CN112022118A - Wearable intelligent device - Google Patents

Abstract

The invention discloses a wearable intelligent device, which comprises: a tight fitting garment to be fitted to a wearer's body; the sensors are distributed on the tight fitting clothes and used for collecting human body physiological signals of a wearer; the terminal equipment is detachably arranged on the tight-fitting clothes, and the plurality of sensors are connected with the terminal equipment through elastic leads and used for receiving human physiological signals collected on the sensors and transmitting the signals in a wireless or wired mode for human data analysis. According to the invention, the tight-fitting clothes which are not easy to shift and the stable electric connection and structural connection design of the terminal equipment and the tight-fitting clothes are adopted, so that the human body physiological signal acquisition is stably realized on the premise of ensuring the comfort level of the tight-fitting clothes.

Description

Wearable intelligent device

Technical Field

The invention relates to wearable equipment, in particular to wearable intelligent equipment.

Background

Wearable intelligent equipment is a general term for applying wearable technology to intelligently design daily wearing and develop wearable equipment, such as glasses, gloves, watches, clothes, shoes and the like.

The wearable intelligent equipment develops from the 20 th century 60 years to the present, has diversified forms, and gradually shows important research values and application potentials in various fields such as industry, medical treatment, military affairs, education, sports fitness, entertainment and the like. Wherein, on the wearing formula clothing product, need to tailor, splice and sew the fabrics that contact the human body to laminate in the wearing person health, so that gather human body data.

Some existing wearable garments can fit the body of the wearer to provide static acquisition of the wearer. The wearable device generally needs to be composed of sensors, a processor, an interactive interface and the like. For light-weight applications such as smart watches and smart bracelets, sensors, processors and interactive interfaces are all integrated in terminal equipment. And to more professional wearing formula medical product, for example provide blood pressure, rhythm of the heart, the monitoring and the processing of medical signs such as blood oxygen with professional scheme, the kind of sensor, quantity are numerous to need settle in human different positions, under some circumstances, need the data acquisition of continuous time quantum, and the sensor can be because the wearer moves, wearing formula clothing is because distortion is stretched and is shifted, leads to unable accurate human data collection, thereby appears gathering data and misses, can't gather the human data of motion state. In the prior art, by directly arranging the lead wire into the clothes, the clothes are uncomfortable to wear due to the lack of elasticity of the lead wire. Also there is technical scheme to adopt the mode that the conductor wire of buckling and elasticity glue combine, but the shortcoming is that the weight is heavy, walks the line width too wide, still can seriously influence the version and the experience of dress of clothes.

In addition, some devices, in order to maintain the stability of the electrical connection, the terminal device is fixed on the clothes, and is inconvenient to clean; some of the removable parts can be frequently removed, which results in unstable contact and disables some functions of the terminal equipment.

Disclosure of Invention

The embodiment of the invention provides the wearable intelligent equipment, solves the problems that the wearable clothes cannot meet continuous human body physiological signal acquisition and cannot meet the comfort level of the clothes in the prior art, and achieves the effect that the comfort level of the wearable clothes is not influenced on the basis of stably achieving continuous data acquisition.

The embodiment of the invention provides a wearable intelligent device, which comprises:

a tight fitting garment to be fitted to a wearer's body;

the sensors are distributed on the tight fitting clothes and used for collecting human body physiological signals of a wearer;

the terminal equipment is detachably arranged on the tights, each sensor is connected with the terminal equipment through an elastic lead, and the terminal equipment is used for receiving human physiological signals collected by each sensor, transmitting the signals in a wireless or wired mode and analyzing human data.

In some embodiments, the body suit comprises a front panel, a back panel, two sleeve panels and two underarm panels with elasticity; the front piece and the waist parts at two sides of the back piece are connected to form a body of the straitjacket, the two sleeve pieces are connected to the shoulders at two sides of the front piece and the back piece, the armpit parts of the sleeve pieces and the front piece and the back piece are connected through the armpit splicing pieces, and the sleeve pieces and the armpit splicing pieces form sleeves together.

In some embodiments, the splicing edges of the underarm panels with the front, back and sleeve panels are arcuate edges.

In some embodiments, the elasticity of the underarm panels is less than the elasticity of the front, back and two sleeve panels.

In some embodiments, the tightness of the sleeves is greater than the tightness of the bodysuit and the tightness of the lower hem of the bodysuit is greater than the tightness of the upper end of the bodysuit.

In some embodiments, the fabrics of the front piece, the back piece and the two sleeve pieces are knitted by multi-fiber composed of spinning, lyocell and lycra, and the underarm splicing pieces are made of breathable and water-absorbent mesh fabrics.

In some embodiments, the front side and/or the waist side of the body of.

In some embodiments, the opening and closing part is an inverted V-shaped opening, and the left chain belt and the right chain belt are respectively arranged on two sides of the inverted V-shaped opening; the reverse V-shaped split joint is arranged in the reverse V-shaped opening, and two sides of the reverse V-shaped opening are connected with two sides of the reverse V-shaped split joint.

In some embodiments, the fabric material of the inverted V-shaped splicing sheet adopts a mesh fabric which is breathable and absorbs water.

In some embodiments, the elastic lead comprises:

at least one elastic wire harness which is formed by weaving at least two elastic wires and interweaved along the length direction of the elastic wire harness to form a plurality of weave holes;

the conducting wire is pressed by the elastic wire and subjected to surface friction between the conducting wire and the elastic wire, so that the conducting wire is fixedly interwoven in the weaving holes and sequentially inserted in the weaving holes in a wave shape; and the wire is woven together with the elastic wire harness.

In some embodiments, a lead channel is arranged on the tight fitting garment along the splicing part and used for penetrating the elastic lead.

