CN111752316A - Intelligent bracelet control method and system based on plastics and silica gel - Google Patents

Abstract

A control method and system of an intelligent bracelet based on plastics and silica gel comprises the following steps: if a starting instruction is received, the fixing mechanism is controlled to release the connection state with the silica gel connecting piece, and the first temperature sensor is controlled to start to acquire first temperature information in real time; analyzing whether the bracelet is worn by a user in real time according to the first temperature information; if yes, controlling a human body detection mechanism to start to acquire human body parameters in real time and controlling a micro projector to project the human body parameters to the back surface of the hand of the user; the control fixing mechanism is fixedly connected with the silica gel connecting piece and controls the micro motor set to start and drive the micro fan to enter a heat dissipation state; controlling a second temperature sensor to start to acquire temperature information in real time and analyzing whether the temperature is lower than a first preset temperature value in real time according to the second temperature information; if yes, controlling the first heating layer to start to enter an auxiliary heating state and analyzing whether a second preset temperature value is reached in real time according to second temperature information; and if so, controlling the first heating layer to enter a constant temperature state.

Description

Intelligent bracelet control method and system based on plastics and silica gel

Technical Field

The invention relates to the field of bracelets, in particular to an intelligent bracelet control method and system based on plastics and silica gel.

Background

In recent years, wearable devices using wireless transmission have received much attention. Wearable equipment includes intelligent bracelet, intelligent ring, intelligent wrist-watch etc.. And intelligent bracelet is because the volume is less, wears the convenience, more and more receives consumer's liking.

The intelligent bracelet is as a wearing formula smart machine. Through this kind of bracelet, the user can take notes real-time data such as exercise, sleep, part still have diet in daily life to with these data with cell-phone, dull and stereotyped synchronization, play the effect of guiding healthy life through data. At present, various intelligent bracelets have been widely applied to people's life.

Therefore, how to combine together intelligent bracelet and heat dissipation and heating, make the user when using, carry out the heat dissipation or the heating that correspond according to ambient temperature, take off when the user and wear behind the object, it is the problem that needs to solve at present urgently to dispel the heat or heat for the object.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides a method and a system for controlling an intelligent bracelet based on plastic and silica gel, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

a control method of an intelligent bracelet based on plastic and silica gel comprises the following steps:

s1, if a starting instruction sent by the user terminal keeping the connection relation is received, controlling a fixing mechanism arranged at the inner position of a bracelet connecting groove to release the connection state with the silica gel connecting piece and controlling a first temperature sensor arranged at the inner wall position of the silica gel connecting piece to start to acquire first temperature information in real time;

s2, analyzing whether the bracelet is worn by a user in real time according to the first temperature information;

s3, if yes, controlling a human body detection mechanism arranged on the inner wall of the plastic connecting piece connected with the silica gel connecting piece to start to acquire human body parameters in real time and controlling a micro projector arranged above the side wall of the plastic connecting piece to project the human body parameters to the surface of the arm of the user;

s4, controlling the fixing mechanism to be fixedly connected with the silica gel connecting piece and controlling a micro fan which is arranged in the bracelet ventilation channel and is started to drive the connection to enter a heat dissipation state;

s5, controlling a second temperature sensor arranged on the outer wall of the plastic connecting piece to start to acquire temperature information in real time and analyzing whether the temperature is lower than a first preset temperature value in real time according to the second temperature information;

s6, if yes, controlling a first heating layer arranged on the inner wall of the plastic connecting piece to start to enter an auxiliary heating state, and analyzing whether a second preset temperature value is reached or not in real time according to the first temperature information;

and S7, if so, controlling the first heating layer to enter a constant temperature state.

As a preferable mode of the present invention, in S1, the method further includes the steps of:

s10, controlling a tension sensor arranged between the silica gel connecting piece and the plastic connecting piece to start to acquire tension information in real time and analyzing whether a user pulls the silica gel connecting piece or not according to the tension information;

s11, if yes, the fixing mechanism arranged at the inner position of the connecting groove of the bracelet is controlled to release the connection state with the silica gel connecting piece.

As a preferable mode of the present invention, in S4, the method further includes the steps of:

s40, extracting the use information contained in the starting instruction and analyzing whether the use information is used by a human body or not according to the use information;

s41, if not, controlling a micro fan which is connected with a micro motor set starting drive and arranged inside the ventilation channel of the bracelet to start and enter a full-power running state.

