CN117257020A - Intelligent finger ring - Google Patents

Abstract

The invention discloses an intelligent ring, which comprises an outer ring shell, an inner ring shell and a conversion structure, wherein the inner ring shell is detachably embedded in the outer ring shell; in the lamination position, the outer ring shell and the inner ring shell are laminated in the radial direction; in the staggered position, the outer annular shell and the inner annular shell are at least partially separated in a staggered manner in the radial direction. According to the technical scheme, through detachable arrangement, brand new ring forms are brought to users, the users can select outer rings with different materials, colors and textures according to own individuality and fashion styles, brand new wearing experience is brought to the users, and personal tastes and unique charm are displayed.

Description

Intelligent finger ring

Technical Field

The invention relates to the technical field of intelligent rings, in particular to an intelligent ring.

Background

The intelligent ring is an emerging intelligent wearing device, and the intelligent ring is the direction of recently starting to walk heat, and is different from a traditional ring, and the intelligent ring has different electronic functions and can be flexibly designed in form according to requirements. The multifunctional finger ring integrates the traditional finger ring and intelligent technology, and provides more functions and convenience for users. In order to further promote the use experience of intelligent ring to satisfy user individualized demand, provide diversified outward appearance intelligent ring, need design the form of intelligent ring.

Disclosure of Invention

The invention mainly aims to provide an intelligent ring, which aims to bring a brand new ring shape to a user through detachable arrangement, and the user can select outer rings with different materials, colors and textures according to own individuality and fashion style to display personal tastes and unique charm.

In order to achieve the above object, the present invention provides an intelligent ring, comprising:

an outer annular shell;

the inner ring shell is detachably embedded in the outer ring shell; and

the conversion structure is arranged between the inner annular shell and the outer annular shell, and the inner annular shell is provided with a lamination position and a staggered position;

when the inner annular shell receives thrust from a first direction, the inner annular shell is positioned at a lamination position, and the outer annular shell and the inner annular shell are laminated in a radial direction;

when the inner annular shell receives thrust from a second direction, the inner annular shell is positioned at a staggered position, and the outer annular shell is at least partially separated from the inner annular shell in a staggered manner in the radial direction.

Optionally, the inner ring shell comprises a first shell and a second shell which can be spliced relatively to form a circular ring, and the first shell and the second shell are connected through an elastic piece and are in a splicing state and a separation state for expanding the inner diameter of the inner ring shell:

the inner ring shell is positioned at a lamination position, the conversion structure enables the first shell and the second shell to be in a splicing state, and the elastic piece is compressed;

the inner ring shells are positioned at staggered positions, the switching structure enables the first shell and the second shell to be in a separated state, and the elastic piece is reset.

Optionally, the conversion structure includes a first inclined plane disposed on an outer surface of the inner ring shell, and a second inclined plane disposed on an inner surface of the outer ring shell, the first inclined plane is disposed obliquely along an embedding direction, the second inclined plane is opposite to an oblique direction of the first inclined plane, and the first inclined plane slides with the second inclined plane, so that the first shell and the second shell are converted between the separated state and the spliced state.

Optionally, the intelligent ring further includes a limiting structure, the limiting structure is disposed between the inner ring shell and the outer ring shell, and the limiting structure is configured to limit movement of the inner ring shell relative to the outer ring shell at a stacking position and a staggered position.

Optionally, the limit structure includes locating the spout of inner ring shell, and locate the slide shaft of outer ring shell, the slide shaft is arranged in the spout, the spout is followed the embedded direction of inner ring shell extends, the slide shaft with the cell wall butt at the extending direction both ends of spout, and the removal of the relative outer ring shell of inner ring shell is restricted in range upon range of position and staggered position.

Optionally, the sliding grooves include two sliding shafts, the sliding shafts are arranged corresponding to the number of the sliding grooves, the two sliding grooves are respectively arranged on the first shell and the second shell, and one sliding groove is matched with one sliding shaft.

Optionally, the intelligent ring further includes an elastic buckle, the elastic buckle is mounted on the inner ring shell, the inner ring shell is provided with a clamping groove penetrating through the sliding groove, at least part of the elastic buckle is disposed in the sliding groove from the clamping groove, and the elastic buckle is used for limiting movement of the sliding shaft.

Optionally, the elastic catch limits the slide shaft in a stacked position and a separated position to limit movement of the slide shaft.

Optionally, the end surfaces of the first shell and the second shell which are spliced are respectively provided with a caulking groove, the elastic piece is configured as a compression spring, and two ends of the compression spring are respectively arranged in the caulking grooves of the first shell and the second shell.

