CN211431311U - Wearing product wrist strap and intelligent wearing product - Google Patents

Abstract

The embodiment of the application provides a dress product wrist strap and intelligent dress product relates to and wears product technical field, can avoid the influence of metal product wrist strap to the antenna performance who wears the product. This dress product wrist strap includes the area body, the area body is including being located the first grain connecting piece of its tip, first grain connecting piece be used for with dress product body coupling, first grain connecting piece is made by insulating material or the surface has the insulating layer, first grain connecting piece can with the area body with dress product body insulation isolation. The wearing product wrist strap that this application embodiment provided can be used to wearing the product.

Description

Wearing product wrist strap and intelligent wearing product

This application claims priority from a chinese patent application filed in 2019 on 21/2. 201910135159.7 under the name "a metal watch strap" by the national intellectual property office, the entire contents of which are incorporated herein by reference.

Technical Field

The application relates to the technical field of wearable products, in particular to a wearable product wrist strap and an intelligent wearable product.

Background

Wearable products are widely found in people's lives and works due to their convenience of being wearable. Along with the development of science and technology, wearing the product more and more intelligent, can integrate a lot of functions, for example, functions such as integrated motion data collection, global positioning and communication such as intelligent wrist-watch and intelligent bracelet. In wearing equipment such as intelligent wrist-watch or intelligent bracelet, in order to realize relevant information reception function, need integrate to have the antenna, generally, the antenna setting is in the casing, is connected with metal casing, and metal casing can regard as antenna radiation body.

In order to wear the intelligent wearable product in the prior art, the metal shell is often connected with a wrist strap and other structures. Meanwhile, the wrist band is usually made of metal material for beauty and durability.

However, the metal housing of the related art smart wearing product has a specific current flow path as an antenna. And the wrist strap of metal material preparation is connected the back with metal casing, can switch on original metal casing again by wrist strap department, and then influences original antenna circuit, leads to influencing intelligent wrist-watch's antenna function, reduces the antenna performance.

SUMMERY OF THE UTILITY MODEL

The embodiment of this application provides a dress product wrist strap and intelligent dress product, can avoid the influence of metal product wrist strap to the antenna performance of wearing the product.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:

in a first aspect, an embodiment of the present application provides a wear product wrist strap for with wear this body coupling of product in order to be suitable for and dress, including the area body, the area body is including the first grain connecting piece that is located its tip, first grain connecting piece be used for with this body coupling of wearing product, first grain connecting piece is made by insulating material or the surface has the insulating layer, first grain connecting piece can with the area body with wear the insulating isolation of product body.

The wearing product wrist strap that this application embodiment provided, because the area body is through the first grain connecting piece that is located its tip and wearing product body coupling, and first grain connecting piece is made by insulating material or the surface has the insulating layer, consequently can with the area body with wear the insulating isolation of product body, and then the wearing product body can not switched on by the metal belt body, can avoid the influence of metal product area to the antenna performance of wearing the product.

With reference to the first aspect, in a first optional implementation manner of the first aspect, the first granule connecting piece is hinged to the wearable product body through two hinge shafts, the two hinge shafts are coaxially arranged, and the two hinge shafts are arranged at intervals along an axial direction of the two hinge shafts. Two articulated shafts that the interval set up can avoid wearing the product body and be switched on and influence the problem of antenna performance by the articulated shaft.

With reference to the first optional implementation manner of the first aspect, in a second optional implementation manner of the first aspect, two blind holes are coaxially formed inward from two opposite end surfaces of the head granule connecting piece, and the two hinge shafts are respectively and cooperatively arranged in the two blind holes. Two blind holes are coaxially formed in the head grain connecting piece, so that two hinged shafts are respectively installed in the two blind holes, the two hinged shafts are arranged at intervals, and the performance of the antenna is not influenced.

In combination with the first optional implementation manner of the first aspect, in the third optional implementation manner of the first aspect, a connection through hole is formed in the head grain connecting piece, one end of each hinge shaft is flanged outwards to form a positioning portion, the two hinge shafts are respectively arranged at two ends of the connection through hole in a penetrating manner, and the positioning portions are abutted against the outer wall of the head grain connecting piece. The head grain connecting piece is internally provided with a connecting through hole, and in order to ensure that two articulated shafts are arranged in the connecting through hole and are spaced, one end of each articulated shaft is flanged outwards to form a positioning part. Like this, when two articulated shafts were packed into and are connected the downthehole, location portion supported with the outer wall of first grain connecting piece and leaned on, can prevent that two articulated shafts from predetermineeing the mounted position and carrying out inward movement, and then avoid two articulated shafts contacts, promptly, guarantee that two articulated shafts intervals set up.

