CN114747845A - A multi-functional intelligent bracelet for child - Google Patents

Abstract

The invention discloses a multifunctional intelligent bracelet for children, which relates to the technical field of intelligent bracelets and comprises a first watchband, a second watchband and a connecting sleeve assembly, wherein a first grid assembly is arranged at the head end of the first watchband, a guide assembly is arranged at the tail end of the first watchband, a second grid assembly is arranged at the head end of the second watchband, a sliding cavity assembly is arranged at the tail end of the second watchband, the first grid assembly and the second grid assembly are integrally spliced and form a plurality of installation through openings, the connecting sleeve assembly is arranged around the first grid assembly and the second grid assembly, the top and the bottom of each installation through opening are opened, a multifunctional module assembly is arranged between the connecting sleeve assembly and the installation through openings, the multifunctional module assembly comprises multifunctional sub-modules respectively arranged in the installation through openings, and an elastic assembly connected with the guide assembly is arranged in the sliding cavity assembly. The invention has the advantages of stable structure, reliable wearing and long service life.

Description

A multi-functional intelligent bracelet for child

Technical Field

The invention relates to the technical field of intelligent bracelets, in particular to a multifunctional intelligent bracelet for children.

Background

The intelligent bracelet is a wear-type smart machine. When being used for child, generally can carry out multi-functional prevention and remind, for example waterproof warning, prevent drowned warning, prevent warning etc. of wandering away, some present intelligent bracelets adopt the mode of knot to dress, some child is good at the mobility, or after the strenuous exercise, cause knot part pine very easily and take off, thereby lead to intelligent bracelet to break away from the wrist, simultaneously do not collect the fire prevention on the market at present, prevent drowned, prevent the multi-functional intelligent bracelet of function such as wandering away, because different functions adopt different electronic component or sensor to monitor respectively, and the mountable space undersize of bracelet, a plurality of electronic component gather can lead to the electromagnetic interference of each other, so, can lead to the life of intelligent bracelet lower, also can influence each electronic component's monitoring effect.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a multifunctional intelligent bracelet for children.

A multifunctional intelligent bracelet for children comprises a first watchband, a second watchband and a connecting sleeve assembly, wherein a first grid assembly is arranged at the head end of the first watchband, a guide assembly is arranged at the tail end of the first watchband, a second grid assembly is arranged at the head end of the second watchband, and a sliding cavity assembly is arranged at the tail end of the second watchband; the first grid assembly and the second grid assembly are integrally spliced and form a plurality of mounting through holes, the connecting sleeve assembly is arranged around the first grid assembly and the second grid assembly, the top and the bottom of each mounting through hole are opened, a multifunctional module assembly is arranged between each connecting sleeve assembly and each mounting through hole, and each multifunctional module assembly comprises a multifunctional sub-module which is arranged in each mounting through hole; the guide assembly extends to the inside of sliding cavity assembly and can slide in the sliding cavity assembly, the inside elastic assembly who connects the guide assembly that is provided with of sliding cavity assembly, elastic assembly is used for the elasticity propelling movement of guide assembly to sliding cavity assembly bottom. A plurality of multi-functional submodule pieces can be temperature detection module, apart from detection module, position detection module, pressure detection module and bluetooth module etc. can realize preventing fires simultaneously, prevent drowning, prevent functions such as wandering away and automatic alarm.

Preferably, the slide chamber assembly comprises: a connecting band set arranged at the tail end of the second watchband; and a guide cavity group arranged inside the connecting belt group; the tail end face of the connecting belt group is provided with an inlet and outlet group communicated with the guide cavity group, the guide assembly extends into the guide cavity group from the inlet and outlet group, the elastic assembly is arranged in the guide cavity group, and the elastic assembly is connected with the guide assembly extending into the guide cavity group. The guide assembly is clamped in the guide cavity group in the connection belt group, so that the elastic assembly in the guide cavity group pulls or pushes the guide assembly, the guide assembly has a tendency of moving towards the inside of the sliding cavity assembly, and the wrist of a child can be reliably attached after the child wears the wrist-mounted elastic assembly.