Optionally, the intelligent ring further comprises a flexible circuit board, the flexible circuit board comprises a first plate part, a bendable plate part and a second plate part which are connected in sequence, the first plate part is embedded in the inner ring shell, the second plate part is connected with the outer ring shell, and the bendable plate part is located between the inner ring shell and the outer ring shell.

Optionally, the inner ring shell is equipped with the groove of dodging towards one side of outer ring shell, outer ring shell corresponds dodging the groove and be equipped with the mounting groove, the second board portion is arranged in the mounting groove, bendable folded plate portion passes dodge the groove.

Optionally, the intelligent ring further includes a button piece, the mounting groove runs through the outer ring shell, the button piece inlays and establishes the mounting groove, the button piece includes middle button, and is located four circumference buttons of middle button upper and lower left and right directions, be equipped with a plurality of function keys that correspond with middle button and four circumference buttons homogeneity on the second plate portion.

Optionally, the first board portion includes a first sub-board and a second sub-board that are electrically connected, the first sub-board is connected with the bendable board portion, the first sub-board is disposed in the first housing, the avoidance groove is disposed in the first housing, and the second sub-board is disposed in the second housing.

Optionally, the second sub-board further includes two sub-boards, and the two sub-boards are both installed in the second housing, and avoid the chute of the second housing.

Optionally, the first plate portion is provided with an electrode portion, an electrode hole is correspondingly formed in the inner surface of the inner ring shell, at least part of the electrode portion is exposed out of the electrode hole to be in contact with a finger of a user, and health data of the user are detected through an electric signal.

According to the technical scheme, the outer ring shell, the inner ring shell and the conversion structure are adopted, and the inner ring shell is detachably embedded in the outer ring shell; the detachable outer ring shell and the detachable inner ring shell enable the intelligent ring to be replaced according to different favorites and occasion demands of users. The user can select the outer ring with different materials, colors and textures according to the individuality and fashion style of the user, and the personal taste and the unique charm are displayed. Because the inner ring shell and the outer ring shell can be separated, for example, after a user wears the intelligent ring, the inner ring shell and the outer ring shell can be changed into staggered positions from being stacked, and different materials, colors and textures of the inner ring shell and the outer ring shell are matched, so that the personalized requirements of the user are met, and the diversified intelligent ring with the appearance is provided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of the intelligent ring of the present invention when worn;

FIG. 2 is a schematic view of another embodiment of the intelligent ring of the present invention when worn;

FIG. 3 is an exploded view of the intelligent ring of the present invention;

FIG. 4 is a schematic view of an embodiment of the smart ring of the present invention in a separated state;

FIG. 5 is an enlarged partial position schematic view of FIG. 4;

FIG. 6 is a schematic view of an embodiment of the present invention in a spliced state;

FIG. 7 is a schematic view of an embodiment of the smart ring of the present invention in a separated state when it is limited;

FIG. 8 is a schematic cross-sectional view of the intelligent ring of FIG. 7 in a separated state;

FIG. 9 is an enlarged schematic view of the partial position section of FIG. 8 in a separated state;

FIG. 10 is an enlarged schematic view of the spliced state of FIG. 8 in partial position;

FIG. 11 is a schematic cross-sectional view of a portion of the first housing and the second housing of the present invention when they are spliced;

FIG. 12 is a schematic cross-sectional view of a portion of the first housing and the second housing of FIG. 11 separated;

FIG. 13 is a schematic cross-sectional view of the intelligent ring slide shaft and elastic buckle of the present invention;

FIG. 14 is a schematic view of the outer and inner shells mated by a spacing structure;

FIG. 15 is a schematic view of the structure of the outer ring shell at the mounting groove;

FIG. 16 is a schematic view of the structure of the inner annular shell at the avoidance groove;

fig. 17 is a schematic view of the structure of fig. 16 at another view angle.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The intelligent ring is an emerging intelligent wearing device, and the intelligent ring is the direction of recently starting to walk heat, and is different from a traditional ring, and the intelligent ring has different electronic functions and can be flexibly designed in form according to requirements. The multifunctional finger ring integrates the traditional finger ring and intelligent technology, and provides more functions and convenience for users. In order to further promote the use experience of intelligent ring to satisfy user individualized demand, provide diversified outward appearance intelligent ring, need design the form of intelligent ring.

Therefore, the invention provides an intelligent ring, which aims to bring a brand new ring shape to a user through detachable arrangement, and the user can select outer rings with different materials, colors and textures according to own individuality and fashion style to display personal tastes and unique charm.