As a preferable mode of the present invention, in S6, the method further includes the steps of:

s60, extracting the use information contained in the starting instruction and analyzing whether the use information is used by a human body or not according to the use information;

s61, if not, establishing a connection relation with the application software corresponding to the user terminal and analyzing whether the user terminal has a temperature value set through the corresponding application software in real time;

and S62, if so, controlling the second heating layer arranged on the inner wall of the silica gel connecting piece to enter a heating state and heating to the set temperature value.

As a preferable mode of the present invention, in S3, the method further includes the steps of:

s30, acquiring weather information fed back by the user terminal in real time and analyzing whether the area where the user terminal is located is in winter or not in real time according to the weather information;

and S31, if so, controlling a rotating mechanism arranged in the middle of the plastic connecting piece to drive the part above the plastic connecting piece to rotate 180 degrees clockwise and controlling a micro projector arranged above the side wall of the plastic connecting piece to project the human body parameters to the surface of the arm of the user.

A smart bracelet control system based on plastic and silica gel uses a smart bracelet control method based on plastic and silica gel, and comprises a bracelet device, a function device, an identification device and a processor;

the bracelet device comprises a plastic connecting piece, a silica gel connecting piece, a bracelet connecting groove, a fixing mechanism, a connecting hole and a rotating mechanism, wherein the plastic connecting piece is connected with the silica gel connecting piece through the bracelet connecting groove; the silica gel connecting piece is made of soft silica gel; the bracelet connecting grooves are arranged at the positions of two ends of the plastic connecting piece; the fixing mechanism is arranged in the inner position of the bracelet connecting groove and is used for fixing the bracelet connecting groove with the connecting hole; the connecting hole is arranged at the position of the silica gel connecting piece and is used for being fixed with the fixing mechanism; the rotating mechanism is arranged in the middle of the plastic connecting piece, is respectively positioned at the upper part of the plastic connecting piece and the lower part of the plastic connecting piece, and is used for driving the upper part of the connected plastic connecting piece to rotate;

the functional device comprises a bracelet ventilation channel, a micro motor set, a micro fan, a first heating layer, a second heating layer and a micro projector, wherein the bracelet ventilation channel is distributed at the position of the plastic connecting piece; the micro motor set is arranged in the inner position of the air-permeable channel of the bracelet, is connected with the micro fan and is used for driving the connected micro fan to rotate; the miniature fan is connected with the miniature motor set and used for providing a heat dissipation function; the first heating layer is arranged on the inner wall of the plastic connecting piece and used for providing auxiliary heating for users; the second heating layer is arranged on the inner wall of the silica gel connecting piece and used for heating an object; the micro projector is arranged at the position of the side wall of the upper part of the plastic connecting piece and used for projecting specified information;

the identification device comprises a first temperature sensor, a human body detection mechanism, a second temperature sensor and a tension sensor, wherein the first temperature sensor is arranged on the inner wall of the silica gel connecting piece and used for acquiring the temperature information of a wearer; the human body detection mechanism is arranged on the inner wall of the plastic connecting piece and used for acquiring human body information of a wearer; the second temperature sensor is arranged at the outer position of the plastic connecting piece and used for acquiring the temperature information outside the bracelet; the tension sensor is arranged between the plastic connecting piece and the silica gel connecting piece and used for acquiring tension information;

the processor is arranged in the plastic connecting piece, is respectively connected with the fixing mechanism, the rotating mechanism, the micro motor set, the first heating layer, the second heating layer, the micro projector, the first temperature sensor, the human body detection mechanism, the second temperature sensor and the tension sensor, and is wirelessly connected with the user terminal; the processor includes:

the information receiving module is used for receiving information and/or instructions and/or requests;

the fixing control module is used for controlling the fixing mechanism to execute the set fixing or fixing releasing operation according to the set steps;

the first temperature module is used for controlling the first temperature sensor to be started or closed;

the information analysis module is used for processing and analyzing the information according to the specified information;

the data acquisition module is used for controlling the human body detection mechanism to be started or closed;

the micro projection module is used for controlling the micro projector to execute set information projection operation according to the set steps;

the heat dissipation control module is used for controlling the micro motor set to execute the set start-stop operation of the micro fan according to the set steps;

the second temperature module is used for controlling the second temperature sensor to be started or closed;

the first heating module is used for controlling the first heating layer to be started or closed;

and the first temperature adjusting module is used for controlling the first heating layer to execute the set temperature conversion operation according to the set steps.

