TW201818366A - Wireless monitor apparatus for measuring information of a body of a user and manufacturing method thereof, and apparatus for displaying information of a body of a user and related method thereof - Google Patents

Wireless monitor apparatus for measuring information of a body of a user and manufacturing method thereof, and apparatus for displaying information of a body of a user and related method thereof Download PDF

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TW201818366A
TW201818366A TW106139151A TW106139151A TW201818366A TW 201818366 A TW201818366 A TW 201818366A TW 106139151 A TW106139151 A TW 106139151A TW 106139151 A TW106139151 A TW 106139151A TW 201818366 A TW201818366 A TW 201818366A
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component
information
user
monitoring device
sensor
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TWI645385B (en
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毅 陳
孫暉功
陳金陵
陳佩君
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台欣生物科技研發股份有限公司
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/01Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • A61B5/024Detecting, measuring or recording pulse rate or heart rate

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  • Life Sciences & Earth Sciences (AREA)
  • Medical Informatics (AREA)
  • Biophysics (AREA)
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  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Physics & Mathematics (AREA)
  • Molecular Biology (AREA)
  • Surgery (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
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  • Measuring And Recording Apparatus For Diagnosis (AREA)
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Abstract

A wireless monitor apparatus for measuring information of a body of a user includes a first component, a second component, and a shell. The first component is used for measuring the information. The second component is coupled to the first component, wherein the second component is used for receiving the information, generating a sensing signal according to the information, and transmitting the sensing signal to a host. The shell is used for covering a portion of the first component and a portion of the second component, wherein a size of a portion of the shell corresponding to the second component is greater than a size of a portion of the shell corresponding to the first component, and the shell is a tadpole shape.

Description

量測使用者身體的信息的無線監控裝置和其製造方法,以及顯示使用者身體的信息的裝置和其相關方法Wireless monitoring device for measuring information of a user's body and method of manufacturing the same, and device for displaying information of a user's body and related methods

本發明是有關於一種量測使用者身體的信息的無線監控裝置和其製造方法,以及顯示該使用者身體的信息的裝置和其相關方法,尤指一種具有蝌蚪形狀且無段差的外殼的無線監控裝置和其製造方法,以及可使該使用者輕易地知道有關該使用者的體溫信息和有關該使用者的體溫信息的校正溫度值之間的關係的裝置和其相關方法。The present invention relates to a wireless monitoring device for measuring information of a user's body, a method of manufacturing the same, and a device for displaying information of the user's body and related methods, and more particularly to a wireless device having a dome-shaped and stepless housing. The monitoring device and the method of manufacturing the same, and a device and related method that enable the user to easily know the relationship between the body temperature information of the user and the corrected temperature value of the user's body temperature information.

現有技術有提供一錶帶式產品或夾在該使用者腋下的一單片裝置用以量測使用者身體的信息。當該使用者使用該錶帶式產品時,該使用者利用該錶帶式產品的束帶使該錶帶式產品通過該使用者的手臂固定該錶帶式產品的感測元件於該使用者腋下以量測該使用者身體的信息。然而因為該感測元件必需要完整貼附在該使用者皮膚的表面才能感測正確的體溫,所以該束帶必須緊緊地纏在該使用者的手臂上,導致該使用者的手臂感到不適。另外,該單片裝置由於其外形是一整片,所以該使用者腋下會因該單片裝置的厚度、寬度及其外形而不適。因此,對該使用者而言,現有技術所提供的該錶帶式產品和該單片裝置都不是一個好的選擇。The prior art provides a strap-on product or a single piece of device that is clipped under the user's arm to measure information about the user's body. When the user uses the strap-type product, the user uses the strap of the strap-type product to cause the strap-type product to fix the sensing component of the strap-type product to the user through the arm of the user. The armpit is used to measure the information of the user's body. However, since the sensing element must be completely attached to the surface of the user's skin to sense the correct body temperature, the band must be tightly wrapped around the user's arm, causing the user's arm to feel uncomfortable. . In addition, since the monolithic device has a uniform shape, the user's armpit is uncomfortable due to the thickness, width and shape of the monolithic device. Therefore, the watchband product and the monolithic device provided by the prior art are not a good choice for the user.

本發明的一實施例提供一種量測使用者身體的信息的無線監控裝置。該無線監控裝置包含一第一部件、一第二部件和一外殼。該第一部件是用以量測該信息。該第二部件耦接該第一部件,其中該第二部件是用以接收該信息,根據該信息產生一感測信號,以及傳送該感測信號至一主機。該外殼是用以包覆該第一部件的部分和該第二部件的部分,其中該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。An embodiment of the invention provides a wireless monitoring device that measures information about a user's body. The wireless monitoring device includes a first component, a second component, and a housing. The first component is for measuring the information. The second component is coupled to the first component, wherein the second component is configured to receive the information, generate a sensing signal according to the information, and transmit the sensing signal to a host. The outer casing is a portion for covering the first component and a portion of the second component, wherein a size of a portion of the outer casing corresponding to the second component is larger than a size of a portion of the outer casing corresponding to the first component, and the outer casing The outer casing has a shape.

本發明的另一實施例提供一種量測使用者身體的信息的無線監控裝置的製造方法,其中該無線監控裝置包含一第一部件和一第二部件,該第一部件包含一感測器和一金屬線,該感測器包含一金屬帽、一感測模組和一傳輸線,以及該第二部件包含一感測信號處理器、一無線通信單元、一電源供應單元和一塑膠腔。該製造方法包含結合該感測模組、該金屬帽和該傳輸線;固定該金屬線和該傳輸線於該塑膠腔;利用一第一上模具定位夾住該感測器和該塑膠腔,且利用一下模具熱壓一可撓性材料形成該無線監控裝置的外殼的下半部;在該外殼的下半部完成後,移除該第一上模具,利用一第二上模具熱壓該可撓性材料形成該無線監控裝置的外殼的上半部。該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。Another embodiment of the present invention provides a method of fabricating a wireless monitoring device for measuring information of a user's body, wherein the wireless monitoring device includes a first component and a second component, the first component including a sensor and A metal wire, the sensor comprises a metal cap, a sensing module and a transmission line, and the second component comprises a sensing signal processor, a wireless communication unit, a power supply unit and a plastic cavity. The manufacturing method includes combining the sensing module, the metal cap and the transmission line; fixing the metal wire and the transmission line to the plastic cavity; positioning and clamping the sensor and the plastic cavity by using a first upper mold, and utilizing The mold heats a flexible material to form a lower portion of the outer casing of the wireless monitoring device; after the lower half of the outer casing is completed, the first upper mold is removed, and the second upper mold is used to heat the flexible portion The material forms the upper half of the outer casing of the wireless monitoring device. The portion of the outer casing corresponding to the second member is larger than the portion of the outer portion corresponding to the first member, and the outer casing has a meandering shape.

本發明的另一實施例提供一種量測使用者身體的信息的無線監控裝置的製造方法,其中該無線監控裝置包含一第一部件和一第二部件,該第一部件包含一感測器和一金屬線,該感測器包含一金屬帽、一感測模組和一傳輸線,以及該第二部件包含一感測信號處理器、一無線通信單元、一電源供應單元和一塑膠腔。該製造方法包含結合該感測模組、該金屬帽和該傳輸線;固定該金屬線和該傳輸線於該塑膠腔;在一第一模具中,利用一可撓性材料第一次包覆該第一部件;在一第二模具中,利用該可撓性材料包覆該第二部件以及第二次包覆該第一部件,其中該第二模具腔室空間大於該第一模具腔室空間;其中該可撓性材料形成該無線監控裝置的外殼,該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。Another embodiment of the present invention provides a method of fabricating a wireless monitoring device for measuring information of a user's body, wherein the wireless monitoring device includes a first component and a second component, the first component including a sensor and A metal wire, the sensor comprises a metal cap, a sensing module and a transmission line, and the second component comprises a sensing signal processor, a wireless communication unit, a power supply unit and a plastic cavity. The manufacturing method includes combining the sensing module, the metal cap and the transmission line; fixing the metal wire and the transmission line to the plastic cavity; and in a first mold, coating the first time with a flexible material a component; in a second mold, coating the second component with the flexible material and coating the first component a second time, wherein the second mold cavity space is larger than the first mold cavity space; Wherein the flexible material forms a casing of the wireless monitoring device, the portion of the casing corresponding to the second component is larger than the portion of the casing corresponding to the first component, and the casing has a shape.

本發明的另一實施例提供一種量測使用者身體的信息的無線監控裝置的製造方法,其中該無線監控裝置包含一第一部件和一第二部件,該第一部件包含一感測器和一金屬線,該感測器包含一金屬帽、一感測模組和一傳輸線,以及該第二部件包含一感測信號處理器、一無線通信單元、一電源供應單元和一塑膠腔。該製造方法包含結合該感測模組、該金屬帽和該傳輸線;固定該金屬線和該傳輸線於該塑膠腔;在一模具中,利用一可撓性材料第一次包覆該第一部件;在該模具中,利用該可撓性材料包覆該第二部件以及第二次包覆該第一部件;其中該可撓性材料形成該無線監控裝置的外殼,該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。Another embodiment of the present invention provides a method of fabricating a wireless monitoring device for measuring information of a user's body, wherein the wireless monitoring device includes a first component and a second component, the first component including a sensor and A metal wire, the sensor comprises a metal cap, a sensing module and a transmission line, and the second component comprises a sensing signal processor, a wireless communication unit, a power supply unit and a plastic cavity. The manufacturing method includes combining the sensing module, the metal cap and the transmission line; fixing the metal wire and the transmission line to the plastic cavity; and first covering the first component with a flexible material in a mold In the mold, the second member is coated with the flexible material and the first member is coated a second time; wherein the flexible material forms a housing of the wireless monitoring device, the housing corresponding to the second member The size of the portion is greater than the size of the portion of the outer casing that corresponds to the first component, and the outer casing has a meandering shape.

