CN114568797B - Real-time supervision intelligence bracelet based on internet of things - Google Patents

Abstract

The invention belongs to the technical field of intelligent bracelets, and particularly relates to a real-time monitoring intelligent bracelet based on the technology of Internet of things, which comprises a dial plate and a wireless communication module, wherein a control unit and a pulse sensor are arranged in the dial plate, an integrated cavity is integrally formed on the dial plate and is arranged in the dial plate, the wireless communication module is at least connected with an external mobile device through a wireless network, and a warning module is arranged in the integrated cavity and comprises an image acquisition assembly, a magnetic starting part and a self-rotating mechanism, the image acquisition assembly is arranged in the integrated cavity, the magnetic starting part is arranged in the integrated cavity, and the self-rotating mechanism is arranged in the integrated cavity. The image acquisition assembly can automatically pop up when a wearer has an accident, and the image acquisition assembly can also rotatably acquire the image of the surrounding environment of the wearer, so that personnel associated with the wearer can quickly and accurately judge the position of the personnel.

Description

Real-time supervision intelligence bracelet based on internet of things

Technical Field

The invention belongs to the technical field of intelligent bracelets, and particularly relates to a real-time monitoring intelligent bracelet based on the technology of the Internet of things.

Background

The intelligent bracelet is a small, and the intelligent product of easy wearing, and the user can wear it on the wrist more, along with the continuous development of electronic technology, the person's of wearing rhythm of the heart, sleep and exercise data etc. can be monitored to the intelligent bracelet to the data of monitoring can enough show through the intelligent bracelet, also can be in step to the mobile device rather than being correlated with, to the person of wearing that the health is not good enough, the person of wearing's relation can real-time observe its body data.

The existing intelligent bracelet is provided with a positioning system in an excess mode, but the positioning system often has errors, when a wearer is in an accident, personnel related to the wearer searches around the position prompted by the positioning system, if the surrounding environment is complex, the wearer can be helped untimely, especially under the current environment, more and more people like running and exercising in a quiet place, and accidents are too numerous to happen, and the bracelet is a device which is liked by the sporters to wear, so that when the accident happens or the danger is encountered, a dangerous signal is timely fed back through the bracelet and is also a new development direction, and the image acquisition device is additionally arranged on the bracelet, so that the bracelet is an effective coping mode at present.

In the application of the current intelligent bracelet, due to the limitation of the volume, the arrangement of an internal circuit board is very compact, so when a camera is installed on the intelligent bracelet, the most important thing is the compact design of the camera, but the current lifting camera is mostly applied to a mobile phone and other parts with larger size, the lifting principle is mostly realized by controlling a plurality of micro motors through a controller, the operation and the stroke of the motors are realized by control elements, the volume of the intelligent bracelet is smaller, the structure of the circuit board is also compact, an additional control element is added on the lifting camera, the structure of the circuit board is influenced undoubtedly, the stroke of the micro motors is more difficult to control, the lifting camera is used as a vibration motor only in the bracelet, and the adjustment of the camera is difficult.

Disclosure of Invention

The invention aims to provide a real-time monitoring intelligent bracelet based on the technology of the Internet of things, which can automatically pop out an image acquisition assembly when a wearer has an accident, and can acquire images of the surrounding environment of the wearer by using the images, so that personnel associated with the wearer can quickly and accurately judge the position of the wearer, and meanwhile, the popping-out of the image acquisition assembly does not need additional driving source configuration, and the utilization effect of the intelligent bracelet in an emergency state is improved.

The technical scheme adopted by the invention is as follows:

the utility model provides a real-time supervision intelligence bracelet based on internet of things, includes:

the watch comprises a dial plate, wrist bands are fixedly connected to two sides of the bottom of the dial plate, a control unit and a pulse sensor are installed in the dial plate, and an integrated cavity is integrally formed on the dial plate;

the wireless communication module is arranged inside the dial plate and is at least associated with one external mobile device through a wireless network;

and, the warning module set up in inside the integrated cavity, wherein, the warning module includes:

the plastic shell is assembled on the integrated cavity, and a pin at the bottom end of the plastic shell is connected to the control unit;

the image acquisition assembly is arranged in the plastic shell;

the emergency treatment module, the emergency treatment module sets up in the inside of moulding the shell, just the emergency treatment module is connected with the image acquisition subassembly, the emergency treatment module includes:

the magnetic starting part is arranged in the plastic shell and fixedly connected with the image acquisition assembly, and when the pulse sensor detects abnormal heart rate, the control unit triggers the magnetic starting part to eject the image acquisition assembly from the interior of the plastic shell;

the self-rotating mechanism is arranged in the plastic shell, corresponds to the magnetic starting part, and automatically drives the image acquisition assembly to rotate after the magnetic starting part ejects the image acquisition assembly so as to acquire the surrounding environment image;

when the image acquisition assembly pops up and rotates, the control unit sends the surrounding environment image to external mobile equipment through the wireless communication module.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the control unit comprises a circuit board and a micro battery, the circuit board is arranged in the dial plate, the image acquisition assembly and the wireless communication module are connected to the circuit board through leads, and the micro battery is connected with the circuit board and used for supplying power to components and parts mounted on the circuit board.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the plastic starting device is characterized by further comprising a plastic gear and a plastic rack, wherein the plastic gear is fixedly sleeved on the outer side of the magnetic starting portion, the plastic rack is arranged inside the plastic shell, and the plastic rack corresponds to the plastic gear.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the image acquisition subassembly includes camera, loading board and sealed piece, the camera is connected with the circuit board through the pin of moulding the shell bottom, the fixed cover of loading board connects in the surface of camera, the groove of accomodating that mutually supports with the loading board is seted up to the inside of moulding the shell, the fixed cover of sealed piece connects in the surface of loading board, just sealed piece mutually supports with the port department of accomodating the groove.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the magnetic starting part comprises an electromagnet, a connecting magnetic block and a connecting rod, the electromagnet is electrically connected with the micro battery, the connecting magnetic block is arranged right above the electromagnet, the connecting rod is fixedly connected with the top end of the connecting magnetic block, and the top end of the connecting rod is fixedly connected with the middle part of the lower surface of the bearing plate.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the stroke groove is sleeved on the outer side of the electromagnet, the connecting magnetic block, the connecting rod and the plastic gear, the fixed magnetic block is fixedly embedded in the bottom end inside the stroke groove, and the fixed magnetic block is arranged right below the electromagnet.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the self-rotating mechanism comprises a transmission rod, a connecting strip, a linkage rotating rod and an extrusion block, wherein a stroke groove communicated with the inside of the accommodating groove is formed in the plastic shell, the transmission rod penetrates through the top end of the inside of the stroke groove, the connecting strip is inserted into the plastic shell in a sliding mode, the connecting strip is fixedly connected to the top of the transmission rod, the linkage rotating rod is connected to the inside of the plastic shell in a rotating mode, the linkage rotating rod is fixedly connected with one end of the connecting strip, the extrusion block is fixedly sleeved on the outer surface of the linkage rotating rod, and one side of the extrusion block is attached to one side of the plastic rack.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the plastic shell is characterized in that a mounting groove sleeved on the outer side of the extrusion block is formed in the plastic shell, a torsion spring is fixedly connected to one side of the inside of the mounting groove, and one end of the torsion spring is fixedly connected with one side of the extrusion block.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the plastic shell is characterized in that an ascending groove is formed in the plastic shell, a limiting block is sleeved on the inner sliding sleeve of the ascending groove, the bottom end of the limiting block is fixedly connected with the top end of the transmission rod, and a blocking block located on the lower surface of the limiting block is fixedly embedded in the ascending groove.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the plastic rack is characterized in that a through groove communicated with the top of the inner cavity of the stroke groove is formed in the plastic shell, the through groove is formed in the outer side of the plastic rack, a push-pull plate is slidably sleeved in the through groove, a sliding groove is formed in one side of the top of the push-pull plate, a sliding plate is slidably sleeved in the sliding groove, and one side of the sliding plate is fixedly connected with one side of the plastic rack.

The invention relates to a preferable scheme of a real-time monitoring smart bracelet based on the technology of the Internet of things, wherein the preferable scheme comprises the following steps: the bottom end of the push-pull plate is fixedly connected with a linkage plate, one side of the linkage plate is fixedly connected with a return spring, and one end of the return spring is fixedly connected with the inside of the plastic shell.

