技术领域technical field
本申请涉及可穿戴设备领域,特别是用于检测人体心电数据的可穿戴设备。This application relates to the field of wearable devices, especially wearable devices for detecting human body electrocardiogram data.
背景技术Background technique
可穿戴设备以其较小的体积,但又具有完整的功能及合适的计算能力,并足够服务用户,其易用性给用户带来便利。在可穿戴设备的设计及使用上,需要更多考虑的是用户的使用体验,该体验设计需要针对用户容易理解操作并且操作自然的要求。可穿戴设备用于测量人体心电图需要使用到至少两个电极,在测量的过程中,两个电极不能电连接,且测量时人体的两个手臂也不能互相触碰,否则测量失败。由于心电测量需要一段时间形成心电图数据,在一定的时间段内如果发生检测失败,会给用户带来体验上的挫败感,从而影响用户使用体验。With its small size, wearable devices have complete functions and appropriate computing power, and are sufficient to serve users, and their ease of use brings convenience to users. In the design and use of wearable devices, more consideration needs to be given to the user experience. The experience design needs to be aimed at the requirements that users can easily understand and operate naturally. Wearable devices need to use at least two electrodes to measure the human body's electrocardiogram. During the measurement process, the two electrodes cannot be electrically connected, and the two arms of the human body cannot touch each other during the measurement, otherwise the measurement will fail. Since ECG measurement takes a period of time to form ECG data, if a detection failure occurs within a certain period of time, it will bring frustration to the user experience, thus affecting the user experience.
注意到现有技术中,中国专利公开文档CN109634447A记载的通过案件的方式作为其中一个电极的办法,容易导致用户在测量时,由于手指的上下移动触摸到两外一个电极连接的手腕部,从而导致测量的失败。It is noted that in the prior art, the way of passing the case described in the Chinese patent publication CN109634447A is used as one of the electrodes. It is easy to cause the user to touch the wrist connected to the two electrodes due to the up and down movement of the finger during measurement, resulting in Measurement failure.
另外一件中国专利公开文档CN106388809A中揭示的,采用环状上表壳的方式作为一个电极端供用户的手指进行接触,该设计方式容易导致用户在长时间测量时,手指倾斜抬起的问题导致接触不良,容易导致测试失败,同时也给用户带来体验上的挫败感。Another Chinese patent publication CN106388809A discloses that the ring-shaped upper case is used as an electrode terminal for the user's finger to contact. This design method is likely to cause the problem that the user's finger is tilted and lifted during long-term measurement. Poor contact can easily lead to test failure, and at the same time bring frustration to users.
发明内容Contents of the invention
基于此,有必要针对上述技术问题,提供一种可穿戴设备,具有高可靠度的心电持续测试功能,避免了传统的结构容易导致测试失效的问题。Based on this, it is necessary to address the above technical problems and provide a wearable device with a highly reliable ECG continuous test function, which avoids the problem that the traditional structure easily leads to test failure.
本发明一个实施例提供了一种可穿戴设备,其特征在于,包括主体,所述主体包括处理电路、第一电极、第二电极;所述第一电极和第二电极分别与处理电路电连接,第一电极与第二电极之间形成测量电压,通过处理电路形成人体心电信号;所述主体包括壳体结构构成内部容纳空间,所述容纳空间内设置处理电路;所述主体的外表面包括至少一个第一检测区域和第二检测区域,所述第一电极可接触地设置在第一检测区域上,所述第二电极可接触地设置在第二检测区域上,所述第一检测区域与第二检测区域电绝缘,所述第一检测区域与第二检测区域至少被一个壳体结构间隔。An embodiment of the present invention provides a wearable device, which is characterized in that it includes a main body, the main body includes a processing circuit, a first electrode, and a second electrode; the first electrode and the second electrode are respectively electrically connected to the processing circuit , a measurement voltage is formed between the first electrode and the second electrode, and a human body electrocardiogram signal is formed through a processing circuit; the main body includes a shell structure to form an internal accommodation space, and a processing circuit is arranged in the accommodation space; the outer surface of the main body It includes at least one first detection area and a second detection area, the first electrode is contactably arranged on the first detection area, the second electrode is contactably arranged on the second detection area, the first detection The region is electrically insulated from a second detection region separated by at least one housing structure.