In some embodiments, the terminal device is detachably mounted on the tights through an electrical connection structure and is electrically connected with each sensor at the same time; the electric connection structure comprises a first connection part arranged on the terminal equipment and a second connection part arranged on the close-fitting clothes, and the first connection part and the second connection part are electrically and structurally connected through at least one buckle type electric connection structure.

In some embodiments, the snap-in electrical connection structure includes a metal male buckle and a metal female buckle, and the metal male buckle and the metal female buckle are detachably connected through a snap connection; the metal box is arranged on the first connecting part, the metal male buckle is arranged on the second connecting part, or the metal box is arranged on the second connecting part, and the metal male buckle is arranged on the first connecting part.

In some embodiments, the metal pin comprises a large diameter part and a small diameter part which are coaxially arranged, and a position limiting part is formed at the joint of the large diameter part and the small diameter part; the metal female buckle comprises a slotted hole, and a convex part is arranged in the slotted hole; the metal male buckle is inserted into the slotted hole of the metal female buckle, the protruding portion is clamped on the limiting portion to achieve connection, and the metal female buckle is in contact with the metal male buckle to achieve electric connection.

In some embodiments, the protrusions are two protrusions oppositely disposed on the inner wall of the slot.

In some embodiments, the elastic leads include a first lead connecting the metal pin and the sensor on the terminal device/the compression garment, a power supply, and a second lead connecting the metal box and the sensor on the compression garment, the power supply/the terminal device.

In some embodiments, the first wire is connected with the metal female buckle to realize electrical connection; the second lead is connected with the metal male buckle to realize electric connection; and when the limiting part of the metal male buckle is in limiting connection with the protruding part of the metal female buckle, the metal male buckle is always electrically connected.

In some embodiments, at least one direct electrical connection structure is further disposed between the first connection portion and the second connection portion.

In some embodiments, the direct electrical connection structure is a thimble electrical connection structure; the thimble electric connection structure comprises a needle head and a contact; the needle head is arranged on the first connecting part, the contact is arranged on the second connecting part, or the needle head is arranged on the second connecting part, and the contact is arranged on the first connecting part; when the first connecting part is connected with the second connecting part through the buckle type electric connection structure, the needle head is contacted with the contact to realize electric connection.

In some embodiments, the needle is electrically connected with the terminal device, and the contact is electrically connected with a sensor and a power supply on the tight clothes; or the needle head is electrically connected with the sensor and the power supply on the tight fitting clothes, and the contact is electrically connected with the terminal equipment.

In some embodiments, a fool-proof structure is disposed between the second connecting portion and the first connecting portion, the fool-proof structure is a first chamfered edge disposed on the first connecting portion, a second chamfered edge disposed on the second connecting portion, and the first chamfered edge and the second chamfered edge have the same inclination direction.

The wearable intelligent device provided by the embodiment of the invention at least has one of the following technical effects:

1. the wearable intelligent device comprises a wearable intelligent device, a wearable garment and a terminal device, wherein the wearable intelligent device comprises a body fitting garment, the terminal device comprises a sensor and a plurality of elastic leads, the sensor is used for collecting human body physiological signals of a wearer, the elastic leads are used for collecting the collected human body physiological signals to the terminal device, and the sensor is fixed through the body fitting garment. The complete wearable intelligent equipment scheme provided by the invention realizes professional wearable medical products in a close-fitting style, and is used for monitoring and processing medical signs such as blood pressure, heart rate, blood oxygen and the like;

2. according to the invention, the guide line channel is arranged on the inner surface of the tights and is used for penetrating the elastic guide line, so that on the basis that the elastic guide line is stretched and twisted along with the tights, the elastic guide line is prevented from being exposed on the inner surface to influence the aesthetic quality, and the aesthetic requirement of the tights is met;

3. according to the invention, the inverted V-shaped opening and closing part is arranged on the tights, the zipper is arranged on the opening and closing part, and the transverse size of the tights is adjusted by opening or closing the zipper, so that the tights can be conveniently put on or taken off;

4. the armpit splicing pieces are additionally arranged at the armpit positions of the sleeves and the tights main body, so that allowance is provided for armpit extension, after a wearer wears the tights, the sleeves can firstly drag the armpit splicing pieces when the arms of the wearer are randomly placed, the armpit splicing pieces deform to buffer, and the tights body is prevented from being directly dragged, so that the tights body is prevented from being stretched and displaced, the tights effect is ensured, and the tights are not influenced by movement;

5. according to the invention, at least one buckle type electric connection structure is adopted to realize electric connection and structural connection between the first connection part on the terminal equipment and the second connection part on the close-fitting clothes, so that the problem that the connection is easy to fall off when the terminal equipment is installed on the close-fitting clothes is effectively solved, and the first connection part and the second connection part are effectively ensured to be always fixedly connected under a certain acting force through the buckle type electric connection structure, so that the structure falling off is avoided when the terminal equipment works, and the firm and stable connection of the structure is realized, and meanwhile, the electric connection is firm and stable.

6. The buckle type electric connection structure comprises a metal male buckle and a metal female buckle, wherein the metal male buckle and the metal female buckle are respectively arranged on one of a first connection part and a second connection part, and the metal male buckle and the metal female buckle are connected in a detachable mode through the buckle; the problem of fixing inconvenient abluent on the close-fitting clothing when terminal equipment is effectively solved, and then make things convenient for the wearer to install terminal equipment as required, make the close-fitting clothing can regard as ordinary clothing to use when not using terminal equipment, expanded the practicality of close-fitting clothing.

Drawings

Fig. 1 is a schematic structural diagram of a wearable device in an embodiment of the invention;

figure 2 is a schematic view of the construction of a compression garment according to the invention;

FIG. 3 is a schematic view of a first connecting portion of the electrical connection structure according to the embodiment of the present invention;

FIG. 4 is a schematic diagram of a second connecting portion of the electrical connection structure according to the embodiment of the invention;

FIG. 5 is a cross-sectional view of a snap-in electrical connection in an embodiment of the present invention;

FIG. 6 is a schematic diagram of an embodiment of an elastic lead.