The invention has the technical effects that:

according to the invention, an integrated design is adopted, the warning module and the dial plate are integrated, firstly, the warning module can be manufactured externally and independently, and only the dial plate is assembled subsequently, so that the assembly difficulty is reduced, and by utilizing the design of the magnetic starting part, the magnetic starting part can automatically pop up the image acquisition assembly under the condition that a wearer has an accident, so that the image acquisition assembly can acquire the influence around the wearer, and the personnel associated with the wearer can timely arrive at the scene to rescue the wearer;

the invention utilizes the design of the self-rotating mechanism to drive the image acquisition assembly to synchronously rotate, thereby enlarging the acquisition range of the image acquisition assembly, further leading personnel associated with a wearer to be supported by more accurate images so as to be capable of determining the location more rapidly.

Drawings

FIG. 1 is a schematic view of an overall apparatus provided by the present invention;

FIG. 2 is a schematic view of an image capture assembly provided by the present invention;

FIG. 3 is a schematic view of a magnetic actuator provided in accordance with the present invention;

FIG. 4 is an enlarged schematic view taken at A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of a linkage plate and return spring provided by the present invention;

FIG. 6 is a schematic diagram of a self-rotating mechanism provided by the present invention;

FIG. 7 is a schematic view of the interior of an upgoing trough provided by the present invention;

FIG. 8 is an enlarged schematic view of the invention at B of FIG. 7;

FIG. 9 is a schematic view of the interior of an integrated chamber provided by the present invention;

FIG. 10 is an enlarged schematic view at C of FIG. 9 of the present invention;

fig. 11 is a schematic view of the fixed magnetic plate and the linkage magnetic plate provided by the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a dial plate; 101. a receiving groove; 102. a stroke slot; 103. mounting grooves; 104. an ascending groove; 105. a through groove; 2. an image acquisition component; 201. a camera; 202. a carrier plate; 203. a sealing block; 3. a magnetic activation part; 301. an electromagnet; 302. a connecting magnetic block; 303. a connecting rod; 4. a plastic gear; 5. a plastic rack; 6. a self-rotation mechanism; 601. a transmission rod; 602. a connecting strip; 603. a linkage rotating rod; 604. extruding the block; 7. a fixed magnetic block; 8. a torsion spring; 9. a limiting block; 10. a blocking block; 11. a push-pull plate; 1101. a chute; 12. a slide plate; 13. a linkage plate; 14. a return spring; 15. fixing the magnetic plate; 16. linkage magnetic plate.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

Example 1

As shown in fig. 1-6, for a first embodiment of the present invention, the embodiment provides a real-time monitoring smart bracelet based on the internet of things technology, including a dial plate 1, an image collecting assembly 2, a magnetic starting portion 3, a warning module and a self-rotating mechanism 6, wherein both sides of the bottom of the dial plate 1 are fixedly connected with wrist straps, a control unit and a pulse sensor are installed inside the dial plate 1, an integrated cavity is integrally formed on the dial plate 1, the warning module includes a plastic shell assembled on the integrated cavity, the pulse sensor is used for monitoring the heart rate condition of a wearer in real time, the image collecting assembly 2 is arranged inside the plastic shell, the image collecting assembly 2 is used for collecting an environmental image around the wearer, the magnetic starting portion 3 is arranged inside the plastic shell, the magnetic starting portion 3 is fixedly connected with the image collecting assembly 2, the magnetic starting portion 3 is used for ejecting the image collecting assembly 2 from the interior of the plastic shell, the self-rotating mechanism 6 is arranged in the plastic shell, the self-rotating mechanism 6 corresponds to the magnetic starting part 3, and the self-rotating mechanism 6 is used for driving the image acquisition assembly 2 to rotate relative to the dial plate 1, so that the image acquisition assembly 2 can acquire images around a wearer in a larger mode;

still include plastic gear 4 and plastic rack 5, plastic gear 4 is fixed cup joints in the outside of magnetism start-up portion 3, and plastic rack 5 sets up in the inside of moulding the shell, and plastic rack 5 corresponds each other with plastic gear 4, and plastic rack 5 is used for meshing plastic gear 4, and plastic gear 4 can drive image acquisition subassembly 2 and rotate, and under the effect of autogyration mechanism 6, plastic rack 5 can shift and with plastic gear 4 meshing together.

