WO2022237056A1 - 表带表盘可交互的智能穿戴设备 - Google Patents

表带表盘可交互的智能穿戴设备 Download PDF

Info

Publication number
WO2022237056A1
WO2022237056A1 PCT/CN2021/121579 CN2021121579W WO2022237056A1 WO 2022237056 A1 WO2022237056 A1 WO 2022237056A1 CN 2021121579 W CN2021121579 W CN 2021121579W WO 2022237056 A1 WO2022237056 A1 WO 2022237056A1
Authority
WO
WIPO (PCT)
Prior art keywords
strap
dial
display
type
circuit
Prior art date
Application number
PCT/CN2021/121579
Other languages
English (en)
French (fr)
Inventor
杨宗旭
Original Assignee
歌尔股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 歌尔股份有限公司 filed Critical 歌尔股份有限公司
Publication of WO2022237056A1 publication Critical patent/WO2022237056A1/zh

Links

Images

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/1613Constructional details or arrangements for portable computers
    • G06F1/163Wearable computers, e.g. on a belt
    • GPHYSICS
    • G04HOROLOGY
    • G04GELECTRONIC TIME-PIECES
    • G04G17/00Structural details; Housings
    • G04G17/02Component assemblies
    • G04G17/04Mounting of electronic components
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/14Digital output to display device ; Cooperation and interconnection of the display device with other functional units
    • G06F3/147Digital output to display device ; Cooperation and interconnection of the display device with other functional units using display panels
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

