200938977 九、發明說明: 【發明所屬之技術領域】 本發明涉及-種電子設備,尤其涉及—種可攜式電子 - 設備及其落水保護方法。 【先前技術】 隨著社會的發展和電子技術的進步 ,jtL· 了- 設備在人們的日常生活中應用的越來越普遍了諸如手機、 數碼相機等。 ❹”,人㈣隨身攜帶-些可攜式電子設備以方便使 用,如手機以方便用戶隨時和外界聯繫;數碼相機以方便 用戶遊玩時拍照。由於人們常常與水接觸,上述可攜式電 t設備可能會意外落人水中,如遊玩時落人景點的湖水 中。此時,上述可攜式電子設備可能會快速沉入水底而無 法受到保護。 -… 【發明内容】 ❹ 有鑒於此,有必要提供一種可以落水保護的可攜式電 子設備。 另外’還有必要提供一種可樵式電子設備落水保護的 方法。 、、* 一種可攜式電子設備,其包括氣囊、充氣裝置、殼體、 ’又水檢測裝置和控制裝置,該充氣裝置與該氣囊相連,用 f為該氣囊充氣使該氣囊展開;該殼體上設有收容槽,該 乳囊^於折叠狀態時收容於該收容槽並可在充氣過程中伸 出收容槽展開,錢水檢測裝置用於檢測該可攜式電子設 6 200938977 備是否浸水並在該可攜式電子設備浸水時發出檢測㈣, ,控制裝置用於根據檢測職控㈣充氣裝置為該氣囊充 氣n •種可攜式電子設備落水保護方法,其包括如下步 驟: 檢測可攜式電子設備是否浸水; 若可攜式電子設備浸水,則發出檢測訊號; 接收檢測訊號並控制充氣裝置對氣囊進行充氣。 1述可攜式電子設備及其落水保護的方法,可以在可 攜式電子落入水中時對氣囊充氣使氣囊展開,從而使可攜 式電子設備在落水後受到氣囊的保護不會快速沉 【實施方式】 請同時參照® 1和圖2,可攜式電子設備⑽包括氣 囊10、充氣裝置20、殼體30、浸水檢測裝置50和控制裝 置70。 ❹ 氣囊10可處於折疊和充氣展開兩種狀態。氣囊10在 可攜式電子設備1〇〇沒有浸水時處於折疊狀態,在可攜式 電子設備100浸水後處於充氣展開狀態使可攜式電子設備 100可以在落水後受到氣囊1〇的保護。 充氣裝置.20與氣囊10相連,用於在可攜式電子設備 100浸水時為氣囊10充氣使氣囊10展開。 殼體30上設有收容槽302及封閉收容槽302的蓋子 304,氣囊1〇處於折疊狀態時收容於收容槽3〇2,並可在 充氣過程中衝開蓋子3〇4伸出收容槽3〇2展開。 200938977 浸水檢測裝置50用於檢測可攜式電子設備100是否 浸水並在可攜式電子設備100浸水時發出檢測訊號。浸水 檢測裝置50可以為浸水感測器。 控制裝置70分別與浸水檢測裝置5〇和充氣裝置2〇 相連,用於接收浸水檢測裝置5〇發出的檢測訊號,並根據 接收到的檢測訊號控制充氣裝置2〇對氣囊1〇進行充氣, 使氣囊10處於充氣展開狀態,從而使可攜式電子設備1〇〇 在落水後受到氣囊1〇的保護不會快速沉入水底。 另外’充氣裝置20包括壓縮氣體容器22及開關24。 當控制裝置70接收到檢測訊號時,控制裝置7〇打開開關 24使壓縮氣體容器22中壓縮氣體擴散對氣囊1〇進行充 氣。 如圖3所示’在另一實施方式中,充氣裝置2〇包括 點火劑26和充氣劑28。當控制裝置7〇接收到檢測訊號 時,控制裝置70引爆點火劑26使產生熱量。充氣劑% 通常採用固體或者液體燃料,點火劑26引爆後產生的熱量 使充氣劑28分解’充氣劑28產生氣體對氣囊1〇進行充氣。 上述可攜式電子設備1〇〇浸水後,控制裝置70控制 充氣裝置20¾•氣囊1〇進行充氣,使氣囊1〇處於充氣展開 狀態,從而使可攜式電子設備100在落水後受到氣囊10 的保護而不會快速沉入水底。 如圖4所示,—種可攜式電子設備100落水保護方法 的流程圖包括如下步驟。 步驟S802,檢測可攜式電子設備1〇〇是否浸水,若可 8 200938977 攜式電子設備100浸水,則進入步驟S804 ;若可攜式電子 設備100沒有浸水,則返回步驟S802。 、 步驟S804,產生檢測訊號。 - 步驟S806,接收檢測訊號並控制充氣裝置20對氣囊 10進行充氣,使氣囊10處於充氣展開狀態,使可攜式電 子設備100落水後可以受到氣囊10的保護。 如圖5所示,步驟S806接收檢測訊號並控制充氣裝 置20對氣囊10進行充氣為如下步驟: © 步驟S8062,接收檢測訊號並打開充氣裝置20的開關 24使壓縮氣體容器22中的壓縮氣體擴散對氣囊10進行充 氣。 如圖6所示,在另一實施方式中,步驟S806接收檢 測訊號並控制充氣裝置20對氣囊10進行充氣包括如下步 驟: 步驟S8064,接收檢測訊號並引爆點火劑26使產生熱200938977 IX. Description of the Invention: [Technical Field] The present invention relates to an electronic device, and more particularly to a portable electronic device and a method for protecting the falling water. [Prior Art] With the development of society and advances in electronic technology, jtL has become more and more popular in people's daily life, such as mobile phones and digital cameras. ❹", people (four) carry - some portable electronic devices for easy use, such as mobile phones to facilitate users to contact the outside world at any time; digital cameras to facilitate users to take pictures while playing. Because people often contact with water, the above portable electric t The device may accidentally fall into the water, such as the lake in the scenic spot when you are playing. At this time, the above portable electronic device may quickly sink into the water and cannot be protected. -... [Summary] ❹ In view of this, there is It is necessary to provide a portable electronic device that can be protected by falling water. In addition, it is also necessary to provide a method for protecting the water drop of the electronic device. , , * A portable electronic device including an air bag, an inflator, a housing, a water detecting device and a control device, the inflating device is connected to the air bag, and the air bag is inflated by f to expand the air bag; the housing is provided with a receiving slot, and the breast cup is received in the receiving slot when folded And can be extended out of the receiving slot during inflation, and the money detecting device is used to detect whether