It should be noted that, the control unit includes circuit board and miniature battery, the circuit board sets up in dial plate 1's inside, image acquisition subassembly 2, wireless communication module all is connected to on the circuit board through the wire, miniature battery is connected with the circuit board, be used for the components and parts power supply of installation on the circuit board, when image acquisition subassembly 2 popped out and rotate, the control unit sends all ring edge borders image to outside mobile device through wireless communication module, and then can real-timely monitor the condition such as wearer's rhythm of the heart with the personnel that the wearer is correlated with.

When the invention is used, when the pulse sensor monitors that the heart rate of a wearer is abnormal, the pulse sensor immediately sends an electric signal to the control unit, the control unit is communicated with the electric connection between the magnetic starting part 3 and the micro battery, then the magnetic starting part 3 lifts the image acquisition assembly 2 to the outer side of the plastic shell, meanwhile, the magnetic starting part 3 also drives the plastic gear 4 to ascend, the magnetic starting part 3 drives the self-rotating mechanism 6 to operate after ascending for a certain distance, the self-rotating mechanism 6 drives the plastic rack 5 to shift, the plastic rack 5 is gradually meshed to the side surface of the plastic gear 4 along with the continuous ascending of the magnetic starting part 3, at the moment, the image acquisition assembly 2 is completely popped out from the interior of the plastic shell, the subsequent plastic rack 5 is meshed with the plastic gear 4 to drive the image acquisition assembly 2 to rotate, and the image acquired by the image acquisition assembly 2 is uploaded to the mobile equipment bound by the smart bracelet, the position of the wearer can be distinguished by the associated personnel, and the associated personnel can timely rescue the wearer.

In addition, still can be in the inside integration of dial plate 1 with the speech recognition chip, meet the proruption state, lead to the inconvenient removal of four limbs, and when magnetism starting part 3 did not trigger, the user can also realize the triggering of magnetism starting part 3 through voice command to improve the suitability of device.

Wherein, it should be noted that, to the normal scope of the heart rate of the wearer, every wearer can set for according to self health, specific can set for conventional module and motion mode etc. conventional mode is normal walking promptly, state such as walking, and the motion mode is the heart rate scope when its exercise of running, and specific settlement mode is used comparatively ripe in prior art, and therefore does not do specific repeated description here again, and this design aims at and uses according to different crowds and different use scenes to improve the accuracy of equipment feedback.

As shown in fig. 2 and 3, the image capturing assembly 2 includes a camera 201, a bearing plate 202 and a sealing block 203, the camera 201 is connected with a micro battery, the camera 201 is used for capturing images, the bearing plate 202 is fixedly sleeved on the outer surface of the camera 201, the inside of the plastic housing is provided with a containing groove 101 mutually matched with the bearing plate 202, the containing groove 101 is in a T shape, the sealing block 203 is fixedly sleeved on the outer surface of the bearing plate 202, the sealing block 203 is mutually matched with the port of the containing groove 101, the upper surface of the sealing block 203 is not higher than that of the plastic housing, so that a foreign object can be prevented from touching and causing the image capturing assembly 2 to move relative to the plastic housing, the contact surfaces of the bearing plate 202 and the sealing block 203 with the containing groove 101 are provided with damping pads, and further the image capturing assembly 2 is not easy to slide out from the inside of the plastic housing.

As shown in fig. 3 and 4, the magnetic starting portion 3 includes an electromagnet 301, a connecting magnetic block 302 and a connecting rod 303, the electromagnet 301 is connected with a micro battery, specifically, electrically connected with a storage battery and a pulse sensor inside the plastic shell, when the pulse sensor monitors that the heart rate of the wearer is abnormal, an electric signal is sent to the electromagnet 301, so that the electromagnet 301 is electrified, then, the two ends of the electromagnet 301 will generate magnetism correspondingly, the connecting magnetic block 302 is arranged right above the electromagnet 301, the magnetic poles of the connecting magnetic block 302 and the end opposite to the electromagnet 301 are the same, after the electromagnet 301 is powered on, the connecting magnetic block 302 moves upwards, the connecting rod 303 is fixedly connected with the top end of the connecting magnetic block 302, the top end of the connecting rod 303 is fixedly connected with the middle part of the lower surface of the bearing plate 202, and the connecting magnetic block 302 can drive the image acquisition assembly 2 to move towards the outer side of the plastic shell through the connecting rod 303.