本發明的另一實施例提供一種顯示使用者身體的信息的裝置。該裝置包含一處理器和一顯示器。該處理器是用以接收一第一裝置所量測的該使用者身體的即時信息,接收一第二裝置在複數個預定時間點中的每一預定時間點所量測的該使用者身體對應該每一預定時間點的預定信息,以及根據一校正方程式,對應該每一預定時間點的預定信息,和該使用者身體對應該每一預定時間點的即時信息,產生該每一預定時間點的校正信息。該顯示器是用以顯示對應該使用者身體的即時信息的一第一曲線以及對應該複數個預定時間點的校正信息的一第二曲線。Another embodiment of the present invention provides an apparatus for displaying information of a user's body. The device includes a processor and a display. The processor is configured to receive the instant information of the user's body measured by the first device, and receive the user's body pair measured by the second device at each of the plurality of predetermined time points. The predetermined information should be generated at each predetermined time point, and according to a correction equation, the predetermined information corresponding to each predetermined time point, and the instantaneous information of the user's body corresponding to each predetermined time point, each predetermined time point is generated. Correction information. The display is a first curve for displaying instant information corresponding to the user's body and a second curve corresponding to correction information for a plurality of predetermined time points.

本發明的另一實施例提供一種一裝置顯示使用者身體的信息的方法,其中該裝置包含一處理器和一顯示器。該方法包含該處理器接收一第一裝置所量測的該使用者身體的即時信息和一第二裝置在複數個預定時間點中的每一預定時間點所量測的該使用者身體對應該每一預定時間點的預定信息;該處理器根據一校正方程式,對應該每一預定時間點的預定信息,和該使用者身體對應該每一預定時間點的即時信息,產生該每一預定時間點的校正信息;該顯示器顯示對應該使用者身體的即時信息的一第一曲線以及對應該複數個預定時間點的校正信息的一第二曲線。Another embodiment of the present invention provides a method of displaying information of a user's body, wherein the apparatus includes a processor and a display. The method includes the processor receiving an instant message of the user's body measured by a first device and a body of the user measured by the second device at each of a plurality of predetermined time points Predetermined information at each predetermined time point; the processor generates the predetermined information corresponding to each predetermined time point according to a correction equation, and the instantaneous information of the user's body corresponding to each predetermined time point, generating each predetermined time Correction information for the point; the display displays a first curve corresponding to the instant information of the user's body and a second curve corresponding to the correction information for the plurality of predetermined time points.

本發明提供一種量測使用者身體的信息的無線監控裝置和其製造方法,以及顯示該使用者身體的信息的裝置和其相關方法。該無線監控裝置的外殼對應該無線監控裝置的第二部件的部份的尺寸大於該外殼對應該無線監控裝置的第一部件的部份的尺寸,以及該外殼為該蝌蚪形狀,其中該外殼對應該第一部件的部份的形狀為該蝌蚪形狀的尾巴以及對應該第二部件的部份的形狀為該蝌蚪形狀的頭部。因此,因為該第一部件可隨意地彎曲以貼合至一使用者的腋下,該外殼對應該第一部件的部份的尺寸較小,且該外殼對應該第一部件的部份的形狀為該蝌蚪形狀的尾巴,所以該無線監控裝置在長時間監控該使用者的體溫信息時,該第一部件不會使該使用者不舒服。另外,該製造方法是先利用一可撓性材料第一次包覆第一部件以及利用該可撓性材料包覆該第二部件以及第二次該第一部件,所以該第一部件在該製造方法中都不需要被固定,且該外殼在該第一部件和該第二部件之間無一段差存在。因此,本發明可克服無一段差存在製造方法的工藝難度,且因為該外殼在該第一部件和該第二部件之間無該段差存在,所以本發明可增加該使用者的舒適度並因無一段差或接縫存在而具有防水功能。另外,本發明所提供的顯示該使用者身體的信息的裝置和其相關方法可使該使用者輕易地知道有關該使用者的體溫信息和有關該使用者的體溫信息的校正溫度值之間的關係。The present invention provides a wireless monitoring apparatus for measuring information of a user's body, a method of manufacturing the same, and an apparatus for displaying information of the user's body and related methods. The size of the portion of the wireless monitoring device corresponding to the second component of the wireless monitoring device is greater than the size of the portion of the housing corresponding to the first component of the wireless monitoring device, and the housing is in the shape of the dome, wherein the housing pair The shape of the portion of the first member should be the shape of the crotch-shaped tail and the portion corresponding to the second member. Therefore, since the first member is arbitrarily bent to fit under the armpit of a user, the size of the portion of the outer casing corresponding to the first member is small, and the outer casing corresponds to the shape of the portion of the first member. The tail of the 蝌蚪 shape, so the wireless monitoring device does not make the user uncomfortable when monitoring the body temperature information of the user for a long time. In addition, the manufacturing method first coats the first component with a flexible material, and covers the second component with the flexible material and the second component a second time, so the first component is None of the manufacturing methods need to be fixed, and the housing does not have a difference between the first component and the second component. Therefore, the present invention can overcome the process difficulty of the manufacturing method without a gap, and because the outer casing does not have the difference between the first member and the second member, the present invention can increase the comfort of the user and cause Waterproof without a gap or seam. In addition, the apparatus for displaying information of the user's body and related methods provided by the present invention enable the user to easily know between the body temperature information about the user and the corrected temperature value of the user's body temperature information. relationship.

請參照第1圖,第1圖是本發明的第一實施例所公開的一種量測使用者身體的信息的無線監控裝置100的外觀示意圖。如第1圖所示,無線監控裝置100包含一第一部件102、一第二部件104和一外殼106,其中如第1圖所示,第一部件102外觀包含感測器端以及連接段,其中該感測器端位於第一部件102相對於第二部件104的一端,該連接段連接第二部件104及該感測器端,該連接段的橫截面形狀為一具曲度的長方扁型,除了第一部件102所包含的感測器1024的金屬帽1022和第二部件104所包含的塑膠腔1041的上蓋1042 (但在本發明的另一實施例中,塑膠腔1041具有上蓋及下蓋),外殼106包覆第一部件102和第二部件104,外殼106在第一部件102和第二部件104之間無一段差存在(亦即外殼106在第一部件102、及第一部件102與第二部件104之間並無分段或各分段的接合,且外殼106為一可撓性材料。例如在本發明的一實施例中,該可撓性材料可為一矽膠、一橡膠、一聚乙烯(Polyethylene, PE)、一熱塑性彈性體(Thermoplastic Elastomer, TPE)或一聚氯乙烯(PolyVinyl Chloride, PVC)。但本發明並不受限於該可撓性材料為上述材料。另外,在本發明的一實施例中,第一部件102的連接段橫截面的其中一長邊或稱為較小區率的一邊所在的面延伸至該感測器端具有金屬帽1022,而對邊另一長邊或稱為較小區率的另一邊的感測器端則不具有感測器,亦即該感測器端僅有單邊外露感測器1024,如此可使感測器1024完全接觸一使用者身體,而不會因為外在如溫度、濕度等環境因子而使感測器1024受到影響,第一部件102所包含的感測器1024的金屬帽1022可為一SUS 304鋼帽,但本發明並不受限於金屬帽1022為一SUS 304鋼帽。另外,如第1圖所示,外殼106對應第二部件104的部份的尺寸大於外殼106對應第一部件102的部份的尺寸,且外殼106為一蝌蚪形狀,也就是說如第1圖所示,外殼106對應第一部件102的部份的形狀為該蝌蚪形狀的尾巴以及對應第二部件104的部份的形狀為該蝌蚪形狀的頭部。Referring to FIG. 1, FIG. 1 is a schematic diagram showing the appearance of a wireless monitoring device 100 for measuring information of a user's body disclosed in the first embodiment of the present invention. As shown in FIG. 1, the wireless monitoring device 100 includes a first component 102, a second component 104, and a housing 106. As shown in FIG. 1, the first component 102 includes a sensor end and a connecting section. The sensor end is located at one end of the first component 102 relative to the second component 104. The connecting segment connects the second component 104 and the sensor end, and the cross section shape of the connecting section is a curved rectangular shape. The flat type includes the metal cap 1022 of the sensor 1024 included in the first component 102 and the upper cover 1042 of the plastic cavity 1041 included in the second component 104 (but in another embodiment of the present invention, the plastic cavity 1041 has an upper cover And the lower cover), the outer casing 106 encloses the first component 102 and the second component 104, and the outer casing 106 has no difference between the first component 102 and the second component 104 (ie, the outer casing 106 is in the first component 102, and There is no segment or segmentation between a component 102 and the second component 104, and the outer casing 106 is a flexible material. For example, in an embodiment of the invention, the flexible material may be a silicone rubber. , a rubber, a polyethylene (Polyethylene, PE), a thermoplastic elastomer (Thermoplas Tic Elastomer, TPE) or PolyVinyl Chloride (PVC). However, the invention is not limited to the flexible material being the above material. Further, in an embodiment of the invention, the first component 102 One of the long sides of the cross section of the connecting section or the side of the side called the smaller zone rate extends to the sensor end having a metal cap 1022 and the other long side of the opposite side or the other side of the smaller zone rate The sensor end does not have a sensor, that is, the sensor end has only a single-sided exposed sensor 1024, so that the sensor 1024 can completely contact a user's body without being externally The sensor 1024 is affected by environmental factors such as temperature and humidity. The metal cap 1022 of the sensor 1024 included in the first component 102 can be a SUS 304 steel cap, but the invention is not limited to the metal cap 1022. A SUS 304 steel cap. In addition, as shown in Fig. 1, the size of the portion of the outer casing 106 corresponding to the second member 104 is larger than the size of the portion of the outer casing 106 corresponding to the first member 102, and the outer casing 106 has a meandering shape. That is, as shown in FIG. 1, the shape of the portion of the outer casing 106 corresponding to the first member 102 is The shape of the 蝌蚪-shaped tail and the portion corresponding to the second member 104 is the 蝌蚪-shaped head.