进一步的,所述壳体结构包括显示面板、面圈、中框、底板,所述显示面板设置在壳体上部,所述面圈套设在显示面板周围一圈,中框设置在面圈下侧,底板设置在中框下侧,所述第一电极设置在底板上,所述第二电极设置在面圈上,所述第一电极和底板构成第一检测区域,所述第二电极和面圈构成第二检测区域,所述第一检测区域与第二检测区域通过中框间隔。Further, the housing structure includes a display panel, a dough ring, a middle frame, and a bottom plate, the display panel is arranged on the upper part of the housing, the dough ring is set around the display panel, and the middle frame is arranged on the lower side of the dough ring , the bottom plate is set on the lower side of the middle frame, the first electrode is set on the bottom plate, the second electrode is set on the dough ring, the first electrode and the bottom plate form a first detection area, the second electrode and the surface The circle constitutes a second detection area, and the first detection area is separated from the second detection area by a middle frame.
进一步的,所述显示面板与底板平行,所述面圈具有倾斜外表面。Further, the display panel is parallel to the bottom plate, and the bezel has an inclined outer surface.
进一步的,所述显示面板与底板平行,所述面圈具有弧形外表面。Further, the display panel is parallel to the bottom plate, and the bezel has an arc-shaped outer surface.
进一步的,所述面圈包括用于接受信号的面圈天线以及用于检测的面圈检测部,所述面圈天线与面圈检测部电绝缘。Further, the doughnut includes a doughnut antenna for receiving signals and a doughnut detection part for detection, and the doughnut antenna is electrically insulated from the doughnut detection part.
进一步的,所述面圈包括设置的第一天线部分和第二天线部分,以及设置的第一检测部分和第二检测部分,天线部分和检测部分分别两两交错设置,所述每个天线部分和检测部分都分别电绝缘。Further, the donut includes a first antenna part and a second antenna part, and a first detection part and a second detection part, and the antenna part and the detection part are arranged alternately in pairs, and each antenna part and the detection part are respectively electrically insulated.
进一步的,所述面圈天线经过第一触点与处理电路电信号连接用于输入通讯信号,所述面圈检测部通过第二触点与处理电路电信号连接用于输入检测信号。Further, the dough loop antenna is electrically connected to the processing circuit through the first contact for inputting communication signals, and the dough loop detection unit is electrically connected to the processing circuit through the second contact for inputting detection signals.
进一步的,所述第一触点和第二触点为弹针。Further, the first contact and the second contact are spring pins.
进一步的,还包括表耳,所述表耳用于连接表带,所述表耳上设置有表耳检测区域,所述第二电极与检测区域电联通。Further, it also includes lugs, the lugs are used to connect the strap, the lugs are provided with lug detection areas, and the second electrodes are in electrical communication with the detection areas.
进一步的,所述表耳检测区域为按键结构,形成表耳检测按键,所述表耳检测按键通过弹性片与主板连接构成第二电极。Further, the lug detection area is a button structure, forming a lug detection button, and the lug detection button is connected to the main board through an elastic sheet to form a second electrode.
进一步的,所述第二电极可以输入控制信号,对可穿戴设备相应程序进行控制,修改或输入数据。Further, the second electrode can input a control signal to control a corresponding program of the wearable device, modify or input data.
本发明还提供了一种用于可穿戴设备的使用方法,采用如上所述的可穿戴设备,通过第二电极用于通过人类的手指输入检测信号,所述第一电极用于通过人类的手臂输入检测信号,并且在检测时人类的检测手指和人类的检测手臂不接触。The present invention also provides a method for using a wearable device. Using the wearable device as described above, the second electrode is used to input a detection signal through a human finger, and the first electrode is used to pass a human arm The detection signal is input, and the human detection finger and the human detection arm are not in contact at the time of detection.