Preferably, the slide chamber assembly further comprises a notch channel disposed at an end of the second band; the connecting band group is divided into a first connecting band and a second connecting band by the gap channel, the first connecting band is arranged on the front side of the tail end of the second watchband, and the second connecting band is arranged on the rear side of the tail end of the second watchband; the notch channel divides the guide cavity group into a first guide cavity and a second guide cavity, the first guide cavity is positioned in the first connecting band, and the second guide cavity is positioned in the second connecting band; the inlet and outlet group is divided into a first inlet and outlet and a second inlet and outlet by the notch channel, the first inlet and outlet is positioned on the tail end face of the first connecting belt and communicated with the first guide cavity, the second inlet and outlet is positioned on the tail end face of the second connecting belt and communicated with the second guide cavity, the rear side face of the first connecting belt is also provided with a first guide port communicated with the first guide cavity, and the front side face of the second connecting belt is also provided with a second guide port communicated with the second guide cavity; the guide assembly extends from the first access opening and the second access opening to the first guide cavity and the second guide cavity; the guide assembly further enters the gap channel and extends into the first guide cavity and the second guide cavity from the first guide port and the second guide port, the elastic assembly is connected to the guide assembly entering the first guide cavity from the first guide port, and the elastic assembly is further connected to the guide assembly entering the second guide cavity from the second guide port. The connecting belt group is divided into the first connecting belt and the second connecting belt by arranging the notch channel, and the part of the guide assembly, which is positioned in the notch channel, is exposed outside in the process of moving the guide assembly in the sliding cavity assembly, so that the guide assembly can be directly operated no matter how far the guide assembly penetrates into the sliding cavity assembly, and the operation experience of a user is improved; furthermore, the notch channel also forms a channel for guiding the guide assembly, so that the guide reliability is improved, namely the connection strength between the sliding cavity assembly and the guide assembly is improved, and meanwhile, the guide assembly in the notch channel cannot pass through the inlet and outlet group, so that the thickness of the guide assembly can be thicker, and the connection strength between the sliding cavity assembly and the guide assembly is further improved; more importantly, one part of the guide assembly penetrates into the first guide cavity and the second guide cavity from the first inlet and the second outlet, the other part of the guide assembly penetrates into the first guide cavity and the second guide cavity from the first guide opening and the second guide opening, thereby, the arrangement mode of the elastic component can be more diversified, preferably, the elastic component is connected on the guide component entering the first guide cavity from the first guide port, the support for the elastic component is more reliably formed in the first guide cavity, the guide component can be assisted to enter the first guide cavity from the first inlet and outlet more reliably, and similarly, through connecting elastic component on the direction subassembly that gets into the second direction chamber from the second direction mouth, form elastic component's support more easily in the second direction intracavity, can assist the direction subassembly more reliably from the second business turn over mouth entering second direction chamber.

Preferably, the guide assembly comprises: a first guide band provided at a front side of a distal end of the first band; a second guide band provided at the rear side of the distal end of the first band; and a holding belt disposed between the first guide belt and the second guide belt; wherein the first and second guide strips extend from the first and second access openings into the first and second guide cavities, respectively; the holding belt enters the gap channel, mounting structures are arranged on the front side and the rear side of the holding belt, the two mounting structures extend into the first guide cavity and the second guide cavity from the first guide opening and the second guide opening respectively, and the mounting structures are connected with the elastic assembly. The first guide belt penetrates into the first guide cavity from the first inlet and outlet, the second guide belt penetrates into the second guide cavity from the second inlet and outlet, and meanwhile, the belts are kept to enter the gap channel; the tail sections of the front side face and the rear side face of the retaining band are provided with mounting structures, the mounting structures are located right ahead of the first guide band and the second guide band, when the guide assemblies move towards the sliding cavity assembly, the mounting structures are pushed by the elastic assemblies, so that the first guide band continuously penetrates into the first guide cavity from the first inlet and outlet, meanwhile, the first guide band can also separate the first guide cavity into a left area and a right area, the elastic assemblies are located in the two areas, deformation of the elastic assemblies is limited, and elastic pushing of the elastic assemblies is reliably achieved.

Preferably, the mounting structure includes an extension portion fixed to the holding belt side face and a support portion fixed to the extension portion; wherein, the extension portion passes through first guide opening or second guide opening, the supporting part is connected with the elastic component. One end of the extending part is positioned in the gap channel, the other end of the extending part is positioned in the first guide cavity or the second guide cavity, and the extending part can drive the retaining belt to move and form a platform for installing the supporting part.