請參照第2圖,第2圖是說明無線監控裝置100的功能方塊的示意圖,其中第2圖並未繪出外殼106。如第2圖所示,第一部件102包含一感測器1024,其中感測器1024具有金屬帽1022、一感測模組1023及一傳輸線1026,且傳輸線1026耦接感測模組1023,以及感測模組1023耦接金屬帽1022;第二部件104包含一感測信號處理器1044、一無線通信單元1046、一電源供應單元1048和塑膠腔1041,其中第2圖並未繪出塑膠腔1041。感測器1024可通過金屬帽1022接觸量測該使用者身體的信息,其中當該信息是一體溫信息時,感測模組1023可以是一熱敏電阻,感測器1024可置於該使用者的腋下。然而當該信息是一血壓信息、一心跳信息或一心率信息時,感測器1024可置於該使用者身體的一相對應的區域。如第2圖所示,感測信號處理器1044耦接傳輸線1026用以通過傳輸線1026接收該信息,並據以產生一感測信號SS;無線通信單元1046耦接感測信號處理器1044,用以傳送感測信號SS至一主機108,其中主機108可為一可攜式電子裝置(可攜式電子裝置即為手持式行動裝置)、一桌上型電腦、一筆記型電腦、一網際網路上的伺服器或一醫療檢測裝置,但本發明並不受限於主機108為上述裝置。另外,無線通信單元1046可通過一無線保真(Wireless Fidelity, Wi-Fi)、一無線區域網路(wireless LAN, WLAN)、一紫蜂短距無線傳輸標準(IEEE 802.15.4, Zigbee)、一藍芽(Bluetooth)、一無線廣域網(Wireless Wide Area Network, WWAN)、一全球行動通信系統(Global System for Mobile Communications, GSM)、一通用封包無線服務技術(General Packet Radio Service, GPRS)、一第三代行動通信技術(third generation, 3G)、一第四代行動通信技術(fourth generation, 4G)、一第五代行動通信技術(fifth generation, 5G)或一行動者網路理論+(actor network theory+, Ant+)技術傳送感測信號SS至主機108。如第2圖所示,電源供應單元1048是用以供電至感測信號處理器1044和無線通信單元1046,其中在本發明的一實施例中,電源供應單元1048是一鋰電池或一鋰離子電池,但本發明並不受限於電源供應單元1048是一鋰電池或一鋰離子電池。另外,感測信號處理器1044、無線通信單元1046和電源供應單元1048是設置於塑膠腔1041內,且塑膠腔1041具有如第1圖所示的上蓋1042。Please refer to FIG. 2, which is a schematic diagram illustrating the functional blocks of the wireless monitoring device 100, wherein the housing 106 is not depicted in FIG. As shown in FIG. 2, the first component 102 includes a sensor 1024, wherein the sensor 1024 has a metal cap 1022, a sensing module 1023, and a transmission line 1026, and the transmission line 1026 is coupled to the sensing module 1023. The sensing module 1023 is coupled to the metal cap 1022. The second component 104 includes a sensing signal processor 1044, a wireless communication unit 1046, a power supply unit 1048, and a plastic cavity 1041. FIG. 2 does not depict the plastic. Cavity 1041. The sensor 1024 can measure the information of the user's body through the metal cap 1022. When the information is integrated temperature information, the sensing module 1023 can be a thermistor, and the sensor 1024 can be placed in the use. Your majesty. However, when the information is a blood pressure information, a heartbeat information, or a heart rate information, the sensor 1024 can be placed in a corresponding area of the user's body. As shown in FIG. 2, the sensing signal processor 1044 is coupled to the transmission line 1026 for receiving the information through the transmission line 1026, and accordingly generates a sensing signal SS. The wireless communication unit 1046 is coupled to the sensing signal processor 1044. To transmit the sensing signal SS to a host 108, wherein the host 108 can be a portable electronic device (a portable electronic device is a handheld mobile device), a desktop computer, a notebook computer, and an internet network. A server on the road or a medical detecting device, but the present invention is not limited to the host 108 being the above device. In addition, the wireless communication unit 1046 can pass a Wireless Fidelity (Wi-Fi), a wireless local area network (WLAN), a purple bee short-range wireless transmission standard (IEEE 802.15.4, Zigbee), A Bluetooth, a Wireless Wide Area Network (WWAN), a Global System for Mobile Communications (GSM), a General Packet Radio Service (GPRS), a Third generation (3G), a fourth generation (4G), a fifth generation of mobile communication (fifth generation, 5G) or an actor network theory + (actor) The network theory+, Ant+) technology transmits the sensing signal SS to the host 108. As shown in FIG. 2, the power supply unit 1048 is configured to supply power to the sensing signal processor 1044 and the wireless communication unit 1046. In an embodiment of the invention, the power supply unit 1048 is a lithium battery or a lithium ion. The battery, but the invention is not limited to the power supply unit 1048 being a lithium battery or a lithium ion battery. In addition, the sensing signal processor 1044, the wireless communication unit 1046, and the power supply unit 1048 are disposed in the plastic cavity 1041, and the plastic cavity 1041 has an upper cover 1042 as shown in FIG.

請參照第3、4圖,第3圖是說明無線監控裝置100和一成人200使用情境的關係示意圖,以及第4圖是說明無線監控裝置100和一幼兒300使用情境的關係示意圖。因為外殼106為該蝌蚪形狀且外殼106為該可撓性材料,所以第一部件102可隨意地彎曲以貼合該使用者的身體。因此,如第3圖所示,因為第一部件102可隨意地彎曲以貼合至成人200的腋下,外殼106對應第一部件102的部份的尺寸較小,且外殼106對應第一部件102的部份的形狀為該蝌蚪形狀的尾巴,所以無線監控裝置100在長時間監控成人200的體溫信息時,第一部件102不會使成人200不舒服。另外,如第3圖所示,無線監控裝置100另包含的一夾具202可通過成人200的衣服204將第二部件104扣在成人200的衣服204上,也就是說當夾具202通過衣服204將第二部件104扣在衣服204上時,衣服204是介於夾具202和第二部件104之間。當無線監控裝置100通過感測器1024量測成人200的體溫信息時,無線監控裝置100另包含的一覆蓋片206可直接覆蓋感測器1024至成人200的皮膚上以使感測器1024所量測的體溫信息不至有較大的偏差,其中覆蓋片206可為一矽膠片。但本發明並不受限於覆蓋片206為一矽膠片,也就是說只要覆蓋片206是一可隔絕影響監控值等外在環境的隔絕片例如絕熱片就落入本發明的範疇。另外,在本發明的一實施例中,覆蓋片206的表面可塗上一層黏膠以貼合定位感測器1024至成人200的皮膚上。另外,如第4圖所示,在長時間監控幼兒300的體溫信息時,無線監控裝置100可利用其另包含的一貼片使第二部件104貼附在幼兒300的皮膚上,其中該貼片可為一雙面膠,但本發明並不受限於該貼片為一雙面膠。另外,因為該貼片介於第二部件104和幼兒300的皮膚之間,所以第4圖並未繪出該貼片。另外,第5(a)-5(b)圖是分別說明當夾具202扣住無線監控裝置100的上視和側視示意圖,其中第一部件102在上視示意圖的寬度要大於側視示意圖的寬度,金屬帽1022位於第一部件102較寬的一面,第二部件104在上視示意圖為一圓形且尺寸較第一部件102要大,其中第一部件102和第二部件104之間的連結採用不等角曲面以可撓性材料外殼接合以使無線監控裝置100具有一體感。Please refer to FIG. 3 and FIG. 4, FIG. 3 is a schematic diagram illustrating the relationship between the wireless monitoring device 100 and an adult 200 usage scenario, and FIG. 4 is a schematic diagram illustrating the relationship between the wireless monitoring device 100 and a child 300 usage scenario. Because the outer casing 106 is in the shape of the weir and the outer casing 106 is the flexible material, the first component 102 can be flexibly bent to conform to the user's body. Therefore, as shown in FIG. 3, since the first member 102 is arbitrarily bent to fit under the armpit of the adult 200, the size of the portion of the outer casing 106 corresponding to the first member 102 is small, and the outer casing 106 corresponds to the first member. The shape of the portion of the 102 is the tail of the 蝌蚪 shape, so that the wireless monitoring device 100 does not make the adult 200 uncomfortable when monitoring the body temperature information of the adult 200 for a long time. In addition, as shown in FIG. 3, the wireless monitoring device 100 further includes a clamp 202 that can buckle the second component 104 on the garment 204 of the adult 200 through the garment 204 of the adult 200, that is, when the clamp 202 passes through the garment 204. When the second component 104 is snapped over the garment 204, the garment 204 is interposed between the clamp 202 and the second component 104. When the wireless monitoring device 100 measures the body temperature information of the adult 200 through the sensor 1024, a cover sheet 206 included in the wireless monitoring device 100 can directly cover the sensor 1024 to the skin of the adult 200 so that the sensor 1024 The measured body temperature information does not have a large deviation, and the cover sheet 206 can be a film. However, the present invention is not limited to the cover sheet 206 being a single film, that is, as long as the cover sheet 206 is an insulating sheet such as a heat insulating sheet which can isolate an external environment such as a monitoring value, it falls within the scope of the present invention. Additionally, in an embodiment of the invention, the surface of the cover sheet 206 may be coated with a layer of glue to conform to the positioning sensor 1024 to the skin of the adult 200. In addition, as shown in FIG. 4, when monitoring the body temperature information of the child 300 for a long time, the wireless monitoring device 100 can attach the second member 104 to the skin of the child 300 by using a patch included therein, wherein the sticker The sheet may be a double-sided tape, but the invention is not limited to the patch being a double-sided tape. In addition, since the patch is interposed between the second member 104 and the skin of the infant 300, the patch is not depicted in FIG. In addition, FIGS. 5(a)-5(b) are top and side views respectively illustrating when the clamp 202 is caught by the wireless monitoring device 100, wherein the width of the first component 102 in the top view is larger than that of the side view. Width, metal cap 1022 is located on a wider side of first component 102, and second component 104 is circular in a top view and larger in size than first component 102, wherein between first component 102 and second component 104 The joints are joined by a flexible material housing using an unequal angled surface to provide a unitary feel to the wireless monitoring device 100.