本发明的实施例提供了一种具有较大接触面积的并且明确测量位置的技术方案,通过在第一电极和第二电极之间设置隔离结构,可以有效地防止测量时手指移动、倾斜等导致手指和手臂接触,或者第一电极和第二电极导通,导致测量失败的问题,并且也同时解决了因为这些测量问题导致用户体验下降的问题。The embodiment of the present invention provides a technical solution with a large contact area and a clear measurement position. By setting an isolation structure between the first electrode and the second electrode, it can effectively prevent the finger from moving, tilting, etc. during measurement. The contact between the finger and the arm, or the conduction between the first electrode and the second electrode leads to the measurement failure problem, and also solves the problem that the user experience is degraded due to these measurement problems.
附图说明Description of drawings
图1为一个实施例中可穿戴设备的整体示意图;Figure 1 is an overall schematic diagram of a wearable device in an embodiment;
图2为一个实施例中可穿戴设备的爆炸图;Figure 2 is an exploded view of a wearable device in one embodiment;
图3为另一个实施例中可穿戴设备的整体示意图;FIG. 3 is an overall schematic diagram of a wearable device in another embodiment;
图4为另一个实施例中可穿戴设备的爆炸图;Figure 4 is an exploded view of a wearable device in another embodiment;
图5为另一个实施例中可穿戴设备的剖视示意图;Fig. 5 is a schematic cross-sectional view of a wearable device in another embodiment;
图6为又一个实施例中可穿戴设备的示意图。Fig. 6 is a schematic diagram of a wearable device in yet another embodiment.
具体实施方式Detailed ways
为了使本申请的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本申请进行进一步详细说明。应当理解,此处描述的具体实施例仅仅用以解释本申请,并不用于限定本申请。In order to make the purpose, technical solution and advantages of the present application clearer, the present application will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present application, and are not intended to limit the present application.
如图1-6所示,本发明提供了多个实施例的可穿戴设备,用于测量人体心电信号。As shown in Figures 1-6, the present invention provides wearable devices in multiple embodiments, which are used to measure human ECG signals.
如图1-2所示,所述可穿戴设备包括主体100,所述主体100包括处理电路13、第一电极18、第二电极;所述第一电极18和第二电极分别与处理电路13电连接,第一电极18与第二电极之间形成测量电压,通过处理电路形成人体心电信号;所述主体100包括壳体结构(显示面板11、面圈12、中框14、底板17)构成内部容纳空间19,所述容纳空间19内设置处理电路13;所述主体的外表面包括至少一个第一检测区域181和第二检测区域121,所述第一电极18可接触地设置在第一检测区域181上,所述第二电极可接触地设置在第二检测区域121上,所述第一检测区域181与第二检测区域121电绝缘,所述第一检测区域与第二检测区域至少被一个壳体结构间隔。As shown in Figures 1-2, the wearable device includes a main body 100, and the main body 100 includes a processing circuit 13, a first electrode 18, and a second electrode; the first electrode 18 and the second electrode are respectively connected to the processing circuit 13 Electrical connection, the measurement voltage is formed between the first electrode 18 and the second electrode, and the human body's electrocardiogram signal is formed through the processing circuit; the main body 100 includes a housing structure (display panel 11, bezel 12, middle frame 14, bottom plate 17) An inner accommodation space 19 is formed, and a processing circuit 13 is arranged in the accommodation space 19; the outer surface of the main body includes at least one first detection area 181 and a second detection area 121, and the first electrode 18 is arranged in a contactable manner. On a detection area 181, the second electrode is contactably arranged on the second detection area 121, the first detection area 181 is electrically insulated from the second detection area 121, and the first detection area and the second detection area separated by at least one shell structure.