With reference to the first optional implementation manner of the first aspect, in a fourth optional implementation manner of the first aspect, an insulating layer is disposed on an outer surface of the hinge shaft. Set up the insulating layer at the surface of articulated shaft, can directly prevent that the articulated shaft from wearing the circuit of product body with intelligence and switching on, further improve insulating effect, guarantee that the antenna performance is not influenced.

With reference to the third optional implementation manner of the first aspect, in a fifth optional implementation manner of the first aspect, the positioning portion is made of an insulating material. The location portion is located the outside of first grain connecting piece, probably contacts with wearing the product body, consequently, location portion is made by insulating material, can further with the area body with wear the product body insulation and keep apart.

With reference to any one of the first to fifth optional implementation manners of the first aspect, in a sixth optional implementation manner of the first aspect, the hinge shaft includes a sleeve, and an elastic member and a pintle, which are disposed in the sleeve, where one end of the sleeve is closed, and the other end of the sleeve has an opening, the elastic member is configured to apply an elastic force to the pintle, so that one end of the pintle protrudes from the opening, and the pintle is hinged to the wearing product body. The articulated shaft can be including the sleeve and set up elastic component and the pintle in the sleeve, can accomplish the articulated shaft equipment earlier like this, and articulated fixed again makes things convenient for the assembly. And the cooperation of pintle and elastic component can make things convenient for the installation and the dismantlement of articulated shaft.

With reference to the sixth optional implementation manner of the first aspect, in a seventh optional implementation manner of the first aspect, an outer surface of the sleeve is covered with an insulating layer.

With reference to the sixth optional implementation manner of the first aspect, in an eighth optional implementation manner of the first aspect, a shift lever extends radially outward of the pintle, a strip-shaped hole is formed in each of the sleeve and the head granule connecting piece at a position corresponding to the shift lever, the strip-shaped hole extends in the axial direction of the sleeve, a free end of the shift lever penetrates through the strip-shaped hole, and the shift lever can move in the strip-shaped hole in the axial direction of the sleeve to drive the pintle to move in the sleeve in the axial direction of the sleeve. The shift lever can be shifted conveniently to enable the pintle to move in the sleeve, so that the hinge shaft is simple and convenient to mount and dismount.

With reference to the eighth optional implementation manner of the first aspect, in a ninth optional implementation manner of the first aspect, an insulating tube is sleeved on the shift lever or an insulating coating is formed on the outer surface of the shift lever. Can keep apart the insulating of the lateral wall in driving lever and bar hole, further improve insulating isolation effect, avoid influencing the antenna performance.

With reference to the eighth or ninth optional implementation manner of the first aspect, in a tenth optional implementation manner of the first aspect, a groove is formed in the root of the pintle corresponding to the shift lever, and the shift lever is welded or screwed to the pintle at the groove. The pintle and the deflector rod can be manufactured in a split mode and fixedly connected in the installation process, for example, the pintle and the deflector rod can be welded and fixed, and the pintle and the deflector rod can also be fixed through threads. When welding and fixing are adopted, in order to ensure the welding firmness, the root part of the pintle corresponding to the deflector rod is provided with a groove, so that the pintle is welded at the groove, and the welding flux is positioned in the groove, so that the movement of the pintle can not be influenced on the premise of ensuring the welding quality; when the screw thread is adopted for fixing, the groove can provide a mounting platform and a space, so that the fastener is convenient to screw, and the deflector rod and the pintle can be tightly attached, so that the stability is improved.

With reference to the first aspect and any one of the first to tenth optional implementation manners of the first aspect, in an eleventh optional implementation manner of the first aspect, the insulating material of the pellet connector is plastic or ceramic.

With reference to the first aspect and any one of the first to tenth optional implementations of the first aspect, in a twelfth optional implementation of the first aspect, the head grain connecting member is made of a metal material, and a non-conductive metal layer is plated on a surface of the head grain connecting member to form an insulating layer.