As a preferred mode of the present invention, the processor further includes:

and the tension identification module is used for controlling the tension sensor to be started or closed.

As a preferred mode of the present invention, the processor further includes:

the information extraction module is used for extracting the specified information and/or instruction and/or request contained information and/or instruction and/or request;

and the fan speed regulating module is used for controlling the micro motor set to execute the set micro fan speed regulating operation according to the set steps.

As a preferred mode of the present invention, the processor further includes:

the connection establishing module is used for establishing a connection relation with application software corresponding to the user terminal;

the second heating module is used for controlling the second heating layer to be started or closed;

and the second temperature adjusting module is used for controlling the second heating layer to execute the set temperature conversion operation according to the set steps.

As a preferred mode of the present invention, the processor further includes:

the weather obtaining module is used for obtaining weather information of a place through the user terminal;

and the rotation control module is used for controlling the rotation mechanism to execute the set rotation operation according to the set steps.

The invention realizes the following beneficial effects:

1. after the intelligent bracelet control system is started, if a starting instruction is received, the fixed connection state of the plastic connecting piece and the silica gel connecting piece is released, then the wearing state of a user is detected through the first temperature sensor, after the fact that the user wears the intelligent bracelet control system is detected, the human body information of the wearer is obtained, the human body information is projected to the surface of the arm of the user through the micro projector, then the fixed connection of the plastic connecting piece and the silica gel connecting piece is controlled, and the micro fan inside the ventilation channel is controlled to be started to enter a heat dissipation state; if the current temperature acquired by the second temperature sensor is lower than the first preset temperature, the micro fan is controlled to stop running, the first heating layer is controlled to be heated to the set temperature, and then the constant temperature is carried out; and if the area where the user terminal is located is identified to be in winter, controlling the rotating mechanism to drive the part above the plastic connecting piece to rotate and controlling the micro projector to project the human body information to the surface of the back of the hand of the user.

2. And if the situation that the user pulls the silica gel connecting piece is detected, the fixed connection state of the plastic connecting piece and the silica gel connecting piece is released.

3. If the bracelet is identified to be used by a non-human body, the micro fan set is controlled to enter a full-power running state, or the second heating layer is controlled to be heated to a temperature value specified by a user.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a flowchart of a smart band control method according to an example of the present invention;

FIG. 2 is a flow chart of a tension identification method according to an exemplary embodiment of the present invention;

FIG. 3 is a flow chart of a method for controlling a non-human miniature fan according to an exemplary embodiment of the present invention;

FIG. 4 is a flow chart of a non-human use second heating layer control method according to an example of the present invention;

FIG. 5 is a flow chart of a micro-projection rotation control method according to an embodiment of the present invention;

fig. 6 is a connection relationship diagram of an intelligent bracelet control system according to an example of the invention;

fig. 7 is a schematic view of a bracelet according to an example of the present invention.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1, fig. 5-7.

Specifically, this embodiment provides an intelligent bracelet control method based on plastics and silica gel, the method includes the following steps:

s1, if a start instruction sent by the user terminal that maintains the connection relationship is received, the fixing mechanism 13 disposed at the inner position of the bracelet connecting groove 12 is controlled to release the connection state with the silica gel connecting piece 11, and the first temperature sensor 30 disposed at the inner wall position of the silica gel connecting piece 11 is controlled to start to obtain the first temperature information in real time.

In S1, specifically after processor 4 starts to accomplish, information receiving module 40 that processor 4 contains receives in real time the start instruction that the user terminal who keeps the connection relation sent information receiving module 40 receives behind the start instruction, fixed control module 41 control that processor 4 contains sets up fixed establishment 13 in bracelet connecting groove 12 internal position and removes the connected state with connecting hole 14 of silica gel connecting piece 11, simultaneously the control of first temperature module 42 that processor 4 contains sets up the first temperature sensor 30 that sets up in silica gel connecting piece 11 inner wall position starts to obtain first temperature information in real time.

S2, analyzing whether the bracelet is worn by a user in real time according to the first temperature information.

In S2, specifically, after the first temperature sensor 30 is completely started, the information analysis module 43 included in the processor 4 analyzes whether the bracelet is completely worn by the user in real time according to the first temperature information, that is, whether the first temperature sensor 30 obtains the bracelet for 15 seconds at a temperature exceeding 35 ℃.