Referring to fig. 1 to 3, in one embodiment of the present invention, the smart ring 100 includes an outer ring shell 200, an inner ring shell 300, and a conversion structure 800, the conversion structure 80 being disposed between the inner ring shell 300 and the outer ring shell 200, the inner ring shell 300 having a stacked position stacked with the outer ring shell 200 and an offset staggered position; in the laminated position, the outer ring case 200 and the inner ring case 300 are laminated in the radial direction; in the staggered position, the outer and inner shells 200, 300 are at least partially offset apart in the radial direction.

Referring to fig. 4 to 7, in particular, the intelligent ring 100 has a first wearing state in which the outer ring shell 200 and the inner ring shell 300 are laminated and combined in a radial direction, and a second wearing state in which the inner ring shell 300 and the outer ring shell 200 are at least partially dislocated and separated in the radial direction, for example, after the user wears the intelligent ring 100, the inner ring shell 300 and the outer ring shell 200 can be changed from the laminated state to the separated state, so that the first wearing state is switched to the second wearing state, the personalized requirements of the user are met, and the intelligent ring 100 with various appearances is provided.

Specifically, the intelligent ring 100 is similar to a finger worn on a user, and the intelligent ring 100 may be provided with ornaments, wherein the ornaments may be jewelry or other structural members such as cartoon models, and it is understood that the intelligent ring 100 may further include man-machine interactive software/hardware components such as a display screen, and for example, heart rate measurement, blood oxygen measurement, etc. can be realized after wearing.

Referring to fig. 6 to 12, in order to facilitate the wearing and picking of the user, specifically, the intelligent ring 100 further includes a switching structure 800, the switching structure 800 being provided between the inner ring shell 300 and the outer ring shell 200, the first shell 370 and the second shell 380 being connected by the elastic member 400 to have a coupled state and a decoupled state in which the inner diameter of the inner ring shell 300 is enlarged, the switching structure 800 being used to switch the first shell 370 and the second shell 380 between the decoupled state and the coupled state. It will be appreciated that the maximum inner diameter of the outer ring case 200 is the maximum outer diameter of the inner ring case 300, and if the inner diameter of the inner ring case 300 can be changed, the convenience of wearing and picking by the user can be achieved. The first casing 370 and the second casing 380 are opened or closed under the pushing force of the elastic member 400, so that the inner diameter of the inner ring casing 300 is increased or decreased, the requirements of using the intelligent ring 100 and removing the two application scenes of the ring can be met, and a brand new removing experience is brought to the user.

In one embodiment, the transition structure 800 is an inward protrusion and an outward protrusion provided on the inner ring case 300 or the outer ring case 200, or a combination of a spring ball and a groove; taking the matching of the inner convex and the outer convex as an example, when the inner ring shell 300 is placed in the outer ring shell 200, the inner convex and the outer convex are in butt joint and matched, so that the first shell 370 and the second shell 380 are spliced on the outer ring shell 200 by pressing the elastic piece 400 under the force, at the moment, the inner diameters of the spliced first shell 370 and second shell 380 are minimum, and the wearing of a user is the most stable; and after the inner and outer ring cases 300 and 200 are separated, the inner and outer protrusions are separated, and the first and second cases 370 and 380 are separated by the elastic member 400 therebetween, so that the inner diameters of the first and second cases 370 and 380 are increased to facilitate the user's picking.

Referring to fig. 8, in the present embodiment, the switching structure 800 includes a first inclined surface 810 provided on an outer surface of the inner ring case 300, and a second inclined surface 820 provided on an inner surface of the outer ring case 200, the first inclined surface 810 being inclined in an insertion direction, the second inclined surface 820 being opposite to the inclined direction of the first inclined surface 810, the first inclined surface 810 and the second inclined surface 820 sliding to switch the first case 370 and the second case 380 between a separated state and a spliced state. When the inner ring shell 300 is placed on the outer ring shell 200, the cross section of the matching position of the first inclined plane 810 and the second inclined plane 820 is rectangular, the overlapping position of the first inclined plane 810 and the second inclined plane 820 is a diagonal line of the rectangle, and the inner diameter of the outer ring shell 200 in the width direction is gradually reduced, so that the inner diameter of the inner ring shell 300 is gradually reduced after being inserted into the outer ring shell 200, and the maximum limit is reached after being spliced, namely, the position with the minimum inner diameter of the inner ring shell 300 is obtained; when the inner ring case 300 is separated from the outer ring case 200, the inner diameter of the inner ring case 300 formed by the first and second cases 370 and 380 is separated from each other by the elastic member 400 because the inner diameter of the outer ring case 200 is increased, so that the user can easily take the intelligent ring 100.

