TWM500283U - Mobile device carrier having physiological signal monitoring function - Google Patents

Description

Mobile device carrier with physiological signal monitoring function

The present invention relates to a mobile device carrier, and more particularly to a mobile device carrier having a physiological signal monitoring function.

In 1992, Apple Computer produced the world's first Personal Digital Assistant (PDA), which revolutionized mobile computing devices. With the evolution of the times, many electronic devices with wearable features gradually became popular. It is able to let the user vacate the limbs without having to take it through the hands and feet, and perform specific tasks such as exercise state, medical physiological state, and travel positioning in a simple structure and operation mode. Please refer to FIG. 6 , which is a wearable electronic device commonly used in the prior art disclosed in the new patent No. M 487 052 of the present invention, which uses an strip 41 to fix an electronic device 40 to a human arm, and thereby The two-light sensor 42 connected to the electronic device 40 is close to the surface skin of the human arm and measures physiological information such as pulse, blood oxygen content, heart rhythm variation ratio, and the like, and is transmitted to a processor module in the electronic device 40 ( The calculus is not shown in the figure and is displayed on the surface of the electronic device 40, so that the user can immediately know the physiological information to evaluate the current physical health state.

However, the wearable electronic device of the prior art described above can only display the physiological information at the time of measurement, and does not have the function of storing and counting most physiological information, and cannot perform long-term continuous tracking on the physiological health state of the human body. Statistical observation, and the wearable electronic device of the prior art described above cannot easily transmit most physiological information directly to the cloud server or synchronize between most compatible digital electronic devices, if any physiological information is abnormal. In this case, the wearable electronic device can only display information on its own, without immediate notification or seeking other assistance pipelines and other suggestions, and therefore it is necessary to further improve the structure of the wearable electronic device.

In view of this, the main purpose of the present invention is to provide a mobile device carrier with physiological signal monitoring function, which can collect and transmit most physiological information of a user to a mobile device, and use the mobile device to transmit most physiological information. Conduct statistics and notifications to achieve the purpose of facilitating the management of physiological information and providing assistance and assistance.

In order to achieve the above-mentioned creative purpose, the main technical means adopted by the present invention is that the mobile device having the physiological monitoring function includes: a carrier body, the carrier body is formed with a mobile device receiving portion, and the carrier The body is formed with a sensing window; one or more fixing members are connected to the carrier body; a physiological sensor is disposed in the sensing window, and at least a portion of the physiological sensor is exposed to the sensing Outside the window, and the physiological sensor has a mobile device communication interface.

When the present invention is used, a mobile device is fixed in the mobile device housing portion of the carrier body, and the carrier body is fixed to a specific part of the user's body by the fixing member. The physiological sensor contacts the skin of the user through the sensing window, and then the physiological sensor starts to sense and obtain most physiological information of the user, and transmits the mobile device to the mobile device through the mobile device communication interface. The novel device enables the mobile device to freely move the limbs during use to facilitate the user's activities, and the majority of the physiological sensors are generated through the connection of the mobile device to the physiological sensor. Physiological information is collected on the mobile device to coordinate with most of the physiological information for further storage, tracking statistics, transmission to the cloud server, or synchronization between most compatible electronic devices, in conjunction with the application installed on the mobile device. When the device finds that any physiological information generated by the physiological sensor is abnormal, the mobile device can promptly notify, notify the relevant personnel, and have the proposed Proposed treatment, or seek other assistance pipes and other functions, so this model can achieve the purpose to facilitate the management of physiological information and provide emergency relief initiative of.

In the following, in conjunction with the drawings and a preferred embodiment of the present invention, the technical means adopted by the present creation for achieving the purpose of creation are further explained.

