TWM548453U - Smart clothing - Google Patents

Description

Smart clothes

The present invention relates to a smart suit, in particular to an elastic pressing zone which is only combined with the contour of the inner side wall portion of the back of the garment body through the joint portion, and the remaining portions are not connected, and the body of the garment does not need to be tightly compressed. Closely integrated with the user can effectively improve the stability and make the detected data more stable and accurate, especially in the case that the user can wear the loose and comfortable body of the garment in a comfortable and freely stretchable limb. Detect and obtain stable and accurate physiological signals at any time without causing inconvenience in life.

According to traditional wearable physiological detectors, such as heartbeat and heartbeat, there are various heart rate detectors, such as chest strap, chestless strap, Scosche Rhythm, or Mio Alpha. The physiological detector is worn on the subject to detect the physiological signal (such as heart rate, breathing or step counting) of the detected person, and uses the tension adjusting device to adjust the physiological detection according to the difference in the body shape of the detected person. The pressure of the component in contact with the skin is measured, thereby correctly detecting the physiological signal of the detected person. Although the wearable physiological detector controls the telescopic elastic binding force of the wearable physiological detector by the tension system, the micro-slip of the electrode piece is still generated during the motion detection, thereby causing noise or abnormal signals. Therefore, it is often necessary to apply a large fixing force to the electrode sheet, such as a wearable watch, an arm/chest belt type heartbeat belt, etc., to be worn tightly so that there is no relative movement between the electrode and the body, but it is detected. The tester will be uncomfortable, and in fact can not get a good signal or stable current stimulation (transcutaneous electrical nerve stimulation (TENS) or electric shock), but the pressure of the binding force will lead to the freedom of the subject to move. Degree is limited. Therefore, the wearable physiological detector used in the past cannot meet the needs of the user in actual use. In view of this, the creator of the case has proposed to set the detection module on the inner side of the back side of the garment, and use the back part which is not too often moved, so that the subject can be comfortably and freely active. The detection obtains a relatively stable and accurate physiological signal. However, this structural design needs to be mounted on tight clothing. The compression of the tight clothing allows the detection module to closely match the detected person to detect the physiological signal. Therefore, the structural design cannot be used in loose clothing. On the other hand, it is not suitable for the uncomfortable feeling that the back and waist of the body are not tight. Therefore, in order to improve the above-mentioned shortcomings, the creators of this case have devoted themselves to research and developed a "smart suit" to effectively improve the shortcomings of the application.

The main purpose of the present invention is to overcome the above problems encountered in the prior art and to provide a combination of the shoulder and the underarm joint of the inner side wall of the garment body by the elastic pressing zone, and the rest are not connected, so that the detection is The test module can be firmly contacted with the back skin of the user above the rib through an elastic pressing zone partially disposed on the inner side wall of the back side of the garment body, and can be closely fitted to the user without the characteristics of tight compression of the garment body. It can effectively improve the stability, and the back is also a part that does not move too often. With the help of the detection, the data can be more stable and accurate, so that the user can wear the loose and comfortable clothes body in comfort. In the case of freely stretching the limbs, it is possible to detect and obtain stable and accurate physiological signals at any time without causing inconvenience in life. For the purpose of the above, the present invention is a smart suit comprising: a garment body for the user to wear, and an attachment layer on the inner side wall of the garment body corresponding to the back position of the human body, the corresponding setting is An elastic V-shaped region is disposed between the inner side wall and the affixing layer, and an elastic pressing region is disposed between the inner side wall and the affixing layer. Forming and overlapping on the inner side wall, and forming a joint portion in the overlapping portion of the contour seam, and forming a gap between the elastic pressing portion and the attaching layer; at least one detecting module In combination with the adhesive layer and between the elastic pressing zone and the attaching layer, the detecting module is provided with a contact surface, and the contact surface is coupled under the attaching layer for detecting the a physiological signal of the user; a wireless transceiver disposed on the outer side of the body of the garment corresponding to the back of the human body for wireless communication to the detection module to receive and forward the physiological signal of the user; a server, and the wireless receiver The transmitter is connected to the computing unit, a physiological database, and a cloud communication unit, and the physiological database and the cloud communication unit are respectively connected to the computing unit, and the computing unit is configured to receive and analyze the physiological state of the user. The signal generates a different value range to present physiological information of the user to indicate its physiological state; and a mobile device that receives the physiological information with the server through the cloud communication unit, the mobile device having an application program therein ( The APP) morphologically loaded physiological state viewing program is configured to provide the user with the physiological information and to provide an alert message immediately when the physiological information is abnormal. In the above embodiment, the clothing system is composed of a conductive fiber structure, and the wireless transceiver can be disposed at any position of the clothing body to receive the detection module and be conducted by the conductive fiber structure. Physiological signal. In the above embodiment of the present creation, the wireless transceiver is any one of a Bluetooth, infrared or wireless network. In the above embodiment, the detection module is provided with an electrode sheet for detecting a physiological signal of the surface of the user's body, and the physiological signal includes body temperature, heartbeat, pulse, breath, posture, and number of steps. In the above embodiment, the detection module is provided with a microcontroller, and the microcontroller is connected to the electrode sheet to sense the change of the electrode sheet through the microcontroller. In the above embodiment, the attachment layer is provided with at least one aperture corresponding to the gap, and the contact surface of the detection module is exposed outside the aperture of the attachment layer. In the above embodiment of the present invention, the detecting module and the attaching layer are bonded or separated into a movable form by a fastening tape or a magnetic element. In the above embodiment of the present invention, the detecting module and the attaching layer are combined with each other by a stitch or an adhesive. In the above embodiment of the present invention, the elastic pressing zone extends from the inner side wall of the garment body around the neckline through the shoulders of both sides to the back and extends from the back to the lower midline of both sides. In the above embodiment of the present invention, the elastic pressurization zone profile may be an X-shaped, inverted V-shaped, or geometric profile. In the above embodiment of the present creation, the elastic pressurizing zone is made of an elastic material. In the above embodiment of the present creation, the elastic pressing zone is an elastic band, a polyurethane fiber, a rubber, a knitted fabric or a lycra. In the above embodiment of the present creation, the elastic pressurizing zone has a conductive material. In the above embodiment of the present invention, the conductive material comprises a conductive yarn or a combination of yarns having a conductive yarn. In the above embodiment of the present invention, the conductive yarn is a metal filament, a metal filament-containing material, a filament provided with a metal coating or a combination thereof, and is twisted, entangled, or wound by the conductive yarn and the textile yarn. mixture. In the above embodiment of the present invention, the outer side wall of the garment body corresponds to the position of the detecting module and the attaching layer, and a corresponding embossing embossing pattern is formed, so that the body of the garment constitutes an embossed three-dimensional embossing of the appearance. Printed by the visual person.