As shown in fig. 4, a stroke slot 102 communicated with the inside of the accommodating slot 101 is formed in the plastic housing, the stroke slot 102 is sleeved on the electromagnet 301, the connecting magnetic block 302, the connecting rod 303 and the outer side of the plastic gear 4, a fixed magnetic block 7 is further fixedly embedded at the bottom end of the inside of the stroke slot 102, a repulsive force between the fixed magnetic block 7 and the electromagnet 301 is always larger than a repulsive force between the connecting magnetic block 302 and the electromagnet 301, the fixed magnetic block 7 is arranged right below the electromagnet 301, magnetic poles at one ends of the fixed magnetic block 7 opposite to the electromagnet 301 are also arranged in the same manner, so that after the electromagnet 301 is electrified, the electromagnet 301 can ascend for a certain distance along the inside of the stroke slot 102, and simultaneously can reduce the distance between the electromagnet 301 and the connecting magnetic block 302, so that the magnetic repulsive force borne by the connecting magnetic block 302 is increased, and the image acquisition assembly 2 can be ejected from the inside of the plastic housing more quickly, the timeliness of image acquisition is guaranteed.

According to the structure, after electro-magnet 301 circular telegram, it rises to connect magnetic path 302 to drive connecting rod 303, connecting rod 303 drives plastic gear 4 and image acquisition subassembly 2 synchronous rising, the in-process that plastic gear 4 rises can drive the operation of autogyration mechanism 6, autogyration mechanism 6 drives plastic rack 5 and is close to plastic gear 4, plastic gear 4 rises to after contacting with the top of stroke groove 102 inside, image acquisition subassembly 2 just follows the inside complete roll-off of accomodating groove 101, and plastic gear 4 also can be parallel and level each other with plastic rack 5 this moment, afterwards under the effect of plastic rack 5, plastic gear 4 drives image acquisition subassembly 2 through connecting rod 303 and rotates.

As shown in fig. 6, 7 and 8, the self-rotating mechanism 6 includes a transmission rod 601, a connection bar 602, a linkage rotating rod 603 and an extrusion block 604, the transmission rod 601 penetrates through the top end of the inside of the stroke slot 102, the connection bar 602 is slidably inserted into the inside of the plastic housing, the connection bar 602 is a rigid rope, which is bendable but not elastic, the connection bar 602 is fixedly connected to the top of the transmission rod 601, the transmission rod 601 drives one end of the connection bar 602 to ascend when being extruded by the plastic gear 4, the linkage rotating rod 603 is rotatably connected to the inside of the plastic housing, the linkage rotating rod 603 is fixedly connected to one end of the connection bar 602, the connection bar 602 is wound around the outside of the linkage rotating rod 603, and further the connection bar 602 drives the linkage rotating rod 603 to rotate when being forced to move, the extrusion block 604 is fixedly sleeved on the outer surface of the linkage rotating rod 603, the extrusion block 604 is processed into a cam shape, and one side of the extrusion block 604 is attached to one side of the plastic rack 5, when the extrusion block 604 rotates, the convex end of the extrusion block is gradually close to the plastic rack 5, so that the plastic rack 5 can be close to the inside of the stroke slot 102, the extrusion block 604 and the plastic rack 5 are made of magnetic materials, and the magnetic poles of the contact surfaces of the extrusion block 604 and the plastic rack 5 are opposite, so that the extrusion block 604 and the plastic rack 5 can be tightly attached together all the time.

Further, the inside of moulding the shell is seted up and is cup jointed in the mounting groove 103 in the extrusion piece 604 outside, and the mounting groove 103 provides a rotatable space for extrusion piece 604, and one side fixedly connected with torsion spring 8 of mounting groove 103 inside, torsion spring 8's one end and one side fixed connection of extrusion piece 604, and torsion spring 8 sets up the outside at linkage bull stick 603.

Furthermore, an ascending groove 104 is formed in the plastic shell, a limiting block 9 is slidably sleeved in the ascending groove 104, the bottom end of the limiting block 9 is fixedly connected with the top end of the transmission rod 601, a blocking block 10 located on the lower surface of the limiting block 9 is fixedly embedded in the ascending groove 104, the blocking block 10 is semi-annular, and the blocking block 10 cannot contact with the connecting strip 602.