S3, if yes, controlling the human body detection mechanism 31 arranged on the inner wall of the plastic connecting piece 10 connected with the silica gel connecting piece 11 to start to acquire human body parameters in real time and controlling the micro projector 25 arranged on the upper position of the side wall of the plastic connecting piece 10 to project the human body parameters to the surface position of the arm of the user.

In S3, specifically, after the information analysis module 43 analyzes that the user wears the device, the data acquisition module 44 included in the processor 4 controls the human body detection mechanism 31 disposed on the inner wall of the plastic connector 10 connected to the silicone connector 11 to start to acquire human body parameters in real time, including time, date, heart rate monitoring, motion step counting, sleep monitoring, and other functions; after the human body detection mechanism 31 is started, the micro projection module 45 included in the processor 4 controls the micro projector 25 arranged above the side wall of the plastic connecting piece 10 to project the human body parameters to the surface of the arm of the user.

S4, control fixed establishment 13 with silica gel connecting piece 11 fixed connection and control set up in the inside micro motor group 21 start-up drive of bracelet ventilation channel 20 and connect miniature fan 22 and get into the radiating state.

In S4, specifically start at miniature projector 25 and accomplish the back, fixed control module 41 controls fixed establishment 13 with the rubbish hole fixed connection of silica gel connecting piece 11 accomplishes the back, the miniature fan 22 that the control of heat dissipation control module 46 that treater 4 contained set up in the inside micro motor group 21 start-up drive of bracelet ventilation channel 20 and connect gets into the radiating state to in real time for the heat dissipation of wearer or wearing article.

S5, controlling the second temperature sensor 32 arranged on the outer wall of the plastic connecting piece 10 to start to acquire temperature information in real time and analyzing whether the temperature is lower than a first preset temperature value in real time according to the second temperature information.

In S5, specifically after the micro fan 22 is started, the second temperature module 47 included in the processor 4 controls the second temperature sensor 32 disposed at the outer wall of the plastic connector 10 to start to obtain temperature information in real time, and after the second temperature sensor 32 is started, the information analysis module 43 analyzes whether the temperature is lower than a first preset temperature value in real time according to the second temperature information; the first preset temperature value is set by a user through a user terminal corresponding to an application, and in this embodiment, the default value is 13 ℃.

And S6, if yes, controlling the first heat production layer 23 arranged on the inner wall of the plastic connector 10 to start to enter an auxiliary heating state, and analyzing whether a second preset temperature value is reached in real time according to the first temperature information.

In S6, specifically, after the information analysis module 43 analyzes that the temperature value is lower than the first preset temperature value, the first heating module 48 included in the processor 4 controls the first heating layer 23 disposed on the inner wall of the plastic connector 10 to start to enter an auxiliary heating state, which provides heat for the user in the cold area, and meanwhile, the information analysis module 43 analyzes whether the temperature value reaches the second preset temperature value in real time according to the first temperature information; the second preset temperature value is set by the user through the user terminal corresponding to the application, and in this embodiment, the default value is 28 ℃. .

And S7, if yes, controlling the first heat production layer 23 to enter a constant temperature state.

In S7, specifically, after the information analysis module 43 analyzes that the temperature reaches the second preset temperature value, the first temperature adjustment module 49 included in the processor 4 controls the first heat production layer 23 to enter a constant temperature state, that is, controls the first heat production layer 23 to be maintained within a temperature range of 26 ℃ to 28 ℃.

As a preferable mode of the present invention, in S3, the method further includes the steps of:

and S30, acquiring weather information fed back by the user terminal in real time and analyzing whether the area where the user terminal is located is in winter or not in real time according to the weather information.

Specifically, after the information analysis module 43 analyzes that the bracelet is worn by the user, the weather acquisition module 56 included in the processor 4 acquires the weather information fed back by the user terminal in real time, and after the weather acquisition module 56 acquires the weather information of the user terminal, the information analysis module 43 analyzes whether the area where the user terminal is located is in winter or not in real time according to the weather information.

And S31, if yes, controlling the rotating mechanism 15 arranged in the middle of the plastic connecting piece 10 to drive the upper part of the plastic connecting piece 10 to rotate 180 degrees clockwise and controlling the micro projector 25 arranged in the upper position of the side wall of the plastic connecting piece 10 to project the human body parameters to the back surface position of the hand of the user.

Specifically, after the information analysis module 43 analyzes that the user is in winter, the rotation control module 57 included in the processor 4 controls the rotation mechanism 15 disposed at the middle position of the plastic connecting piece 10 to drive the upper portion of the plastic connecting piece 10 to rotate clockwise by 180 °, and after the rotation of the rotation mechanism 15 is completed, the micro projection module 45 controls the micro projector 25 disposed at the upper position of the sidewall of the plastic connecting piece 10 to project the human body parameters to the back surface of the hand of the user.