Preferably, the elastic assembly is composed of two elastic structures, the two elastic structures are respectively arranged in the first guide cavity and the second guide cavity, and the two elastic structures are respectively connected with the supporting parts in the first guide cavity and the second guide cavity. The elastic part includes a plurality of compression springs connected to one or more supporting parts.

Preferably, the first grid assembly comprises a plurality of first isolation belts vertically arranged on the head end surface of the first watchband, the first isolation belts are sequentially and uniformly distributed from front to back, the second grid assembly comprises a plurality of second isolation belts vertically arranged on the head end surface of the second watchband, and the second isolation belts are sequentially and uniformly distributed from front to back; wherein, first grid subassembly with second grid subassembly concatenation is integrative back, first median laminating the second median forms double-deck isolation structure, forms between the adjacent double-deck isolation structure the installation opening. The first barrier strip and the second barrier strip are mutually attached through splicing the first grid assembly and the second grid assembly, and meanwhile, the first barrier strip and the second barrier strip can be connected in a bonding mode, so that the connection strength of the head ends of the first watchband and the second watchband is improved; further, first median laminating second median forms double-deck isolating construction, sets up at the inside back of installation opening at multi-functional submodule piece, keeps apart adjacent multi-functional submodule piece through double-deck isolating construction, alleviates the electromagnetic interference of the two production to a certain extent, improves the life and the monitoring effect of a plurality of multi-functional submodule pieces.

Preferably, the multifunctional module assembly further comprises a mounting substrate, the mounting substrate is arranged at the top of the first grid assembly and the top of the second grid assembly, the multifunctional sub-module is arranged on the bottom surface of the mounting substrate, and the connecting sleeve assembly is arranged around the first grid assembly, the second grid assembly and the mounting substrate. A multi-layer circuit board and associated heat dissipation structure are disposed on the mounting substrate.

Preferably, the top surface of the mounting substrate is provided with a corrugated surface, and the corrugated surface is attached to the connecting sleeve component into a whole. Through the setting of corrugated surface, can effectively improve the area of contact of mounting substrate with the connecting sleeve subassembly, improved heat conduction area on the one hand to improve mounting substrate's radiating efficiency, on the other hand can also strengthen the connection between mounting substrate and the connecting sleeve subassembly, effectively reduce the possibility that takes place relative slip between mounting substrate and the connecting sleeve subassembly.

Preferably, the connecting sleeve assembly is provided with a working port communicated with the bottom of the mounting through port, and the working port is used for enabling the multifunctional sub-module to be in contact with the outside. Through the setting of work mouthful, can let multi-functional submodule piece in work mouthful department direct contact child's wrist or external, guarantee the normal operation of multi-functional submodule piece function.

The invention has the following beneficial effects:

according to the intelligent bracelet, the first watchband and the second watchband are connected end to form a closed ring, so that structures such as a buckle section are avoided, the weight of the whole intelligent bracelet is reduced, and the use experience is improved; furthermore, the head ends of the first watchband and the second watchband are spliced into a whole through the first grid assembly and the second grid assembly to form a plurality of installation openings, the connected installation openings are separated through the first grid assembly and the second grid assembly, namely, the adjacent multifunctional sub-modules are structurally separated, the electromagnetic interference generated by the first grid assembly and the second grid assembly is reduced to a certain extent, the service lives and the monitoring effects of the multifunctional sub-modules are improved, and further, the connecting sleeve assembly is utilized to surround the first grid assembly, the second grid assembly and the multifunctional module assembly, so that the structural stability among the three is effectively improved, the isolation strength among the multifunctional sub-modules is enhanced, the service lives and the monitoring effects of the multifunctional sub-modules are further improved; furthermore, the tail ends of the first watchband and the second watchband are respectively provided with a guide component and a sliding cavity component, the guide component extends into the sliding cavity component, an elastic component connected with the guide component is arranged in the sliding cavity component, the elastic component pulls or pushes the guide component by setting the elastic components in different states, and finally the guide component has a tendency of moving towards the inside of the sliding cavity component, wherein before wearing, the first watchband and the second watchband are pulled to enlarge the enclosed annular range, so that the palm of the child passes through the whole intelligent bracelet, then the first watchband and the second watchband are loosened, under the action of the elastic component, the guide component continuously moves towards the inside of the sliding cavity component until the whole intelligent bracelet fully fits the wrist of the child, at the moment, even if the child shakes the wrist, or the whole first watchband or the second watchband is pulled violently, the intelligent bracelet cannot easily pass through the palm of the child, thereby greatly reduced the unexpected possibility that breaks away from of intelligence bracelet.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a top view of the structure of the present invention;