Definitions

  • the present application relates to the technical field of smart wearable devices, in particular to a smart wearable device with interactive watch straps and dials.
  • the main purpose of this application is to provide a smart wearable device with an interactive watch strap and dial, aiming to realize the intelligent matching between the dial and the strap.
  • the smart wearable device proposed by this application with interactive strap and dial includes:
  • the dial is detachably connected to the strap
  • An electric control component the electric control component is arranged in the dial;
  • the display component is arranged on the dial, and the display component is electrically connected to the electric control component;
  • the electronic control component has multiple working modes, and is used to identify the type of the strap when the strap is connected to the dial, so as to select and perform the operation with the strap according to the type of the strap.
  • the working mode corresponding to the watchband type, and controlling the display component to display the content corresponding to the watchband type.
  • the strap is provided with a magnetic piece;
  • the electric control assembly includes:
  • a magnetic pole detection circuit the magnetic pole detection circuit is used to detect the magnetic polarity of the magnetic member towards the dial, and output a magnetic pole detection signal;
  • control circuit is electrically connected to the output terminal of the magnetic pole detection circuit and the display component, and the control circuit is arranged on the electric control board;
  • the control circuit is used to identify the type of the strap according to the magnetic pole detection signal, to select and execute a working mode corresponding to the strap type according to the type of the strap, and to control the display component to display and The content corresponding to the strap type.
  • the electric control assembly also includes:
  • a magnetic flux detection circuit the output end of the magnetic flux detection circuit is electrically connected to the control circuit, and the magnetic flux detection circuit is used to detect the magnetic flux of the magnetic part and output a magnetic flux detection signal;
  • the control circuit is used to identify the type of the strap according to the magnetic flux detection signal, to select and execute a working mode corresponding to the strap type according to the type of the strap, and to control the display component to display and The content corresponding to the strap type.
  • the display components include:
  • An electronic screen the electronic screen is electrically connected to the control circuit
  • RGB driving circuit the output end of the RGB driving circuit is electrically connected to the RGB lamp, and the input end of the RGB driving circuit is electrically connected to the control circuit;
  • the control circuit is used to select and execute the working mode corresponding to the strap type according to the strap type, and control the electronic screen to display the dial style corresponding to the strap type;
  • the control circuit is also used to select and execute a working mode corresponding to the type of the strap according to the type of the strap, and control the RGB driving circuit to drive the RGB lamp so that the RGB lamp display is consistent with the strap type.
  • the electronic screen includes a display screen and a touch screen, and the touch screen is fixedly installed on the display screen; the display assembly further includes:
  • a touch circuit the touch circuit is arranged on the electric control board, the touch circuit is electrically connected to the touch screen and the control circuit respectively, and the touch circuit is used to pass the touch
  • the screen receives a touch signal, and outputs the touch signal to the control circuit;
  • the control circuit is used to control the RGB driving circuit to drive the RGB light according to the touch signal, so that the RGB light displays a lighting effect corresponding to the touch signal;
  • the control circuit is also used to control the electronic screen to display the dial style corresponding to the display switching signal according to the touch signal.
  • the electric control assembly also includes:
  • a communication circuit the communication circuit is set on the electric control board, the communication circuit is connected to the external terminal in communication, and the communication circuit is electrically connected to the control circuit; the communication circuit is used to receive the The display switching signal and lighting effect switching signal output by the external terminal;
  • the control circuit is used to control the RGB driving circuit to drive the RGB lights according to the lighting effect switching signal, so that the RGB lights display the lighting effect corresponding to the lighting effect switching signal;
  • the control circuit is also used to control the electronic screen to display the dial style corresponding to the display switching signal according to the display switching signal.
  • the watchband type is a metal watchband
  • the electronic control component is used to select and execute the business mode when identifying the watchband type as a metal watchband, and control the display component to display the information of the business mode. content.
  • the strap type is a silicone strap
  • the electronic control component is used to identify the strap type as a silicone strap, select and execute a sports mode, and control the display component to display the content of the sports mode .
  • the dial includes: a watch case, the watch case is provided with a connection part, and the connection part is provided with a mounting hole; the strap is detachably connected to the connection part of the watch case through raw lugs.
  • the electronic screen is fixedly arranged on the watch case, and forms an accommodating cavity with the watch case, and the electric control board is arranged in the accommodating cavity;
  • the RGB lamp, the RGB drive circuit, the magnetic pole detection circuit and the magnetic flux detection circuit are all arranged in the accommodating cavity, and are arranged close to the position of the connecting part, and are electrically connected to the electric control board through a flexible circuit board ;
  • a lighting opening is also provided on the watch case corresponding to the position of the RGB light.
  • an optical fiber is also arranged on the strap.
  • the present application identifies different types of watch straps connected to it by setting an electric control component on the dial.
  • the electronic control component in the dial will recognize the current strap type, and according to the type of the strap, select and execute the watch strap type. corresponding working mode.
  • the display components on the dial are controlled to display the content corresponding to the strap type, thereby changing the overall style and display effect of the dial.
