CN110288787A

CN110288787A - The watchband monitoring method of smartwatch and smartwatch

Info

Publication number: CN110288787A
Application number: CN201910468146.1A
Authority: CN
Inventors: 林凡; 张秋镇; 彭陶峰
Original assignee: GCI Science and Technology Co Ltd
Current assignee: GCI Science and Technology Co Ltd
Priority date: 2019-05-30
Filing date: 2019-05-30
Publication date: 2019-09-27
Anticipated expiration: 2039-05-30
Also published as: CN110288787B

Abstract

The invention discloses the watchband monitoring method of a kind of smartwatch and smartwatch, which includes: wrist-watch main body, the first watchband and the second watchband；Wrist-watch main body is equipped with microcontroller, power module；First watchband is equipped with and is electrically connected first line, the second route and several table holes being arranged between first line and the second route with microcontroller；Second watchband is equipped with tertiary circuit, the 4th route, watch buckle, table column, tertiary circuit, the 4th route first end be electrically connected with microcontroller, the second end of tertiary circuit passes through table column and connect with the second end of the 4th route；When the first watchband and the second watchband fasten, first line, the second route and tertiary circuit, the 4th route are coupled into the same circuit by table hole and table column；The smartwatch need to only monitor its first line, the level of the port I/O of the second route, tertiary circuit, the 4th route can judge watchband connection status, improve the precision of wrist-watch monitoring and the sensitivity of Anti-dismantling, improve the safety coefficient of wrist-watch.

Description

The watchband monitoring method of smartwatch and smartwatch

Technical field

The present invention relates to field of intelligent wear more particularly to the watchband monitoring methods of a kind of smartwatch and smartwatch.

Background technique

With the development of mobile internet with high-performance low-power-consumption processing chip release etc., intelligent wearable device from Commercialization is moved towards in generalities, in particular for the smartwatch of specific crowd design, is rectified such as old man, children or community The monitoring wrist-watch of positive personnel, oneself obtains the concern of numerous manufacturers.

The wrist-watch technology applied to specific people's monitoring, management emerges one after another at present.However in actual use, out Now management object can artificially dismantle wantonly and destroy the fortuitous event of control circuit therein, so that careless mistake occurs for supervision.Therefore Discovery monitoring device is disassembled in time, and control management object is very urgent in supervision scope.Common wrist-watch tamper technology is A kind of tamper monitors wrist-watch, and watchband base pinch interlayer is provided with wire, and wire and Wrist-watch buckle, wrist-watch main body connect It connects, whether after Wrist-watch buckle is buckled, wire and wrist-watch main body, Wrist-watch buckle form closed circuit, opened a way short circuit by circuit To judge whether wrist-watch is dismantled.But the technology Anti-dismantling ability is not high, sensitivity is not high, wrist-watch disassembly monitoring precision compared with It is low.

Summary of the invention

In view of the above-mentioned problems, the purpose of the present invention is to provide the watchband monitoring sides of a kind of smartwatch and smartwatch Method can effectively improve the monitoring precision of wrist-watch connection, provide the sensitivity of wrist-watch Anti-dismantling.

In a first aspect, the embodiment of the invention provides a kind of smartwatch, comprising: wrist-watch main body and the wrist-watch main body The first watchband and the second watchband of connection；

The wrist-watch main body is equipped with microcontroller, power module；The microprocessor is electrically connected with the power module；

First watchband is equipped with first line, the second route and several table holes；The first line, the second route It is electrically connected with the microcontroller；Several described table holes are arranged between the first line and second route, and point The first line and second route are not connected, to form several the first circuits；

Second watchband is equipped with tertiary circuit, the 4th route and watch buckle；Wherein, the watch buckle is set to described second The end of watchband, the watch buckle are equipped with table column, and first watchband and second watchband pass through the table column and the table hole It fastens；The tertiary circuit, the 4th route first end be electrically connected with microcontroller, the second end of the tertiary circuit passes through institute It states table column to connect with the second end of the 4th route, to form second servo loop；

When first watchband and second watchband fasten, the table column runs through any one of table hole, described First line, second route are coupled with the tertiary circuit, the 4th route by the table hole and the table column, with So that any one of first circuit and the second servo loop are coupled into the same circuit.