It should be noted that the radius of the limiting block 9 is greater than the sum of the radius of the driving rod 601 and the diameter of the connecting bar 602, so that a sufficient space can be provided for the movement of the connecting bar 602 below the limiting block 9, and the phenomenon that the driving rod 601 is jammed due to pressing the connecting bar 602 in the moving process is avoided.

Specifically, when the plastic gear 4 extrudes the transmission rod 601, the transmission rod 601 drives the connecting strip 602 to move, the connecting strip 602 pulls the linkage rotating rod 603 to rotate, the linkage rotating rod 603 drives the extrusion block 604 to rotate, the extrusion block 604 extrudes the plastic rack 5 to move towards the inside of the stroke slot 102, and when the plastic gear 4 moves to be attached to the top end inside the stroke slot 102, the plastic rack 5 just moves to a position which is flush with the plastic gear 4.

As shown in fig. 7, 9 and 10, a through groove 105 communicating with the top of the inner cavity of the stroke groove 102 is formed in the plastic housing, the through groove 105 can be referred to in fig. 10, and can be divided into a storage groove and a sliding groove, the storage groove is used for storing the plastic rack 5 which is not flush with the plastic gear 4, the plastic rack 5 can be displaced in parallel in the sliding groove, the through groove 105 is arranged at the outer side of the plastic rack 5, a push-pull plate 11 is slidably sleeved in the through groove 105, the push-pull plate 11 is always located in the sliding groove, the push-pull plate 11 is restricted by the sliding groove and cannot enter the storage groove, a sliding groove 1101 is formed in one side of the top of the push-pull plate 11, the sliding groove 1101 is flush with one side of the storage groove, a sliding plate 12 is slidably sleeved in the sliding groove 1101, the sliding plate 12 can move in the storage groove and the sliding groove 1101, one side of the sliding plate 12 is fixedly connected with one side of the plastic rack 5, when the plastic rack 5 is extruded by the extrusion block 604 and moves, the plastic rack 5 drives the sliding plate 12 to move from the inside of the storage slot to the inside of the sliding slot 1101, and at this time, the plastic rack 5 can move in the sliding slot in a translation manner.

As shown in fig. 5 and 6, the bottom end of the push-pull plate 11 is fixedly connected with a linkage plate 13, the push-pull plate 11 and the linkage plate 13 can be processed into an integrally formed structure, one side of the linkage plate 13 is fixedly connected with a return spring 14, the return spring 14 is always in a state of contracting and storing force, the linkage plate 13 is further always subjected to a transverse extrusion force from the return spring 14, and one end of the return spring 14 is fixedly connected with the inside of the plastic housing.

Specifically, when the image acquisition assembly 2 is positioned in the plastic shell, the sliding plate 12 and the plastic rack 5 are both positioned in the storage groove, the plastic rack 5 and the sliding plate 12 cannot slide relative to the storage groove, at this time, the push-pull plate 11 and the linkage plate 13 are limited by the sliding plate 12 and the plastic rack 5 and cannot shift, while when the self-rotating mechanism 6 drives the plastic rack 5 to move the sliding plate 12 from the storage slot into the interior of the sliding slot 1101, the return spring 14 can drive the linkage plate 13 to move, the linkage plate 13 drives the plastic rack 5 to correspondingly move through extruding the sliding plate 12, and the plastic rack 5 can be meshed with the plastic gear 4, so that the image acquisition assembly 2 can rotationally acquire images of the surrounding environment of the wearer, when the image acquisition assembly 2 is used specifically, the number of the meshing teeth of the plastic rack 5 and the plastic gear 4 can be set according to actual requirements, so that the rotation range of the image acquisition assembly 2 can be controlled.

In addition, in order to make the camera 201 have a normal video call or a photographing function, the circuit board can also have an effect of sending out two instructions according to actual needs, that is, during normal use, the current connected to the magnetic starting part 3 is controlled to be a small current, and the current can make the magnetic starting part 3 eject the camera 201, but since the magnetism of the magnetic starting part 3 is affected by the current to be small, the ejection of the camera 201 can be realized, but the camera is not ejected completely, so that the camera cannot rotate, that is, the camera can be used normally.

Example 2

Referring to fig. 11, there is shown a second embodiment of the present invention, which is based on the above embodiment.