請參照第6圖,第6圖是說明當無線監控裝置100長時間監控該使用者的體溫信息時,主機108的一顯示器1082所顯示的有關該使用者的體溫信息的第一曲線RBTL的示意圖,其中第6圖的縱軸表示溫度和第6圖的橫軸表示時間,以及第一曲線RBTL為一實線。因為無線監控裝置100是長時間監控該使用者的體溫信息,所以該使用者的體溫信息將無可避免地會受該使用者所處的外在環境影響。因此,如第7圖所示,該使用者可在一時間點T1輸入該使用者另用一裝置所量測的體溫信息(例如該使用者在時間點T1用一耳溫槍所量測的體溫信息)至主機108,然後主機108內的處理器即可根據一內建的校正方程式、該裝置在時間點T1所量測的體溫信息和無線監控裝置100在時間點T1所量測的該使用者的體溫信息BTST1,產生一校正溫度值CTV1,其中該內建的校正方程式可通過在本發明領域具有熟知技藝者所通知的數值分析方法或疊代方法產生。同理,該使用者可在一時間點T2輸入該使用者另用該裝置所量測的體溫信息(例如該使用者在時間點T2用該耳溫槍所量測的體溫信息)至主機108,然後主機108內的處理器即可根據該內建的校正方程式、該裝置在時間點T2所量測的體溫信息和無線監控裝置100在時間點T2所量測的該使用者的體溫信息BTST2,產生一校正溫度值CTV2,其中校正溫度值CTV1和校正溫度值CTV2位在顯示器1082所顯示的一第二曲線CL上,其中第二曲線CL為一虛線。另外,第二曲線CL上介於校正溫度值CTV1和校正溫度值CTV2之間的多個校正溫度值可通過一內插方法和第一曲線RBTL介於時間點T1和在時間點T2之間的多個體溫信息對應產生。因此,主機108可通過顯示器1082同時顯示第一曲線RBTL和第二曲線CL(如第7圖所示),但本發明並不受限於第一曲線RBTL為一實線和第二曲線CL為一虛線,也就是說只要顯示器1082利用兩不同樣式的曲線分別代表第一曲線RBTL和第二曲線CL即落入本發明的範疇。另外,如第8圖所示,顯示器1082也可在時間點T1後只顯示第二曲線CL,此時,顯示器1082會在時間點T1產生一醒目提示(例如一箭頭1084)以提示該使用者顯示器1082在時間點T1後只顯示第二曲線CL。也就是說在時間點T1,顯示器1082會同時顯示該醒目提示、該使用者的體溫信息BTST1和校正溫度值CTV1,以及在時間點T1後只顯示第二曲線CL。因此,如第7、8圖所示的顯示器1082的顯示方式可使該使用者輕易地知道有關該使用者的體溫信息的第一曲線RBTL和有關校正溫度值的第二曲線CL之間的關係。無線監控裝置100可以是一專屬監控裝置,亦可以是一手持式行動裝置,無線監控裝置100的顯示器1082可單獨顯示第6、7、8圖等曲線圖示,亦可藉由按鍵或是觸控螢幕進行圖示間的切換以便於使用者觀察圖示信息。Please refer to FIG. 6. FIG. 6 is a schematic diagram showing a first curve RBTL related to the user's body temperature information displayed by a display 1082 of the host 108 when the wireless monitoring device 100 monitors the user's body temperature information for a long time. Wherein the vertical axis of Fig. 6 represents temperature and the horizontal axis of Fig. 6 represents time, and the first curve RBTL is a solid line. Because the wireless monitoring device 100 monitors the user's body temperature information for a long time, the user's body temperature information will inevitably be affected by the external environment in which the user is located. Therefore, as shown in FIG. 7, the user can input the body temperature information measured by the user using another device at a time point T1 (for example, the user measured with an ear thermometer at time T1). The body temperature information is transmitted to the host 108, and then the processor in the host 108 can measure the body temperature information measured by the device at the time point T1 and the wireless monitoring device 100 measured at the time point T1 according to a built-in correction equation. The user's body temperature information BTST1 produces a corrected temperature value CTV1, which can be generated by a numerical analysis method or an iterative method notified by those skilled in the art. Similarly, the user can input the body temperature information measured by the user using the device at a time point T2 (for example, the body temperature information measured by the user at the time point T2 with the ear thermometer) to the host 108. Then, the processor in the host 108 can calculate the body temperature information measured by the device at the time point T2 and the body temperature information BTST2 measured by the wireless monitoring device 100 at the time point T2 according to the built-in correction equation. A corrected temperature value CTV2 is generated, wherein the corrected temperature value CTV1 and the corrected temperature value CTV2 are located on a second curve CL displayed on the display 1082, wherein the second curve CL is a broken line. In addition, the plurality of corrected temperature values between the corrected temperature value CTV1 and the corrected temperature value CTV2 on the second curve CL may be between the time point T1 and the time point T2 by an interpolation method and the first curve RBTL. A plurality of body temperature information are generated correspondingly. Therefore, the host 108 can simultaneously display the first curve RBTL and the second curve CL through the display 1082 (as shown in FIG. 7), but the present invention is not limited to the first curve RBTL being a solid line and the second curve CL being A dashed line, that is, as long as the display 1082 represents the first curve RBTL and the second curve CL using two different patterns of curves, respectively, falls within the scope of the present invention. In addition, as shown in FIG. 8, the display 1082 can also display only the second curve CL after the time point T1. At this time, the display 1082 generates a prominent prompt (for example, an arrow 1084) at the time point T1 to prompt the user. The display 1082 displays only the second curve CL after the time point T1. That is to say, at the time point T1, the display 1082 simultaneously displays the eye-catching prompt, the user's body temperature information BTST1 and the corrected temperature value CTV1, and displays only the second curve CL after the time point T1. Therefore, the display manner of the display 1082 as shown in FIGS. 7 and 8 allows the user to easily know the relationship between the first curve RBTL regarding the body temperature information of the user and the second curve CL regarding the corrected temperature value. . The wireless monitoring device 100 can be a dedicated monitoring device or a handheld mobile device. The display 1082 of the wireless monitoring device 100 can display the graphical representations of the sixth, seventh, and eighth graphs separately, and can also be pressed or touched. The control screen switches between the illustrations to facilitate the user to view the graphical information.

另外,當一幼兒發燒時,該幼兒可能會因其生理反應而活動降低。例如當該幼兒發燒時,該幼兒可能會因其生理反應而嗜睡。因為該幼兒可能會因其生理反應而活動降低,所以在本發明的另一實施例中,無線監控裝置100可另包含一重力感測器(gravity sensor)以偵測該重力感測器的三軸(x軸、y軸、z軸)的變化信息。因為無線監控裝置100是通過如第4圖所示的方式貼附在該幼兒的皮膚上,所以該重力感測器可隨時隨地根據該幼兒的活動產生該重力感測器的三軸的變化信息。然後感測信號處理器1044可據以產生對應該重力感測器的三軸的變化信息的感測信號,並通過無線通信單元1046傳送對應該重力感測器的三軸的變化信息的感測信號至主機108。因此,當主機108根據對應該重力感測器的三軸的變化信息的感測信號和一參考值,判斷該幼兒的活動降低時,主機108可再根據上述判斷結果和由無線監控裝置100所傳送的該幼兒的體溫信息判斷該幼兒是否發燒。當主機108判斷該幼兒可能發燒後,主機108可發出一警示信息通知該幼兒的父母該幼兒可能發燒,其中該警示信息可為一特殊音效、一閃爍光或一結合閃爍光的特殊音效。In addition, when a child has a fever, the child may be less active due to his physiological reaction. For example, when the child has a fever, the child may become lethargic due to his physiological reaction. Because the child may be less active due to its physiological reaction, in another embodiment of the present invention, the wireless monitoring device 100 may further include a gravity sensor to detect the three of the gravity sensor. Change information of the axis (x-axis, y-axis, z-axis). Since the wireless monitoring device 100 is attached to the skin of the child by the method as shown in FIG. 4, the gravity sensor can generate the three-axis change information of the gravity sensor according to the activity of the child anytime and anywhere. . The sensing signal processor 1044 can then generate a sensing signal corresponding to the three-axis change information of the gravity sensor and transmit the sensing information corresponding to the three-axis change information of the gravity sensor through the wireless communication unit 1046. Signal to host 108. Therefore, when the host 108 determines that the activity of the child is reduced according to the sensing signal corresponding to the change information of the three axes of the gravity sensor and a reference value, the host 108 can further perform the above determination result and by the wireless monitoring device 100. The transmitted body temperature information of the child determines whether the child has a fever. After the host 108 determines that the child may have a fever, the host 108 may send a warning message to inform the parent of the child that the child may have a fever, wherein the warning message may be a special sound effect, a flashing light or a special sound effect combined with the flashing light.

