TW200938977A - Portable electronic device and submergence protecting method therefor - Google Patents

Abstract

A portable electronic device includes an airbag, a gas-filling apparatus, an enclosure, a submergence detecting apparatus and a control apparatus. The gas-filling apparatus is used for filling air to the airbag. The enclosure defines a receiving slot. The airbag is received in the received slot with being folded, and can spread to protrude out of the slot when the air is filled in. The submergence detecting apparatus is used for detecting whether the portable electronic device is submerged and generating a detecting signal when the portable electronic device is submerged. The control apparatus is used for controlling the gas-filling apparatus to fill air to the airbag according to the detecting signal. A submergence protecting method for the portable electronic device is also provided.

Description

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.

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.

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

Claims (1)

200938977 X. Patent Application 丄. A portable electronic device comprising an air bag, an inflator, a housing, a water immersion detecting device and a control device, the inflating device being connected to the air bag, for inflating the air bag The airbag is deployed; the housing is provided with a receiving slot, and the airbag is received in the receiving slot when the airbag is in a folded state, and can be deployed out of the receiving slot during inflation; the water detecting device is configured to detect whether the portable electronic device is flooded And when the portable electronic device is immersed in water, the _ minus '(4) position is detected by the pure data. (4) The inflation device is used to inflate the air bag. 2. The portable electronic device of claim i, wherein the water immersion detecting device is a water immersion sensor. 3. The portable electronic device according to item (i), wherein the inflator comprises a compressed gas container and a switch, when the control device receives the detection signal, the control device opens the switch to make the compressed gas The compressed gas in the container diffuses to inflate the balloon. The portable electronic device of claim 4, wherein the inflator comprises an ignition agent and an aeration agent, and the control device detonates the ignition agent to generate heat when the control device receives the detection signal. The heat generated after the ignition of the igniter decomposes the aeration agent and generates a gas to inflate the balloon. 5. The floor-standing electronic device of claim i, wherein the housing is further provided with a cover that closes the receiving slot, and the air bag can be opened out of the receiving slot during the inflation process. 6·- Portable electronic device falling water protection method, comprising the following steps: 11 200938977 = measuring whether the portable electronic device is immersed in water; when the right portable electronic device is immersed in water, sending a detection signal; receiving the detection signal and controlling the inflating device Inflate the balloon. The portable electronic device falling water protection method according to the sixth aspect of the invention, wherein the portable electronic device falling water protection method further comprises the following steps: the right portable electronic device is not immersed in water, and then returns to the detection The step of whether the portable electronic device is immersed in water. 8. The portable electronic device falling water protection device according to item 6, wherein the step of receiving the detection signal and controlling the inflator to inflate the airbag is to receive the inspection number and open the switch of the inflator. The step of inflating the balloon by the diffusion of compressed gas in the compressed gas container. 9. The portable electronic device falling water protection method of claim 6, wherein the step of receiving the detection signal and controlling the inflation device to inflate the air bag comprises the steps of: receiving the detection signal and detonating the igniter; The agent decomposes to generate a gas to inflate the balloon. 12