FIG. 3 is a sectional view of the structure of FIG. 2 taken along the line A-A;

FIG. 4 is a perspective view of the structure of FIG. 3 at B in accordance with the present invention;

FIG. 5 is a schematic view of a portion of the structure of FIG. 2 at C in accordance with the present invention;

FIG. 6 is a cross-sectional view of the structure of FIG. 2 taken along line D-D;

FIG. 7 is a schematic structural view of a coupling sleeve assembly of the present invention;

fig. 8 is a schematic structural view of the multifunctional module assembly of the present invention.

Reference numerals:

1-first strap, 11-first grid assembly, 111-first spacer strip, 12-guide assembly, 121-first guide strip, 122-second guide strip, 123-retaining strip, 1231-mounting structure, 1231 a-extension, 1231 b-support, 2-second strap, 21-second grid assembly, 211-second spacer strip, 22-sliding chamber assembly, 221-connecting strip set, 2211-first connecting strip, 2212-second connecting strip, 2213-first guide chamber, 2214-first access, 2215-second access, 2216-first guide port, 222-notched channel, 23-elastic assembly, 231-elastic structure, 3-connecting sleeve assembly, 31-work port, 4-mounting access, 5-multifunctional module assembly, 51-multifunctional submodule, 52-mounting substrate, 521-corrugated surface.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be noted that the terms "inside", "outside", "upper", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships usually placed when the products of the present invention are used, and are only used for convenience of description and simplification of the description, but do not indicate or imply that the devices or elements referred to must have specific orientations, be constructed in specific orientations, and operate, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1 to 8, a multifunctional smart bracelet for children comprises a first watchband 1, a second watchband 2 and a connecting sleeve component 3, wherein a first grid component 11 is arranged at the head end of the first watchband 1, a guide component 12 is arranged at the tail end of the first watchband 1, a second grid component 21 is arranged at the head end of the second watchband 2, and a sliding cavity component 22 is arranged at the tail end of the second watchband 2; the first grid assembly 11 and the second grid assembly 21 are integrally spliced and are provided with a plurality of installation openings 4, the connecting sleeve assemblies 3 are arranged around the first grid assembly 11 and the second grid assembly 21, the top and the bottom of each installation opening 4 are opened, the multifunctional module assemblies 5 are arranged between the connecting sleeve assemblies 3 and the installation openings 4, and each multifunctional module assembly 5 comprises a multifunctional sub-module 51 which is respectively arranged in the installation openings; the guide assembly 12 extends into the sliding cavity assembly 22 and can slide in the sliding cavity assembly 22, an elastic assembly 23 connected with the guide assembly 12 is arranged inside the sliding cavity assembly 22, and the elastic assembly 23 is used for elastically pushing the guide assembly 12 to the bottom of the sliding cavity assembly 22.