As shown in fig. 11, a fixed magnetic plate 15 is fixedly embedded in the plastic housing, a linkage magnetic plate 16 is disposed on one side of the fixed magnetic plate 15, the linkage magnetic plate 16 is slidably disposed in the plastic housing, magnetic poles on one side of the linkage magnetic plate 16 opposite to the fixed magnetic plate 15 are the same, a mutually repulsive magnetic force always exists between the linkage magnetic plate 16 and the fixed magnetic plate 15, and the top end of the linkage magnetic plate 16 is fixedly connected to the bottom end of the push-pull plate 11.

Specifically, in this embodiment, the return spring 14 in the above embodiment is replaced by the fixed magnetic plate 15, and the linkage plate 13 is replaced by the linkage magnetic plate 16, so that compared with a small smart bracelet, the installation space required by the linkage magnetic plate 16 and the fixed magnetic plate 15 is smaller, and the linkage magnetic plate 16 and the fixed magnetic plate 15 can be initially attached together, thereby reducing the space reserved for installing the return spring 14 in the above embodiment.

The working principle of the invention is as follows: when the pulse sensor monitors that the heart rate of a wearer is abnormal, an electric signal is immediately sent to the control unit, the control unit is connected with the magnetic starting part 3 to be electrically connected with the micro battery, then the magnetic starting part 3 lifts the image acquisition assembly 2 to the outer side of the plastic shell, meanwhile, the magnetic starting part 3 also drives the plastic gear 4 to rise, the magnetic starting part 3 drives the self-rotating mechanism 6 to run after rising for a certain distance, the self-rotating mechanism 6 drives the plastic rack 5 to shift, the plastic rack 5 is gradually meshed to the side face of the plastic gear 4 along with the continuous rising of the magnetic starting part 3, at the moment, the image acquisition assembly 2 is completely popped out from the inner part of the plastic shell, the subsequent plastic rack 5 is meshed with the plastic gear 4 to drive the image acquisition assembly 2 to rotate, and images acquired by the image acquisition assembly 2 are uploaded to mobile equipment bound by the smart bracelet, the position of the wearer can be distinguished by the associated personnel, and the associated personnel can timely rescue the wearer;

in addition, the parts such as the image acquisition and the like are integrated in the plastic shell, the parts are separately manufactured outside in the aspect of manufacturing and assembling and are subsequently assembled in the integrated cavity, compared with the conventional mode of integrating the parts in the bracelet, the assembly difficulty can be greatly reduced, the whole implementation process of the image acquisition assembly 2 does not need any program or controllable component investment, and compared with the conventional technology, the effect of coping with the burst state is better.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a real-time supervision intelligence bracelet based on internet of things, its characterized in that: the method comprises the following steps:

the watch comprises a dial plate (1), wherein wrist bands are fixedly connected to two sides of the bottom of the dial plate (1), a control unit and a pulse sensor are installed inside the dial plate (1), and an integrated cavity is integrally formed on the dial plate (1);

the wireless communication module is arranged inside the dial plate (1) and is at least associated with one external mobile device through a wireless network;

and, the warning module set up in inside the integrated cavity, wherein, the warning module includes:

the plastic shell is assembled on the integrated cavity, and a pin at the bottom end of the plastic shell is connected to the control unit;

the image acquisition assembly (2), the said image acquisition assembly (2) is set up in the inside of the plastic shell;

the emergency treatment module, the emergency treatment module sets up in the inside of moulding the shell, just the emergency treatment module is connected with image acquisition subassembly (2), the emergency treatment module includes:

the magnetic starting part (3) is arranged inside the plastic shell, the magnetic starting part (3) is fixedly connected with the image acquisition assembly (2), and when the pulse sensor detects abnormal heart rate, the control unit triggers the magnetic starting part (3) to eject the image acquisition assembly (2) from the inside of the plastic shell;

the self-rotating mechanism (6) is arranged in the plastic shell, the self-rotating mechanism (6) corresponds to the magnetic starting part (3), and when the magnetic starting part (3) pops up the image acquisition assembly (2), the self-rotating mechanism (6) automatically drives the image acquisition assembly (2) to rotate so as to acquire images of the surrounding environment;

when the image acquisition assembly (2) pops up and rotates, the control unit sends the surrounding environment image to external mobile equipment through a wireless communication module.

2. The real-time monitoring smart bracelet based on Internet of things technology according to claim 1, characterized in that: the control unit comprises a circuit board and a micro battery, the circuit board is arranged inside the dial plate (1), the image acquisition assembly (2) and the wireless communication module are connected onto the circuit board through leads, and the micro battery is connected with the circuit board and used for supplying power to components and parts mounted on the circuit board.