In a second aspect, an embodiment of the present application provides an intelligent wearable product, including wearing the product body and covering and establishing metal casing on the product body is worn, metal casing is as the antenna, this body coupling of wearing product as above any technical scheme the wearing product wrist strap.

The product is dressed to intelligence that this application embodiment provided, establish the metal casing as the antenna on wearing the product body including wearing product body and lid, owing to wear product body coupling as above arbitrary technical scheme the wearing product wrist strap, and the head grain connecting piece of the area body tip of wearing the product wrist strap is made by insulating material or the surface has the insulating layer, can be with the area body with wear product body insulation isolation, and then the wearing product body can not switched on by the metal belt body, can avoid the influence of the metal product area body to the antenna performance of wearing the product.

In combination with the second aspect, in the first optional implementation of the second aspect, it gives birth to the ear to be equipped with two at least on the dress product body, two give birth to the ear parallel and interval setting, and all extend along same direction, two the line of the tip of giving birth to the ear is located outside the dress body, the head grain connecting piece correspondence of dress product wrist strap stretches into two give birth to between the ear to through two articulated shafts with dress product body two give birth to the ear articulated, two the articulated shaft is coaxial and the interval sets up.

With reference to the second aspect in a first alternative implementation manner, in a second alternative implementation manner of the second aspect, two of the raw ears are embedded with raw ear seats made of insulating materials, the head grain connecting piece of the wearing product wrist strap has a first side wall and a second side wall which are opposite, the first side wall is close to one of the two raw ears, the second side wall is close to the other one of the two raw ears, one of the two hinge shafts extends from the first side wall and is connected with the raw ear seat on the raw ear close to the first side wall, and the other one of the two hinge shafts extends from the second side wall and is connected with the raw ear seat on the raw ear close to the second side wall. The living ear seat made of the insulating material can insulate and isolate the hinge shaft from the body of the wearing product, and further avoids the influence on the performance of the antenna of the wearing product.

In combination with the first optional implementation manner of the second aspect, in the third optional implementation manner of the second aspect, two ear holes are all formed in the raw ear, the raw ear holes are coaxially arranged, an insulating layer is arranged on the surface of the inner wall of each ear hole, and two hinge shafts of the wrist strap of the wearable product extend into the raw ear holes respectively.

With reference to the second aspect and the first, second and third optional implementation manners of the second aspect, in a fourth optional implementation manner of the second aspect, the band body of the wearing product wristband includes a band body metal part connected with a headpiece connecting piece of the wearing product wristband, and a distance between the band body metal part and a metal shell on the wearing product body is greater than 0.5 mm. In order to ensure a good insulation and isolation effect, the distance between the metal part on the wrist strap of the wearable product and the metal part on the body of the wearable product needs to be larger than 0.5 mm.

Drawings

Fig. 1 is a schematic diagram of a smart watch provided in the prior art;

fig. 2 is a schematic structural diagram of a smart watch in an unfolded state of a watchband according to the prior art;

fig. 3 is a schematic structural diagram of a watch body of an intelligent watch provided in the prior art, on which a raw trunnion is mounted;

fig. 4 is a schematic structural diagram of a connection between a wristband of a wearable product and a smart wearable product body of a smart wearable product according to an embodiment of the present application;

FIG. 5 is a schematic cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a schematic cross-sectional view taken along line B-B of FIG. 4;

FIG. 7 is a partially enlarged schematic view of FIG. 6;

fig. 8 is a schematic structural view of the wearable product according to the embodiment of the present application, in which a connection through hole is formed in the wristband and two hinge shafts are adopted to connect with the intelligent wearable product body;

fig. 9 is a schematic structural view of a positioning portion provided on a hinge shaft in a wrist band of a wearing product according to an embodiment of the present disclosure;

FIG. 10 is a view showing a hinge shaft in a wrist band of a wearing article according to an embodiment of the present application;

FIG. 11 is a second view of the hinge shaft structure of the wrist band of the wearing article according to the embodiment of the present application;

FIG. 12 is a schematic structural view of a wrist band of a wearable product according to an embodiment of the present invention, wherein the wrist band is provided with a shift lever and then is installed in a head granule connector;

fig. 13 is a schematic structural diagram of an intelligent wearable product provided in an embodiment of the present application.