In an embodiment, the elastic member 400 is a spring, and two ends of the spring are respectively connected to the first housing 370 and the second housing 380; in another embodiment, the elastic member 400 is a rubber block; referring to fig. 11 and 12, in this embodiment, the elastic member 400 is a compression spring, in order to facilitate installation of the compression spring and to ensure stable force of the compression spring in the subsequent splicing process and separation process of the first casing 370 and the second casing 380, the end surfaces of the first casing 370 and the second casing 380 spliced together are provided with caulking grooves 350, and two ends of the compression spring are respectively disposed in the caulking grooves 350 of the first casing 370 and the second casing 380. During the separation of the first and second housings 370, 380, a portion of the compression spring is exposed; when the first casing 370 and the second casing 380 are spliced, the compression spring is located in the space after the caulking groove 350 of the first casing 370 and the second casing 380 is spliced, and the inner ring casing 300 and the outer ring casing 200 can be attached to each other due to the arrangement of the first inclined surface 810 and the second inclined surface 820, so that the boundary gap between the inner ring casing 300 and the outer ring casing 200 is small from the appearance, and the quality and the appearance of the product are good.

Referring to fig. 13 to 17, if the inner ring shell 300 is completely separated from the outer ring shell 200, damage to the product may occur in some specific situations, such as when the user wears the intelligent ring 100 on his finger, the relative rotation between the inner ring shell 300 and the outer ring shell 200 causes the flexible circuit board 600 between the inner ring shell 300 and the outer ring shell 200 to twist, and the pre-tightening force between the inner ring shell 300 and the outer ring shell 200 may be increased, which may also make the picking process difficult, for which reason, the intelligent ring 100 further includes a limiting structure 840 provided between the inner ring shell 300 and the outer ring shell 200, the inner ring shell 300 having a stacked position and a staggered position where the inner ring shell 300 is stacked with the outer ring shell 200, and the limiting structure 840 serves to limit the stacked position and the staggered position.

Specifically, the limiting structure 840 may play a certain limiting role in addition to the guiding role of facilitating the movement of the inner ring shell 300 and the outer ring shell 200, and limit the rotation of the inner ring shell 300 relative to the outer ring shell 200 in the circumferential direction, in an embodiment, the limiting structure 840 is formed by a rib and a rib, for example, the inner surface of the outer ring shell 200 is provided with two ribs spaced apart, the ribs extend in the width direction, and the outer surface of the inner ring shell 300 is provided with one rib located between the two ribs of the outer ring shell 200; in the present embodiment, the limiting structure 840 includes a sliding groove 841 provided on the inner ring case 300 and a sliding shaft 842 provided on the outer ring case 200, the sliding shaft 842 is disposed in the sliding groove 841, and the sliding groove 841 extends along the embedding direction of the inner ring case 300.

Specifically, the sliding grooves 841 include two sliding shafts 842 corresponding to the number of the sliding grooves 841, the two sliding grooves 841 are respectively disposed on the first housing 370 and the second housing 380, and one sliding groove 841 is matched with one sliding shaft 842. It will be appreciated that the separable splice of the inner annular housing 300 by the first housing 370 and the second housing 380, the corresponding arrangement of the sliding grooves 841 and the sliding shafts 842 in the first housing 370 and the second housing 380 may make the separation and installation process smoother, in a specific embodiment, in order to ensure the installation of the sliding shafts 842 while also avoiding the sliding shafts 842 and the sliding grooves 841 from affecting the fit of the first inclined surface 810 and the second inclined surface 820, the outer annular housing 200 is provided with two installation protrusions 220 at the end of the inner annular housing 300 in the embedding direction, the inner annular housing 300 is provided with the relief grooves 320, the two relief grooves 320 have the partition wall 340 therebetween, the sliding grooves 841 are provided on the partition wall 340, the sliding shafts 842 are inserted into the two installation protrusions 220 and are disposed in the sliding grooves 841, the installation protrusions 220 are disposed in the relief grooves 320, such that when the inner annular housing 300 and the outer annular housing 200 are separated, the installation protrusions 220 move within the relief grooves 841, and when the outer annular housing 370 and the second housing 380 are moved to the first housing 200 are separated from the sliding shafts 370 and the second housing 380, the first housing 370 and the second housing 380 are not blocked from the first housing 370 and the second housing 380 are also prevented from being separated.

In order to facilitate the installation of the second sub-board 612, the second sub-board 612 is subdivided into two sections at the position of the sliding slot 841 of the second housing 380, so as to avoid the position of the sliding slot 841, and is respectively installed at two ends of the second housing 380 at the sliding slot 841, so that the installation of the second sub-board 612 is facilitated.