Example two

Referring to fig. 2, fig. 6-7.

Specifically, this embodiment is substantially the same as the first embodiment, except that in S1, the method further includes the following steps:

s10, controlling the tension sensor 33 arranged between the silica gel connecting piece 11 and the plastic connecting piece 10 to start to acquire tension information in real time and analyzing whether the user pulls the silica gel connecting piece 11 according to the tension information.

Specifically, after the processor 4 is started, the tension recognition module 50 included in the processor 4 controls the tension sensor 33 arranged between the silicone connecting piece 11 and the plastic connecting piece 10 to start to acquire tension information in real time, and after the tension sensor 33 is started, the information analysis module 43 analyzes whether a user pulls the silicone connecting piece 11 according to the tension information, that is, whether the tension sensor 33 acquires tension.

And S11, if yes, controlling the fixing mechanism 13 arranged at the inner position of the bracelet connecting groove 12 to release the connection state with the silica gel connecting piece 11.

Specifically, after the information analysis module 43 analyzes that the user has the pulling silica gel connecting piece 11, the fixed control module 41 controls the fixing mechanism 13 arranged at the inner position of the bracelet connecting groove 12 to release the connection state with the connecting hole 14 of the silica gel connecting piece 11.

EXAMPLE III

Referring to fig. 3-4, fig. 6-7.

Specifically, this embodiment is substantially the same as the first embodiment, except that in S4, the method further includes the following steps:

and S40, extracting the use information contained in the starting instruction and analyzing whether the use is human according to the use information.

Specifically, after the fixing mechanism 13 is fixed to the connecting hole 14 of the silicone connecting piece 11, the information extraction module 51 included in the processor 4 extracts the use information included in the start instruction, and after the information extraction module 51 finishes the extraction, the information analysis module 43 analyzes whether the use information is used by a human body or not.

S41, if not, controlling the micro-motor set 21 arranged inside the bracelet ventilation channel 20 to start the micro-fan 22 in driving connection and entering a full-power running state.

Specifically, after information analysis module 43 analyzes that it is not the human body to use, heat dissipation control module 46 controls the micro fan 22 that sets up in the inside micro motor group 21 start-up drive connection of bracelet ventilation channel 20 and starts, and after micro fan 22 starts up the completion, fan speed control module 52 that processor 4 contains controls micro motor group 21 start-up drive connection's micro fan 22 and gets into full power running state.

As a preferable mode of the present invention, in S6, the method further includes the steps of:

and S60, extracting the use information contained in the starting instruction and analyzing whether the use is human according to the use information.

Specifically, after the information analysis module 43 analyzes that the temperature value is lower than the first preset temperature value according to the second temperature information, the information extraction module 51 extracts the use information included in the start instruction, and after the information extraction module 51 finishes extracting, the information analysis module 43 analyzes whether the use information is used by a human body or not according to the use information.

And S61, if not, establishing a connection relation with the application software corresponding to the user terminal and analyzing whether the user terminal has a temperature value set through the corresponding application software in real time.

Specifically, after the information analysis module 43 analyzes that the user terminal is not used by a human body, the connection establishment module 53 included in the processor 4 establishes a connection relationship with the application software corresponding to the user terminal, and after the connection establishment is completed, the information analysis module 43 analyzes whether the user terminal has a temperature value set by the corresponding application software in real time.

And S62, if yes, controlling the second heat production layer 24 arranged on the inner wall of the silica gel connector 11 to enter a heating state and heating to the set temperature value.

Specifically, after the information analysis module 43 analyzes whether the user terminal has a set temperature value through corresponding application software, the second heating module 54 controls the second heating layer 24 disposed on the inner wall of the silica gel connecting member 11 to enter a heating state, and after the second heating layer 24 enters the heating state, the second temperature adjustment module 55 controls the second heating layer 24 to be heated to the set temperature value.

Among them, the non-human body uses, for example: the user can operate through the user terminal with bracelet cover outside the drinking cup, and accessible micro-fan 22 dispels the heat for the drinking cup, or, heats for the drinking cup through second heating layer 24, or carries out constant temperature for the drinking cup through second heating layer 24.

Example four

As shown with reference to fig. 6-7.