  • This application realizes the intelligent collocation between the dial and the strap, so that the same dial can identify the type of the strap connected to it and enter the corresponding working mode, realize different functions, and display different display contents. In this way, the user does not need to purchase a variety of smart wearable devices, but only needs to change the type of strap connected to the dial to change the functions and display content of the current smart wearable device, effectively improving the convenience for users to use the smart wearable device.
  • Fig. 1 is a module structure diagram of an embodiment of an interactive smart wearable device of the application
  • Fig. 2 is a diagram of the strap types of three embodiments of smart wearable devices with interactive strap dials in the present application;
  • FIG. 3 is a specific circuit diagram of an embodiment of an interactive smart wearable device of the application.
  • Fig. 4 is a specific circuit diagram of another embodiment of a smart wearable device with an interactive watch strap dial of the present application
  • Fig. 5 is a specific circuit diagram of another embodiment of a smart wearable device with an interactive watch strap dial of the present application
  • FIG. 6 is a specific circuit diagram of another embodiment of a smart wearable device with an interactive watch strap dial of the present application.
  • FIG. 7 is a specific circuit diagram of another embodiment of a smart wearable device with an interactive watch strap dial of the present application.
  • FIG. 8 is a structural diagram of an embodiment of a smart wearable device with an interactive wristband and dial in the present application.
  • the exercise time calculation terminal in the embodiment of the present application may be a PC, or a wearable device such as a smart bracelet or a smart watch that has a function of acquiring exercise patterns.
  • connection and “fixation” should be interpreted in a broad sense, for example, “fixation” can be a fixed connection, a detachable connection, or an integral body; It can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediary, and it can be an internal communication between two elements or an interaction relationship between two elements, unless otherwise clearly defined.
  • fixing can be a fixed connection, a detachable connection, or an integral body; It can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediary, and it can be an internal communication between two elements or an interaction relationship between two elements, unless otherwise clearly defined.
  • the present application proposes a smart wearable device with an interactive watch strap and dial, including a dial 10, a strap 20, an electric control component 11 and a display component 12, the dial 10 and the The watch strap 20 is detachably connected, the electric control assembly 11 is arranged in the dial 10 , the display assembly 12 is arranged on the dial 10 , and the display assembly 12 is electrically connected with the electric control assembly 11 .
  • the electronic control component 11 has multiple working modes, which are used to identify the type of the strap 20 when the strap 20 is connected to the dial 10, so as to select and execute the corresponding working mode according to the type of the strap 20, And control the display component 12 to display the content corresponding to the strap type.
  • the strap 20 and the dial 10 can be detachably linked by means of lugs or mounting grooves provided on the strap 20 .
  • the user can quickly remove the dial 10 from the current watch strap 20 according to the needs of the current environment, and connect it with another watch strap 20 of a different type, effectively Improve user convenience.
  • the electronic control assembly 11 can detect the type of the strap 20, and the type of the strap 20 can be distinguished according to the material used, such as metal strap, leather strap, leather strap, silicone strap and jewelry Watch straps and the like can also be distinguished according to the way the watch strap 20 is tightened, such as butterfly buckles, pin buckles, buckles and the like.
  • Each type of strap 20 can correspond to a working mode, for example, a metal strap corresponds to a business mode, a leather strap corresponds to a leisure mode, and a silicone strap corresponds to a sports mode.
  • the user can connect the dial 10 with different types of straps 20 according to his preferences and needs, and the electronic control component 11 can enter the corresponding working mode according to the detected strap type, and control the display component 12 to display The content corresponding to the strap type, so as to meet the display and function requirements of smart wearable devices in different environments.
  • the dial 10 can connect the dial 10 with different types of straps 20 according to his preferences and needs, and the electronic control component 11 can enter the corresponding working mode according to the detected strap type, and control the display component 12 to display The content corresponding to the strap type, so as to meet the display and function requirements of smart wearable devices in different environments.
  • the dial 10 without replacing the dial 10 , the purchase cost of the user is greatly reduced, and the consumption experience of the user is improved.
  • the displayed contents of the display assembly 12 can be UX (User Experience user experience interface) corresponding to the current strap type, such as the background pattern displayed on the dial 10 , watch hands, digital styles, etc., can also be functions related to the current watchband type.
  • the dial 10 can display the global multi-region time in addition to the current time, such as the dial On 10, except being used to display the pointer and the scale of current Beijing time, there can also be a plurality of small dials 10, and each small dial 10 has hands and scales, which are used to display the time in Paris, Tokyo, New York and other places.
  • the user can connect the dial 10 with the corresponding strap type according to the requirements of the use environment, thereby changing the current working mode and displaying the corresponding display content, so as to realize the intelligent linkage between the dial 10 and the strap 20 .
  • This application enables the user to switch the display content in the working mode corresponding to different strap types through a single dial 10, which effectively improves the user experience and improves the convenience of the user. With a variety of working modes in different environments to buy a variety of watches.
  • the electric control assembly 11 may also include a plurality of detection sensors, and the electric control assembly 11 may activate different detection sensors in different working modes to realize different functions, and control the display and function of the display assembly 12 corresponding content.