Preferably, the smartwatch further include: the warning module that is electrically connected respectively with the microprocessor, with it is described pre- The buzzer and vibrator of alert module electrical connection.

Preferably, the smartwatch further include: the wireless communication module being electrically connected respectively with the microprocessor.

Preferably, the microprocessor has several and the first line, second route, the third line The port I/O that road, the 4th route connect one to one.

Second aspect, the embodiment of the invention also provides a kind of watchband monitoring methods of smartwatch, comprising: application such as the Smartwatch described in one side, comprising the following steps:

First line is set as output end route, the second route, tertiary circuit, the 4th route are set as input end line；

Detect second route, tertiary circuit, the corresponding port I/O of the 4th route level；

According to second route, tertiary circuit, the corresponding port I/O of the 4th route level, judge the first watchband and The connection status of second watchband；

When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high level, determine First watchband and the second watchband normally connect；

When the level of the corresponding port I/O of any one article of route in second route, tertiary circuit, the 4th route is height When resistance state, determine that any one route corresponds to watchband fracture；

When the electricity of second route port I/O corresponding with any one article of route in the tertiary circuit, the 4th route When putting down as high-impedance state, first watchband and the fracture of the second watchband are determined；

When the level of the corresponding port I/O of second route is high level, the tertiary circuit, the 4th route are corresponding When the level of the port I/O is high-impedance state, determine that first watchband and second watchband are in Fisrt fault state；

When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high-impedance state, determine First watchband and second watchband fracture are in the second malfunction.

Preferably, the Fisrt fault state includes: the first watchband fracture or first watchband and described second Watchband is in disassembly status.

Preferably, the level when the corresponding port I/O of second route is high level, the tertiary circuit, the When the level of the corresponding port I/O of four routes is high-impedance state, determine that first watchband and second watchband are in the first event Barrier state, specifically includes:

When the level of the corresponding port I/O of second route is high level, the tertiary circuit, the 4th route are corresponding The level of the port I/O be high-impedance state when, the tertiary circuit is set as output end route, by the first line, the second route, 4th route is set as input end line；

Detect the first line, the second route, the corresponding port I/O of the 4th route level；

When the level of the first line, the corresponding port I/O of the second route is high-impedance state, the 4th route is corresponding When the level of the port I/O is high level, the second watchband fracture is determined；

When the level of the first line, the second route, the corresponding port I/O of the 4th route is high-impedance state, determine First watchband and second watchband are in disassembly status.

Preferably, second malfunction includes: first watchband fracture, the first watchband fracture and described the One watchband and second watchband are in disassembly status or first watchband fracture, second watchband fracture and described the One watchband and second watchband are in disassembly status.

Preferably, described when the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is height When resistance state, determines that first watchband and second watchband are in the second malfunction, specifically includes:

When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high-impedance state, by institute It states tertiary circuit and is set as output end route, the first line, the second route, the 4th route are set as input end line；

When the level of the corresponding port I/O of the first line is high-impedance state, second route, the 4th route are corresponding When the level of the port I/O is high level, the first watchband fracture is determined；

When the level of the first line, the corresponding port I/O of the second route is high-impedance state, the 4th route is corresponding When the level of the port I/O is high level, determine at the first watchband fracture and first watchband and second watchband In disassembly status；

When the level of the first line, the second route, the corresponding port I/O of the 4th route is high-impedance state, determine The first watchband fracture, second watchband fracture and first watchband and second watchband are in disassembly status.

Preferably, the method also includes:

The connection status of first watchband and the second watchband is sent to warning module, so that the warning module drives Dynamic buzzer sends auditory tone cues to smartwatch wearer, and driving vibrator sends vibration prompting to smartwatch wearer.