Please refer to FIG. 1 to FIG. 3 for a front view of a smart device according to a specific embodiment of the present invention, a schematic view of a smart device on the basis of a specific embodiment of the present invention, and a first embodiment of the present invention. A schematic cross-sectional view of the AA. As shown in the figure, the present invention is a smart suit 100 comprising a garment body 10, at least one detection module 20, a wireless transceiver 30, a server 40, and a mobile device 50. The above-mentioned garment body 10 is composed of a conductive fiber structure and can be worn by a user. An adhesive layer 11 is disposed on the inner side wall of the back of the garment body 10 corresponding to the back position of the human body, and is correspondingly disposed to extend downward from the lower side of the neckline of the inner side wall to an upper V-shaped portion above the rib, and the inner side wall An elastic pressing zone 12 is disposed between the adhesive layer 12 and the elastic pressing zone 12 is contoured on the inner side wall and overlaps the inner side wall, and forms a contour on the overlapping portions. a joint portion 13 , and a gap 14 is formed between the elastic pressing portion 12 and the attaching layer 11 , and the attaching layer 11 is provided with at least one window 111 corresponding to the gap 14 , and In this embodiment, the contact surface 21 of the detecting module 20 is exposed outside the window 111 of the attaching layer 11 and directly contacts the skin surface of the user; of course, the creation can be further implemented in the detecting module. The contact surface 21 of the 20 is in contact with the skin surface of the user in a layer of cloth for indirect contact, depending on the needs of the user. In addition, the back side of the garment body 10 has the inner side wall and the outer side wall corresponding to the inner side wall, and the outer side wall and the position corresponding to the detecting module 20 and the attaching layer 11 form a corresponding embossing pressure. The pattern print 15 (such as a wing, a flower, or a flowering plant, etc.) makes the body 10 of the garment constitute a embossed three-dimensional embossed impression of the appearance, and has both measurement and aesthetic effects. Wherein the elastic pressing zone is made of an elastic material such as an elastic band, a polyurethane fiber, a rubber, a knitted fabric or a lycra. Alternatively, the elastic pressurizing zone may comprise a conductive material, such as a mixture of conductive yarns or yarns having conductive yarns, and twisted, entangled, or wound with a non-conductive textile yarn. The conductive yarn may also be provided with a metal plating layer or a metal filament, a metal-containing filament material, or a metal-plated filament or a combination thereof. The detection module 20 is coupled to the attachment layer 11 and located between the elastic pressing zone 12 and the attachment layer 11. The detection module 20 is provided with a contact surface 21, and the contact surface 21 is Bonded to the underside of the attachment layer 11. The detecting module 20 can be waterproof, and can be stitched or glued to the fixed layer 11 to form a fixed form; and when the detecting module 20 is not waterproof, to avoid The cleaning of the detection module 20 during the cleaning of the clothing body 1 or the disconnection of the detection module 20 due to pulling, the detection module 20 and the attachment layer 11 can also be glued. The belt or the magnetic element is combined with each other or separated into a movable form, which facilitates removal of the detection module 20 from the garment body 10 when the garment body 10 is washed. The wireless transceiver 30 is any one of a Bluetooth, an infrared ray, or a wireless network. The embossed embossed pattern 15 on the back side of the body 1 can be formed into a shape such as a circle or a star. The wireless transceiver 30 is wirelessly connected to the detection module 20 and can be disposed at any position on the outer side wall of the back of the garment body 10; this embodiment is preferably positioned above the ribs. The server 40 is connected to the wireless transceiver 30, and includes an operation unit 41, a physiological database 42 and a cloud communication unit 43, and the physiological database 42 and the cloud communication unit 43 are respectively associated with the operation unit 41. connection. The mobile device 50 is connected to the server 40 through the cloud communication unit 43. The mobile device 50 has an application state (APP) form loading physiological state view program. If so, a new smart suit 100 is constructed by the above disclosed device. The outline of the elastic pressing zone 12 in the present invention may be an X-shaped, inverted V-shaped, or geometrically contoured type. In this embodiment, the X-shaped staggered contour type is taken as an example, and the elasticity of the X-shaped area distribution is obtained. The pressing zone 12 extends from the inner side wall of the garment