Specifically, the embodiment provides an intelligent bracelet control system based on plastics and silica gel, and an intelligent bracelet control method based on plastics and silica gel is used, and comprises a bracelet device 1, a function device 2, an identification device 3 and a processor 4;

the bracelet device 1 comprises a plastic connecting piece 10, a silica gel connecting piece 11, a bracelet connecting groove 12, a fixing mechanism 13, a connecting hole 14 and a rotating mechanism 15, wherein the plastic connecting piece 10 is connected with the silica gel connecting piece 11 through the bracelet connecting groove 12; the silica gel connecting piece 11 is made of soft silica gel; the bracelet connecting grooves 12 are arranged at the two ends of the plastic connecting piece 10; the fixing mechanism 13 is arranged at the inner position of the bracelet connecting groove 12 and is used for fixing the bracelet connecting groove with the connecting hole 14; the connecting hole 14 is arranged at the position of the silica gel connecting piece 11 and is used for being fixed with the fixing mechanism 13; the rotating mechanism 15 is arranged in the middle of the plastic connecting piece 10, is respectively connected with the upper part of the plastic connecting piece 10 and the lower part of the plastic connecting piece 10, and is used for driving the upper part of the connected plastic connecting piece 10 to rotate;

the functional device 2 comprises a bracelet air-permeable channel 20, a micro motor set 21, a micro fan 22, a first heat-producing layer 23, a second heat-producing layer 24 and a micro projector 25, wherein the bracelet air-permeable channel 20 is distributed at the position of the plastic connecting piece 10; the micro motor set 21 is arranged in the bracelet ventilation channel 20, is connected with the micro fan 22 and is used for driving the connected micro fan 22 to rotate; the micro fan 22 is connected with the micro motor set 21 and used for providing a heat dissipation function; the first heating layer 23 is arranged on the inner wall of the plastic connecting piece 10 and used for providing auxiliary heating for users; the second heating layer 24 is arranged on the inner wall of the silica gel connecting piece 11 and used for heating an object; the micro projector 25 is arranged at the position of the side wall of the upper part of the plastic connecting piece 10 and is used for projecting specified information;

the identification device 3 comprises a first temperature sensor 30, a human body detection mechanism 31, a second temperature sensor 32 and a tension sensor 33, wherein the first temperature sensor 30 is arranged on the inner wall of the silica gel connecting piece 11 and used for acquiring the temperature information of a wearer; the human body detection mechanism 31 is arranged on the inner wall of the plastic connecting piece 10 and used for acquiring the human body information of the wearer; the second temperature sensor 32 is arranged at the outer position of the plastic connecting piece 10 and used for acquiring the temperature information outside the bracelet; the tension sensor 33 is arranged between the plastic connecting piece 10 and the silica gel connecting piece 11 and is used for acquiring tension information;

the processor 4 is arranged in the plastic connecting piece 10, connected with the fixing mechanism 13, the rotating mechanism 15, the micro motor set 21, the first heating layer 23, the second heating layer 24, the micro projector 25, the first temperature sensor 30, the human body detecting mechanism 31, the second temperature sensor 32 and the tension sensor 33 respectively, and wirelessly connected with the user terminal; the processor 4 includes:

an information receiving module 40 for receiving information and/or instructions and/or requests;

a fixing control module 41 for controlling the fixing mechanism 13 to perform a set fixing or fixing releasing operation according to the set steps;

a first temperature module 42 for controlling the first temperature sensor 30 to turn on or off;

an information analysis module 43 for processing and analyzing information according to the specified information;

the data acquisition module 44 is used for controlling the human body detection mechanism 31 to be started or closed;

a micro projection module 45 for controlling the micro projector 25 to perform the set information projection operation according to the set steps;

the heat dissipation control module 46 is used for controlling the micro motor set 21 to execute the set start-stop operation of the micro fan 22 according to the set steps;

a second temperature module 47 for controlling the second temperature sensor 32 to be turned on or off;

a first heating module 48 for controlling the first heating layer 23 to be turned on or off;

and the first temperature adjusting module 49 is used for controlling the first heat production layer 23 to execute the set temperature conversion operation according to the set steps.

As a preferred mode of the present invention, the processor 4 further includes:

and the tension identification module 50 is used for controlling the tension sensor 33 to be started or shut down.

As a preferred mode of the present invention, the processor 4 further includes:

an information extraction module 51, configured to extract information and/or instructions and/or requests included in the specific information and/or instructions and/or requests;

and the fan speed regulating module 52 is used for controlling the micro motor set 21 to execute the set speed regulating operation of the micro fan 22 according to the set steps.