Compared with the existing technology, the beneficial effect of the embodiment of the present invention is:

The smartwatch includes: wrist-watch main body, the first watchband and the second watchband that connect with the wrist-watch main body；It is described Wrist-watch main body is equipped with microcontroller, power module；The microprocessor is electrically connected with the power module；First watchband is set There are first line, the second route and several table holes；The first line, the second route are electrically connected with the microcontroller； Several described table holes are arranged between the first line and second route, and are separately connected the first line and institute The second route is stated, to form several the first circuits；Second watchband is equipped with tertiary circuit, the 4th route and watch buckle；Its In, the watch buckle is set to the end of second watchband, and the watch buckle is equipped with table column, first watchband and second table Band is fastened by the table column and the table hole；The tertiary circuit, the 4th route first end be electrically connected with microcontroller, institute The second end for stating tertiary circuit is connect by the table column with the second end of the 4th route, to form second servo loop；Work as institute When stating the first watchband and second watchband and fastening, the table column runs through any one of table hole, the first line, described Second route is coupled with the tertiary circuit, the 4th route by the table hole and the table column, so that by any one A first circuit and the second servo loop are coupled into the same circuit；By detecting first line, the second route, third line Road, the 4th route the level of the port I/O be capable of the connection status of accurate judgement watchband, improve the precision of wrist-watch monitoring and anti- The sensitivity of disassembly improves the safety coefficient of wrist-watch.

Detailed description of the invention

In order to illustrate more clearly of technical solution of the present invention, attached drawing needed in embodiment will be made below Simply introduce, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present invention, general for this field For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of smartwatch provided in an embodiment of the present invention；

Fig. 2 is the fastening schematic diagram of smartwatch provided in an embodiment of the present invention；

Fig. 3 is the connection schematic diagram of smartwatch provided in an embodiment of the present invention；

Fig. 4 is the flow chart of the watchband monitoring method of smartwatch provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1 to Fig. 3 is please referred to, first embodiment of the invention provides a kind of smartwatch, comprising: wrist-watch main body 1 and institute State the first watchband 2 and the second watchband 3 of the connection of wrist-watch main body 1；

The wrist-watch main body 1 is equipped with microcontroller, power module 12；The microprocessor is electrically connected with the power module 12 It connects；

First watchband 2 is equipped with first line 21, the second route 22 and several table holes 23；The first line 21, the second route 22 is electrically connected with the microcontroller；Several described table holes 23 settings the first line 21 with it is described Between second route 22, and it is separately connected the first line 21 and second route 22, to form several the first circuits；

Second watchband 3 is equipped with tertiary circuit 31, the 4th route 32 and watch buckle 33；Wherein, the watch buckle 33 is arranged In the end of second watchband 3, the watch buckle 33 is equipped with table column 34, and first watchband 2 passes through institute with second watchband 3 It states table column 34 and the table hole 23 fastens；The tertiary circuit 31, the 4th route 32 first end be electrically connected with microcontroller, institute The second end for stating tertiary circuit 31 is connect by the table column 34 with the second end of the 4th route 32, to be formed second time Road；

When first watchband 2 is fastened with second watchband 3, the table column 34 runs through any one of table hole 23, the first line 21, second route 22 and the tertiary circuit 31, the 4th route 32 pass through the table hole 23 It is coupled with the table column 34, so that any one of first circuit and the second servo loop are coupled into the same circuit.

In the present embodiment, the watch buckle 33 and table column 34 are metal structure, and accordingly, the table hole 23 is metal knot Structure, first line 21 and the second route 21 form power circuit by table hole 23；Tertiary circuit 31 and the 4th route 32 pass through table Column 34 forms power circuit, when the first watchband 2 and the second watchband 3 fasten, by table column 34 and table hole 23 by first line 21, Second route 21, tertiary circuit 31 and the 4th route 32 are coupled into the same circuit.

In an alternative embodiment, the smartwatch further include: be electrically connected respectively with the microprocessor pre- Alert module 14, the buzzer and vibrator being electrically connected with the warning module 14.

When microprocessor 11 detects that wrist-watch is disassembled or watchband is broken, buzzer is driven by warning module 14 Prompt is made a sound, driving vibrator sends vibration prompt, to remind wrist-watch wearer to stop current wrist-watch disassembly movement.

In an alternative embodiment, the smartwatch further include: the nothing being electrically connected respectively with the microprocessor Line communication module 13.