Referring to fig. 10 to 12, when being worn, the user pushes the inner ring case 300 out of the outer ring case 200, the first and second cases 370 and 380 move along the sliding grooves 841 and the sliding shafts 842, and because of the arrangement of the first and second inclined surfaces 810 and 820, the first and second cases 370 and 380 are restrained from being separated from the outer ring case 200 when moving to the end of the sliding groove 841; and the first casing 370 and the second casing 380 are separated from each other by the upper and lower compression springs, the inner diameters of the first casing 370 and the second casing 380 are enlarged, and here, it is explained that the first casing 370 and the second casing 380 may be connected by a folding band or a flexible band; because the inner diameter of the inner ring shell 300 is enlarged, a user can conveniently sleeve the inner ring shell 300 on a finger, then push the outer ring shell 200 in the opposite direction to the inner ring shell 300, and the first casing 370 and the second casing 380 are spliced under the action of the first inclined plane 810 and the second inclined plane 820 so that the inner diameter is reduced; therefore, the inner ring shell 300 can be conveniently attached to the finger, the electrodes of the first shell 370 and the second shell 380 can be attached to the skin of the finger, and thus the health data of the body can be measured, and the wearing is more firm.

The inner ring shell 300 is tightly attached to the surface of the finger of the user under the action of the outer ring shell 200, during the process of picking up the ring, the inner ring shell 300 is possibly clamped tightly, so that the outer ring shell 200 is excessively hard in the process of being separated, the flexible circuit board 600 between the inner ring shell 300 and the outer ring shell 200 is pulled, and the sliding groove 841 and the sliding shaft 842 are arranged, so that the problem that the flexible circuit board 600 is damaged due to excessively hard separation of the user when the user is separated from the intelligent ring 100 is avoided, namely, when the outer ring shell 200 moves out of the inner ring shell 300, the first shell 370 and the second shell 380 are separated; when the outer ring shell 200 is sleeved with the inner ring shell 300, the first shell 370 and the second shell 380 are spliced, in this process, the bendable plate 620 is 7-shaped, and the bendable FPC is in a state of maximum bending radius and is placed in the middle position of the inner shell and the outer shell. When the outer ring case 200 is gradually slid away, the second plate portion 630 and the bendable plate portion 620 are slid along with the outer ring case 200 for a certain distance, during which the bending angle and shape of the bendable plate portion 620 are changed, and the first plate portion 610 and the second plate portion 630 are kept connected smoothly by the bendable plate portion 620 in a state that the inner ring case 300 and the outer ring case 200 are separated.

Referring to fig. 13 to 17, for convenience of wearing or picking, the smart ring 100 further includes an elastic buckle 850, the elastic buckle 850 is mounted on the inner ring shell 300, and the inner ring shell 300 is provided with a clamping groove 330 penetrating through a sliding groove 841, at least a portion of the elastic buckle 850 is disposed in the sliding groove 841 from the clamping groove 330, and the elastic buckle 850 is used for limiting movement of the sliding shaft 842. The end of the elastic buckle 850 is folded in a V shape, the clamping groove 330 penetrates the sliding groove 841, the sliding groove 841 penetrates the partition wall 340 in the thickness direction, the clamping groove 330 penetrates the partition wall 340 and is communicated with the sliding groove 841, the V-shaped end of the elastic buckle 850 is arranged in the sliding groove 841, and the V-shaped end of the elastic buckle 850 is limited in the sliding process of the sliding shaft 842. It will be appreciated that the first casing 370 and the second casing 380 have a tendency to move toward both sides of the outer casing 200 under the action of the compression spring, so that when the inner casing 300 and the outer casing 200 are engaged with the first inclined surface 810 and the second inclined surface 820, the first casing 370 and the second casing 380 move from the spliced state, that is, when they are laminated on the outer casing 200, the first casing 370 and the second casing 380 have a tendency to move toward the separated state, thereby causing a possible separation situation during wearing, and therefore, the arrangement of the elastic buckle 850 can limit the inner casing 300 at the laminated position and the separated position, so that the inner casing 300 can play a certain limiting role in the spliced state, and the wearing stability is ensured; and the inner ring shell 300 plays a certain limiting role with the outer ring shell 200 in a separated state, so that the wearing is convenient.