In this embodiment, it should be noted that the plurality of multifunctional sub-modules 51 may be a temperature detection module, a distance detection module, a position detection module, a pressure detection module, a bluetooth module, etc., and can simultaneously achieve the functions of fire prevention, drowning prevention, missing prevention, automatic alarm, etc. The first watchband 1 and the second watchband 2 are connected end to form a closed ring, so that structures such as buckle sections are avoided, the weight of the whole intelligent bracelet is reduced, and the use experience is improved; furthermore, the head ends of the first watchband 1 and the second watchband 2 are spliced into a whole through the first grid assembly 11 and the second grid assembly 21, and a plurality of mounting through-openings 4 are formed, and the connected mounting through-openings 4 are partitioned by the first grid assembly 11 and the second grid assembly 21, that is, structurally, adjacent multifunctional sub-modules 51 are isolated, electromagnetic interference generated by the multifunctional sub-modules is reduced to a certain extent, the service life and the monitoring effect of the multifunctional sub-modules 51 are improved, and furthermore, the connecting sleeve component 3 is utilized to surround the first grid component 11, the second grid component 21 and the multifunctional module component 5, so that the structural stability among the three is effectively improved, the isolation strength among the multifunctional sub-modules 51 is enhanced, and the service life and the monitoring effect of the multifunctional sub-modules 51 are further improved; furthermore, the tail ends of the first watchband 1 and the second watchband 2 are respectively provided with a guide component 12 and a sliding cavity component 22, the guide component 12 extends into the sliding cavity component 22, meanwhile, an elastic component 23 connected with the guide component 12 is arranged in the sliding cavity component 22, by setting the elastic components 23 in different states, the elastic component 23 pulls or pushes the guide component 12, and finally the guide component 12 has a tendency of moving towards the inside of the sliding cavity component 22, wherein before wearing, the first watchband 1 and the second watchband 2 are pulled to enlarge the enclosed annular range, the palm of a child passes through the whole smart bracelet, then the first watchband 1 and the second watchband 2 are loosened, under the action of the elastic component 23, the guide component 12 continuously moves towards the inside of the sliding cavity component 22 until the whole smart bracelet fully fits the wrist of the child, at this time, even if the child vigorously shakes the wrist, or the whole first watchband 1 or the whole second watchband 2 is pulled by a hand, the intelligent bracelet cannot easily pass through the palm of a child, and therefore the possibility of accidental separation of the intelligent bracelet is greatly reduced.

Specifically, slide cavity assembly 22 includes: a connection band group 221 provided at the end of the second band 2; and a guide chamber group disposed inside the connection belt group 221; wherein, the end face of the connecting belt group 221 is provided with an inlet and outlet group communicated with the guide cavity group, the guide assembly 12 extends into the guide cavity group from the inlet and outlet group, the elastic assembly 23 is arranged in the guide cavity group, and the elastic assembly 23 is connected with the guide assembly 12 extending into the guide cavity group.

In this embodiment, it should be noted that guide element 12 is snapped into the guide cavity inside the connecting band set 221, so that elastic element 23 in the guide cavity pulls or pushes guide element 12, and guide element 12 has a tendency to move toward the inside of sliding cavity element 22, thereby achieving a reliable fit on the wrist of the child after wearing.

Specifically, the slide chamber assembly 22 further comprises a notched channel 222 provided at the end of the second bracelet 2; the notched passage 222 divides the connection strip group 221 into a first connection strip 2211 and a second connection strip 2212, the first connection strip 2211 is arranged on the front side of the tail end of the second watchband 2, and the second connection strip 2212 is arranged on the rear side of the tail end of the second watchband 2; the notched passage 222 divides the guide cavity group into a first guide cavity 2213 and a second guide cavity, the first guide cavity 2213 is located in the first connecting strip 2211, and the second guide cavity is located in the second connecting strip 2212; the gap passage 222 divides the entrance/exit group into a first entrance/exit 2214 and a second entrance/exit 2215, the first entrance/exit 2214 is located at the end surface of the first connecting strip 2211 and communicates with the first guide cavity 2213, the second entrance/exit 2215 is located at the end surface of the second connecting strip 2212 and communicates with the second guide cavity, the rear side surface of the first connecting strip 2211 is further provided with a first guide opening 2216 communicating with the first guide cavity 2213, and the front side surface of the second connecting strip 2212 is further provided with a second guide opening communicating with the second guide cavity; the guide assembly 12 extends from the first and second access ports 2214 and 2215 into the first and second guide cavities 2213 and 2215; the guide assembly 12 further enters the cutaway channel 222 and extends from the first and second guide ports 2216 and 2213 into the first and second guide chambers, the resilient assembly 23 is attached to the guide assembly 12 entering the first guide chamber 2213 from the first guide port 2216, and the resilient assembly 23 is attached to the guide assembly 12 entering the second guide chamber from the second guide port.