另外,請參照第1、2、9-12圖,第9圖是本發明的第二實施例公開的一種量測使用者身體的信息的無線監控裝置的製造方法的流程圖。第9圖的製造方法是利用第1、2圖的無線監控裝置100說明,詳細步驟如下:In addition, please refer to the figures 1, 2, and 9-12, and FIG. 9 is a flowchart of a method of manufacturing a wireless monitoring apparatus for measuring information of a user's body disclosed in the second embodiment of the present invention. The manufacturing method of Fig. 9 is explained using the wireless monitoring device 100 of Figs. 1 and 2, and the detailed steps are as follows:

步驟900: 開始;Step 900: Start;

步驟902: 結合感測模組1023、金屬帽1022和傳輸線1026;Step 902: Combine the sensing module 1023, the metal cap 1022, and the transmission line 1026;

步驟904: 固定一金屬線1028和傳輸線1026於塑膠腔1041;Step 904: Fix a metal wire 1028 and a transmission line 1026 in the plastic cavity 1041;

步驟906: 利用一第一上模具定位夾住感測器1024和塑膠腔1041,且利用一下模具熱壓該可撓性材料形成無線監控裝置100的外殼106的下半部;Step 906: Positioning the sensor 1024 and the plastic cavity 1041 by using a first upper mold, and hot pressing the flexible material with a lower mold to form a lower half of the outer casing 106 of the wireless monitoring device 100;

步驟908: 在外殼106的下半部完成後,移除該第一上模具,利用一第二上模具熱壓該可撓性材料形成無線監控裝置100的外殼106的上半部;Step 908: After the lower half of the outer casing 106 is completed, the first upper mold is removed, and the flexible material is heat-pressed by a second upper mold to form an upper portion of the outer casing 106 of the wireless monitoring device 100;

步驟910: 結束。Step 910: End.

在步驟902中,如第10圖所示,在本發明的一實施例中,一塑膠套901可通過一模具和一包射方式結合感測模組1023、金屬帽1022及傳輸線1026),使金屬帽1022得以接觸感測模組1023,塑膠套901亦可將金屬線以包射製程強化第一部件102連接段的物理強度,其中塑膠套901可為一丙烯腈-丁二烯-苯乙烯共聚物(Acrylonitrile Butadiene Styrene, ABS)塑膠套,但本發明並不受限於塑膠套901是一丙烯腈-丁二烯-苯乙烯共聚物塑膠套。另外,感測模組1023可利用本發明領域具有通知技藝者所熟知的技術(例如焊接)連接傳輸線1026的一端,所以在此不再贅述。另外,因為感測器1024與該可撓性材料之間的結合程度較差,所以感測器1024是通過塑膠套901和該可撓性材料結合。在步驟904中,如第11圖所示,第一部件102另包含的金屬線1028的一端和傳輸線1026的另一端可穿過塑膠腔1041上的一孔洞10412以固定金屬線1028和傳輸線1026於塑膠腔1041,其中金屬線1028是用以增加第一部件102的可撓度,避免第一部件102因水平拉力形變造成包覆在可撓性材料內的傳輸線1026的斷裂,且金屬線1028是設置在感測器1024和塑膠腔1041之間。然而在本發明的另一實施例中,如果傳輸線1026較粗,其傳輸線的截面積已佔該連接段整體截面積一定的高比例,則第一部件102將不包含金屬線1028。在本發明的另一實施例中,金屬線1028可被一塑膠條取代。在步驟906中,如第12圖所示,在該第一上模具中,因為感測器1024和塑膠腔1041被夾住,所以當本發明利用液態的該可撓性材料(例如矽膠、橡膠、聚乙烯、熱塑性彈性體或聚氯乙烯)在該下模具中形成無線監控裝置100的外殼106的下半部時,第一部件102並不會受到液態的該可撓性材料流速與壓力而偏移。因此,在該可撓性材料固化時,金屬線1028和傳輸線1026不會偏移至外殼106的下半部的表面。另外,在該第一上模具中,夾住感測器1024和塑膠腔1041的方式是本發明領域具有通知技藝者所熟知的技術,所以在此不再贅述。在步驟908中,在外殼106的下半部完成後,在該第二上模具中利用該可撓性材料形成無線監控裝置100的外殼106的上半部(如第13圖所示)。如第13圖所示,因為在步驟906和步驟908中,無線監控裝置100的外殼106的下半部和上半部是一次性的成形,所以外殼106很明顯地在第一部件102和第二部件104之間無該段差存在。另外,在參考第1圖所示的外殼106和本發明所揭露的該可撓性材料後,本發明領域具有通知技藝者應可輕易地設計出該第一上模具、該第二上模具和該下模具,所以在此不再贅述。另外,如第13圖所示,外殼106為該蝌蚪形狀,其中外殼106對應第一部件102的部份的形狀為該蝌蚪形狀的尾巴以及對應第二部件104的部份的形狀為該蝌蚪形狀的頭部。In step 902, as shown in FIG. 10, in an embodiment of the present invention, a plastic sleeve 901 can be combined with the sensing module 1023, the metal cap 1022, and the transmission line 1026 by a mold and a package. The metal cap 1022 can be in contact with the sensing module 1023. The plastic sleeve 901 can also strengthen the physical strength of the connecting portion of the first component 102 by a coating process, wherein the plastic sleeve 901 can be an acrylonitrile-butadiene-styrene. Acrylonitrile Butadiene Styrene (ABS) plastic sleeve, but the invention is not limited to the plastic sleeve 901 is an acrylonitrile-butadiene-styrene copolymer plastic sleeve. In addition, the sensing module 1023 can be coupled to one end of the transmission line 1026 using techniques well known to those skilled in the art (eg, soldering), and thus will not be described herein. In addition, because the degree of bonding between the sensor 1024 and the flexible material is poor, the sensor 1024 is coupled to the flexible material by a plastic sleeve 901. In step 904, as shown in FIG. 11, one end of the metal wire 1028 and the other end of the transmission line 1026 of the first component 102 can pass through a hole 10412 in the plastic cavity 1041 to fix the metal wire 1028 and the transmission wire 1026. The plastic cavity 1041, wherein the metal wire 1028 is used to increase the flexibility of the first component 102, avoiding the breakage of the transmission line 1026 of the first component 102 covered by the horizontal tensile force, and the metal wire 1028 is set. Between the sensor 1024 and the plastic cavity 1041. In yet another embodiment of the present invention, if the transmission line 1026 is relatively thick and the cross-sectional area of the transmission line has a high proportion of the overall cross-sectional area of the connection segment, the first component 102 will not include the metal line 1028. In another embodiment of the invention, the wire 1028 can be replaced by a strip of plastic. In step 906, as shown in Fig. 12, in the first upper mold, since the sensor 1024 and the plastic cavity 1041 are clamped, when the present invention utilizes the liquid flexible material (e.g., silicone, rubber) When the polyethylene, thermoplastic elastomer or polyvinyl chloride) forms the lower half of the outer casing 106 of the wireless monitoring device 100 in the lower mold, the first member 102 is not subjected to the liquid flow rate and pressure of the flexible material. Offset. Thus, when the flexible material is cured, the wire 1028 and the transmission line 1026 are not offset to the surface of the lower half of the outer casing 106. In addition, in the first upper mold, the manner of sandwiching the sensor 1024 and the plastic cavity 1041 is a technique well known to those skilled in the art, and therefore will not be described herein. In step 908, after the lower half of the outer casing 106 is completed, the upper half of the outer casing 106 of the wireless monitoring device 100 is formed in the second upper mold using the flexible material (as shown in Fig. 13). As shown in FIG. 13, since the lower half and the upper half of the outer casing 106 of the wireless monitoring device 100 are disposable formed in steps 906 and 908, the outer casing 106 is apparently in the first component 102 and the There is no such difference between the two components 104. In addition, after referring to the outer casing 106 shown in FIG. 1 and the flexible material disclosed by the present invention, the field of the invention has a notification that the first upper mold, the second upper mold, and the like can be easily designed. The lower mold, so will not be described here. In addition, as shown in FIG. 13, the outer casing 106 has the shape of the crucible, wherein the shape of the portion of the outer casing 106 corresponding to the first member 102 is the shape of the crotch-shaped tail and the portion corresponding to the second member 104. The head.

另外,請參照第14圖,第14圖是本發明的第三實施例公開的一種量測使用者身體的信息的無線監控裝置的製造方法的流程圖。第14圖的製造方法是利用第1、2圖的無線監控裝置100說明,詳細步驟如下:In addition, referring to FIG. 14, FIG. 14 is a flowchart of a method of manufacturing a wireless monitoring apparatus for measuring information of a user's body disclosed in a third embodiment of the present invention. The manufacturing method of Fig. 14 is explained using the wireless monitoring device 100 of Figs. 1 and 2, and the detailed steps are as follows:

步驟1400: 開始;Step 1400: Start;

步驟1402: 結合感測模組1023、金屬帽1022和傳輸線1026;Step 1402: Combine the sensing module 1023, the metal cap 1022, and the transmission line 1026;

步驟1404: 固定金屬線1028和傳輸線1026於塑膠腔1041;Step 1404: fixing metal wire 1028 and transmission line 1026 in the plastic cavity 1041;

步驟1406: 在一第一模具中,利用該可撓性材料第一次包覆除感測器1024的金屬帽1022外的第一部件102;Step 1406: In a first mold, the first member 102 is removed from the metal cap 1022 of the sensor 1024 by the flexible material for the first time;

步驟1408: 在一第二模具中,利用該可撓性材料包覆塑膠腔1041的上蓋1042外的第二部件104以及第二次包覆除感測器1024的金屬帽1022外的第一部件102;Step 1408: In a second mold, the second member 104 outside the upper cover 1042 of the plastic cavity 1041 and the first member outside the metal cap 1022 covering the sensor 1024 are covered with the flexible material. 102;

步驟1410: 結束。Step 1410: End.

