支撐裝置的一垂直延伸機構垂直環繞該座椅裝置；一距離感測模組，包括多個距離感測器，並且該些距離感測器沿著該支撐裝置的一水平延伸機構配置，以於該電腦座艙周圍提供一感測範圍；一壓力感測模組，設置在該座椅裝置上；以及一微控制器，耦接該底座裝置、該座椅裝置、該支撐裝置、該距離感測模組以及該壓力感測模組，其中當該距離感測模組於該感測範圍內感測到一物體接近該電腦座艙於一預設距離內時，該微控制器控制該支撐裝置展開，當該物體進入該電腦座艙，並且該壓力感測模組感測到該座椅裝置承載該物體後，該微控制器控制該支撐裝置收合，其中該底座裝置為可旋轉，並且當該距離感測模組感測該物體接近該電腦座艙時，該距離感測模組判斷該物體接近的一方向，以使該微控制器控制該底座裝置旋轉，以使該電腦座艙的一座艙入口朝向該方向。 A computer cockpit includes: a base device; a seat device arranged on the base device; a support device arranged on the base device, and a vertical extension mechanism of the support device vertically surrounds the seat device; The distance sensing module includes a plurality of distance sensors, and the distance sensors are arranged along a horizontal extension mechanism of the supporting device to provide a sensing range around the computer cockpit; a pressure sensing module Set on the seat device; and a microcontroller coupled to the base device, the seat device, the support device, the distance sensing module, and the pressure sensing module, wherein when the distance sensing When the sensing module senses an object approaching the computer cockpit within a preset distance within the sensing range, the microcontroller controls the supporting device to expand, and when the object enters the computer cockpit, and the pressure sensing module After the group senses that the seat device bears the object, the microcontroller controls the supporting device to fold, wherein the base device is rotatable, and when the distance sensing module senses that the object approaches the computer cockpit, The distance sensing module determines a direction in which the object approaches, so that the microcontroller controls the base device to rotate, so that the entrance of a cabin of the computer cabin faces the direction. 一種電腦座艙，包括：一底座裝置； 一座椅裝置，設置在該底座裝置上；一支撐裝置，設置在該底座裝置上，並且該支撐裝置的一垂直延伸機構垂直環繞該座椅裝置；一距離感測模組，包括多個距離感測器，並且該些距離感測器沿著該支撐裝置的一水平延伸機構配置，以於該電腦座艙周圍提供一感測範圍；一壓力感測模組，設置在該座椅裝置上；以及一微控制器，耦接該底座裝置、該座椅裝置、該支撐裝置、該距離感測模組以及該壓力感測模組，其中當該距離感測模組於該感測範圍內感測到一物體接近該電腦座艙於一預設距離內時，該微控制器控制該支撐裝置展開，當該物體進入該電腦座艙，並且該壓力感測模組感測到該座椅裝置承載該物體後，該微控制器控制該支撐裝置收合，其中該壓力感測模組包括多個荷重元，並且該些荷重元分別設置於該座椅裝置的一臀部支撐件、一背部支撐件以及一頭部支撐件，其中該微控制器依據該些荷重元是否分別感測到荷重增加，來判斷該座椅裝置是否完全承載該物體，以控制該支撐裝置收合。 A computer cockpit includes: a base device; A seat device is arranged on the base device; a support device is arranged on the base device, and a vertical extension mechanism of the support device vertically surrounds the seat device; a distance sensing module includes a plurality of distances Sensors, and the distance sensors are arranged along a horizontal extension mechanism of the supporting device to provide a sensing range around the computer cockpit; a pressure sensing module is arranged on the seat device; And a microcontroller coupled to the base device, the seat device, the support device, the distance sensing module, and the pressure sensing module, wherein when the distance sensing module is within the sensing range When an object is detected close to the computer cockpit within a predetermined distance, the microcontroller controls the support device to expand, when the object enters the computer cockpit, and the pressure sensing module senses that the seat device carries the After the object is placed, the microcontroller controls the supporting device to collapse, wherein the pressure sensing module includes a plurality of load cells, and the load cells are respectively arranged on a hip support, a back support, and a back support of the seat device A head support, wherein the microcontroller determines whether the seat device fully supports the object according to whether the load cells respectively sense the load increase, so as to control the folding of the support device. 如申請專利範圍第2項所述的電腦座艙，其中該微控制器依據該些荷重元是否依序由該頭部支撐件、該背部支撐件以及該臀部支撐件分別感測到荷重減少，來判斷該物體是否離開該座椅裝置，以控制該支撐裝置展開。 For example, the computer cockpit described in item 2 of the scope of patent application, wherein the microcontroller detects the load reduction by the head support, the back support, and the hip support according to whether the load elements sequentially Determine whether the object leaves the seat device to control the deployment of the support device. 