Reference numerals:

01-watch body; 011-metal rear shell; 012-outer ear; 02-watchband; 03-raw trunnion; 100-wearing product wristband; 101-a belt body; 1011-a belt body metal part; 102 a first pellet connector; 1021, blind hole; 1022-connecting vias; 1023-strip holes; 103-articulated shaft; 1031-a positioning portion; 1032-a sleeve; 1033-a resilient member; 1034-pintle; 1035-driver lever; 1036-weld recess; 200-wearing product body, 201-raw ear; 2011-ear base; 300-metal housing.

Detailed Description

Referring to fig. 1 and 2, a diagram of a smart watch in the prior art includes a watch body 01 and a band 02 connected to the watch body 01. Referring to fig. 2 and 3, the wristwatch body 01 includes a metal back case 011 and four lugs 012 disposed outside the wristwatch body 01, in which two lugs 012 are a set and disposed oppositely, and a raw lug 03 is mounted thereon, and the raw lug 03 is used to connect the wristwatch body 01 and a band 02. In order to realize transmission of multiple signals, each of the ears 012 is distributed on a branch circuit of a different frequency band of the antenna, and as an example, referring to fig. 3, the signals respectively transmitted may be: bluetooth signals, WIFI (WIreless-Fidelity) signals, 4G (the4th Generation mobile communication technology, fourth Generation mobile communication technology) signals, and GPS (global positioning System) signals, among others.

However, the watchband 02 in the prior art is usually made of a metal material for reasons such as beauty and practicability, and after the watchband 02 made of the metal material is connected to the watch body 01, the circuits of the two opposite watch ears 012 are easily turned on, so that the antenna function of the smart watch is affected, and the antenna performance is obviously reduced.

Referring to fig. 4 and 5, the present embodiment provides a wearing product wristband 100 for connecting with a wearing product body 200 to be suitable for wearing, the wearing product wristband 100 includes a band body 101, the band body 101 includes a headpiece connector 102 at an end thereof, the headpiece connector 102 is used for connecting with the wearing product body, the headpiece connector 102 is made of an insulating material or has an insulating layer on a surface thereof, and the headpiece connector 102 can insulate and isolate the band body 101 from the wearing product body 200.

Wearing product wrist strap 100 that this application embodiment provided, referring to fig. 4 and fig. 5, because the area body 101 is connected with wearing product body 200 through the first grain connecting piece 102 that is located its tip, and first grain connecting piece 102 is made by insulating material or the surface has the insulating layer, consequently can be with area body 101 and wearing product body 200 insulation isolation, and then wearing product body 200 can not switched on by the metal belt body, can avoid the influence of metal product area to wearing product's antenna performance.

It should be noted that, since the headpiece connecting piece 102 isolates the belt body 101 from the wearable product body 200, the influence of the metal product belt on the antenna performance of the wearable product can be avoided, and the material of the belt body 101 except for the other part of the headpiece connecting piece 102 can be arbitrarily selected according to the needs, for example, the metal material and the semiconductor material. In addition, the belt body 101 of the wearing product wristband 100 may be provided with the head grain connecting member 102 in various forms, and for example, the belt body 101 of the wearing product wristband 100 may be a single-bead belt, a multi-bead belt, or a net belt.

The connection between the wristband 100 of the wearing article and the body 200 of the wearing article is generally hinged by a shaft, and in order to ensure the strength of the shaft, the hinged shaft is usually made of a metal material, so that the shaft made of the metal material can conduct the two ears of the wearing article 200, thereby affecting the performance of the antenna. Therefore, in order to avoid the above-mentioned problem, as shown in fig. 6 and 7, the head grain connecting member 102 is hinged to the wearing product body 200 by two hinge shafts 103, the two hinge shafts 103 are coaxially provided, and the two hinge shafts 103 are provided at intervals in the axial direction thereof. Like this, can avoid wearing product body 200 to be switched on by articulated shaft 103 and influence the problem of antenna performance through two articulated shafts 103 that the interval set up.

There are many possible implementations, for example, a first alternative implementation, in which the two hinge shafts 103 are spaced apart: as shown in fig. 7, two blind holes 1021 are coaxially formed inward from two opposite end faces of the head grain connecting piece 102, and the two hinge shafts 103 are respectively and cooperatively arranged in the two blind holes 1021. Two blind holes 1021 are coaxially arranged in the head grain connecting piece 102, so that two hinge shafts 103 are respectively arranged in the two blind holes 1021, the two hinge shafts 103 are arranged at intervals and cannot be contacted with each other, and the performance of the antenna cannot be influenced.