As a preferred mode of the present invention, the processor 4 further includes:

a connection establishing module 53, configured to establish a connection relationship with application software corresponding to the user terminal;

a second heating module 54 for controlling the second heating layer 24 to be turned on or off;

and a second temperature adjusting module 55 for controlling the second heat producing layer 24 to perform a set temperature changing operation according to the set steps.

As a preferred mode of the present invention, the processor 4 further includes:

a weather obtaining module 56, configured to obtain weather information of a location through a user terminal;

and a rotation control module 57 for controlling the rotation mechanism 15 to perform the set rotation operation according to the set steps.

And hydrophobic breathable films are arranged at two ends of the breathable channel to prevent the antiperspirant from entering the breathable channel.

It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to the third embodiments), and is not described in detail here.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. A control method of an intelligent bracelet based on plastics and silica gel is characterized by comprising the following steps:

s1, if a starting instruction sent by the user terminal keeping the connection relation is received, controlling a fixing mechanism arranged at the inner position of a bracelet connecting groove to release the connection state with the silica gel connecting piece and controlling a first temperature sensor arranged at the inner wall position of the silica gel connecting piece to start to acquire first temperature information in real time;

s2, analyzing whether the bracelet is worn by a user in real time according to the first temperature information;

s3, if yes, controlling a human body detection mechanism arranged on the inner wall of the plastic connecting piece connected with the silica gel connecting piece to start to acquire human body parameters in real time and controlling a micro projector arranged above the side wall of the plastic connecting piece to project the human body parameters to the surface of the arm of the user;

s4, controlling the fixing mechanism to be fixedly connected with the silica gel connecting piece and controlling a micro fan which is arranged in the bracelet ventilation channel and is started to drive the connection to enter a heat dissipation state;

s5, controlling a second temperature sensor arranged on the outer wall of the plastic connecting piece to start to acquire temperature information in real time and analyzing whether the temperature is lower than a first preset temperature value in real time according to the second temperature information;

s6, if yes, controlling a first heating layer arranged on the inner wall of the plastic connecting piece to start to enter an auxiliary heating state, and analyzing whether a second preset temperature value is reached or not in real time according to the first temperature information;

and S7, if so, controlling the first heating layer to enter a constant temperature state.

2. The method for controlling a smart band according to claim 1, wherein in S1, the method further comprises the following steps:

s10, controlling a tension sensor arranged between the silica gel connecting piece and the plastic connecting piece to start to acquire tension information in real time and analyzing whether a user pulls the silica gel connecting piece or not according to the tension information;

s11, if yes, the fixing mechanism arranged at the inner position of the connecting groove of the bracelet is controlled to release the connection state with the silica gel connecting piece.

3. The method for controlling a smart band according to claim 1, wherein in S4, the method further comprises the following steps:

s40, extracting the use information contained in the starting instruction and analyzing whether the use information is used by a human body or not according to the use information;

s41, if not, controlling a micro fan which is connected with a micro motor set starting drive and arranged inside the ventilation channel of the bracelet to start and enter a full-power running state.

4. The method for controlling a smart band according to claim 1, wherein in S6, the method further comprises the following steps:

s60, extracting the use information contained in the starting instruction and analyzing whether the use information is used by a human body or not according to the use information;

s61, if not, establishing a connection relation with the application software corresponding to the user terminal and analyzing whether the user terminal has a temperature value set through the corresponding application software in real time;

and S62, if so, controlling the second heating layer arranged on the inner wall of the silica gel connecting piece to enter a heating state and heating to the set temperature value.

5. The method for controlling a smart band according to claim 1, wherein in S3, the method further comprises the following steps:

s30, acquiring weather information fed back by the user terminal in real time and analyzing whether the area where the user terminal is located is in winter or not in real time according to the weather information;

and S31, if so, controlling a rotating mechanism arranged in the middle of the plastic connecting piece to drive the part above the plastic connecting piece to rotate 180 degrees clockwise and controlling a micro projector arranged above the side wall of the plastic connecting piece to project the human body parameters to the surface of the arm of the user.