In order to enable the intelligent ring 100 to have different limiting positions in the process of being detached or worn, the number of the elastic buckles 850 can be increased to meet the use requirements of different users, so that the number of the gears for the outer ring shell 200 to stay can be increased. The elastic buckles 850 may have a height difference between the end surfaces of the outer sides of the inner and outer shells 300 and 200 from the width direction, and when the inner and outer shells 300 and 200 are embedded in the inner and outer shells 300 and 200, the end surfaces of the outer sides of the inner and outer shells 300 and 200 are flush, and it is understood that when the number of elastic buckles 850 increases, the inner and outer shells 300 and 200 may have different limit positions, such as an indication mark on the outer sides of the inner and outer shells 300 and 200, such as a user moving to the first gear, and the inner shell 300 slightly exceeds the outer shell 200 from the width direction; moving to the second gear, the inner ring 300 is more than the first gear, which facilitates the user to know what gear is in to meet different use needs.

In another embodiment of the present invention, the intelligent ring 100 further includes a flexible circuit board 600, that is, the intelligent ring 100 includes an outer ring shell 200, an inner ring shell 300, a limiting structure 800, and the flexible circuit board 600, the limiting structure 800 may refer to the above, and the inner ring shell 300 is detachably embedded in the outer ring shell 200; the flexible circuit board 600 includes a first plate portion 610, a bendable plate portion 620, and a second plate portion 630 connected in sequence, the first plate portion 610 is embedded in the inner ring case 300, the second plate portion 630 is connected with the outer ring case 200, and the bendable plate portion 620 is located between the inner ring case 300 and the outer ring case 200.

The flexible circuit board 600 (Flexible Printed Circuit Board, abbreviated as FPCB) is a circuit board made of a flexible substrate and has characteristics of being bendable, crimpable, and foldable. The first and second plate portions 610 and 630 are a Substrate Layer (Substrate Layer) and an electronic Component Layer (Component Layer), and the Substrate Layer is a main body of the entire flexible circuit board 600, and a flexible material such as Polyimide (Polyimide) or Polyester (Polyester) film is generally used. The base layer provides flexibility and bending characteristics that enable the FPCB to accommodate different use environments. The electronic component layer is a layer added on the base layer by printing technology. These elements may be wires, pads, resistors, capacitors, transistors, etc. The design of the electronic component layers is laid out and connected according to specific circuit function requirements. In order to protect the electronic component layers and provide good insulation properties, the flexible circuit board 600 is typically covered with a protective Layer (Cover Layer) above and below the electronic component layers. The protective layer is typically a polyimide film and is attached to the substrate layer by means of an adhesive or heat and pressure. The flexible circuit board 600 requires connection to other hardware devices or electronic components at the time of assembly. The flexible sheet portion 620 is typically a metal foil or a conductive tape.

In order to make the inner and outer shells 200 and 300 more tightly embedded, the inner shell 300 is provided with a relief groove 310 on a side facing the outer shell 200, the outer shell 200 is provided with a mounting groove 210 corresponding to the relief groove 310, the second plate 630 is disposed in the mounting groove 210, and the bendable plate 620 passes through the relief groove 310. After the inner ring shell 300 is separated from the outer ring shell 200, the inner ring shell 300 and the outer ring shell 200 are connected through the bendable folded plate part 620, the first plate part 610 is embedded in the inner ring shell 300, the first plate part 610 is not exposed when seen from the outside, the bendable folded plate part 620 passes through the avoidance groove 310, on one hand, the second plate part 630 can be installed in the outer ring shell 200, and the bendable folded plate part 620 is positioned between the inner ring shell 300 and the outer ring shell 200, so that the installation of the bendable folded plate part 620 is facilitated; on the other hand, the pliable flap 620 does not appear outside of the intelligent ring 100 nor interfere with the outer shell 200 and inner shell 300.

Referring to fig. 6 to 8, for example, the first plate portion 610 is provided with an electrode portion 500, the inner surface of the inner ring shell 300 is correspondingly provided with an electrode hole 360, and at least part of the electrode portion 500 is exposed outside the electrode hole 360 to contact with the finger of the user, so as to detect the health data of the user through the electrical signal. The electrode part 500 is connected to the control module or the flexible circuit board 600 through a wire. The electrode part 500 may be in contact with the surface of the finger of the user to transmit related electrical signals, for example, a pressure sensing module may be disposed on the flexible circuit board 600, and the electrode part 500 may transmit electrical signals so that the pressure sensing module may use pressure signals of the relative positions of the finger, and the arrangement of a plurality of contact parts further improves the accuracy of the finger pressure signals.

The electrode part 500 is arranged to collect finger pressure and collect health data of fingers, so that the function of the intelligent ring 100 is expanded and the application range of the intelligent ring 100 is improved. For example, the flexible circuit board 600 is further provided with a bluetooth chip, and the bluetooth chip is electrically connected with the control module, and is used for receiving the health data of the fingers, and transmitting and sharing the health data of the fingers to external devices, so as to monitor and track the health state of the user conveniently.