Reference numerals: the tight fitting garment 100, the terminal device 200, the sensor 300, the elastic lead 400, the lead channel 110, the opening and closing part 120, the front piece 131, the sleeve piece 132, the armpit piece 133, the left chain belt 134, the right chain belt 135, the pull head 136, the inverted-V-shaped piece 137, the first connecting part 210, the metal female buckle 211, the slotted hole 212, the protruding part 213, the needle 214, the second connecting part 220, the metal male buckle 221, the large-diameter part 222, the small-diameter part 223, the limiting part 224, the contact 225, the metal lead 410 and the elastic wiring harness 420.

Detailed Description

The present invention will be described in more detail below with reference to the accompanying drawings, which illustrate embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In the drawings, the size and relative sizes of layers and regions may be exaggerated for clarity.

Referring to fig. 1-6, the present invention provides a wearable smart device comprising a bodysuit 100, a terminal device, and a number of sensors 300; the compression garment 100 is for fitting to the body of a wearer; the sensors are distributed on the tight-fitting garment 100 and used for collecting human physiological signals at various positions of a wearer; the terminal equipment is detachably arranged on the tight-fitting clothes 100, each sensor is connected with the terminal equipment through an elastic lead, and the terminal equipment is used for receiving human physiological signals collected on the sensors and transmitting the signals in a wireless or wired mode so as to analyze human data.

The wearable intelligent device comprises a wearable intelligent device, a wearable garment and a terminal device, wherein the wearable intelligent device comprises a body fitting garment, the terminal device comprises a sensor and a plurality of elastic leads, the sensor is used for collecting human body physiological signals of a wearer, the elastic leads are used for collecting the collected human body physiological signals to the terminal device, and the sensor is fixed through the body fitting garment. The complete wearable intelligent equipment scheme provided by the invention realizes professional wearable medical products in a close-fitting style, and is used for monitoring and processing medical signs such as blood pressure, heart rate, blood oxygen and the like.

In this embodiment, as shown in fig. 2, the compression garment 100 includes a front panel 131 having elasticity, a rear panel, two sleeve panels 132, and two underarm panels 133. The front piece 131 and the waist parts at two sides of the rear piece are connected to form a body of the tight fitting garment, the two sleeve pieces 132 are connected with the shoulders at two sides of the front piece 131 and the rear piece, the armpit splicing pieces 133 are connected with the armpit parts of the sleeve pieces 132 and the body of the tight fitting garment to form sleeves, and the armpit splicing pieces 133 are connected with the lower parts of two armpits of the front piece 131 and the rear piece. According to the invention, the axilla splicing pieces are additionally arranged at the axilla positions of the sleeves and the tights main body, so that allowance is provided for axilla extension, after the tights are worn, when the arms of a wearer are randomly placed, the sleeves can firstly drag the axilla splicing pieces, the axilla splicing pieces deform to buffer, and the tights are prevented from being directly dragged, so that the tights body is stretched and shifted, the tights effect is ensured, and the tights are not influenced by movement. In addition, the sleeve pieces and the armpit splicing pieces are connected to form the sleeve, so that the sleeve-armpit integrated splicing pieces replace the traditional sleeve side seam and front and rear piece side seam splicing, and discomfort caused by redundant splicing seams is avoided. Of course, the specific structure of the tight fitting garment 100 in other embodiments is not limited to the above, and may be adjusted according to specific situations.

In this embodiment, the splicing edges of the underarm panels 133 and the front panel 131, the rear panel and the sleeve panel 132 are arc-shaped to make the underarm panels 133 fit to the underarm of the wearer, so that when the corset is worn, the underarm is completely flat to the lateral chest, and the arc splicing is stronger than the vertical splicing fitting.

Specifically, the two side edges of the armpit splicing piece 133 connected with the front piece 131, the rear piece and the sleeve piece 132 are provided with arc edges protruding towards the front piece 131, the rear piece and the sleeve piece 132, and the joints of the front piece 131, the rear piece 22 and the sleeve piece 132 and the armpit splicing piece 133 are in an inwards concave arc shape, so that after the components are connected, a three-dimensional cutting effect is achieved, and the armpit splicing piece conforms to the human body structure of a wearer. Further, the preferred underarm tiles 133 are drop-shaped when unfolded; this structure type of the underarm panels 133 allows the underarm panels 133 to be in a stacked state when the wearer does not move his arms, and allows the underarm panels 133 to be deformed and unfolded when the wearer swings his arms, thereby preventing the displacement of the bodysuit. Of course, in other embodiments, the specific configuration of the underarm tiles 133 can be adjusted according to specific situations, and is not limited herein.

In this embodiment, the elasticity of the underarm panels 133 is less than the elasticity of the front panel 131, the rear panel and the two sleeve panels 132. Specifically, the underarm tiles 133 are thinner than the body fabric of the tights main body, are not heavy, and are smaller in elasticity than the bodice fabric, so that the variability is reduced, and the underarm tiles can play better buffering and stabilizing effects after being spliced with the tights main body fabric, so that the shift amount generated by the clothes during the movement of the arms and the bodice is reduced, and a good promoting effect is achieved on the stability of the tights effect.

In this embodiment, the tightness of the sleeves is greater than the tightness of the tight fitting main body, and when the tight fitting main body is closely fitted to the body contact part, the sleeves are further closely fitted to the arms, so that the displacement of the tight fitting main body is reduced when the wearer moves.

In this embodiment, the lower hem tightness of the tight body is greater than the upper end tightness of the tight body, so that the design is favorable for further preventing the tight body of the wearer from displacing in the movement process, and the tight effect is ensured. Wherein the tightness can be adjusted by adjusting the size.