进一步的,所述壳体结构包括显示面板11、面圈12、中框14、底板17,所述显示面板11设置在壳体上部,所述面圈套设在显示面板周围一圈,中框14设置在面圈下侧,底板17设置在中框14下侧,所述第一电极18设置在底板上,所述第二电极设置在面圈12上,所述第一电极18和底板17构成第一检测区域181,所述第二电极和面圈构成第二检测区域121,所述第一检测区域181与中框电绝缘、第二检测区域与中框14电绝缘。Further, the housing structure includes a display panel 11, a dough ring 12, a middle frame 14, and a bottom plate 17. The display panel 11 is arranged on the upper part of the housing, and the dough ring is set around the display panel. The middle frame 14 It is arranged on the lower side of the dough ring, the bottom plate 17 is arranged on the lower side of the middle frame 14, the first electrode 18 is arranged on the bottom plate, the second electrode is arranged on the dough ring 12, and the first electrode 18 and the bottom plate 17 constitute The first detection area 181 , the second electrode and the donut form the second detection area 121 , the first detection area 181 is electrically insulated from the middle frame, and the second detection area is electrically insulated from the middle frame 14 .
进一步的,所述显示面板11与底板17平行,所述面圈12具有倾斜外表面,详细的,所述面圈12与显示面板11成内锐角倾斜,便于用户将手指搭在面圈上进行测量,符合人体工程学。Further, the display panel 11 is parallel to the bottom plate 17, and the dough ring 12 has an inclined outer surface. In detail, the dough ring 12 and the display panel 11 are inclined at an inner acute angle, which is convenient for the user to place fingers on the dough ring. Measured, ergonomic.
进一步的,所述显示面板11与底板17平行,所述面圈12具有弧形外表面,弧形表面设置可以提高人的手指在测量时候的接触感,避免影响检测时的接触稳定性。Further, the display panel 11 is parallel to the bottom plate 17, and the dough ring 12 has an arc-shaped outer surface, which can improve the contact feeling of human fingers during measurement and avoid affecting the contact stability during detection.
如图3-4所示,在这一个实施例里,所述面圈12包括用于接收信号的面圈天线122以及用于检测的面圈检测部123,所述面圈天线122与面圈检测部123电绝缘。所述面圈天线122与面圈检测部123构成完整的圆环,且面圈天线122与面圈检测部123之间设置有绝缘片124。As shown in Figures 3-4, in this embodiment, the doughnut 12 includes a doughnut antenna 122 for receiving signals and a doughnut detection part 123 for detection, and the doughnut antenna 122 is connected with the doughnut The detection unit 123 is electrically insulated. The dough loop antenna 122 and the dough loop detection unit 123 form a complete ring, and an insulating sheet 124 is disposed between the dough loop antenna 122 and the dough loop detection unit 123 .
进一步的,所述面圈包括设置的第一天线部分和第二天线部分,以及设置的第一检测部分和第二检测部分,两组天线部分和检测部分分别两两交错设置,每个天线部分和检测部分都分别电绝缘。Further, the donut includes a first antenna part and a second antenna part, as well as a first detection part and a second detection part, and the two groups of antenna parts and detection parts are arranged alternately in pairs, and each antenna part and the detection part are respectively electrically insulated.
进一步的,所述面圈天线经过第一触点131与处理电路13电信号连接用于输入通讯信号;所述面圈检测部123通过第二触点132与处理电路13电信号连接,用于输入检测信号。Further, the donut antenna is electrically connected to the processing circuit 13 through the first contact 131 for inputting communication signals; the dough loop detection part 123 is electrically connected to the processing circuit 13 through the second contact 132 for Input detection signal.