A second alternative implementation: as shown in fig. 8 and 9, a connection through hole 1022 is formed in the headpiece connecting piece 102, a positioning portion 1031 is formed at one end of the hinge shaft 103 by flanging, the two hinge shafts 103 are respectively arranged at two ends of the connection through hole 1022 in a penetrating manner, and the positioning portion 1031 abuts against the outer wall of the headpiece connecting piece 102. A connection through hole 1022 is formed in the button head connector 102, and a positioning portion 1031 is formed at one end of the hinge shaft 103 to be outwardly flanged in order to ensure that the two hinge shafts 103 are installed in the connection through hole 1022 and spaced apart. Like this, when two articulated shafts 103 are adorned in connect through-hole 1022, location portion 1031 supports with the outer wall of first grain connecting piece 102 and leans on, can prevent two articulated shafts 103 from predetermineeing the mounted position and carry out inward movement, and then avoid two articulated shafts 103 to contact, namely, guarantee that two articulated shafts 103 interval sets up, can not influence antenna performance.

It should be noted that, in the positioning portion 1031 flanged outward at one end of the hinge shaft 103, outward refers to a direction away from the central axis of the hinge shaft 103 from the first end of the hinge shaft 103, and correspondingly, inward refers to a direction toward the central axis of the hinge shaft 103.

In a second alternative implementation, referring to fig. 8 and 9, the positioning part 1031 is located outside the button connector 102, and may contact with the wearing product body 200, so that the positioning part 1031 is made of an insulating material, and may further insulate and isolate the wrist strap 101 from the wearing product body 200. Referring to fig. 8, the side wall of the external appearance structure of the positioning portion 1031 includes: the inner walls that enclose the connecting through-holes 1022 and other side walls that are located at the outside. Referring to fig. 8 and 9, the positioning part 1031 located outside the button connector 102 means: when the hinge shaft 103 is fitted into the coupling through-hole 1022, the positioning part 1031 does not enter the through-hole 1022 and is located outside the pellet link 102, i.e., the positioning part 1031 contacts the outer side wall of the pellet link 102 at the coupling through-hole 1022.

In a second alternative implementation, the outer surface of the hinge shaft 103 is provided with an insulating layer. Set up the insulating layer at articulated shaft 103's surface, can directly prevent that articulated shaft 103 from wearing the circuit of product body 200 with intelligence and switching on, further improve insulating effect, guarantee that the antenna performance is not influenced.

It should be noted that, in order to ensure that the hinge shaft 103 does not conduct the two ears of the wearing product body, besides the manner of disposing the hinge shaft 103 at an interval, the whole hinge shaft 103 or the outer surface of the hinge shaft 103 may be made of an insulating material, or the outer surface of the hinge shaft 103 may have an insulating layer.

In order to facilitate the mounting and dismounting of the hinge shaft 103, it is common to arrange the inner pin of the hinge shaft 103 to be retractable, for example, referring to fig. 7 and 8, the hinge shaft 103 is mounted in the head grain connector 102, as shown in fig. 10 and 11, which is an exploded view of the hinge shaft 103 in two different orientations, the hinge shaft 103 includes a sleeve 1032, and an elastic member 1033 and a pin 1034 arranged in the sleeve 1032, one end of the sleeve 1032 is closed, the other end has an opening, the elastic member 1033 is used for applying an elastic force to the pin 1034 so that one end of the pin 1034 protrudes from the opening, and the pin 1034 is hinged with the wearing product body 200. The hinge shaft 103 includes a sleeve 1032, and an elastic member 1033 and a pintle 1034 disposed in the sleeve 1032, such that the hinge shaft 103 may be assembled before being assembled with other components, and then be fixed in a hinged manner, thereby facilitating the assembly. Moreover, the pintle 1034 is made to be telescopic by the cooperation of the pintle 1034 and the elastic member 1033, so that the installation and the detachment of the hinge shaft 103 can be facilitated.

When the hinge shaft 103 includes the sleeve 1032, the elastic member 1033, and the pintle 1034, the hinge shaft 103 is further prevented from being conducted with the circuit of the smart wearing article body 200, and the outer surface of the sleeve 1032 may also be covered with an insulation layer. In addition, in the embodiment where the positioning portion 1031 is provided, the positioning portion 1031 may be provided at one end of the sleeve 1032 or may be provided at one end of the pintle 1034. For example, referring to fig. 8, a positioning portion 1031 is provided at one end of the sleeve 1032.