the portable electronic device 6 200938977 is flooded and in the portable type The electronic device is inspected when it is immersed in water (4), and the control device is used for inflating the airbag according to the detecting service (4) inflating device. The portable electronic device falling water protection method comprises the following steps: detecting whether the portable electronic device is immersed in water; If the portable electronic device is immersed in water, a detection signal is sent; the detection signal is received and the inflator is controlled to inflate the airbag. 1 The portable electronic device and the method for protecting the water fall can be used when the portable electronic device falls into the water The airbag is inflated to deploy the airbag, so that the portable electronic device is protected from being protected by the airbag after falling into water. The embodiment of the portable electronic device (10) includes the airbag 10 and the inflator 20 The housing 30, the water immersion detecting device 50 and the control device 70. The airbag 10 can be in a folded and inflated state. The airbag 10 is in a folded state when the portable electronic device 1 is not immersed in water, in the portable electronic The device 100 is in an inflated state after being immersed in water, so that the portable electronic device 100 can be protected by the airbag 1 after falling into the water. The airbag 10 is connected to the airbag 10 for inflating the airbag 10 when the portable electronic device 100 is immersed in water. The housing 30 is provided with a receiving slot 302 and a cover 304 for closing the receiving slot 302. In the folded state, it is received in the receiving slot 3〇2, and can be opened during the inflation process by the cover 3〇4 extending out of the receiving slot 3〇2. 200938977 The water immersion detecting device 50 is used for detecting whether the portable electronic device 100 is immersed in water and The portable electronic device 100 emits a detection signal when immersed in water. The immersion detecting device 50 may be a immersion sensor. The control device 70 is connected to the immersion detecting device 5 〇 and the inflating device 2 ,, respectively, for receiving the immersion detecting device 5 The detection signal is controlled, and the airbag 1 is inflated according to the received detection signal, so that the airbag 10 is in an inflated state, so that the portable electronic device 1 is protected by the airbag 1 after falling into the water. Will quickly sink to the bottom. Further, the inflator 20 includes a compressed gas container 22 and a switch 24. When the control unit 70 receives the detection signal, the control unit 7 opens the switch 24 to diffuse the compressed gas in the compressed gas container 22 to inflate the air bag 1〇. As shown in Figure 3, in another embodiment, the inflator 2 includes an igniter 26 and an aerating agent 28. When the control device 7 receives the detection signal, the control device 70 detonates the igniter 26 to generate heat. The inflator % is usually a solid or liquid fuel, and the heat generated by the ignition of the igniter 26 decomposes the aeration agent 28. The aeration agent 28 generates a gas to inflate the balloon 1〇. After the portable electronic device 1 is immersed in water, the control device 70 controls the inflator 205⁄4•the airbag 1〇 to inflate the airbag 1〇 in an inflated state, so that the portable electronic device 100 is subjected to the airbag 