Referring to FIG. 1 and FIG. 2 , a first preferred embodiment of the present invention includes a carrier body 10 , one or more fixing members 20 , and a physiological sensor 30 . The carrier body 10 is made of a soft and elastic material. In the embodiment, the carrier body 10 is made of rubber or a rubber-containing mixed material, and the appearance of the carrier body 10 is In a rectangular shape, that is, a top surface, a bottom surface, and four opposite sides, in the embodiment, the top surface of the carrier body 10 has a slot, and the top surface of the carrier body 10 A mobile device housing portion 11 is formed between the bottom surface and the bottom surface. The mobile device housing portion 11 is for accommodating a mobile device with a compatible size, such as an iPhone of the iPhone series. In use, the mobile device is transmitted through the mobile device. The slot of the top surface is placed in the mobile device housing portion 11. A sensing window 12 is formed on the bottom of the carrier body 10, and the sensing window 12 is configured to receive the physiological sensor 30, and the physiological sensor 30 is disposed at a fixed position on the carrier body 10. And through the sensing window 12 to make contact with the skin of the user.

In this embodiment, the two fixing members 20 are respectively connected to the opposite sides of the carrier body 10, and each of the fixing members 20 is made of a soft and elastic material, in this embodiment. The two fixing members 20 are the same material as the carrier body 10, and are integrally extended outwardly from opposite sides of the carrier body 10 to form a strip-like strip body having opposite surfaces and capable of being bent and twisted at any time. Each of the fixing members 20 is provided with two auxiliary connecting members away from one end of the carrier body 10. In the embodiment, each auxiliary connecting member is a devil felt 21, and two devil felts 21 are respectively disposed on each fixing member 20. When the two fixing members 20 are entangled or joined to each other, the frictional force and the joint strength between the two fixing members 20 are lifted, so that the carrier body 10 can borrow the two fixing members 20 It is firmly placed on a specific part of the user.

The physiological sensor 30 is disposed in the vehicle body 10, and a portion of the physiological sensor 30 is exposed outside the sensing window 12 for contacting the skin of the user through the sensing window 12; In addition, the physiological sensor 30 has a mobile device communication interface. In this embodiment, the mobile device communication interface is a wireless communication interface, and includes an antenna 31 for wireless transmission, which is compatible with Wi-Fi. In any of the communication protocols such as NFC and Bluetooth, the physiological sensor 30 forms a wireless data transmission connection with the mobile device in the mobile device housing unit 11 via the wireless communication interface and the antenna 31 for wireless data transmission.

Referring to FIG. 3, a second preferred embodiment of the present invention is substantially the same as the first preferred embodiment of the present invention, except that the mobile device communication interface of the physiological sensor 30 is The wired transmission mode is mainly used. In this embodiment, the mobile device communication interface is a signal connection line 32, and the physiological sensor 30 is received through the signal connection line 32 and the mobile device of the carrier body 10. The mobile device in the unit 11 constitutes a wired data transmission link for wired data transmission. In the embodiment, the signal connection cable 32 is inserted into a headphone connection hole (not shown in the figure) of the mobile device.

Referring to FIG. 4, a first use state of the first preferred embodiment of the present invention is provided in conjunction with a user. The carrier body 10 is disposed on the upper limb of the user's arm through two fixing members 20. The physiological sensor 30 on the bottom side of the carrier body 10 can contact the skin of the upper limb of the user's arm, and then the physiological sensor 30 starts to sense and obtain most physiological information of the user. In an embodiment, most of the physiological information may include: pulse, blood oxygen content, heart rhythm variation, etc., and the physiological information sensor 30 transmits the majority of physiological information to the vehicle body 10 through its mobile device communication interface. Device. Therefore, the present invention facilitates the user's activities by allowing the mobile device to vacate the limbs during operation and operation by the carrier body 10 and the two fixing members 20, and through the mobile device and the physiological sensing. The connection of the device 30 is used to collect most of the physiological information generated by the physiological sensor 30 in the mobile device in a non-invasive manner, so as to further store most of the physiological information in cooperation with the application installed on the mobile device. Tracking statistics, transmitting to the cloud server, or synchronizing between compatible electronic devices, when the mobile device finds that any physiological information generated by the physiological sensor 30 is abnormal, the mobile device can promptly notify and notify Relevant personnel, and have the function of suggesting treatment or seeking other assistance pipelines, so the new model can achieve the purpose of convenient management of physiological information and providing active emergency assistance.