In the case where the hinge shaft 103 includes the sleeve 1032 and the elastic member 1033 and the pintle 1034 disposed in the sleeve 1032, the pintle 1034 may be telescopic. In a specific mounting operation, since the size of the pintle 1034 is small, and the gap between the wearing product wristband 100 and the wearing product body 200 tends to be small, the operable space is small, and therefore, a special tool or the like needs to be borrowed for the mounting operation. To facilitate the mounting operation, as shown in fig. 10 and 12, a driving rod 1035 extends radially outward from the pintle 1034, a slotted hole 1023 is formed in each of the sleeve 1032 and the head granule connector 102 at a position corresponding to the driving rod 1035, the slotted hole 1023 extends in the axial direction of the sleeve 1032, a free end of the driving rod 1035 passes through the slotted hole 1023, and the driving rod 1035 is movable in the slotted hole 1023 in the axial direction of the sleeve 1032 to drive the pintle 1034 to move in the axial direction of the sleeve 1032. The movement of pintle 1034 within sleeve 1032 is facilitated by toggle lever 1035, which facilitates the installation and removal of hinge shaft 103.

It should be noted that, in the shaft needle 1034 extends radially outward with the driving lever 1035, outward means a direction from the outer wall of the shaft needle 1034 and along the radial direction of the shaft needle 1034 away from the central axis of the shaft needle 1034, and correspondingly, inward in the direction toward the central axis of the shaft needle 1034.

In addition, an insulating tube may be sleeved on the driving lever 1035, or an insulating coating may be formed on the outer surface of the driving lever 1035. The driving lever 1035 can be insulated and isolated from the side wall of the strip-shaped hole 1032, so that the insulation and isolation effect is further improved, and the antenna performance is prevented from being influenced. Wherein, the insulating tube is a sleeve made of insulating material, and can be sleeved on the driving lever 1035, and the insulating material includes but is not limited to plastics and rubber; the insulating layer may be formed by plating a non-conductive metal layer on the surface of the driver 1035.

Since driver 1035 extends radially outward from pintle 1034, pintle 1034 may be difficult to fit into sleeve 1032 if pintle 1034 and driver 1035 are integrally formed, and thus, optionally, pintle 1034 and driver 1035 may be separately formed and, after pintle 1034 is installed in sleeve 1032, driver 1035 and pintle 1034 may be fixedly attached through slotted hole 1023. Toggle 1035 and pintle 1034 can be welded or threaded. Solder accumulation can occur during welding fixation, which affects the appearance effect and the regularity of the outline of the pintle 1034, and when the pintle 1034 is cylindrical, the circular outline is not easy to weld and the solder is not easy to accumulate, which affects the fixation firmness; the manner of threaded attachment preferably requires that the fastener have a mounting platform and operating space that best ensures that the root of driver 1035 is in close contact with pintle 1034. Thus, as shown in FIGS. 10 and 12, the shank of pintle 1034 has a recess 1036 corresponding to the detent 1035, and detent 1035 is welded or threaded into pintle 1034 at recess 1036. Pintle 1034 and plunger 1035 may be separately fabricated and fixedly attached during installation. When welding and fixing are adopted, in order to ensure that welding is firm, a groove 1036 is formed in the root of the pintle 1034, which corresponds to the driving lever 1035, so that the pintle 1034 is welded at the groove 1036, and solder is located in the groove 1036, so that the appearance effect and the regularity of the outline of the pintle 1034 are not influenced on the premise of ensuring the welding quality; when secured by threads, notch 1036 provides a mounting platform and space for tightening the fasteners, and lever 1035 and pintle 1034 are closely fitted to improve stability.

Optionally, the insulating material of headpiece connector 102 includes, but is not limited to, plastic and ceramic.

Optionally, the button connector 102 is made of a metal material, and a non-conductive metal layer is plated on the surface to form an insulating layer.

The embodiment of the application provides an intelligent wearable product, as shown in fig. 13, including wearing product body 200 and covering the metal casing 300 who establishes on wearing product body 200, metal casing 300 is as the antenna, and wearing product body 200 is connected with wearing product wrist strap 100 as above any technical scheme.