In this embodiment, it should be noted that, by providing the gap channel 222, the connection strip group 221 is divided into the first connection strip 2211 and the second connection strip 2212, and in the process that the guide assembly 12 moves in the sliding cavity assembly 22, the portion of the guide assembly 12 located in the gap channel 222 is exposed, so that the guide assembly 12 can be directly operated no matter how far the guide assembly 12 penetrates into the sliding cavity assembly 22, thereby improving the user operation experience; further, the notched channel 222 also forms a channel for guiding the guide assembly 12, so that the guiding reliability is improved, that is, the connection strength between the sliding cavity assembly 22 and the guide assembly 12 is improved, and meanwhile, because the guide assembly 12 in the notched channel 222 cannot pass through the inlet and outlet set, the thickness of the guide assembly 12 can be thicker, so that the connection strength between the sliding cavity assembly 22 and the guide assembly 12 is further improved; more importantly, a portion of the guide assembly 12 extends through the first and second ports 2214 and 2215 into the first and second guide lumens 2213 and 2215, another portion of the guide assembly 12 extends through the first and second ports 2216 and 2213 and 2215 into the first and second guide lumens, thus, the elastic member 23 can be disposed in a more various manner, and preferably, the elastic member 23 is connected to the guide member 12 entering the first guide cavity 2213 from the first guide opening 2216, so that the elastic member 23 can be supported in the first guide cavity 2213 more reliably, and the guide member 12 can be assisted to enter the first guide cavity 2213 from the first entrance 2214 more reliably, and similarly, by attaching the elastic member 23 to the guide member 12 entering the second guide chamber from the second guide opening, the support of the elastic member 23 is more easily formed in the second guide chamber, and the guide member 12 can be assisted to enter the second guide chamber from the second entrance 2215 more reliably.

Specifically, the guide assembly 12 includes: a first guide band 121 provided on the front side of the distal end of the first band 1; a second guide band 122 provided on the rear side of the distal end of the first band 1; and a holding belt 123 provided between the first guide belt 121 and the second guide belt 122; wherein the first guide strip 121 and the second guide strip 122 extend from the first access opening 2214 and the second access opening 2215 to the first guide cavity 2213 and the second guide cavity, respectively; the holding strap 123 enters the notch passage 222, the front and the back of the holding strap 123 are both provided with mounting structures 1231, the two mounting structures 1231 extend into the first guide cavity 2213 and the second guide cavity from the first guide opening 2216 and the second guide opening respectively, and the mounting structures 1231 are connected with the elastic component 23.

In this embodiment, it should be noted that the first guide strip 121 is inserted into the first guide cavity 2213 from the first entrance 2214, the second guide strip 122 is inserted into the second guide cavity from the second entrance 2215, and the retaining strip 123 is inserted into the notch passage 222; the end sections of the front and rear side surfaces of the holding band 123 are provided with the mounting structures 1231, the mounting structures 1231 are located right in front of the first guide band 121 and the second guide band 122, as shown in the figure, when the guide assembly 12 moves towards the sliding cavity assembly 22, the mounting structures 1231 are pushed by the elastic assembly 23, so that the first guide band 121 continuously penetrates into the first guide cavity 2213 from the first entrance 2214, meanwhile, the first guide band 121 can also divide the first guide cavity 2213 into a left area and a right area, and the elastic assembly 23 is located in the two areas, so as to limit the deformation of the elastic assembly 23, and enable the elastic assembly 23 to more reliably realize elastic pushing.

Specifically, the mounting structure 1231 includes an extending portion 1231a and a supporting portion 1231b, the extending portion 1231a is fixed to the side of the holding strap 123, and the supporting portion 1231b is fixed to the extending portion 1231 a; the extension portion 1231a passes through the first guide opening 2216 or the second guide opening, and the support portion 1231b is connected to the elastic assembly 23.

In this embodiment, it should be noted that one end of the extending portion 1231a is located in the notch passage 222, the other end is located in the first guide cavity 2213 or the second guide cavity, and the extending portion 1231a can drive the holding belt 123 to move and form a platform for installing the supporting portion 1231 b.

Specifically, the elastic assembly 23 is composed of two elastic structures 231, the two elastic structures 231 are respectively disposed in the first guide cavity 2213 and the second guide cavity, and the two elastic structures 231 are respectively connected to the supporting portions in the first guide cavity 2213 and the second guide cavity.

In the present embodiment, as shown in the drawing, the elastic portion includes a plurality of compression springs, and the plurality of compression springs are connected to one or more support portions.