Please refer to FIG. 5 , which is a schematic view of a second use state of the first preferred embodiment of the present invention, which is substantially the same as the first view of the first use state, but is transmitted through two fixing members 20 . The carrier body 10 is disposed outside the thigh of the user, and the physiological sensor 30 located on the bottom side of the carrier body 10 can contact the skin outside the thigh of the user, and then starts from the physiological sensor 30. Sensing to obtain most physiological information of the user.

The above description is only a preferred embodiment of the present invention, and does not impose any form limitation on the present invention. Although the present invention has been disclosed above in the preferred embodiment, it is not intended to limit the present creation, and has any technical field. A person skilled in the art can make some modifications or modifications to equivalent embodiments by using the above-disclosed technical contents without departing from the technical scope of the present invention. The technical essence of the present invention, any simple modifications, equivalent changes and modifications made to the above embodiments are still within the scope of the present technical solution.

10‧‧‧ Vehicle body
11‧‧‧Mobile device housing
12‧‧‧Sensing window
20‧‧‧Fixed parts
21‧‧‧ Devil Felt
30‧‧‧ Physiological sensor
31‧‧‧Antenna
32‧‧‧Signal cable
40‧‧‧Electronic devices
41‧‧‧Strip
42‧‧‧Light sensor

Figure 1 is a top plan view of a first preferred embodiment of the present invention. Figure 2 is a perspective view of the bottom surface of the first preferred embodiment of the present invention. Figure 3 is a perspective view of the bottom surface of the second preferred embodiment of the present invention. Figure 4: Schematic diagram of the first use state set by the user in cooperation with the user. Fig. 5 is a schematic view showing the second use state set by the user in cooperation with the user. Figure 6 is an appearance view of a conventional wearable electronic device of the prior art.

10‧‧‧ Vehicle body

11‧‧‧Mobile device housing

20‧‧‧Fixed parts

21‧‧‧ Devil Felt

30‧‧‧ Physiological sensor

Claims (9)

A mobile device having a physiological signal monitoring function includes a carrier body, the carrier body is formed with a mobile device receiving portion, and the carrier body is formed with a sensing window; and more than one fixing member is attached to the carrier The body sensor is disposed in the sensing window, at least a portion of the physiological sensor is exposed outside the sensing window, and the physiological sensor has a mobile device communication interface. The mobile device carrier having the physiological signal monitoring function according to claim 1, wherein the mobile device communication interface is a wireless communication interface. The mobile device carrier having the physiological signal monitoring function according to claim 2, wherein the wireless communication interface is compatible with any one of Wi-Fi, NFC or Bluetooth communication protocols. The mobile device carrier having the physiological signal monitoring function according to claim 1, wherein the mobile device communication interface is a signal connection line. The mobile device carrier having the physiological signal monitoring function according to any one of claims 1 to 4, wherein each of the fixing members is provided with at least one auxiliary connecting member away from one end of the carrier body. The mobile device carrier having the physiological signal monitoring function according to claim 5, wherein the carrier system is a cake having a plurality of opposite sides, and each fixing member is respectively connected to the carrier body. On one side of it. The mobile device carrier having the physiological signal monitoring function according to claim 6, wherein the carrier body has a top surface, the top mask has a slot, and the top surface and the bottom surface of the carrier body are formed Mobile device housing. The mobile device carrier having the physiological signal monitoring function according to claim 7, wherein each of the fixing members is a strip-shaped strip. The mobile device carrier having the physiological signal monitoring function according to claim 8, wherein the physiological information obtained by the physiological sensor includes information such as pulse, blood oxygen content, and heart rhythm variation.