The product is dressed to intelligence that the embodiment of this application provided, as shown in fig. 13, establish metal casing 300 as the antenna on wearing product body 200 including wearing product body 200 and lid, owing to wear product body 200 and be connected wearing product wrist strap 100 as above any technical scheme, and the head grain connecting piece 102 of the area body tip of wearing product wrist strap 100 is made by insulating material or the surface has the insulating layer, can be with area body 101 and wearing product body 200 insulation isolation, and then wearing product body 200 can not switched on by the metal belt body, can avoid the influence of the metal product area body to the antenna performance of wearing product.

In some embodiments, in order to facilitate connection between the wearing product wrist strap 100 and the wearing product body 200, as shown in fig. 13, at least two raw ears 201 are disposed on the wearing product body 200, the two raw ears 201 are disposed in parallel and spaced apart from each other, and both extend along the same direction, a connection line of end portions of the two raw ears 201 is located outside the wearing product body 200, the head grain connecting part 102 of the wearing product wrist strap 100 correspondingly extends between the two raw ears 201, referring to fig. 6 again, the head grain connecting part 102 of the wearing product wrist strap 100 is hinged to the two raw ears 201 of the wearing product body 200 through two hinge shafts 103, and the two hinge shafts 103 are disposed coaxially and spaced apart from each other.

It should be noted that, generally, in order to realize that the wearing product wrist strap 100 can be wound around a corresponding portion (for example, a wrist) of a human body after being connected to the wearing product 200, the wearing product wrist strap 100 needs to have at least two positions to be connected to the wearing product body 200, that is, at least two groups of four raw ears 201 are provided on the wearing product body 200, and optionally, two groups of raw ears 201 are respectively located at two sides of the wearing product body 200.

In order to prevent the two opposing ears 201 from being conducted by the hinge shaft 103, an insulation structure may also be provided on the two ears 201, for example, in a first possible implementation: as shown in fig. 7, the two raw ears 201 are embedded with raw ear seats 2011 made of insulating material, the head particle connector 102 of the wearing product wrist strap 100 has a first side wall M and a second side wall N opposite to each other, the first side wall M is close to one of the two raw ears 201, the second side wall N is close to the other one of the two raw ears 201, one of the two hinge shafts 103 extends from the first side wall M and is connected with the raw ear seat 2011 on the raw ear 201 close to the first side wall M, and the other one of the two hinge shafts 103 extends from the second side wall N and is connected with the raw ear seat 2011 on the raw ear 201 close to the second side wall N. The ear mount 2011 made of an insulating material can insulate and isolate the hinge shaft 103 from the wearable product body 200, thereby further avoiding the influence on the antenna performance of the wearable product.

A second possible implementation: two all seted up one on giving birth to the ear 201 and give birth to the ear hole, two give birth to the coaxial setting of ear hole, and the surface of inner wall has the insulating layer, and two articulated shafts 103 of wearing product wrist strap 100 stretch into two respectively and give birth to in the ear hole. The hinge shaft 103 and the raw ear 201 are insulated and isolated by an insulating layer.

In the intelligent wearable product of the embodiment of the application, the distance between the metal part on the wearable product wrist strap 10 and the metal part on the wearable product body 20 determines the effect of insulation and isolation, refer to fig. 13, the distance between the metal part on the wearable product wrist strap 100 and the metal part on the wearable product body 200, including the isolatable distance after the head particle connecting piece 102 is made of insulating material or has a metal layer, also including the isolatable distance after the whole articulated shaft 103 or the outer surface is made of insulating material, further including the isolatable distance of the ear generating hole that sets up the ear generating seat 2011 on the ear generating 201 or the surface that sets up the inner wall has an insulating layer. Wherein the thickness or shape of the component made of insulating material influences the insulation distance, while the thickness of the insulating layer of the component with the insulating layer influences the insulation distance. Illustratively, referring to FIG. 13, the insulation distance after headpiece connector 102 is made of an insulating material includes, but is not limited to, distance a, distance b, and distance c as shown.

Generally, when the distance is more than 0.5mm, the insulation effect can be well secured. Therefore, in order to ensure a good insulation and isolation effect, the belt body 101 of the wearing product wrist strap 100 includes a belt body metal part 1011 connected to the head grain connecting part 102 of the wearing product wrist strap 100, and a distance between the belt body metal part 1011 and the metal shell on the wearing product body 200 is greater than 0.5 mm.