如申請專利範圍第3項所述的電腦座艙，其中當該微控制器判斷該物體離開該座椅裝置，並且該距離感測模組感測該物體遠離該電腦座艙於另一預設距離外時，該微控制器控制該支撐裝置收合，以使該電腦座艙進入休眠狀態。 The computer cockpit described in item 3 of the scope of patent application, wherein when the microcontroller determines that the object leaves the seat device, and the distance sensing module senses that the object is away from the computer cockpit at another preset distance At this time, the microcontroller controls the supporting device to collapse, so that the computer cockpit enters the dormant state. 如申請專利範圍第2項所述的電腦座艙，其中該座椅裝置更包括一鍵盤托盤，其中當該支撐裝置展開時，該鍵盤托盤對應展開，並且該當該支撐裝置收合時，該鍵盤托盤對應收合。 For the computer cockpit described in item 2 of the scope of patent application, the seat device further includes a keyboard tray, wherein when the support device is unfolded, the keyboard tray is correspondingly unfolded, and when the support device is folded, the keyboard tray Corresponding to collapse. 如申請專利範圍第2項所述的電腦座艙，其中該座椅裝置更包括一腳踏板，當該頭部支撐件的該荷重元感測到荷重增加時，該微控制器控制該腳踏板立起，並且當該頭部支撐件的該荷重元感測到荷重減少時，該微控制器控制該腳踏板恢復至水平。 The computer cockpit described in item 2 of the scope of patent application, wherein the seat device further includes a footrest, and when the load cell of the head support senses an increase in load, the microcontroller controls the footrest The board stands up, and when the load cell of the head support senses the load reduction, the microcontroller controls the foot pedal to return to the level. 如申請專利範圍第1或2項所述的電腦座艙，其中該電腦座艙更包括至少一顯示模組，並且該顯示模組設置在該支撐裝置的該水平延伸機構上並且一顯示面朝向該座椅裝置，其中當該物體進入該電腦座艙，並且該座椅裝置承載該物體後，該微控制器驅動該顯示模組。 The computer cockpit described in item 1 or 2 of the scope of patent application, wherein the computer cockpit further includes at least one display module, and the display module is arranged on the horizontal extension mechanism of the supporting device and a display surface faces the seat A chair device, wherein when the object enters the computer cockpit and the chair device carries the object, the microcontroller drives the display module. 如申請專利範圍第1或2項所述的電腦座艙，其中該電腦座艙更包括至少一發光單元，並且該至少一發光單元設置在該底座裝置、該座椅裝置以及該支撐裝置的至少其中之一，其中當該距離感測模組感測到一物體接近該電腦座艙於該預 設距離內時，該微控制器致能該至少一發光單元。 The computer cockpit as described in item 1 or 2 of the scope of patent application, wherein the computer cockpit further includes at least one light-emitting unit, and the at least one light-emitting unit is disposed on at least one of the base device, the seat device, and the support device One, where when the distance sensing module senses that an object approaches the computer cockpit in the preview When the distance is set, the microcontroller enables the at least one light-emitting unit. 一種電腦座艙的操作方法，其中該電腦座艙包括由一微控制器控制的一底座裝置、一座椅裝置、一支撐裝置、一距離感測模組以及一壓力感測模組，並且該距離感測模組包括多個距離感測器沿著該支撐裝置的一水平延伸機構配置，以於該電腦座艙周圍提供一感測範圍，其中該操作方法包括：藉由該距離感測模組的該些距離感測器是否於該感測範圍感測到一物體接近該電腦座艙於一預設距離內，以藉由該微控制器控制該支撐裝置展開；以及藉由該壓力感測模組感測該座椅裝置是否承載該物體，以藉由該微控制器控制該支撐裝置收合，其中該底座裝置為可旋轉，並且該操作方法更包括：當該距離感測模組的該些距離感測器於該感測範圍感測該物體接近該電腦座艙時，進一步藉由該些距離感測器判斷該物體接近的一方向；以及藉由該微控制器控制該底座裝置旋轉，以使該電腦座艙的一座艙入口朝向該方向。 An operating method of a computer cockpit, wherein the computer cockpit includes a base device, a seat device, a supporting device, a distance sensing module, and a pressure sensing module controlled by a microcontroller, and the distance sensing The measuring module includes a plurality of distance sensors arranged along a horizontal extension mechanism of the supporting device to provide a sensing range around the computer cockpit, wherein the operation method includes: using the distance sensing module Whether the distance sensors sense an object approaching the computer cockpit within a preset distance in the sensing range, so that the micro-controller can control the expansion of the supporting device; and sense by the pressure sensing module Detect whether the seat device carries the object, so as to control the folding of the support device by the microcontroller, wherein the base device is rotatable, and the operation method further includes: when the distance of the distance sensing module When the sensor detects that the object is approaching the computer cockpit in the sensing range, it further uses the distance sensors to determine a direction in which the object approaches; and the microcontroller controls the rotation of the base device to make The entrance of a cabin of the computer cockpit faces this direction. 