3. The real-time monitoring intelligent bracelet based on Internet of things technology according to claim 1, characterized in that: the plastic starting device is characterized by further comprising a plastic gear (4) and a plastic rack (5), wherein the plastic gear (4) is fixedly sleeved on the outer side of the magnetic starting part (3), the plastic rack (5) is arranged inside the plastic shell, and the plastic rack (5) corresponds to the plastic gear (4) mutually.

4. The real-time monitoring intelligent bracelet based on Internet of things technology according to claim 2, characterized in that: image acquisition subassembly (2) include camera (201), loading board (202) and sealed piece (203), camera (201) are connected with the circuit board through the pin of moulding the shell bottom, loading board (202) are fixed to be cup jointed in the surface of camera (201), mould the inside of moulding the shell and offer and accomodate groove (101) of mutually supporting with loading board (202), sealed piece (203) are fixed to be cup jointed in the surface of loading board (202), just sealed piece (203) and the port department of accomodating groove (101) mutually support.

5. The real-time monitoring intelligent bracelet based on Internet of things technology according to claim 4, characterized in that: the magnetic starting part (3) comprises an electromagnet (301), a connecting magnetic block (302) and a connecting rod (303), the electromagnet (301) is electrically connected with the micro battery, the connecting magnetic block (302) is arranged right above the electromagnet (301), the connecting rod (303) is fixedly connected with the top end of the connecting magnetic block (302), and the top end of the connecting rod (303) is fixedly connected with the middle part of the lower surface of the bearing plate (202).

6. The real-time monitoring smart bracelet based on Internet of things technology according to claim 3, characterized in that: from slewing mechanism (6) including transfer line (601), connecting strip (602), linkage bull stick (603) and extrusion piece (604), the inside of moulding the shell is seted up and is accomodate the inside stroke groove (102) that communicates each other of groove (101), the top of stroke groove (102) inside is run through in transfer line (601), connecting strip (602) slides and alternates in the inside of moulding the shell, connecting strip (602) fixed connection is in the top of transfer line (601), linkage bull stick (603) rotate to be connected in the inside of moulding the shell, the one end fixed connection of linkage bull stick (603) and connecting strip (602), extrusion piece (604) are fixed to be cup jointed in the surface of linkage bull stick (603), just one side of extrusion piece (604) is laminated with one side of plastics rack (5) each other.

7. The real-time monitoring intelligent bracelet based on Internet of things technology according to claim 6, characterized in that: the plastic shell is characterized in that an installation groove (103) sleeved on the outer side of the extrusion block (604) is formed in the plastic shell, a torsion spring (8) is fixedly connected to one side of the inside of the installation groove (103), and one end of the torsion spring (8) is fixedly connected with one side of the extrusion block (604).

8. The real-time monitoring smart bracelet based on Internet of things technology according to claim 6, characterized in that: the plastic shell is characterized in that an ascending groove (104) is formed in the plastic shell, a limiting block (9) is sleeved on the inner sliding sleeve of the ascending groove (104), the bottom end of the limiting block (9) is fixedly connected with the top end of a transmission rod (601), and a blocking block (10) located on the lower surface of the limiting block (9) is fixedly embedded in the ascending groove (104).

9. The real-time monitoring intelligent bracelet based on Internet of things technology according to claim 3, characterized in that: the plastic rack is characterized in that a through groove (105) communicated with the top of an inner cavity of the stroke groove (102) is formed in the plastic shell, the through groove (105) is formed in the outer side of the plastic rack (5), a push-pull plate (11) is sleeved in the through groove (105) in a sliding mode, a sliding groove (1101) is formed in one side of the top of the push-pull plate (11), a sliding plate (12) is sleeved in the sliding groove (1101) in a sliding mode, and one side of the sliding plate (12) is fixedly connected with one side of the plastic rack (5).

10. The real-time monitoring smart bracelet of claim 9 based on internet of things technology, characterized in that: the plastic shell is characterized in that a linkage plate (13) is fixedly connected to the bottom end of the push-pull plate (11), a return spring (14) is fixedly connected to one side of the linkage plate (13), and one end of the return spring (14) is fixedly connected with the inside of the plastic shell.

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