In this embodiment, the body of the tight fitting garment has a lateral dimension smaller than the dimension of the contact portion of the wearer before being worn; preferably, the body of the compression garment has a transverse dimension before being worn of less than 10 cm of the dimension of the body contact portion of the wearer, thereby facilitating a close fit of the body of the compression garment to the body contact portion of the wearer. Of course, the size difference between the lateral direction of the tight fitting main body before being worn and the body contact part of the wearer is not limited to 10 cm and can be adjusted according to specific situations, and the size difference is not limited to ensure that the tight fitting main body fits the body contact part of the wearer and conforms to the comfort of the wearer.

In this embodiment, the body of the compression garment has a radial elasticity less than the lateral elasticity of the body of the compression garment. The design is when improving the comfort level like this, and the person's of being convenient for shape changes, and reinforcing wearing person switches and the buffer nature under different posture, improves the inclusion of different statures size. For example, the tights body in this example has a radial elasticity less than the lateral elasticity of the garment body, so that the tights body comfort is improved while the application range of the tights of this example is expanded, for example, the tights can be worn by being enlarged or reduced.

Further, the preferred body of the tight is 1.5 times as elastic in the transverse direction as the body of the tight in the radial direction; of course, in other embodiments, the elasticity difference may also be adjusted according to specific needs, and is not limited herein.

In this embodiment, the front panel 131, the back panel, and the two sleeve panels 132 are made of multi-fiber knitted fabric. Specifically, the multi-fiber knitted fabric composed of spun yarn, lyocell and lycra, for example, the multi-fiber knitted fabric composed of 14% spun yarn, 76% lyocell and 10% lycra, is adopted, so that the front panel 131, the rear panel and the two sleeve panels 132 have the air permeability of the spun yarn material, the characteristics of environmental protection, pilling resistance, small shrinkage, static electricity resistance, allergy resistance, softness, wear resistance and the like of the lyocell material, and the characteristics of comfort, corset feeling, free movement, long-term shape retention, long service life and the like of the lyocell material. Therefore, the front panel 131, the rear panel, and the sleeve panels 132 have soft comfort, elasticity, and skin-friendliness when worn for a long time, and satisfy the characteristics of water washing resistance and abrasion resistance.

In this embodiment, the underarm tiles 133 are made of a breathable and water-absorbent mesh fabric; the specific underarm tiles 133 are 75D polyester-spandex dot nets composed of polyester and spandex, and the polyester has high strength and elastic recovery capability, high wear resistance, high wrinkle resistance, high heat resistance, high light resistance, high air permeability and high moisture absorption and quick drying performance. For example, the 75D polyester-spandex dot subnet consisting of 90% of polyester and 10% of spandex enables the underarm splicing piece to have the characteristics of high elasticity, high heat resistance, high light resistance, high wear resistance and high oxidation resistance of polyester fabric, and has the characteristics of high elasticity, high water absorption, static resistance, wrinkle resistance and high comfort of spandex fabric.

In this embodiment, in order to make each splicing part adapt to the elasticity of the tight fitting garment of this embodiment when the tight fitting garment is worn, the overedged threads at the splicing parts of the front panel 131, the rear panel, the two sleeve panels 132 and the two underarm splicing panels 133 in this embodiment are connected by using stitches with elasticity, for example, using three-needle five-thread or four-needle six-thread; the three-needle five-stitch or four-needle six-stitch does not affect the extensibility, the board shape, the size and the structural combination of the tights in the embodiment, so that the tights can be tightly fitted and fixed on the body contact part of a wearer without pressure after being worn by the wearer. Preferably, four-needle six-thread splicing seams are adopted, the four-needle six-thread is a special high-elasticity thread of a professional tight-fitting garment, the elasticity of the fabric can be achieved, the four-needle six-thread is in a left-right splicing mode, the back side is flat and has no splicing seams, the state is close to a naked state, and the ultrahigh comfort level of a human body is achieved.

In this embodiment, referring to fig. 2 again, the middle part of the front side of the body of the tights is provided with an inverted V-shaped opening, and the inverted V-shaped opening forms an opening and closing part; a zipper is arranged on the inverted V-shaped opening and comprises a left zipper belt 134, a right zipper belt 135 and a slider 136; the left chain belt 134 and the right chain belt 135 are respectively arranged on two side edges of the inverted V-shaped opening, and the left chain belt 134 and the right chain belt 135 are opened and closed by pulling the pull head 136, so that the inverted V-shaped opening is opened and closed, and the tightness of the tight-fitting garment body in the transverse direction is adjusted.

Further, still the concatenation has the shape of falling V piece 137 in the shape of falling V opening, and the shape of falling V piece 137 is triangle-shaped, and its both sides limit is connected with the both sides limit of the shape of falling V opening respectively, and this embodiment is through adding the piece of establishing in the shape of falling V opening for when opening the zip fastener, the shape of falling V piece 137 can shelter from wearer's health, avoids exposing.

Furthermore, the inverted V-shaped splicing pieces 137 adopt mesh fabrics which are breathable and water-absorbing, so that a wearer can wear the fabric more comfortably and breathable; preferably, the inverted V-shaped tiles 137 are 75D polyester dot nets, although other mesh fabrics can be used in other embodiments, and can be selected according to specific needs, and are not limited herein.

According to the invention, the connection between the left chain belt and the right chain belt is realized by pulling the pull head, so that the size of the body of the tight-fitting garment is shrunk in the transverse direction, and the tight-fitting effect is achieved; when the user needs to put on or take off, the pull head is pulled to separate the left chain belt from the right chain belt, so that the size of the body of the tight fitting garment is enlarged in the transverse direction, and the user can conveniently put on or take off the tight fitting garment. Of course, in other embodiments, the zipper disposed in the inverted V shape may be disposed at the waist side of the body of the tights, the inverted V-shaped panels 137 may not be disposed in the inverted V-shaped openings, the corresponding positions of the zipper may not be provided with the V-shaped openings, and the like, which are not limited herein, and the forming manner of the opening and closing portion can be adjusted according to specific needs.