Specifically, the first grid assembly 11 comprises a plurality of first isolation belts 111 vertically arranged on the head end face of the first watchband 1, the plurality of first isolation belts 111 are sequentially and uniformly distributed from front to back, the second grid assembly 21 comprises a plurality of second isolation belts 211 vertically arranged on the head end face of the second watchband 2, and the plurality of second isolation belts 211 are sequentially and uniformly distributed from front to back; after the first grid assembly 11 and the second grid assembly 21 are integrally spliced, the first isolation strip 111 is attached to the second isolation strip 211 to form a double-layer isolation structure, and an installation through opening 4 is formed between the adjacent double-layer isolation structures.

In this embodiment, it should be noted that, by splicing the first grid assembly 11 and the second grid assembly 21, the first isolation strip 111 and the second isolation strip 211 are attached to each other, and can be connected in an adhesion manner, so as to improve the connection strength of the head ends of the first watchband 1 and the second watchband 2; further, first median 111 laminating second median 211 forms double-deck isolating structure, sets up at 4 inside backs of installation openings at multi-functional submodule piece 51, keeps apart adjacent multi-functional submodule piece 51 through double-deck isolating structure, alleviates the electromagnetic interference of the two production to a certain extent, improves a plurality of multi-functional submodule piece 51's life and monitoring effect.

Specifically, the multifunctional module assembly 5 further includes a mounting substrate 52, the mounting substrate 52 is disposed on top of the first grid assembly 11 and the second grid assembly 21, the multifunctional sub-module 51 is disposed on the bottom surface of the mounting substrate 52, and the connecting sleeve assembly 3 is surrounded around the first grid assembly 11, the second grid assembly 21 and the mounting substrate 52.

In the present embodiment, a multilayer circuit board and a related heat dissipation structure are provided on the mounting substrate 52.

Specifically, the top surface of the mounting substrate 52 is provided with a corrugated surface 521, and the corrugated surface 521 is attached to the connecting sleeve component 3.

In this embodiment, it should be noted that, by the arrangement of the corrugated surface 521, the contact area between the mounting substrate 52 and the connecting sleeve component 3 can be effectively increased, on one hand, the heat conduction area is increased, so as to increase the heat dissipation efficiency of the mounting substrate 52, on the other hand, the connection between the mounting substrate 52 and the connecting sleeve component 3 can be strengthened, and the possibility of relative sliding between the mounting substrate 52 and the connecting sleeve component 3 is effectively reduced.

Specifically, the connecting sleeve assembly 3 is provided with a working opening 31 communicated with the bottom of the mounting through opening 4, and the working opening 31 is used for enabling the multifunctional sub-module 51 to be in contact with the outside.

In the present embodiment, it should be noted that, by setting the working opening 31, the multi-function sub-module 51 can directly contact the wrist of the child or the outside at the working opening 31, so as to ensure the normal operation of the function of the multi-function sub-module 51.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (10)

1. A multifunctional intelligent bracelet for children is characterized by comprising a first watchband, a second watchband and a connecting sleeve assembly, wherein a first grid assembly is arranged at the head end of the first watchband, a guide assembly is arranged at the tail end of the first watchband, a second grid assembly is arranged at the head end of the second watchband, and a sliding cavity assembly is arranged at the tail end of the second watchband; wherein, the first and the second end of the pipe are connected with each other,

the first grid assembly and the second grid assembly are integrally spliced and form a plurality of installation through holes, the connecting sleeve assembly is arranged around the first grid assembly and the second grid assembly, the top and the bottom of each installation through hole are opened, a multifunctional module assembly is arranged between each connecting sleeve assembly and the corresponding installation through hole, and each multifunctional module assembly comprises a multifunctional sub-module which is arranged in the corresponding installation through hole;

the guide assembly extends to inside and can slide in the sliding cavity subassembly of sliding cavity subassembly, sliding cavity subassembly inside is provided with the connection the elastic component of guide assembly, the elastic component is used for with guide assembly elasticity propelling movement to sliding cavity subassembly bottom.

2. Multifunctional smart bracelet for children according to claim 1, characterized in that said sliding chamber assembly comprises:

A connecting band group arranged at the tail end of the second watchband; and

the guide cavity group is arranged in the connecting belt group; wherein the content of the first and second substances,

the tail end face of the connecting belt group is provided with an inlet and outlet group communicated with the guide cavity group, the guide assembly extends into the guide cavity group from the inlet and outlet group, the elastic assembly is arranged in the guide cavity group, and the elastic assembly is connected with the guide assembly extending into the guide cavity group.