第14圖的實施例和第9圖的實施例的差別在於在步驟1406中,該第一模具是應用在形成外殼106對應第一部件102的部份,其中該第一模具具有一第一孔,可使感測器1024的金屬帽1022埋入定位在該第一孔內,也就是說當第一部件102置入該第一模具內時,該第一孔可接上一真空幫浦,其中因為該真空幫浦可將該第一模具內抽真空,所以液態的該可撓性材料可在該第一模具內流動;然而在本發明的另一實施例中,該第一孔亦可為一封閉性孔洞而無須抽真空,該第一孔內埋入磁性物質如磁鐵,可使金屬帽1022受磁鐵磁性吸附定位在該第一孔內。因此,在該可撓性材料固化後,該可撓性材料可第一次包覆除感測器1024的金屬帽1022外的第一部件102。在步驟1408中,該第二模具是應用在形成外殼106對應第一部件102的部份和外殼106對應第二部件104的部份,其中該第二模具具有一第二孔,且該第二孔可使感測器1024的金屬帽1022埋入,也就是說當包覆該可撓性材料的第一部件102置入該第二模具內時,該第二孔可接上該真空幫浦,其中因為該真空幫浦可將該第二模具內抽真空,所以液態的該可撓性材料仍可在該第二模具內流動。因為在步驟1408中,當包覆該可撓性材料的第一部件102置入該第二模具內時,包覆該可撓性材料的第一部件102已經占據該第二模具對應第一部件102的部份的大部份,第一部件102的連接段具有較大體積及質量,不易受到白努力原理(Bernoulli's principle)影響而產生第一部件102的連接段的傳輸線1026因周圍流速及壓力不均的偏移,所以包覆該可撓性材料的第一部件102受到液態的該可撓性材料在該第二模具對應第一部件102的部份的流速與壓力的影響很小。因此,在步驟1408後,當該可撓性材料固化時,金屬線1028和傳輸線1026不會偏移至外殼106的表面。另外,在該第一模具和該第一模具中,第一部件102都不需要被固定,僅需孔洞定位即可。另外,該第二模具腔室空間大於該第一模具腔室空間。另外,第14圖的實施例的其餘原理都和第9圖的實施例相同,在此不再贅述。The difference between the embodiment of Fig. 14 and the embodiment of Fig. 9 is that in step 1406, the first mold is applied to a portion of the outer casing 106 corresponding to the first member 102, wherein the first mold has a first hole The metal cap 1022 of the sensor 1024 can be embedded in the first hole, that is, when the first component 102 is placed in the first mold, the first hole can be connected to a vacuum pump. Wherein the vacuum pump can evacuate the first mold, the liquid flexible material can flow in the first mold; however, in another embodiment of the invention, the first hole can also For a closed hole without vacuuming, a magnetic substance such as a magnet is embedded in the first hole, so that the metal cap 1022 is magnetically adsorbed and positioned in the first hole by the magnet. Thus, after the flexible material is cured, the flexible material can first cover the first component 102 other than the metal cap 1022 of the sensor 1024. In step 1408, the second mold is applied to a portion of the outer casing 106 corresponding to the first component 102 and the outer casing 106 corresponds to the second component 104, wherein the second mold has a second hole, and the second The hole can embed the metal cap 1022 of the sensor 1024, that is, when the first component 102 covering the flexible material is placed in the second mold, the second hole can be connected to the vacuum pump. Wherein, because the vacuum pump can evacuate the second mold, the liquid flexible material can still flow in the second mold. Because in step 1408, when the first component 102 encasing the flexible material is placed into the second mold, the first component 102 encasing the flexible material already occupies the second component corresponding to the first component. For most of the portion of portion 102, the connecting portion of the first member 102 has a large volume and mass, and is not susceptible to the Bernoulli's principle to produce a transmission line 1026 of the connecting portion of the first member 102 due to ambient flow rate and pressure. The unevenness is offset, so that the first member 102 encasing the flexible material is subjected to a liquid liquid. The influence of the flow rate and pressure of the flexible material on the portion of the second mold corresponding to the first member 102 is small. Thus, after step 1408, when the flexible material is cured, the wire 1028 and the transmission line 1026 are not offset to the surface of the outer casing 106. In addition, in the first mold and the first mold, the first member 102 does not need to be fixed, and only the hole positioning is required. Additionally, the second mold cavity space is larger than the first mold cavity space. In addition, the remaining principles of the embodiment of FIG. 14 are the same as those of the embodiment of FIG. 9, and are not described herein again.

另外,在本發明的另一實施例中,一第三模具是應用在形成外殼106對應第一部件102的部份和外殼106對應第二部件104的部份,其中該第三模具具有一第三孔,且該第三孔可使感測器1024的金屬帽1022埋入。當第一部件102和第二部件104置入該第三模具內時,該第三孔可接上該真空幫浦,其中因為該真空幫浦可將該第三模具內抽真空,所以液態的該可撓性材料可在該第三模具內流動,且液態的該可撓性材料的量可使該可撓性材料固化後,該可撓性材料可第一次包覆除感測器1024的金屬帽1022外的第一部件102。另外,在該可撓性材料第一次包覆除感測器1024的金屬帽1022外的第一部件102後,可在該第三模具中執行如步驟1410所述的步驟使該可撓性材料包覆塑膠腔1041的上蓋1042外的第二部件104以及第二次包覆除感測器1024的金屬帽1022外的第一部件102。In addition, in another embodiment of the present invention, a third mold is applied to a portion of the outer casing 106 corresponding to the first component 102 and a portion of the outer casing 106 corresponding to the second component 104, wherein the third mold has a first Three holes, and the third hole can embed the metal cap 1022 of the sensor 1024. When the first component 102 and the second component 104 are placed in the third mold, the third hole can be connected to the vacuum pump, wherein the vacuum pump can vacuum the third mold, so the liquid state The flexible material can flow in the third mold, and the amount of the flexible material in the liquid state can cure the flexible material, the flexible material can cover the sensor 1024 for the first time. The first component 102 outside the metal cap 1022. Additionally, after the flexible material first covers the first component 102 other than the metal cap 1022 of the sensor 1024, the step as described in step 1410 can be performed in the third mold to effect the flexibility. The material covers the second component 104 outside the upper cover 1042 of the plastic cavity 1041 and the first component 102 that covers the metal cap 1022 of the sensor 1024 a second time.

綜上所述,本發明所提供的無線監控裝置的外殼對應該無線監控裝置的第二部件的部份的尺寸大於該外殼對應該無線監控裝置的第一部件的部份的尺寸,以及該外殼為該蝌蚪形狀,其中該外殼對應該第一部件的部份的形狀為該蝌蚪形狀的尾巴以及對應該第二部件的部份的形狀為該蝌蚪形狀的頭部,該第二部件的其橫截面最大長度大於2公分,該第一部件在該感測器端以及該感測器端延伸至連接段的5公分內其橫截面最大長度小於1公分。因此,因為該第一部件可隨意地彎曲以貼合至該使用者的腋下,該外殼對應該第一部件的部份的尺寸較小,且該外殼對應該第一部件的部份的形狀為該蝌蚪形狀的尾巴,所以該無線監控裝置在長時間監控該使用者的體溫信息時,該第一部件可貼合該使用者的身體不會使該使用者不舒服而提高接觸的舒適度。另外,本發明所提供的無線監控裝置的製造方法是先利用該可撓性材料第一次包覆第一部件以及利用該可撓性材料包覆該第二部件以及第二次該第一部件,所以該第一部件在該製造方法中都不需要被固定,且該外殼在該第一部件和該第二部件之間無一段差存在。因此,本發明可減少該製造方法的工藝難度,且因為該外殼在該第一部件和該第二部件之間無該段差存在,所以本發明可增加該使用者的舒適度及美觀度。 以上所述僅為本發明之較佳實施例,凡依本發明申請專利範圍所做之均等變化與修飾,皆應屬本發明之涵蓋範圍。In summary, the outer casing of the wireless monitoring device provided by the present invention corresponds to a size of a portion of the second component of the wireless monitoring device that is larger than a size of a portion of the outer casing corresponding to the first component of the wireless monitoring device, and the outer casing. In the shape of the crucible, wherein the shape of the portion of the outer casing corresponding to the first member is the tail of the crucible shape and the portion corresponding to the portion of the second member is the head of the crucible shape, the cross of the second member The maximum length of the section is greater than 2 cm, and the first component has a cross-sectional maximum length of less than 1 cm within 5 cm of the sensor end and the sensor end extending to the connecting section. Therefore, since the first member is arbitrarily bent to fit under the armpit of the user, the size of the portion of the outer casing corresponding to the first member is small, and the outer casing corresponds to the shape of the portion of the first member. The tail of the 蝌蚪 shape, so when the wireless monitoring device monitors the body temperature information of the user for a long time, the first component can fit the body of the user without making the user uncomfortable and improve the comfort of the contact. . In addition, the wireless monitoring device provided by the present invention is configured to first coat the first component with the flexible material, and coat the second component with the flexible material and the second component for the second time. Therefore, the first component does not need to be fixed in the manufacturing method, and the outer casing has no difference between the first component and the second component. Therefore, the present invention can reduce the process difficulty of the manufacturing method, and because the outer casing does not have the difference between the first member and the second member, the present invention can increase the comfort and aesthetics of the user. The above are only the preferred embodiments of the present invention, and all changes and modifications made to the scope of the present invention should be within the scope of the present invention.