In the present embodiment, referring to fig. 1 and 3 to 5, the terminal device is mounted on the tight fitting garment 100 through an electrical connection structure and is electrically connected to the sensor 300 at the same time; the electrical connection structure includes a first connection part 210 provided on the terminal device 200 and a second connection part 220 provided on the bodysuit 100; the first connection portion 210 and the second connection portion 220 are electrically and structurally connected to each other through at least one snap-in electrical connection structure. According to the electric connection structure provided by the embodiment, the electric connection is realized and the structural connection is realized at the same time through the buckling connection between the first connection part 210 and the second connection part 220, so that the firmness and the stability of the electric connection between the first connection part and the second connection part are ensured, and the terminal equipment is prevented from falling off from the human body data acquisition clothes, so that the data acquisition is influenced; in addition, the buckle type electric connection structure is convenient to disassemble and assemble, and terminal equipment is convenient to disassemble and assemble.

In this embodiment, the snap-in electrical connection structure includes a metal male buckle 221 and a metal female buckle 211, and the metal male buckle 221 and the metal female buckle 211 are detachably connected through a snap connection; in this embodiment, the metal female buckle 211 is disposed on the first connecting portion 210, and the metal male buckle 221 is disposed on the second connecting portion 220, as shown in fig. 1-2, of course, in other embodiments, the metal female buckle 211 may be disposed on the second connecting portion 220, and the metal male buckle 221 may be disposed on the first connecting portion 210, which is not limited herein and may be selected according to specific needs.

Further, as shown in fig. 3 and 5, the metal pin 221 includes a large diameter portion 222 and a small diameter portion 223 coaxially disposed, the small diameter portion 223 is fixedly mounted on the second connecting portion 220, and a step-shaped limiting portion 224 is formed at a junction of the large diameter portion 222 and the small diameter portion; the metal female buckle 211 is fixedly installed on the first connection portion 210, a slot 212 is formed in one side, facing the second connection portion 200, of the metal female buckle 211, as shown in fig. 4, a protruding portion 213 is formed in the inner side wall of the slot 212, the protruding portion 213 is of an elastic structure, when the metal male buckle 221 is inserted into the slot 212, the large-diameter portion 222 contacts with the protruding portion 213 and compresses the protruding portion 213, and after the large-diameter portion 222 crosses the protruding portion 213, the protruding portion 213 is restored to be clamped into the limiting portion 224 at the connection position of the large-diameter portion 222 and the small-diameter portion 223 under the elastic action to achieve limiting connection.

Wherein, the inner side wall of the preferred slot 212 is provided with two protrusions 213, and the two protrusions 213 are symmetrically arranged, so that the protrusion 213 is locked into the position-limiting portion 224, and the metal male buckle 221 and the metal female buckle 211 are stably and firmly connected. Of course, in other embodiments, the number of the protrusions 213 in the slot 212 may be one or more, which is not limited herein and can be adjusted according to specific needs.

The protrusion 213 may be a spring structure, or a protrusion connected to the inner wall of the slot 212 through an elastic member, and the specific structure of the protrusion 213 with elasticity may be designed according to specific requirements, and is not limited herein.

The metal male buckle and the metal female buckle are simple in structure, convenient to operate and convenient to disassemble and assemble; of course, in other embodiments, the specific structural form of the metal male buckle and the metal female buckle is not limited to the above, and may be adjusted according to specific situations, for example, the metal male buckle 221 may also be directly a cylinder or a sphere with an inner concave portion (i.e. forming a limiting portion) on a side wall, and is not limited herein.

In this embodiment, the first connection portion 210 is connected to a first wire connected to a terminal device, and the second connection portion 220 is connected to a second wire connected to a sensor/power source of the human body data collecting garment.

Further, the first conductive wire is connected to the metal female buckle 211 to realize the electrical connection between the first conductive wire and the metal female buckle 211; the second wire is connected to the metal male buckle 221 to realize the electrical connection between the second wire and the metal male buckle 221; after the metal female buckle 211 is connected with the metal male buckle 221, the metal male buckle 221 is inserted into the slot 212 of the metal female buckle 211, and the metal female buckle and the metal male buckle are contacted to realize stable electrical connection, specifically, the metal male buckle 221 can be contacted to realize electrical connection between the protruding portion 213 and the limiting portion 224, or the metal male buckle 221 can be contacted to realize electrical connection between the large-diameter portion 222 and the bottom of the slot, and the contact position of the metal female buckle 211 and the metal male buckle 221 for realizing electrical connection can be selected according to specific needs, and is not limited here.

Further, the first conducting wire and the second conducting wire are signal wires or power wires. The signal line is used for transmitting data signals between a sensor on the human body data acquisition clothes and the terminal equipment, such as: electrocardio signals; the power cord is used for providing power supply connection between a power supply on the human body data acquisition clothes and the terminal equipment, for example, the power supply supplies power to the terminal equipment.

Furthermore, the connection mode of the first wire and the second wire with the first connection portion and the second connection portion may be one or more of press fit, welding, gluing, and the like.

In this embodiment, the second connecting portion 220 is made of a soft material having softness, toughness and thickness. Because the second connecting part is fixed on the human body data acquisition clothes, soft materials are preferably adopted to ensure the comfort of a wearer, facilitate the cleaning of the human body data acquisition clothes and the like. Moreover, when the equipment is installed, the soft material has certain toughness, so that certain error margin can be tolerated during alignment, and the installation is more convenient. In addition, the soft material also provides a heat insulation effect, so that the heat generation of the equipment does not influence the comfort of a human body.