In the present embodiment, the wireless communication module 13 can be the communication modules such as WIFI, 4G/5G, NB-IOT, be used for It is communicated to connect with monitor terminal, realizes the long-range monitoring of data interaction and wrist-watch,

In an alternative embodiment, the microprocessor has several and the first line 21, described second The port I/O that route 22, the tertiary circuit 31, the 4th route 32 connect one to one.

The monitoring principle of the smartwatch is as follows:

When wearing wrist-watch by supervised entities, a cyclic annular knot is formed after first watchband 2 and second watchband 3 fastening Structure, at this point, the power module 12 is used for the micro process 11 and wrist-watch bulk supply.The microprocessor 11 passes through detection First line 21, the second route 22, tertiary circuit 31, the corresponding port I/O of the 4th route 32 level to judge that wrist-watch is current Connection status；When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high level, really Fixed first watchband and the second watchband normally connect；First line 21 is set as output end route, by the second route 22, third Route 31, the 4th route 31 are set as input end line；When any in second route 22, tertiary circuit 31, the 4th route 32 When the level of the corresponding port I/O of one route is high-impedance state, determine that any one route corresponds to watchband fracture；When described The level of second route 22 port I/O corresponding with any one article of route in the tertiary circuit 31, the 4th route 32 is high resistant When state, first watchband 2 and the fracture of the second watchband 3 are determined；When the level of the corresponding port I/O of second route 22 is height Level, the tertiary circuit 31, the corresponding port I/O of the 4th route 32 level be high-impedance state when, determine first watchband 2 Fracture or first watchband 2 and second table 3 are in disassembly status；When second route 22, tertiary circuit 31, When the level of the corresponding port I/O in four lines, 32 tunnel is high-impedance state, determine that first watchband 2 is broken, first watchband 2 is disconnected It splits and is in disassembly status or first watchband 2 fracture, second watchband with first watchband 2 and second watchband 3 3 fractures are with first watchband 2 and second table 3 in disassembly status；The smartwatch improves the sensitive of Anti-dismantling Property, the safety coefficient of wrist-watch is improved, while watch structure is simple, at low cost.

Referring to Fig. 4, second embodiment of the invention provides a kind of watchband monitoring method of smartwatch, comprising: application is such as Smartwatch described in above-mentioned first embodiment, comprising the following steps:

S11: being set as output end route for first line, and the second route, tertiary circuit, the 4th route are set as input end line Road；

S12: detection second route, tertiary circuit, the corresponding port I/O of the 4th route level；

S13: according to second route, tertiary circuit, the corresponding port I/O of the 4th route level, judge the first table The connection status of band and the second watchband；

S14: when the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high level, Determine that first watchband and the second watchband normally connect；

S15: when the level of the corresponding port I/O of any one article of route in second route, tertiary circuit, the 4th route When for high-impedance state, determine that any one route corresponds to watchband fracture；

S16: when second route port I/O corresponding with any one article of route in the tertiary circuit, the 4th route Level be high-impedance state when, determine first watchband and the second watchband fracture；

S17: when the level of the corresponding port I/O of second route is high level, the tertiary circuit, the 4th route pair When the level for the port I/O answered is high-impedance state, determine that first watchband and second watchband are in Fisrt fault state；

S18: when the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high-impedance state, Determine first watchband and second watchband fracture in the second malfunction.

In an alternative embodiment, the Fisrt fault state includes: the first watchband fracture or described first Watchband and second watchband are in disassembly status.

In an alternative embodiment, second malfunction includes: the first watchband fracture, first table Band fracture is in disassembly status or first watchband fracture, second table with first watchband and second watchband Band fracture is in disassembly status with first watchband and second watchband.

First line is set as output end route, the second route, tertiary circuit, the 4th route are set as input end line, and three It inputs as shown in table 1 below under the different input states of the port I/O of end line:

Table 1

Wherein, A1 indicates first line, and A2, B1, B2 respectively indicate the second route, tertiary circuit, the 4th route in upper table； 1 indicates high level；Indicate high-impedance state.

It is understood that determining the watchband fracture where the route when being inferred to a certain rupture of line.