body 10 around the neckline through the shoulders of both sides to the back and extends from the back to the lower midline of the lower side, and the shoulder line and the armpit of the inner side wall The contours of the center line are superposed and each of them forms a joint portion 13 through the seam. In addition, the detection module 20 of the present invention can be disposed at any position on the inner side wall of the back of the garment body 10 according to different contour patterns of the elastic pressing region 12, and the embodiment is preferably positioned above the ribs. . When the user wears the body 10 of the garment, the elastic pressing zone 12 is only combined with the shoulder and the underarm coupling portion 13 of the inner side wall of the back of the garment body 10, and the remaining portions are not connected, so that the detecting module 20 is The elastic pressing region 12 partially disposed on the inner side wall of the back surface of the garment body 10 can be stably contacted with the back skin of the user above the rib. The detecting module 20 is provided with a microcontroller 22, and a micro control The electrode 22 is connected to the electrode piece 23, and the electrode piece 23 can detect the physiological signal of the surface of the user body, including body temperature, heartbeat, pulse, breathing, posture (notification of standing, walking, sitting, and wrestling), and the number of steps. The change of the electrode sheet 23 is sensed by the microcontroller 22, and the physiological signal is transmitted to the wireless transceiver through the elastic pressing region 12 containing the conductive material, and the clothing body 1 formed by the conductive fiber structure is transmitted to the wireless transceiver. 30. The wireless transceiver 30 receives and forwards the physiological signal of the user to the server 40. The server 40 is a personal computer or an industrial computer (Central Processing Unit (CPU), a Micro Control Unit (MCU), or a Micro Processing Unit (MPU) equipped with a computing capability (Industrial) PC, IPC). The server 40 can receive the physiological signal of the user transmitted by the wireless transceiver 30 via the network, and the computing unit 41 analyzes the physiological signal of the user to generate different numerical ranges to present physiological information of the user. The physiological state is simultaneously uploaded to the mobile device 50 through the cloud communication unit 43. The mobile device 50 can be a notebook computer, a smart phone, a tablet computer, or a wearable device, and can be loaded through the physiological state view. a program for the user to view the physiological information, and immediately provide a warning message when the physiological information is abnormal, and further for the hospital to examine the physiological state of the user's body for reference, and to store the physiological information in the physiological database. 42. Therefore, the creation of the garment body 10 can be closely adhered to the user without the characteristics of tight compression, and the stability can be effectively improved, and the back portion is also relatively less moving. The detected data is more stable and accurate, so that the user can wear a loose and comfortable body 10 to detect and obtain stable and accurate physiological signals at any time without comfort and freely extending the limbs. It is inconvenient in life. In summary, this creation is a kind of smart clothes, which can effectively improve various shortcomings of the use. The elastic pressing zone is only combined with the shoulder and the underarm joint of the inner side wall of the back of the garment body, and the rest is not connected, so that the detection is made. The test module can be firmly contacted with the back skin of the user above the rib through an elastic pressing zone partially disposed on the inner side wall of the back side of the garment body, and can be closely fitted to the user without the characteristics of tight compression of the garment body. It can effectively improve the stability, and the back is also a part that does not move too often. With the help of the detection, the data can be more stable and accurate, so that the user can wear the loose and comfortable clothes body in comfort. In the case of free extension of physical activity, it is possible to detect and obtain stable and accurate physiological signals at any time without causing inconvenience in life, thereby making the creation of this creation more progressive, more practical and more user-friendly. It must meet the requirements of the new patent application and submit a patent application according to law. However, the above descriptions are only preferred embodiments of the present invention, and the scope of the present invention cannot be limited by this; therefore, the simple equivalent changes and modifications made by the scope of the patent application and the contents of the new manual are All should remain within the scope of this creation patent.