Further, the metal male buckle 221 is embedded in the soft material to realize fixation.

Further, the second connecting portion 220 is made of cowhide. The cow hide material has better thermal-insulated function for terminal equipment generates heat and can not influence human comfort, and simultaneously, its flexibility and toughness provide certain error margin when the assembly, thereby make the installation more convenient, and simultaneously, the fastness and the durability of cow hide are than better. Of course, in other embodiments, the material of the second connecting portion 220 can be selected according to specific requirements.

In this embodiment, the first connecting portion 210 is made of a hard material, wherein the first connecting portion 210 may be directly an end surface of the terminal device. In an embodiment, a plurality of metal female buckles 211 are fixedly arranged on the first connecting portion 210, and further, a plurality of metal female buckles 211 are embedded in the hard material, and the metal female buckles 211 are connected with signal lines/power lines on the terminal equipment one by one. In one embodiment, the metal female clasp 211 is soldered directly to the circuit board of the terminal device.

In this embodiment, at least one direct electrical connection structure is further disposed between the first connection portion 210 and the second connection portion 220. Compared with the buckle type electric connection structure, the direct type electric connection structure directly forms electric connection when in contact.

Specifically, the direct electric connection structure adopts a thimble electric connection structure; the thimble electric connection structure comprises a needle head 214 and a contact 225; in this embodiment, the needle 214 is disposed on the first connection portion 210, and the contact 225 is disposed on the second connection portion 220, but in other embodiments, the needle 214 may be disposed on the second connection portion 220, and the contact 225 may be disposed on the first connection portion 210, which may be selected according to specific needs, and is not limited herein. Of course, when the first connecting portion 210 and the second connecting portion 220 are connected by the snap-in type electrical connection structure, the needle 214 contacts with the contact 225 to form an electrical connection; under the prerequisite of buckle formula electric connection structure fixed connection, thimble electric connection structure is stressed, guarantees that the electricity is connected well.

Further, the needle 214 is electrically connected with the terminal device, the contact 225 is electrically connected with the sensor and the power supply on the human body data acquisition garment, or the needle 214 is electrically connected with the sensor and the power supply on the human body data acquisition garment, and the contact 225 is electrically connected with the terminal device. Specifically, the needle 214 is electrically connected with the terminal device through a first wire, and the contact 225 is electrically connected with a sensor on the human body data acquisition garment through a second wire; or the needle 214 is electrically connected with the sensor on the human body data acquisition clothes through a second wire, and the contact 225 is electrically connected with the terminal equipment through a first wire. The above-mentioned components can be selected according to specific needs, and are not limited herein.

In this embodiment, the first connection portion 210 and the second connection portion 220 are structurally and electrically connected through a plurality of pin electrical connection structures and a plurality of snap-in electrical connection structures, and the specific number and the layout mode thereof can be selected according to specific situations.

Preferably, a plurality of buckle type electric connection structures are arranged around each thimble electric connection structure. Because the part adopts buckle formula electrical connection structure, and the mode that the part adopted thimble electrical connection structure, rational arrangement and collocation have guaranteed buckle formula electrical connection structure and thimble electrical connection structure's reliability when guaranteeing that equipment is firmly fixed. Meanwhile, under the condition of the same total number of connections, the number of the buckle type electric connection structures is reduced through the thimble electric connection structure, so that the convenience of equipment installation is improved.

In the present embodiment, the surface of the snap-in electrical connection structure and/or the direct electrical connection structure is plated with an anti-oxidation layer. Oxidation resistance is provided by plating an oxidation resistant layer that can withstand repeated washing, such as plating nickel on the electrical connector.

In this embodiment, a fool-proof structure is disposed between the second connection portion 220 and the first connection portion 210 for increasing guidance for installation of the terminal device, so as to guide installation of the first connection portion 210 and the second connection portion 220.

Further, the fool-proof structure is a first chamfered edge disposed on the first connecting portion 210, and a second chamfered edge disposed on the second connecting portion 220, and the first chamfered edge and the second chamfered edge have the same inclination direction. When the first connecting portion 210 is connected with the second connecting portion 220, the first chamfered edge and the second chamfered edge are aligned, so that a guiding function is achieved, and the second connecting portion 220 is prevented from being misaligned with the first connecting portion 210. Of course, in other embodiments, the specific structural form of the fool-proof structure is not limited to the above, and may be selected according to specific situations, and is not limited herein.

In this embodiment, the second conductive wire is an elastic conductive wire 400, and is secretly disposed on the tights 100, one end of the second conductive wire is connected to each sensor 300 on the tights, and the other end of the second conductive wire is connected to the electrical connection structure, so as to transmit the human physiological signals collected by the sensors 300 to the terminal device.

Further, a lead channel 110 is arranged at the splicing position of the upper edge of the tights 100 and is used for penetrating the elastic lead 400, and then the elastic lead 400 is gathered from the sensor 300 to the terminal equipment. The wire passage 110 is used for passing through the elastic wire 400, so that on the basis that the elastic wire 400 is stretched and twisted along with the tights 100, the elastic wire 400 is prevented from being exposed on the inner surface, the aesthetic feeling is affected, and the aesthetic requirement of the tights 100 is met.

In this embodiment, the elastic wire 400 includes at least one elastic strand 420 and a metal wire 410, each elastic strand 420 is woven by at least two elastic threads and is interwoven along the length direction thereof to form a plurality of weave holes, the metal wire 410 is inserted into the weave holes in a wave shape, and the metal wire 410 and the elastic strand 420 are woven together.

In the present embodiment, the metal wire 410 and the elastic thread bundle 420 are woven together by a knitting machine, specifically, the elastic thread is interwoven into the elastic thread bundle by the knitting machine, and the wire is simultaneously interwoven into the elastic thread, so that the wire is selectively fixedly interwoven into weave holes of the elastic thread bundle along the length direction according to preset parameters of the knitting machine, and sequentially passes through the selected weave holes in a wave-shaped structure.