In an alternative embodiment, described when the level of the corresponding port I/O of second route is high level, institute State tertiary circuit, the corresponding port I/O of the 4th route level be high-impedance state when, determine first watchband and second table Band is in Fisrt fault state, specifically includes:

In embodiments of the present invention, when there is the case where serial number 4 in table 1, the tertiary circuit is set as output line The first line, the second route, the 4th route are set as input end line by road；The difference of the port I/O of three input end lines It is as shown in table 2 below under input state:

Table 2

Further, after completing step S11-18, when the level of the corresponding port I/O of second route is high electricity It is flat, the tertiary circuit, the corresponding port I/O of the 4th route level when being high-impedance state, first initialize in microprocessor with institute First line, the second route, tertiary circuit, the corresponding port I/O of the 4th route are stated, and the tertiary circuit is set as output end The first line, the second route, the 4th route are set as input end line by route.

In an alternative embodiment, described to work as second route, tertiary circuit, the corresponding end I/O of the 4th route When the level of mouth is high-impedance state, determines that first watchband and second watchband are in the second malfunction, specifically includes:

In embodiments of the present invention, when there is the case where serial number 8 in table 1, the tertiary circuit is set as output line The first line, the second route, the 4th route are set as input end line by road；The difference of the port I/O of three input end lines It is as shown in table 3 below under input state:

Table 3

Further, after completing step S11-18, as second route, tertiary circuit, the corresponding I/O of the 4th route When the level of port is high-impedance state, first initialize in microprocessor with the first line, the second route, tertiary circuit, the The corresponding port I/O of four routes, and the tertiary circuit is set as output end route, by the first line, the second route, Four routes are set as input end line.

It is that more can accurately judge hand further to the connection of wrist-watch by the input of change route, output end The table problem.

In an alternative embodiment, the method also includes:

Specifically, when there is the improper connection status other than serial number 1, by the connection state reporting of wrist-watch to monitoring end End；It is disassembled when there is the case where serial number 4-7,4-8 perhaps 8-7,8-8 or in the presence of the case where may being disassembled, micro- place It manages device and alarm is issued by alarm module, remind by wrist-watch wearer.

In embodiments of the present invention, the microprocessor in real time passes through the level of the port I/O monitored described wireless Communication module is sent to monitor terminal, and when judging that wrist-watch connects extremely, microprocessor module by wireless communication By the connection state reporting of wrist-watch to monitor terminal, the long-range monitoring to wrist-watch is realized.It should be noted that the embodiment of the present invention Specific restriction is not done to monitor terminal, the monitor terminal can be computer, mobile phone, tablet computer, laptop or clothes Business device etc. calculates equipment.

The monitor terminal and the smartwatch, which are established, communicates to connect and can carry out data interaction, so that administrative staff are logical Cross the monitor terminal can with the wearer of real-time remote monitoring wrist-watch, and when the disassembling section of release timepiece band occurs in wrist-watch, It is dealt in time according to the watchband connection state information received, reinforces reducing safety accident to by the supervision of supervised entities A possibility that generation.

By the level of the port I/O of four routes of smartwatch setting, watchband fracture, disassembly can be accurately judged to The case where, the sensitivity of smartwatch Anti-dismantling and the precision of monitoring are improved, the safety coefficient of wrist-watch is improved.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also considered as Protection scope of the present invention.

Claims

1. a kind of smartwatch characterized by comprising wrist-watch main body, the first watchband being connect with the wrist-watch main body and Two watchbands；

First watchband is equipped with first line, the second route and several table holes；The first line, the second route and institute State microcontroller electrical connection；Several described table holes are arranged between the first line and second route, and connect respectively The first line and second route are connect, to form several the first circuits；

Second watchband is equipped with tertiary circuit, the 4th route and watch buckle；Wherein, the watch buckle is set to second watchband End, the watch buckle is equipped with table column, and first watchband and second watchband are fastened by the table column and the table hole； The tertiary circuit, the 4th route first end be electrically connected with microcontroller, the second end of the tertiary circuit passes through the table Column is connect with the second end of the 4th route, to form second servo loop；

When first watchband and second watchband fasten, the table column runs through any one of table hole, and described first Route, second route are coupled with the tertiary circuit, the 4th route by the table hole and the table column, so that Any one of first circuit and the second servo loop are coupled into the same circuit.