10 after falling into the water. Protect without quickly sinking into the water. As shown in FIG. 4, a flow chart of a method for protecting a portable electronic device 100 includes the following steps. In step S802, it is detected whether the portable electronic device 1 is immersed in water. If the portable electronic device 100 is immersed in water, the process proceeds to step S804. If the portable electronic device 100 is not immersed in water, the process returns to step S802. Step S804, generating a detection signal. - Step S806, receiving the detection signal and controlling the inflator 20 to inflate the airbag 10, so that the airbag 10 is in an inflated state, so that the portable electronic device 100 can be protected by the airbag 10 after falling into the water. As shown in FIG. 5, step S806 receives the detection signal and controls the inflator 20 to inflate the airbag 10 as follows: © Step S8062, receiving the detection signal and opening the switch 24 of the inflator 20 to diffuse the compressed gas in the compressed gas container 22. The airbag 10 is inflated. As shown in FIG. 6, in another embodiment, the step S806 receives the detection signal and controls the inflator 20 to inflate the airbag 10, including the following steps: Step S8064, receiving the detection signal and detonating the igniter 26 to generate heat.
步驟S8066,點火劑26引爆後產生的熱量使充氣劑 28分解並產生氣體對氣囊10進行充氣。 上述可攜式電子設備100落水保護方法,在可攜式電 子設備100浸水時控制充氣裝置20對氣囊10充氣,使氣 囊10處於充氣展開狀態,從而使可攜式電子設備100在落 水後受到氣囊10的保護不會快速沉入水底。 【圖式簡單說明】 圖1為一較佳實施方式可攜式電子設備的實體示意 9 200938977 圖。 圖2為圖1戶斤; 的系 統結構圖。所不可攜式電子設備-較佳實施方式 較佳實施方式的 圖3為圖!所示可攜式電子設備另一 系統結構圓。 護方法 圖4為較佳實施方式可攜式電子設備落水保 的流程圖。In step S8066, the heat generated after the igniter 26 is detonated causes the aeration agent 28 to decompose and generate gas to inflate the air bag 10. The portable electronic device 100 is configured to prevent the inflator 20 from inflating the airbag 10 when the portable electronic device 100 is immersed in water, so that the airbag 10 is in an inflated state, so that the portable electronic device 100 is subjected to the airbag after falling into the water. The protection of 10 will not sink to the bottom quickly. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a physical representation of a portable electronic device according to a preferred embodiment. Figure 2 is a structural diagram of the system of Figure 1; Non-portable electronic device - preferred embodiment Figure 3 is a diagram of a preferred embodiment! Another system architecture of the illustrated portable electronic device is round. Method 4 is a flow chart of a preferred embodiment of a portable electronic device.
、,圖5為圖4所示接收檢測訊號並控制充氣裝置對氣 進行充氣的一較佳實施方式的方法流程圖。 ” 圖6為圖4所示接收檢測訊號並控制充氣裝置對氣囊 進行充氣的另一較佳實施方式的方法流程圖。 【主要元件符號說明】 可攜式電子設備 氣囊 充氣裝置 殼體 100 壓縮氣體容器 22 10 開關 24 20 點火劑 26 30 充氣劑 28 50 收容槽 302 70 蓋子 304 S802〜S806 S8064〜S8066 步驟 S8062 浸水檢測裝置 控制裴置 步驟 步驟5 is a flow chart of a preferred embodiment of the preferred embodiment of the present invention for receiving a detection signal and controlling the inflation of the gas. 6 is a flow chart of a method for receiving a detection signal and controlling an inflating device to inflate an airbag according to another preferred embodiment of the present invention. [Main component symbol description] Portable electronic device airbag inflator housing 100 compressed gas Container 22 10 Switch 24 20 Ignitant 26 30 Inflator 28 50 Storage Tank 302 70 Cover 304 S802~S806 S8064~S8066 Step S8062 Immersion Detection Device Control Disposal Step Procedure