For example, in the knitting process, the knitting machine continuously weaves a plurality of elastic threads into an elastic thread bundle 420 while bending the metal wire 410, and when the bent metal wire 410 passes through the knitted elastic threads, the elastic threads are weaved around the wire to directly form a weave eye for accommodating the metal wire 410; and the elastic line tightens the insulating skin on the surface of the wire, and the surface of the insulating skin is depressed under pressure to form a tightening mark, so that the elastic line can tighten the insulating skin embedded into the wire. The wire in the embodiment is subjected to the embedded pressure and the surface friction force between the wire and the elastic line, so that the wire is fixed in the weaving hole and is not easy to slide, the wire is made to have a structure of sequentially bending and penetrating through the weaving hole interwoven by the elastic line, and the wire is circularly bent and penetrated through the weaving hole, so that the wire is completely interwoven to the elastic wire harness.

For another example, in the knitting process of the knitting machine, after the elastic threads are stretched to a predetermined extension length according to the preset elastic parameter requirement, the metal wire 410 is directly interwoven with the elastic threads, the elastic threads are tightly tied on the insulating surface of the metal wire 410, and the metal wire 410 is fixed through pressure and friction force; after weaving is completed, the entire elastic wire is loosened, and the metal wire 410 is pulled to be waved under the restoring action of the elastic force of the elastic thread bundle.

Of course, in other embodiments, the weaving manner between the metal wires 410 and the elastic wires is not limited to the above, and may be selected according to specific situations, and is not limited herein. The elastic wire in the embodiment is woven by the wire and the elastic wire, and the embodiment does not adopt similar glue or other modes to realize fixed connection, so that stable fixed connection formed by the elastic wire and the self characteristics and the structure of the wire is utilized in the embodiment, thereby simplifying the production process and reducing the production cost.

In this embodiment, the stretching elasticity of the elastic wire formed by weaving can be adjusted by adjusting the wave pitch of the wavy wire (i.e. the distance between adjacent woven eyes of the wire on the elastic wire harness), the number of waves, and other factors; for example, the smaller the wave pitch, i.e., the tighter the wave shape, the longer the elastic stretch distance, the better the elasticity, and the larger the wave pitch, i.e., the more sparse the wave shape, the less the elastic stretch distance, and the less elasticity. Therefore, the invention can adjust the relevant parameters in the weaving process to adjust the stretching degree of the whole elastic lead, thereby reducing the design and production cost and improving the flexibility of the elastic requirement.

In this embodiment, the elastic wire harness includes a plurality of elastic wire harnesses 420, the plurality of elastic wire harnesses are arranged in parallel, and the metal wire 410 is inserted into the plurality of elastic wire harnesses 420 in a wave shape.

Further, as shown in fig. 6, the elastic strands 420 in the present embodiment are three strands, and the three strands 420 are respectively located at the top, middle and bottom in the width direction of the wavy structure of the metal wire 410. The three elastic strands 420 make the structure of the formed elastic lead 10 more stable than one elastic strand 420.

Further, the metal wire 410 and the three elastic strands 420 are located on the same plane, so that the elastic wire 10 of the present embodiment is flat; the flat elastic lead 10 is more suitable for being arranged on the wearable clothes, has a traceless effect, is convenient to be connected into the wearable clothes while improving the stability of the elastic lead 10, and improves the comfort of the wearable clothes.

Further, in some embodiments, the elastic strands 420 may be only one strand, and the elastic strands 420 are located at the middle position of the wavy structure of the metal wire 410 in the width direction.

Of course, in other embodiments, the specific number of the elastic strands 420 may be adjusted according to specific situations, and may be one strand, two strands, or more than two strands, which is not limited herein, and the more the number of strands is, the more stable the elastic strands are.

In this embodiment, the metal wire 410 is a copper wire or a stainless steel wire, and the copper wire or the stainless steel wire has the advantages of low cost and the like on the basis of ensuring the electric conduction, so that the product cost is effectively reduced. Of course, in other embodiments, the metal wire 410 is made of other metal materials, which are not limited herein.

In this embodiment, the surface of the metal wire 410 is wrapped with the slip-resistant insulating skin, so that the metal wire 410 is not easy to slip in the knitting holes, thereby ensuring the stability of connection between the metal wire 410 and the elastic wire bundle 420, and the fixed connection is realized without using glue or other methods, and the whole elastic wire is processed and manufactured only by the knitting process of the knitting machine.

Further, the preferred slip-resistant insulating skin is a silica gel skin, and of course, in other embodiments, the slip-resistant insulating skin may be made of other materials as long as it has slip resistance, and the slip-resistant insulating skin is not limited herein.

In the present embodiment, the elastic thread bundle 420 is made of at least one or more insulating braided threads of polyester, nylon, rubber thread, and latex thread elastic thread, but of course, other braided threads having elasticity and being non-conductive may also be used. For reduce cost, be convenient for wash and be favorable to the comfort level of wearing, the preferred nylon material that adopts in this embodiment, its no trace sense is better, and the comfort level is stronger, and low cost.

It will be appreciated by those skilled in the art that the invention can be embodied in many other specific forms without departing from the spirit or scope thereof. Although embodiments of the present invention have been described, it is to be understood that the present invention should not be limited to those precise embodiments, and that various changes and modifications can be effected therein by one skilled in the art without departing from the scope or spirit of the invention as defined by the appended claims.

Claims (21)

1. A wearable smart device, comprising:

a tight fitting garment to be fitted to a wearer's body;

the sensors are distributed on the tight fitting clothes and used for collecting human body physiological signals of a wearer;

the terminal equipment is detachably arranged on the tights, each sensor is connected with the terminal equipment through an elastic lead, and the terminal equipment is used for receiving human physiological signals collected by each sensor, transmitting the signals in a wireless or wired mode and analyzing human data.