2. smartwatch as described in claim 1, which is characterized in that the smartwatch further include: respectively with micro- place The warning module of reason device electrical connection, the buzzer and vibrator being electrically connected with the warning module.

3. smartwatch as described in claim 1, which is characterized in that the smartwatch further include: respectively with micro- place Manage the wireless communication module of device electrical connection.

4. smartwatch as described in claim 1, which is characterized in that the microprocessor has several and the First Line The port I/O that road, second route, the tertiary circuit, the 4th route connect one to one.

5. a kind of watchband monitoring method of smartwatch characterized by comprising application intelligent hand as claimed in claim 4 Table, comprising the following steps:

According to second route, tertiary circuit, the corresponding port I/O of the 4th route level, judge the first watchband and second The connection status of watchband；

When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high level, described in determination First watchband and the second watchband normally connect；

When the level of the corresponding port I/O of any one article of route in second route, tertiary circuit, the 4th route is high-impedance state When, determine that any one route corresponds to watchband fracture；

When the level of second route port I/O corresponding with any one article of route in the tertiary circuit, the 4th route is When high-impedance state, first watchband and the fracture of the second watchband are determined；

When the level of the corresponding port I/O of second route is high level, the tertiary circuit, the corresponding I/O of the 4th route When the level of port is high-impedance state, determine that first watchband and second watchband are in Fisrt fault state；

When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high-impedance state, described in determination First watchband and second watchband fracture are in the second malfunction.

6. the watchband monitoring method of smartwatch as claimed in claim 5, which is characterized in that the Fisrt fault state packet Include: the first watchband fracture or first watchband and second watchband are in disassembly status.

7. the watchband monitoring method of smartwatch as claimed in claim 6, which is characterized in that described to work as second route pair The level for the port I/O answered be high level, the tertiary circuit, the corresponding port I/O of the 4th route level be high-impedance state when, It determines that first watchband and second watchband are in Fisrt fault state, specifically includes:

When the level of the corresponding port I/O of second route is high level, the tertiary circuit, the corresponding I/O of the 4th route When the level of port is high-impedance state, the tertiary circuit is set as output end route, by the first line, the second route, the Four routes are set as input end line；

When the level of the first line, the corresponding port I/O of the second route is high-impedance state, the corresponding I/O of the 4th route When the level of port is high level, the second watchband fracture is determined；

When the level of the first line, the second route, the corresponding port I/O of the 4th route is high-impedance state, described in determination First watchband and second watchband are in disassembly status.

8. the watchband monitoring method of smartwatch as claimed in claim 5, which is characterized in that the second malfunction packet Include: the first watchband fracture, the first watchband fracture are in disassembly status with first watchband and second watchband, Or the first watchband fracture, second watchband fracture are in disassembly status with first watchband and second watchband.

9. the watchband monitoring method of smartwatch as claimed in claim 8, which is characterized in that it is described when second route, Tertiary circuit, the corresponding port I/O of the 4th route level when being high-impedance state, determine first watchband and second table Band is in the second malfunction, specifically includes:

When the level of second route, tertiary circuit, the corresponding port I/O of the 4th route is high-impedance state, by described Three routes are set as output end route, and the first line, the second route, the 4th route are set as input end line；

When the level of the corresponding port I/O of the first line is high-impedance state, second route, the corresponding I/O of the 4th route When the level of port is high level, the first watchband fracture is determined；

When the level of the first line, the corresponding port I/O of the second route is high-impedance state, the corresponding I/O of the 4th route When the level of port is high level, determines that the first watchband fracture and first watchband and second watchband are in and tear open Unload state；

When the level of the first line, the second route, the corresponding port I/O of the 4th route is high-impedance state, described in determination The fracture of first watchband, second watchband fracture and first watchband and second watchband are in disassembly status.

10. the watchband monitoring method of smartwatch as claimed in claim 5, which is characterized in that the method also includes:

The connection status of first watchband and the second watchband is sent to warning module, so that the warning module drives bee Device ring to smartwatch wearer transmission auditory tone cues, driving vibrator sends vibration prompting to smartwatch wearer.