一種電腦座艙的操作方法，，其中該電腦座艙包括由一微控制器控制的一底座裝置、一座椅裝置、一支撐裝置、一距離感測模組以及一壓力感測模組，並且該距離感測模組包括多個距離感測器沿著該支撐裝置的一水平延伸機構配置，以於該電腦座艙周圍提供一感測範圍，其中該操作方法包括： 藉由該距離感測模組的該些距離感測器是否於該感測範圍感測到一物體接近該電腦座艙於一預設距離內，以藉由該微控制器控制該支撐裝置展開；以及藉由該壓力感測模組感測該座椅裝置是否承載該物體，以藉由該微控制器控制該支撐裝置收合，其中該壓力感測模組包括多個荷重元分別設置於該座椅裝置的一頭部支撐件、一背部支撐件以及一臀部支撐件，並且藉由該壓力感測模組感測該座椅裝置是否承載該物體，以控制該支撐裝置收合的步驟包括：藉由該壓力感測模組的該些荷重元是否分別感測到荷重增加，來判斷該座椅裝置完全承載該物體，以藉由該微控制器控制該支撐裝置收合。 An operating method of a computer cockpit, wherein the computer cockpit includes a base device, a seat device, a support device, a distance sensing module, and a pressure sensing module controlled by a microcontroller, and the distance The sensing module includes a plurality of distance sensors arranged along a horizontal extension mechanism of the supporting device to provide a sensing range around the computer cockpit, wherein the operation method includes: Whether the distance sensors of the distance sensing module sense an object approaching the computer cockpit within a predetermined distance in the sensing range, so as to control the expansion of the supporting device by the microcontroller; And the pressure sensing module is used to sense whether the seat device bears the object, so as to control the folding of the supporting device by the microcontroller, wherein the pressure sensing module includes a plurality of load cells respectively disposed on the A head support, a back support, and a buttocks support of a seat device, and the pressure sensing module senses whether the seat device carries the object to control the folding of the support device includes : By determining whether the load cells of the pressure sensing module respectively sense an increase in load, it is determined that the seat device is fully supporting the object, and the microcontroller is used to control the folding of the support device. 申請專利範圍第10項所述的操作方法，更包括：藉由該壓力感測模組的該些荷重元是否依序由該頭部支撐件、該背部支撐件以及該臀部支撐件分別感測到荷重減少，來判斷該物體離開該座椅裝置，以藉由該微控制器控制該支撐裝置展開。 The operation method described in item 10 of the scope of patent application further includes: whether the load cells of the pressure sensing module are sensed by the head support, the back support and the buttocks support in sequence When the load is reduced, it is judged that the object leaves the seat device, and the microcontroller is used to control the expansion of the supporting device. 申請專利範圍第11項所述的操作方法，更包括：當該壓力感測模組的該些荷重元判斷該物體離開該座椅裝置時，進一步藉由該距離感測模組判斷該物體是否遠離該電腦座艙於另一預設距離外，以藉由該微控制器控制該支撐裝置收合，以使該電腦座艙進入休眠狀態。 The operation method described in item 11 of the scope of patent application further includes: when the load cells of the pressure sensing module determine that the object leaves the seat device, further determining whether the object is by the distance sensing module Keep away from the computer cockpit at another preset distance, so that the micro-controller controls the folding of the supporting device, so that the computer cockpit enters a dormant state. 如申請專利範圍第9或10項所述的操作方法，其中該電腦座艙更包括至少一顯示模組，並且該至少一顯示模組設置在該支撐裝置的該水平延伸機構上並且一顯示面朝向該座椅裝置，其中該操作方法更包括：當該壓力感測模組感測該座椅裝置承載該物體時，藉由該微控制器驅動該顯示模組。 The operating method as described in item 9 or 10 of the scope of patent application, wherein the computer cockpit further includes at least one display module, and the at least one display module is arranged on the horizontal extension mechanism of the supporting device with a display surface facing In the seat device, the operation method further includes: when the pressure sensing module senses that the seat device carries the object, driving the display module by the microcontroller.

Images