3. A multi-functional smart bracelet for a child according to claim 2, wherein said slipcase assembly further comprises a notched channel provided at the end of the second wristband; wherein the content of the first and second substances,

the notch channel divides the connecting band group into a first connecting band and a second connecting band, the first connecting band is arranged on the front side of the tail end of the second watchband, and the second connecting band is arranged on the rear side of the tail end of the second watchband;

the notch channel divides the guide cavity group into a first guide cavity and a second guide cavity, the first guide cavity is positioned in the first connecting band, and the second guide cavity is positioned in the second connecting band;

the inlet and outlet group is divided into a first inlet and outlet and a second inlet and outlet by the notch channel, the first inlet and outlet is positioned on the tail end face of the first connecting belt and communicated with the first guide cavity, the second inlet and outlet is positioned on the tail end face of the second connecting belt and communicated with the second guide cavity, the rear side face of the first connecting belt is also provided with a first guide port communicated with the first guide cavity, and the front side face of the second connecting belt is also provided with a second guide port communicated with the second guide cavity;

The guide assembly extends from the first access opening and the second access opening to the first guide cavity and the second guide cavity;

the guide assembly further enters the gap channel and extends into the first guide cavity and the second guide cavity from the first guide port and the second guide port, the elastic assembly is connected to the guide assembly entering the first guide cavity from the first guide port, and the elastic assembly is further connected to the guide assembly entering the second guide cavity from the second guide port.

4. A multifunctional smart bracelet for a child according to claim 3, characterised in that said guiding assembly comprises:

a first guide band provided on a front side of a distal end of the first band;

a second guide band provided at the rear side of the distal end of the first band; and

a holding belt disposed between the first guide belt and the second guide belt; wherein the content of the first and second substances,

the first guide belt and the second guide belt extend into the first guide cavity and the second guide cavity from the first access opening and the second access opening respectively;

the holding belt enters the gap channel, mounting structures are arranged on the front side and the rear side of the holding belt, the two mounting structures extend into the first guide cavity and the second guide cavity from the first guide opening and the second guide opening respectively, and the mounting structures are connected with the elastic assembly.

5. Multifunctional smart bracelet for children according to claim 4, characterised in that said mounting structure comprises an extension part fixed on a retaining band side and a support part fixed on an extension part; wherein, the first and the second end of the pipe are connected with each other,

the extension part passes through the first guide opening or the second guide opening, and the support part is connected with the elastic component.

6. A multifunctional smart bracelet for a child according to claim 5 wherein the elastic assembly consists of two elastic structures, which are respectively arranged in the first and second guiding cavities and are respectively connected to the support portions in the first and second guiding cavities.

7. The multifunctional smart bracelet for children according to claim 1, wherein the first grid assembly comprises a plurality of first isolation belts vertically arranged on the head end surface of the first bracelet, the plurality of first isolation belts are uniformly distributed from front to back, the second grid assembly comprises a plurality of second isolation belts vertically arranged on the head end surface of the second bracelet, and the plurality of second isolation belts are uniformly distributed from front to back; wherein, the first and the second end of the pipe are connected with each other,

first grid subassembly with second grid subassembly concatenation is integrative back, first median laminating the second median forms double-deck isolation structure, forms between the adjacent double-deck isolation structure the installation opening.

8. A multi-functional smart bracelet for children according to claim 7, wherein the multi-functional module assembly further comprises a mounting substrate disposed on top of the first and second grid assemblies, the multi-functional sub-module being disposed on a bottom surface of the mounting substrate, the connecting sleeve assembly being enclosed around the first, second and mounting substrates.

9. The multi-functional smart bracelet for children of claim 8, wherein the mounting substrate top surface is provided with a corrugated surface, said corrugated surface being integrally attached to said nipple member.

10. The multifunctional smart bracelet for children according to claim 1, wherein a working opening communicated with the bottom of the mounting opening is formed on the connecting sleeve assembly, and the working opening is used for enabling the multifunctional sub-module to be in contact with the outside.

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