2. The wearable smart device of claim 1, wherein the body suit comprises a front panel, a back panel, two sleeve panels, and two underarm panels having elasticity; the front piece and the waist parts at two sides of the back piece are connected to form a body of the straitjacket, the two sleeve pieces are connected to the shoulders at two sides of the front piece and the back piece, the armpit parts of the sleeve pieces and the front piece and the back piece are connected through the armpit splicing pieces, and the sleeve pieces and the armpit splicing pieces form sleeves together.

3. The compression garment of claim 2, wherein the joined edges of the underarm panels and the front, back and sleeve panels are arcuate.

4. The compression garment of claim 2, wherein the underarm panels have a lower elasticity than the front, back and sleeve panels.

5. The compression garment of claim 2, wherein the tightness of the sleeves is greater than the tightness of the compression garment body, and the tightness of the bottom swing of the compression garment body is greater than the tightness of the top end of the compression garment body.

6. The tight fitting garment according to claim 2, wherein said front, back and two sleeve panels are knitted with a multi-filament fabric comprising of spunlace, lyocell and lycra, and said underarm panels are made of a breathable and water absorbent mesh fabric.

7. The tight according to claim 2, wherein the front side and/or the waist side of the tight body is provided with an opening and closing portion on which a zipper is provided, the zipper comprises a left zipper tape, a right zipper tape and a slider, the left zipper tape and the right zipper tape are provided on the opening and closing portion in an inverted V shape, and the slider connects the left zipper tape and the right zipper tape.

8. The tight fitting garment of claim 7, wherein said opening and closing portion is an inverted V-shaped opening, said left and right fastener bands being disposed on opposite sides of said inverted V-shaped opening; the reverse V-shaped split joint is arranged in the reverse V-shaped opening, and two sides of the reverse V-shaped opening are connected with two sides of the reverse V-shaped split joint.

9. The tight fitting garment of claim 8, wherein said inverted V-shaped panels are made of a breathable and absorbent mesh fabric.

10. The tight of claim 1, wherein said elastic lead comprises:

at least one elastic wire harness which is formed by weaving at least two elastic wires and interweaved along the length direction of the elastic wire harness to form a plurality of weave holes;

the conducting wire is pressed by the elastic wire and subjected to surface friction between the conducting wire and the elastic wire, so that the conducting wire is fixedly interwoven in the weaving holes and sequentially inserted in the weaving holes in a wave shape; and the wire is woven together with the elastic wire harness.

11. A compression garment for facilitating donning and doffing according to claim 1 or claim 10 wherein said compression garment has a guidewire channel along the splice for passage of said elastic guidewire.

12. The wearable smart device of claim 1, wherein the terminal device is removably mounted to the body suit via an electrical connection structure and is simultaneously electrically connected to each of the sensors; the electric connection structure comprises a first connection part arranged on the terminal equipment and a second connection part arranged on the close-fitting clothes, and the first connection part and the second connection part are electrically and structurally connected through at least one buckle type electric connection structure.

13. The wearable intelligent device of claim 12, wherein the snap-in electrical connection structure comprises a metal male buckle and a metal female buckle, and the metal male buckle and the metal female buckle are detachably connected through a snap-in connection; the metal box is arranged on the first connecting part, the metal male buckle is arranged on the second connecting part, or the metal box is arranged on the second connecting part, and the metal male buckle is arranged on the first connecting part.

14. The wearable intelligent device of claim 13, wherein the metal pin comprises a large diameter part and a small diameter part which are coaxially arranged, and a limiting part is formed at the joint of the large diameter part and the small diameter part; the metal female buckle comprises a slotted hole, and a convex part is arranged in the slotted hole; the metal male buckle is inserted into the slotted hole of the metal female buckle, the protruding portion is clamped on the limiting portion to achieve connection, and the metal female buckle is in contact with the metal male buckle to achieve electric connection.

15. The wearable smart device of claim 14, wherein the protruding portions are two oppositely disposed protruding structures on an inner wall of the slot.

16. The wearable smart device of claim 14, wherein the elastic leads comprise a first lead connecting the metal male buckle and the sensor on the terminal device/the compression garment, a first power supply, and a second lead connecting the metal female buckle and the sensor on the compression garment, a second power supply, and the terminal device.

17. The wearable smart device of claim 16, wherein the first wire is electrically connected to the metal female buckle; the second lead is connected with the metal male buckle to realize electric connection; and when the limiting part of the metal male buckle is in limiting connection with the protruding part of the metal female buckle, the metal male buckle is always electrically connected.

18. A wearable smart device as claimed in claim 12, wherein at least one direct electrical connection is provided between the first connection and the second connection.

19. The wearable smart device of claim 18, wherein the direct electrical connection structure employs a thimble electrical connection structure; the thimble electric connection structure comprises a needle head and a contact; the needle head is arranged on the first connecting part, the contact is arranged on the second connecting part, or the needle head is arranged on the second connecting part, and the contact is arranged on the first connecting part; when the first connecting part is connected with the second connecting part through the buckle type electric connection structure, the needle head is contacted with the contact to realize electric connection.

20. The wearable smart device of claim 19, wherein the needle is electrically connected to the terminal device, and the contact is electrically connected to a sensor on the compression garment, a power supply; or the needle head is electrically connected with the sensor and the power supply on the tight fitting clothes, and the contact is electrically connected with the terminal equipment.

21. The wearable smart device of claim 12, wherein a fool-proof structure is disposed between the second connecting portion and the first connecting portion, the fool-proof structure is a first chamfered edge disposed on the first connecting portion, a second chamfered edge disposed on the second connecting portion, and the first chamfered edge and the second chamfered edge are inclined in the same direction.

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