进一步的,所述第一触点131为设置在处理电路13上的第一弹性顶针1311,所述第一弹性顶针1311与面圈天线122下表面弹性顶触,并且电连接。所述第二触点132为设置在处理电路13上的弹性顶针1321,所述第二弹性顶针1321与面圈检测部123下表面弹性顶触,并且电连接。Further, the first contact 131 is a first elastic thimble 1311 provided on the processing circuit 13 , and the first elastic thimble 1311 is in elastic contact with the lower surface of the doughnut antenna 122 and is electrically connected. The second contact 132 is an elastic thimble 1321 provided on the processing circuit 13 , and the second elastic thimble 1321 is in elastic contact with the lower surface of the donut detection part 123 and is electrically connected.
如图6所示,本发明又一种实施例中,还包括表耳200,所述表耳200用于连接表带,所述表耳200上设置有表耳检测区域210,所述第二电极与表耳检测区域210电联通。所述表耳检测区域210与第一检测区域181之间被中框隔断,减少测量时短路导致的测量中断的问题。同时,人类在通过表耳测量区域进行测量时,手指和手臂之间也不宜接触导通。As shown in FIG. 6 , in yet another embodiment of the present invention, a lug 200 is also included, and the lug 200 is used to connect a watch strap. The lug 200 is provided with a lug detection area 210 , and the second The electrodes are in electrical communication with the lug detection area 210 . The lug detection area 210 is separated from the first detection area 181 by the middle frame, which reduces the problem of measurement interruption caused by short circuit during measurement. At the same time, when human beings measure through the lug measurement area, it is not suitable for contact and conduction between fingers and arms.
进一步的,所述表耳检测区域为按键结构,形成表耳检测按键,所述表耳检测按键通过弹性片与主板连接构成第二电极。Further, the lug detection area is a button structure, forming a lug detection button, and the lug detection button is connected to the main board through an elastic sheet to form a second electrode.
进一步的,所述第二电极可以输入控制信号,对可穿戴设备相应程序进行控制,修改或输入数据。Further, the second electrode can input a control signal to control a corresponding program of the wearable device, modify or input data.
本发明还提供了一个实施例,该实施例实现了一种可穿戴设备的使用方法,采用以上所述的可穿戴设备,由人类的手指通过第一电极输入检测信号,并由人类的手臂通过第二电极输入检测信号,并且在检测时人类的检测手指和人类的检测手臂不接触。通过本发明的可穿戴设备,如采用多个壳体部件将第一电极和第二电极与相应人体的接触输入部位相互隔离,有效地提高了检测的成功率和准确率。The present invention also provides an embodiment, which implements a method for using a wearable device. Using the above-mentioned wearable device, a detection signal is input by a human finger through the first electrode, and the detection signal is input by the human arm through the first electrode. The second electrode inputs a detection signal, and the detection finger of the human and the detection arm of the human are not in contact at the time of detection. With the wearable device of the present invention, for example, a plurality of shell parts are used to isolate the first electrode and the second electrode from the contact input parts of the corresponding human body, which effectively improves the success rate and accuracy of detection.
以上实施例仅表达了本申请的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本申请构思的前提下,还可以做出若干变形和改进,这些都属于本申请的保护范围。因此,本申请专利的保护范围应以所附权利要求为准。The above examples only express several implementation modes of the present application, and the description thereof is relatively specific and detailed, but should not be construed as limiting the scope of the patent for the invention. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the present application, and these all belong to the protection scope of the present application. Therefore, the scope of protection of the patent application should be based on the appended claims.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010705995.7ACN111657929B (en) | 2020-07-21 | 2020-07-21 | Wearable device and method of use |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010705995.7ACN111657929B (en) | 2020-07-21 | 2020-07-21 | Wearable device and method of use |
| Publication Number | Publication Date |
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| CN111657929A CN111657929A (en) | 2020-09-15 |
| CN111657929Btrue CN111657929B (en) | 2023-08-25 |
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202010705995.7AActiveCN111657929B (en) | 2020-07-21 | 2020-07-21 | Wearable device and method of use |
| Country | Link |
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| CN (1) | CN111657929B (en) |
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