100‧‧‧無線監控裝置100‧‧‧Wireless monitoring device

102‧‧‧第一部件102‧‧‧ first part

104‧‧‧第二部件104‧‧‧ second part

106‧‧‧外殼106‧‧‧Shell

108‧‧‧主機108‧‧‧Host

1022‧‧‧金屬帽1022‧‧‧Metal cap

1023‧‧‧感測模組1023‧‧‧Sense Module

1024‧‧‧感測器1024‧‧‧ sensor

1026‧‧‧傳輸線1026‧‧‧ transmission line

1028‧‧‧金屬線1028‧‧‧Metal wire

1041‧‧‧塑膠腔1041‧‧‧ plastic cavity

10412‧‧‧孔洞10412‧‧‧ Hole

1042‧‧‧上蓋1042‧‧‧Upper cover

1044‧‧‧感測信號處理器1044‧‧‧Sensor signal processor

1046‧‧‧無線通信單元1046‧‧‧Wireless communication unit

1048‧‧‧電源供應單元1048‧‧‧Power supply unit

1082‧‧‧顯示器1082‧‧‧ display

1084‧‧‧箭頭1084‧‧‧ arrow

200‧‧‧成人200‧‧‧Adults

202‧‧‧夾具202‧‧‧ fixture

204‧‧‧衣服204‧‧‧ clothes

206‧‧‧覆蓋片206‧‧‧ Covering film

300‧‧‧幼兒300‧‧‧Children

901‧‧‧塑膠套901‧‧‧ plastic case

BTST1、BTST2‧‧‧體溫信息BTST1, BTST2‧‧‧ body temperature information

CL‧‧‧第二曲線CL‧‧‧second curve

CTV1、CTV2‧‧‧校正溫度值CTV1, CTV2‧‧‧corrected temperature values

RBTL‧‧‧第一曲線RBTL‧‧‧ first curve

SS‧‧‧感測信號SS‧‧‧Sensor signal

T1、T2‧‧‧時間點T1, T2‧‧‧ time points

900-912、1400-1412‧‧‧步驟900-912, 1400-1412‧‧‧ steps

第1圖是本發明的第一實施例所公開的一種量測使用者身體的信息的無線監控裝置的外觀示意圖。 第2圖是說明無線監控裝置的功能方塊的示意圖。 第3圖是說明無線監控裝置和成人的關係示意圖。 第4圖是說明無線監控裝置和幼兒的關係示意圖。 第5(a)-5(b)圖是分別說明當夾具扣住無線監控裝置的上視和側視示意圖。 第6圖是說明當無線監控裝置長時間監控該使用者的體溫信息時,主機的顯示器所顯示的有關該使用者的體溫信息的第一曲線的示意圖。 第7圖是說明主機的顯示器同時顯示有關該使用者的體溫信息的第一曲線和有關校正溫度值的第二曲線的示意圖。 第8圖是說明主機的顯示器同時顯示有關該使用者的體溫信息的第一曲線和有關校正溫度值的第二曲線的示意圖。 第9圖是本發明的第二實施例公開的一種量測使用者身體的信息的無線監控裝置的製造方法的流程圖。 第10圖是說明塑膠套通過包射方式結合除金屬帽外的感測器的示意圖。 第11圖是說明第一部件包含的金屬線和傳輸線通過塑膠腔上的孔洞固定於塑膠腔的示意圖。 第12圖是說明在該模具中,液態的該可撓性材料形成無線監控裝置的外殼的下半部的示意圖。 第13圖是說明在該模具中,液態的該可撓性材料形成無線監控裝置的外殼的上半部的示意圖。 第14圖是本發明的第三實施例公開的一種量測使用者身體的信息的無線監控裝置的製造方法的流程圖。Fig. 1 is a perspective view showing the appearance of a wireless monitoring device for measuring information of a user's body disclosed in the first embodiment of the present invention. Figure 2 is a schematic diagram illustrating the functional blocks of the wireless monitoring device. Figure 3 is a diagram showing the relationship between the wireless monitoring device and the adult. Fig. 4 is a view showing the relationship between the wireless monitoring device and the child. Figures 5(a)-5(b) are top and side views, respectively, illustrating when the clamp is snapped onto the wireless monitoring device. Figure 6 is a schematic diagram showing a first curve of the body temperature information displayed by the display of the host when the wireless monitoring device monitors the body temperature information of the user for a long time. Figure 7 is a schematic diagram showing a first curve of body temperature information about the user and a second curve relating to the corrected temperature value, simultaneously showing the display of the host. Figure 8 is a schematic diagram showing the first curve of the display of the host simultaneously displaying body temperature information about the user and a second curve relating to the corrected temperature value. Figure 9 is a flow chart showing a method of manufacturing a wireless monitoring device for measuring information of a user's body disclosed in a second embodiment of the present invention. Figure 10 is a schematic view showing the sensor of the plastic sleeve combined with the metal cap by means of encapsulation. Figure 11 is a schematic view showing that the metal wire and the transmission wire included in the first component are fixed to the plastic cavity through holes in the plastic cavity. Figure 12 is a schematic view showing the lower half of the outer casing of the wireless monitoring device formed in the liquid in the mold. Figure 13 is a schematic view showing the upper portion of the outer casing of the wireless monitoring device formed of the liquid flexible material in the mold. Figure 14 is a flow chart showing a method of manufacturing a wireless monitoring device for measuring information of a user's body disclosed in a third embodiment of the present invention.

Claims (27)