Further, a motor is further mounted on the flexible circuit board 600, and the motor is electrically connected with the control module and controlled by the control module to generate vibration to the finger. For example, when the health data of the user is abnormal, the control module controls the motor to vibrate, so that the fingers feel the vibration signal, the user is conveniently reminded of the abnormal health data, and the user is timely reminded of the health state of the user. Of course, the motor may also serve other functions, such as monitoring or alerting the user to movement, etc., without limitation.

In order to facilitate the user to operate the intelligent ring 100, specifically, the intelligent ring 100 further includes a button member 700, the installation groove 210 penetrates through the outer ring shell 200, the button member 700 is embedded with the installation groove 210, the button member 700 includes a middle key 710, four circumferential keys 720 located in the up-down, left-right directions of the middle key 710, and a plurality of functional keys corresponding to the middle key 710 and the four circumferential keys 720 uniformly are disposed on the second plate portion 630. The related functions of the intelligent ring 100 may be implemented by the Button member 700, for example, the middleware and the circumferential buttons 720 may be a Trigger key (Trigger), a Menu Button (Menu Button), a direction key (Directional Pad), a Function key (Function Button), and the like. Such as a menu interface that may be used to open an application, or to enter settings, pause, etc. The directional keys may be used for navigation or menu selection and the specific functions of the function keys may vary from device to device. Such as a volume adjustment key, a power key, etc.

Referring to fig. 3, 5, 7 and 13, in this solution, the design of the button member 700 is five-way key, which is different from the traditional solution, and is simple and practical, suitable for mass production, the second plate portion 630 is a key FPC welded with five button elastic pieces 640, which is fixed on the inner side of the housing, the five button elastic pieces 640 are arranged at the bottom of the key cap, the first plate portion 610 is a functional FPC, the second plate portion 630 is a key FPC, the bendable plate portion 620 connects the two, which are continuous and same flexible circuit board 600, and the second plate portion 630 is arranged in the mounting groove 210 of the outer ring shell 200, so that the button member 700 can be used for controlling whether the inner ring shell 300 and the outer ring shell 200 are in a separated state or a spliced state, which can bring a brand new ring shape to the user, and is convenient for the user to operate the intelligent ring 100. In the triggering process, the keys of each button member 700 can be in one-to-one correspondence with a button spring plate 640, and after the keys are pressed, the button spring plate 640 is in a tightly compressed state, so that the corresponding functions are realized by conducting the circuit on the button spring plate 640 and the second plate 630, and the button spring plate 640 plays a role of a switch.

Referring to fig. 3, in order to make the installation of the second plate portion 630 more stable, the intelligent ring 100 further includes a cover plate 730, the cover plate 730 covers the installation groove 210, and the cover plate 730 faces the surface of the inner ring shell 300, so that the detachment of the second plate portion 630 is avoided and the stability is higher.

In order to facilitate the installation of the FPC, the inner ring case 300 includes a first case 370 and a second case 380 which can be relatively spliced to form a circular ring, the first board portion 610 includes a first sub-board 611 and a second sub-board 612 which are connected, the first sub-board 611 is connected with the bendable board portion 620 and the second board portion 630, the first sub-board 611 is disposed in the first case 370, the avoiding groove 310 is disposed in the first case 370, and the second sub-board 612 is disposed in the second case 380. If the first plate 610 is an annular FPC, the manufacturing process is more complicated, and the installation process requires higher requirements, for this purpose, the inner ring shell 300 is split into two halves in a splicing manner, that is, the first casing 370 and the second casing 380 are both arc-shaped, and the circumferences of the arc-shaped first casing 370 and the arc-shaped second casing 380 may be the same, that is, split into halves; or one large and one small; for better appearance, the first and second housings 370 and 380 are symmetrically separated; the splicing manner of the first casing 370 and the second casing 380 may be that the arc end of the first casing 370 and the arc end of the second casing 380 are provided with a clamping structure, such as a clamping protrusion or a clamping groove 330, which are matched, or are provided with mutually magnetic adsorption for splicing and fixing. The first sub-board 611 and the second sub-board 612 may be electrically connected by a wire.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (15)

1. An intelligent ring, comprising:

an outer annular shell;

the inner ring shell is detachably embedded in the outer ring shell; and

the conversion structure is arranged between the inner annular shell and the outer annular shell, and the inner annular shell is provided with a lamination position and a staggered position;

when the inner annular shell receives thrust from a first direction, the inner annular shell is positioned at a lamination position, and the outer annular shell and the inner annular shell are laminated in a radial direction;

when the inner annular shell receives thrust from a second direction, the inner annular shell is positioned at a staggered position, and the outer annular shell is at least partially separated from the inner annular shell in a staggered manner in the radial direction.