100‧‧‧Smart clothes
10‧‧‧ clothing body
11‧‧‧ Attachment
111‧‧‧ window hole
12‧‧‧Elastic compression zone
13‧‧‧Combination Department
14‧‧‧ gap
15‧‧‧Floating embossing
20‧‧‧Detection module
21‧‧‧Contact surface
22‧‧‧Microcontroller
23‧‧‧electrode
30‧‧‧Wireless transceiver
40‧‧‧Server
41‧‧‧ arithmetic unit
42‧‧‧Physical database
43‧‧‧Cloud Communication Unit
50‧‧‧ mobile devices

Fig. 1 is a front view of a smart suit of a specific embodiment of the present invention. Fig. 2 is a schematic view showing the back of a smart suit according to a specific embodiment of the present invention. Fig. 3 is a cross-sectional view taken along line A-A of Fig. 1 of a specific embodiment of the present invention.

100‧‧‧Smart clothes

10‧‧‧ clothing body

11‧‧‧ Attachment

111‧‧‧ window hole

12‧‧‧Elastic compression zone

13‧‧‧Combination Department

20‧‧‧Detection module

21‧‧‧Contact surface

22‧‧‧Microcontroller

23‧‧‧electrode

30‧‧‧Wireless transceiver

40‧‧‧Server

41‧‧‧ arithmetic unit

42‧‧‧Physical database

43‧‧‧Cloud Communication Unit

50‧‧‧ mobile devices

Claims (9)

A smart suit includes: a garment body for the user to wear, and an attachment layer on the inner side wall of the garment body corresponding to the back position of the human body, correspondingly disposed from the lower side of the neckline of the inner sidewall The lower portion extends to the upper portion of the rib and has an inverted V shape, and an elastic pressing portion is disposed between the inner side wall and the attachment layer, and the elastic pressing portion is coincident with the contour of the inner side wall portion and is stacked on the inner side wall. And forming a joint portion in the overlapping portion of the contour seam, and a gap is formed between the elastic pressing portion and the attaching layer; at least one detecting module is combined with the attaching layer and located Between the elastic pressing zone and the attaching layer, the detecting module is provided with a contact surface which is coupled under the attaching layer for detecting the physiological signal of the user; The device is disposed on the body of the garment corresponding to the outer side of the back of the human body, and is connected to the detecting module by wireless communication to receive and forward the physiological signal of the user; a server is connected to the wireless transceiver Connection, which includes a transport a unit, a physiological database, and a cloud communication unit, wherein the physiological database and the cloud communication unit are respectively connected to the computing unit, wherein the computing unit is configured to receive and analyze the physiological signal of the user to generate different numerical ranges for presentation. One of the user's physiological information indicates his physiological state; and a mobile device that receives the physiological information from the server through the cloud communication unit, the mobile device having an application (APP) form loaded physiological state The viewing program is configured to provide the user to view the physiological information, and provide a warning message immediately when the physiological information is abnormal. The smart clothing of claim 1, wherein the clothing system is composed of a conductive fiber structure, and the wireless transceiver can be disposed at any position of the clothing body to receive the detecting module. Physiological signals transmitted by conductive fiber structures. The smart device of claim 1, wherein the wireless transceiver is any one of a Bluetooth, infrared or wireless network. The smart device according to the first aspect of the patent application, wherein the detecting module is provided with an electrode piece for detecting a physiological signal of the surface of the user body, and the physiological signal includes body temperature, heartbeat, pulse, breathing, Posture, and number of steps. The smart device according to claim 4, wherein the detecting module is provided with a microcontroller, and the microcontroller is connected to the electrode chip to sense the electrode chip through the microcontroller. Change. According to the invention of claim 1, wherein the attachment layer is provided with at least one aperture corresponding to the gap, and the contact surface of the detection module is exposed to the attachment layer. Outside the window. According to the smart clothing of claim 1, wherein the detecting module and the attaching layer are bonded or separated into a movable form by a fastening tape or a magnetic element. According to the smart clothing of claim 1, wherein the detecting module and the attaching layer are combined with each other by stitching or adhesive. According to the invention as claimed in claim 1, wherein the elastic pressing zone extends from the inner side wall of the garment body around the neckline through the shoulders of both sides to the back and extends from the back to the sides of the body. Midline.