In the description herein, particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (15)

1. The utility model provides a dress product wrist strap for with dress product body coupling in order being suitable for to dress, its characterized in that, including the area body, the area body is including the first grain connecting piece that is located its tip, first grain connecting piece be used for with dress product body coupling, first grain connecting piece is made by insulating material or the surface has the insulating layer, first grain connecting piece can with the area body with dress product body insulation is kept apart.

2. The wearing article wristband of claim 1, wherein the head grain connecting member is hinged to the wearing article body by two hinge axes, the two hinge axes are coaxially disposed, and the two hinge axes are spaced apart in an axial direction thereof.

3. The wearing article wristband as recited in claim 2, wherein two blind holes are coaxially formed inward from two end faces opposite to the head grain connecting member, and the two hinge shafts are respectively and cooperatively disposed in the two blind holes.

4. The wearing product wrist strap of claim 2, wherein a connecting through hole is formed in the head grain connecting piece, one end of each hinge shaft is flanged outwards to form a positioning portion, the two hinge shafts are respectively arranged at two ends of the connecting through hole in a penetrating manner, and the positioning portions are abutted against the outer wall of the head grain connecting piece.

5. The wearing article wristband as recited in claim 4, wherein the positioning portion is made of an insulating material.

6. The wearing article wristband as claimed in any one of claims 2 to 5, wherein the hinge shaft includes a sleeve, and an elastic member and a pintle disposed in the sleeve, the sleeve having one end closed and the other end having an opening, the elastic member being configured to apply an elastic force to the pintle so that one end of the pintle protrudes from the opening, the pintle being hinged to the wearing article body.

7. The wearing article wristband as defined in claim 6, wherein a shift lever extends radially outward from the pintle, a strip-shaped hole is formed in each of the sleeve and the head granule connecting member at a position corresponding to the shift lever, the strip-shaped hole extends in an axial direction of the sleeve, a free end of the shift lever passes through the strip-shaped hole, and the shift lever is movable in the strip-shaped hole in the axial direction of the sleeve to drive the pintle to move in the sleeve in the axial direction of the sleeve.

8. The wearing article wristband as recited in claim 7, wherein a root of the pintle corresponding to the lever has a groove, and the lever is welded or screwed to the pintle at the groove.

9. The wearing product wristband as claimed in any one of claims 1 to 5, wherein the insulating material of the head grain connecting piece is plastic or ceramic.

10. The wearing article wristband as recited in any one of claims 1 to 5, wherein the headpiece attaching member is made of a metal material, and a non-conductive metal layer is plated on a surface thereof to form an insulating layer.

11. An intelligent wearable product comprises a wearable product body and a metal shell arranged on the wearable product body in a covering mode, wherein the metal shell serves as an antenna, and the intelligent wearable product is characterized in that the wearable product body is connected with the wearable product wrist strap in any one of claims 1-10.

12. The intelligent wearable product of claim 11, wherein the wearable product body is provided with at least two living ears, the two living ears are parallel and spaced and extend along the same direction, the connecting line of the ends of the two living ears is located outside the wearable product body, the head grain connecting piece of the wearable product wrist strap correspondingly extends between the two living ears and is hinged to the two living ears of the wearable product body through two hinge shafts, and the two hinge shafts are coaxial and spaced.

13. The smart wearable product of claim 12, wherein a green ear mount made of an insulating material is embedded in each of the two green ears, the head attachment member of the wearable product wristband has opposing first and second side walls, the first side wall being adjacent one of the two green ears, the second side wall being adjacent the other of the two green ears, one of the two hinge axes extending from the first side wall and being connected to the green ear mount on the green ear adjacent the first side wall, the other of the two hinge axes extending from the second side wall and being connected to the green ear mount on the green ear adjacent the second side wall.

14. The intelligent wearable product of claim 12, wherein two of the raw ears are provided with a raw ear hole, the two raw ear holes are coaxially arranged, the surface of the inner wall of each raw ear hole is provided with an insulating layer, and two hinge shafts of the wrist strap of the wearable product respectively extend into the two raw ear holes.

15. The smart wearable product of any one of claims 11 to 14, wherein the belt body of the wearable product wristband comprises a belt body metal part connected to a button connector of the wearable product wristband, and a distance between the belt body metal part and a metal shell on the wearable product body is greater than 0.5 mm.

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