2. The intelligent ring according to claim 1, wherein the inner ring shell comprises a first shell and a second shell which can be spliced relatively to form a circular ring, and the first shell and the second shell are connected by an elastic member, and have a spliced state and a separated state that enlarges the inner diameter of the inner ring shell:

the inner ring shell is positioned at a lamination position, the conversion structure enables the first shell and the second shell to be in a splicing state, and the elastic piece is compressed;

the inner ring shells are positioned at staggered positions, the switching structure enables the first shell and the second shell to be in a separated state, and the elastic piece is reset.

3. The intelligent ring according to claim 2, wherein said transition structure comprises a first inclined surface provided on an outer surface of said inner ring shell and a second inclined surface provided on an inner surface of said outer ring shell, said first inclined surface being inclined in an embedded direction, said second inclined surface being opposite to an inclined direction of said first inclined surface, said first inclined surface being slidable with said second inclined surface to transition said first and second shells between said separated and spliced states.

4. The intelligent ring according to claim 2, further comprising a limit structure disposed between the inner and outer shells, the limit structure configured to limit movement of the inner shell relative to the outer shell in the stacked and staggered positions.

5. The intelligent ring according to claim 4, wherein the limiting structure comprises a sliding groove provided in the inner ring shell and a sliding shaft provided in the outer ring shell, the sliding shaft is disposed in the sliding groove, the sliding groove extends along the embedding direction of the inner ring shell, the sliding shaft abuts against groove walls at two ends of the sliding groove in the extending direction, and the inner ring shell is limited to move relative to the outer ring shell in the stacking position and the staggered position.

6. The intelligent finger ring according to claim 5, wherein said sliding grooves comprise two sliding grooves, said sliding shafts being arranged corresponding to the number of said sliding grooves, said two sliding grooves being provided in said first housing and said second housing, respectively, one of said sliding grooves being associated with one of said sliding shafts.

7. The intelligent ring of claim 5, further comprising an elastic clasp mounted to the inner ring shell, wherein the inner ring shell is provided with a slot extending through the runner, at least a portion of the elastic clasp being disposed in the runner from the slot, the elastic clasp being configured to limit movement of the slide shaft.

8. The smart ring of claim 7, wherein the resilient clasp limits the sliding shaft in a stacked position and a separated position to limit movement of the sliding shaft.

9. The intelligent ring according to claim 2, wherein the end surfaces of the first shell and the second shell that are spliced together are each provided with a caulking groove, the elastic member is configured as a compression spring, and both ends of the compression spring are respectively disposed in the caulking grooves of the first shell and the second shell.

10. The intelligent ring of claim 2, further comprising a flexible circuit board, wherein the flexible circuit board comprises a first plate portion, a bendable plate portion, and a second plate portion connected in sequence, wherein the first plate portion is embedded in the inner ring shell, wherein the second plate portion is connected with the outer ring shell, and wherein the bendable plate portion is positioned between the inner ring shell and the outer ring shell.

11. The intelligent ring according to claim 10, wherein a side of the inner ring shell facing the outer ring shell is provided with a relief groove, the outer ring shell is provided with a mounting groove corresponding to the relief groove, the second plate portion is disposed in the mounting groove, and the bendable flap portion passes through the relief groove.

12. The intelligent ring according to claim 11, further comprising a button member, wherein the mounting groove extends through the outer ring shell, the button member is embedded in the mounting groove, the button member comprises a middle key and four circumferential keys positioned in the up-down, left-right directions of the middle key, and the second plate portion is provided with a plurality of functional keys corresponding to the middle key and the four circumferential keys in a uniform and one-to-one manner.

13. The intelligent ring according to claim 11, wherein the first plate portion comprises a first sub-plate and a second sub-plate that are electrically connected, the first sub-plate being connected to the bendable flap portion, the first sub-plate being disposed in the first housing, the relief groove being disposed in the first housing, the second sub-plate being disposed in the second housing.

14. The intelligent ring according to claim 13, wherein the second sub-plate further comprises two sub-plates, both sub-plates being mounted to the second housing and avoiding the runner of the second housing.

15. The intelligent ring according to claim 10, wherein the first plate portion has an electrode portion, the inner surface of the inner ring shell has an electrode hole corresponding thereto, and at least a portion of the electrode portion is exposed from the electrode hole to contact with a finger of a user to detect health data of the user through an electrical signal.