一種量測使用者身體的信息的無線監控裝置,包含: 一第一部件,用以量測該信息; 一第二部件,耦接該第一部件,用以接收該信息,根據該信息產生一感測信號,以及傳送該感測信號至一主機;及 一外殼,用以包覆該第一部件的部分和該第二部件的部分; 其中該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。A wireless monitoring device for measuring information of a user's body, comprising: a first component for measuring the information; a second component coupled to the first component for receiving the information, generating a message according to the information Sensing a signal, and transmitting the sensing signal to a host; and a housing for covering a portion of the first component and a portion of the second component; wherein a size of the portion of the housing corresponding to the second component is greater than The outer casing corresponds to the size of the portion of the first component and the outer casing has a meandering shape. 如請求項1所述的無線監控裝置,其中 該第一部件包含: 一感測器,包含: 一金屬帽,其中該金屬帽露出該外殼的一邊; 一感測模組,耦接該金屬帽,其中該金屬帽和該感測模組是用以量測該信息;及 一傳輸線,耦接該感測模組; 該第二部件包含: 一感測信號處理器,用以通過該傳輸線接收該信息,並據以產生該感測信號; 一無線通信單元,耦接該感測信號處理器,用以傳送該感測信號至該主機; 一電源供應單元,用以供電至該感測信號處理器和該無線通信單元;及 一塑膠腔,其中該感測信號處理器、該無線通信單元和該電源供應單元設置於該塑膠腔內,且該塑膠腔具有一上蓋。The wireless monitoring device of claim 1, wherein the first component comprises: a sensor, comprising: a metal cap, wherein the metal cap exposes one side of the outer casing; and a sensing module coupled to the metal cap The metal cap and the sensing module are configured to measure the information; and a transmission line coupled to the sensing module; the second component includes: a sensing signal processor for receiving through the transmission line The information is used to generate the sensing signal; a wireless communication unit coupled to the sensing signal processor for transmitting the sensing signal to the host; and a power supply unit for supplying power to the sensing signal The processor and the wireless communication unit; and a plastic cavity, wherein the sensing signal processor, the wireless communication unit and the power supply unit are disposed in the plastic cavity, and the plastic cavity has an upper cover. 如請求項2所述的無線監控裝置,其中除了該感測器的金屬帽和該上蓋外,該外殼包覆該第一部件和該第二部件,其中該外殼為一可撓性材料。The wireless monitoring device of claim 2, wherein the outer casing encloses the first component and the second component in addition to the metal cap of the sensor and the upper cover, wherein the outer casing is a flexible material. 如請求項1所述的無線監控裝置,其中該外殼在該第一部件和該第二部件之間無一段差存在。The wireless monitoring device of claim 1, wherein the housing is free of a difference between the first component and the second component. 如請求項2所述的無線監控裝置,其中該第一部件另包含: 一金屬線,其中該金屬線的一端穿過該塑膠腔固定,該金屬線的另一端以一塑膠套固定,且該金屬線設置在該感測器和該塑膠腔之間。The wireless monitoring device of claim 2, wherein the first component further comprises: a metal wire, wherein one end of the metal wire is fixed through the plastic cavity, and the other end of the metal wire is fixed by a plastic sleeve, and the A wire is disposed between the sensor and the plastic chamber. 如請求項4所述的無線監控裝置,其中該第一部件感測器端橫截面最大厚度小於1公分。The wireless monitoring device of claim 4, wherein the first component sensor end has a cross-section maximum thickness of less than 1 cm. 如請求項2所述的無線監控裝置,其中該第二部件的其橫截面最大長度大於2公分。The wireless monitoring device of claim 2, wherein the second component has a cross-sectional maximum length greater than 2 cm. 如請求項2所述的無線監控裝置,另包含: 一覆蓋片,用以覆蓋該感測器至該使用者的皮膚上;及 一貼片,用以使該第二部件貼附在該使用者的皮膚上。The wireless monitoring device of claim 2, further comprising: a cover sheet for covering the sensor to the skin of the user; and a patch for attaching the second component to the use On the skin of the person. 如請求項2所述的無線監控裝置,另包含: 一覆蓋片,用以覆蓋該感測器至該使用者的皮膚上;及 一夾具,用以通過該使用者的衣服固定該第二部件在該使用者的衣服上。The wireless monitoring device of claim 2, further comprising: a cover sheet for covering the sensor to the skin of the user; and a clamp for fixing the second component by the user's clothes On the user's clothes. 如請求項1所述的無線監控裝置,其中該信息是一體溫信息、一血壓信息、一心跳信息或一心率信息。The wireless monitoring device of claim 1, wherein the information is integrated temperature information, a blood pressure information, a heartbeat information, or a heart rate information. 如請求項1所述的無線監控裝置,其中該主機是一可攜式電子裝置、一桌上型電腦、一筆記型電腦或一網際網路上的伺服器。The wireless monitoring device of claim 1, wherein the host is a portable electronic device, a desktop computer, a notebook computer or a server on an internet network. 一種量測使用者身體的信息的無線監控裝置的製造方法,其中該無線監控裝置包含一第一部件和一第二部件,該第一部件包含一感測器和一金屬線,該感測器包含一金屬帽、一感測模組和一傳輸線,以及該第二部件包含一感測信號處理器、一無線通信單元、一電源供應單元和一塑膠腔,該製造方法包含: 結合該感測模組、該金屬帽和該傳輸線; 固定該金屬線和該傳輸線於該塑膠腔; 利用一第一上模具定位夾住該感測器和該塑膠腔,且利用一下模具熱壓一可撓性材料形成該無線監控裝置的外殼的下半部;及 在該外殼的下半部完成後,移除該第一上模具,利用一第二上模具熱壓該可撓性材料形成該無線監控裝置的外殼的上半部; 其中該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。A method of manufacturing a wireless monitoring device for measuring information of a user's body, wherein the wireless monitoring device includes a first component and a second component, the first component including a sensor and a metal wire, the sensor The utility model comprises a metal cap, a sensing module and a transmission line, and the second component comprises a sensing signal processor, a wireless communication unit, a power supply unit and a plastic cavity, and the manufacturing method comprises: combining the sensing a module, the metal cap and the transmission line; fixing the metal wire and the transmission wire in the plastic cavity; positioning and clamping the sensor and the plastic cavity by using a first upper mold, and using a lower mold to heat-press a flexible Forming a lower portion of the outer casing of the wireless monitoring device; and after the lower half of the outer casing is completed, removing the first upper mold, and thermally pressing the flexible material with a second upper mold to form the wireless monitoring device The upper half of the outer casing; wherein the portion of the outer casing corresponding to the second component is larger than the size of the portion of the outer casing corresponding to the first component, and the outer casing has a meander shape. 如請求項12所述的製造方法,其中該外殼在該第一部件和該第二部件之間無一段差存在。The manufacturing method of claim 12, wherein the outer casing has no difference between the first component and the second component. 如請求項12所述的製造方法,其中該金屬線設置在該感測器和該塑膠腔之間。The manufacturing method of claim 12, wherein the metal wire is disposed between the sensor and the plastic cavity. 如請求項12所述的製造方法,其中該外殼包覆除了該感測器的金屬帽外的第一部件和除了該塑膠腔的上蓋外的該第二部件。The manufacturing method of claim 12, wherein the outer casing encloses a first component other than the metal cap of the sensor and the second component other than the upper cover of the plastic cavity. 一種量測使用者身體的信息的無線監控裝置的製造方法,其中該無線監控裝置包含一第一部件和一第二部件,該第一部件包含一感測器和一金屬線,該感測器包含一金屬帽、一感測模組和一傳輸線,以及該第二部件包含一感測信號處理器、一無線通信單元、一電源供應單元和一塑膠腔,該製造方法包含: 結合該感測模組、該金屬帽和該傳輸線; 固定該金屬線和該傳輸線於該塑膠腔; 在一第一模具中,利用一可撓性材料第一次包覆該第一部件;及 在一第二模具中,利用該可撓性材料包覆該第二部件以及第二次包覆該第一部件,其中該第二模具的腔室空間大於該第一模具的腔室空間; 其中該可撓性材料形成該無線監控裝置的外殼,該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。A method of manufacturing a wireless monitoring device for measuring information of a user's body, wherein the wireless monitoring device includes a first component and a second component, the first component including a sensor and a metal wire, the sensor The utility model comprises a metal cap, a sensing module and a transmission line, and the second component comprises a sensing signal processor, a wireless communication unit, a power supply unit and a plastic cavity, and the manufacturing method comprises: combining the sensing a module, the metal cap and the transmission line; fixing the metal wire and the transmission line in the plastic cavity; in a first mold, first covering the first component with a flexible material; and in a second In the mold, the second member is coated with the flexible material and the first member is coated a second time, wherein a chamber space of the second mold is larger than a chamber space of the first mold; wherein the flexibility The material forms a housing of the wireless monitoring device, the portion of the housing corresponding to the second component being sized larger than the portion of the housing corresponding to the first component, and the housing is in a meander shape. 如請求項16所述的製造方法,其中該可撓性材料包覆除該感測器的金屬帽外的第一部件,以及該可撓性材料包覆該塑膠腔的上蓋外的第二部件。The manufacturing method of claim 16, wherein the flexible material covers a first component other than the metal cap of the sensor, and the second component of the flexible material covering the upper cover of the plastic cavity . 如請求項16所述的製造方法,其中該第一模具具有一第一孔,且該第一孔使該感測器的金屬帽埋入;該第二模具具有一第二孔,且該第二孔使該感測器的金屬帽埋入。The manufacturing method of claim 16, wherein the first mold has a first hole, and the first hole embeds a metal cap of the sensor; the second mold has a second hole, and the first The two holes embed the metal cap of the sensor. 一種量測使用者身體的信息的無線監控裝置的製造方法,其中該無線監控裝置包含一第一部件和一第二部件,該第一部件包含一感測器和一金屬線,該感測器包含一金屬帽、一感測模組和一傳輸線,以及該第二部件包含一感測信號處理器、一無線通信單元、一電源供應單元和一塑膠腔,該製造方法包含: 結合該感測模組、該金屬帽和該傳輸線; 固定該金屬線和該傳輸線於該塑膠腔; 在一模具中,利用一可撓性材料第一次包覆該第一部件;及 在該模具中,利用該可撓性材料包覆該第二部件以及第二次包覆該第一部件; 其中該可撓性材料形成該無線監控裝置的外殼,該外殼對應該第二部件的部份的尺寸大於該外殼對應該第一部件的部份的尺寸,且該外殼為一蝌蚪形狀。A method of manufacturing a wireless monitoring device for measuring information of a user's body, wherein the wireless monitoring device includes a first component and a second component, the first component including a sensor and a metal wire, the sensor The utility model comprises a metal cap, a sensing module and a transmission line, and the second component comprises a sensing signal processor, a wireless communication unit, a power supply unit and a plastic cavity, and the manufacturing method comprises: combining the sensing a module, the metal cap and the transmission line; fixing the metal wire and the transmission line to the plastic cavity; in a mold, first covering the first component with a flexible material; and in the mold, utilizing The flexible material envelops the second component and covers the first component a second time; wherein the flexible material forms a housing of the wireless monitoring device, the housing corresponding to the second component having a size greater than the The outer casing corresponds to the size of the portion of the first component and the outer casing has a meandering shape. 如請求項19所述的製造方法,其中該模具具有一孔,且該孔使該感測器的金屬帽埋入,該可撓性材料包覆除該感測器的金屬帽外的第一部件,以及該可撓性材料包覆該塑膠腔的上蓋外的第二部件。The manufacturing method of claim 19, wherein the mold has a hole, and the hole embeds a metal cap of the sensor, the flexible material covering the first part of the metal cap of the sensor a component, and the second member of the flexible material covering the outer cover of the plastic cavity. 一種顯示使用者身體的信息的裝置,該裝置包含: 一處理器,用以接收一第一裝置所量測的該使用者身體的即時信息,接收一第二裝置在複數個預定時間點中的每一預定時間點所量測的該使用者身體對應該每一預定時間點的預定信息,以及根據一校正方程式,對應該每一預定時間點的預定信息,和該使用者身體對應該每一預定時間點的即時信息,產生該每一預定時間點的校正信息;及 一顯示器,用以顯示對應該使用者身體的即時信息的一第一曲線以及對應該複數個預定時間點的校正信息的一第二曲線。A device for displaying information of a user's body, the device comprising: a processor for receiving instant information of the user's body measured by a first device, receiving a second device at a plurality of predetermined time points The predetermined information of the user's body corresponding to each predetermined time point measured at each predetermined time point, and according to a correction equation, the predetermined information corresponding to each predetermined time point, and the user's body correspond to each Instant information at a predetermined time point, generating correction information for each predetermined time point; and a display for displaying a first curve corresponding to the instant information of the user's body and correction information corresponding to the plurality of predetermined time points A second curve. 如請求項21所述的裝置,其中該顯示器在該每一預定時間點後僅顯示該第二曲線。The device of claim 21, wherein the display displays only the second curve after each predetermined time point. 如請求項21所述的裝置,其中該顯示器在該每一預定時間點產生一醒目提示。The device of claim 21, wherein the display generates an eye-catching prompt at each predetermined time point. 一種一裝置顯示使用者身體的信息的方法,其中該裝置包含一處理器和一顯示器,該方法包含: 該處理器接收一第一裝置所量測的該使用者身體的即時信息和一第二裝置在複數個預定時間點中的每一預定時間點所量測的該使用者身體對應該每一預定時間點的預定信息; 該處理器根據一校正方程式,對應該每一預定時間點的預定信息,和該使用者身體對應該每一預定時間點的即時信息,產生該每一預定時間點的校正信息;及 該顯示器顯示對應該使用者身體的即時信息的一第一曲線以及對應該複數個預定時間點的校正信息的一第二曲線。A method for displaying information of a user's body, wherein the device comprises a processor and a display, the method comprising: the processor receiving an instant information of the user's body measured by a first device and a second The predetermined information of the user's body corresponding to each predetermined time point measured by the predetermined time point of the plurality of predetermined time points; the processor according to a correction equation, corresponding to each predetermined time point Information, and the user's body corresponds to the instant information of each predetermined time point, generating correction information for each predetermined time point; and the display displays a first curve corresponding to the user's body instant information and corresponding to the plural A second curve of the correction information at a predetermined time point. 如請求項24所述的方法,其中該顯示器在該每一預定時間點後僅顯示該第二曲線。The method of claim 24, wherein the display displays only the second curve after each predetermined time point. 如請求項24所述的方法,其中該顯示器接受一指令切換顯示該第一曲線和該第二曲線,或僅顯示該第二曲線。The method of claim 24, wherein the display accepts an instruction to switch to display the first curve and the second curve, or to display only the second curve. 如請求項24所述的方法,其中該顯示器在該每一預定時間點產生一醒目提示。The method of claim 24, wherein the display generates an eye-catching prompt at each predetermined time point.
TW106139151A 2016-11-13 2017-11-13 Wireless monitor apparatus for measuring information of a body of a user and manufacturing method thereof, and apparatus for displaying information of a body of a user and related method thereof TWI645385B (en)

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