6. An intelligent bracelet control system based on plastics and silica gel, which uses the intelligent bracelet control method based on plastics and silica gel according to any one of claims 1 to 5, and comprises a bracelet device, a function device, an identification device and a processor, and is characterized in that:

the bracelet device comprises a plastic connecting piece, a silica gel connecting piece, a bracelet connecting groove, a fixing mechanism, a connecting hole and a rotating mechanism, wherein the plastic connecting piece is connected with the silica gel connecting piece through the bracelet connecting groove; the silica gel connecting piece is made of soft silica gel; the bracelet connecting grooves are arranged at the positions of two ends of the plastic connecting piece; the fixing mechanism is arranged in the inner position of the bracelet connecting groove and is used for fixing the bracelet connecting groove with the connecting hole; the connecting hole is arranged at the position of the silica gel connecting piece and is used for being fixed with the fixing mechanism; the rotating mechanism is arranged in the middle of the plastic connecting piece, is respectively positioned at the upper part of the plastic connecting piece and the lower part of the plastic connecting piece, and is used for driving the upper part of the connected plastic connecting piece to rotate;

the functional device comprises a bracelet ventilation channel, a micro motor set, a micro fan, a first heating layer, a second heating layer and a micro projector, wherein the bracelet ventilation channel is distributed at the position of the plastic connecting piece; the micro motor set is arranged in the inner position of the air-permeable channel of the bracelet, is connected with the micro fan and is used for driving the connected micro fan to rotate; the miniature fan is connected with the miniature motor set and used for providing a heat dissipation function; the first heating layer is arranged on the inner wall of the plastic connecting piece and used for providing auxiliary heating for users; the second heating layer is arranged on the inner wall of the silica gel connecting piece and used for heating an object; the micro projector is arranged at the position of the side wall of the upper part of the plastic connecting piece and used for projecting specified information;

the identification device comprises a first temperature sensor, a human body detection mechanism, a second temperature sensor and a tension sensor, wherein the first temperature sensor is arranged on the inner wall of the silica gel connecting piece and used for acquiring the temperature information of a wearer; the human body detection mechanism is arranged on the inner wall of the plastic connecting piece and used for acquiring human body information of a wearer; the second temperature sensor is arranged at the outer position of the plastic connecting piece and used for acquiring the temperature information outside the bracelet; the tension sensor is arranged between the plastic connecting piece and the silica gel connecting piece and used for acquiring tension information;

the processor is arranged in the plastic connecting piece, is respectively connected with the fixing mechanism, the rotating mechanism, the micro motor set, the first heating layer, the second heating layer, the micro projector, the first temperature sensor, the human body detection mechanism, the second temperature sensor and the tension sensor, and is wirelessly connected with the user terminal; the processor includes:

the information receiving module is used for receiving information and/or instructions and/or requests;

the fixing control module is used for controlling the fixing mechanism to execute the set fixing or fixing releasing operation according to the set steps;

the first temperature module is used for controlling the first temperature sensor to be started or closed;

the information analysis module is used for processing and analyzing the information according to the specified information;

the data acquisition module is used for controlling the human body detection mechanism to be started or closed;

the micro projection module is used for controlling the micro projector to execute set information projection operation according to the set steps;

the heat dissipation control module is used for controlling the micro motor set to execute the set start-stop operation of the micro fan according to the set steps;

the second temperature module is used for controlling the second temperature sensor to be started or closed;

the first heating module is used for controlling the first heating layer to be started or closed;

and the first temperature adjusting module is used for controlling the first heating layer to execute the set temperature conversion operation according to the set steps.

7. The intelligent bracelet control system based on plastics and silica gel of claim 6, wherein the processor further comprises:

and the tension identification module is used for controlling the tension sensor to be started or closed.

8. The intelligent bracelet control system based on plastics and silica gel of claim 6, wherein the processor further comprises:

the information extraction module is used for extracting the specified information and/or instruction and/or request contained information and/or instruction and/or request;

and the fan speed regulating module is used for controlling the micro motor set to execute the set micro fan speed regulating operation according to the set steps.

9. The intelligent bracelet control system based on plastics and silica gel of claim 6, wherein the processor further comprises:

the connection establishing module is used for establishing a connection relation with application software corresponding to the user terminal;

the second heating module is used for controlling the second heating layer to be started or closed;

and the second temperature adjusting module is used for controlling the second heating layer to execute the set temperature conversion operation according to the set steps.

10. The intelligent bracelet control system based on plastics and silica gel of claim 6, wherein the processor further comprises:

the weather obtaining module is used for obtaining weather information of a place through the user terminal;

and the rotation control module is used for controlling the rotation mechanism to execute the set rotation operation according to the set steps.

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