  • the electronic control component 11 can activate the pulse detection sensor to detect the pulse value of the current user during exercise and control the display component 12 to display the current pulse value on the dial 10, or to display the current pulse value on the metal strap
  • the electronic control component 11 activates the temperature sensor and the humidity sensor to detect the temperature and humidity in the current environment and controls the display component 12 to display the current temperature and humidity values.
  • the present application identifies the different types of wristbands 20 connected thereto by setting the electric control assembly 11 on the dial 10.
  • the electronic control unit 11 in the dial 10 will recognize the current strap type, and according to the type of the strap 20, select and execute the The working mode corresponding to the strap type.
  • the display component 12 on the dial 10 is controlled to display the content corresponding to the strap type, thereby changing the overall style and display effect of the dial 10 .
  • This application realizes the intelligent collocation between the dial 10 and the strap 20, so that the same dial 10 can identify the type of the strap 20 connected to it and enter the corresponding working mode, realize different functions, and display different display contents .
  • the user does not need to purchase a variety of smart wearable devices, and only needs to change the type of strap connected to the dial 10 to change the functions and display content of the current smart wearable device, effectively improving the convenience of the user in using the smart wearable device.
  • the strap type is a metal strap.
  • the electronic control component 11 is used to select and execute the business mode when the watchband type is identified as a metal watchband, and control the display component 12 to display the content of the business mode.
  • the business mode can include more functions related to business work, such as the memo function, the user can add the itinerary and time of the day in the memo, and the work schedule closest to the current time can always be displayed on the dial 10 , so that the user can confirm the current working process at any time.
  • the electronic control module 11 can also be equipped with a communication module for communicating with external smart terminals, and receiving environmental information sent by external terminals, such as weather, temperature, humidity, etc. The information is displayed on the dial 10, which is convenient for users to check in real time and make corresponding plans and arrangements.
  • the electronic control assembly 11 will control the time scale displayed on the dial 10 and rotate the ground hands to indicate the time, and control the background color of the dial 10 to be monochromatic, so that The overall style of the dial is more suitable for the business working environment.
  • the strap type is also a silicone strap.
  • the electronic control component 11 is used to select and execute the exercise mode after identifying the type of the watchband as a silicone watchband, and control the display component 12 to display the content of the exercise mode.
  • the sports mode can include more sports-related functions, such as heart rate monitoring function, and the electronic control component 11 can start the heart rate sensor to detect and control the dial 10 to display the user's current heart rate, so that the user can always Monitor your own heart rate status. It can also have a step counting function. For example, when the user is running, the electronic control component 11 can record the number of steps and the number of kilometers of the current user, and then can also calculate the current running speed and the calorie value consumed, and display the above results on the dial 10, so that users can observe their current exercise status in real time. In addition, regarding the display mode of the time on the dial 10, in the current exercise mode, the electronic control component 11 will control the dial 10 to directly display the specific number of the current time. For example, if the current time is 12:27 in the morning, the electronic control component 11 will 12:27 is displayed on the dial 10, so that it is convenient for the user to read the current time when exercising.
  • the electronic control component 11 can start the heart rate sensor to detect and control the dial 10 to display the user's current heart
  • the user can connect the dial with the metal strap to make the dial enter the business mode, which fits the business working environment, or connect the dial with the silicone strap to make the dial enter the sports mode, which is suitable for the sports environment.
  • more working modes can be set in advance and pre-stored in the dial by the research and development team of the smart wearable device, so as to adapt to different types of watch straps.
  • different functions can be set in different working modes to fit the current use environment, and the dial can also display different contents, patterns, values and display time in different ways under different working modes.
  • a magnetic member 200 is provided on the strap 20 .
  • the electric control assembly 11 includes an electric control board, a magnetic pole detection circuit 111 and a control circuit 120, the control circuit 120 is arranged on the electric control board, and the control circuit 120 is electrically connected to the output terminal of the magnetic pole detection circuit 111 and the display assembly 12 respectively.
  • the magnetic pole detection circuit 111 is used to detect the magnetic polarity of the magnetic member 200 facing the dial 10 and output a magnetic pole detection signal.
  • the control circuit 120 is used to identify the type of the strap 20 according to the magnetic pole detection signal, to select and execute a working mode corresponding to the strap type according to the type of the strap 20 , and to control the display component 12 to display content corresponding to the strap type.
  • the magnetic member 200 can be a magnet, and the magnet can be placed in the strap 20 by inserting or injection molding.
  • the magnetic pole detection circuit 111 can be realized by using a magnetic pole sensor such as a bipolar Hall sensor.
  • a magnetic pole sensor such as a bipolar Hall sensor.
  • the dial 10 is provided with or without the magnetic part 200.
  • the bipolar Hall sensor can detect the polarity of the magnetic part 200 towards the dial 10 and output a magnetic pole detection signal to the control circuit 120.
  • the control circuit 120 can detect the polarity according to the received magnetic pole detection signal And the pre-stored magnetic pole detection signal-strap type-working mode mapping table, look up the table to confirm the current watch strap type and enter the corresponding working mode, for example, it is detected that the magnetic part 200N on the watch strap 20 is facing the dial 10, and the control circuit 120 Confirm that the current watchband type is a metal watchband after looking up the table, then enter the corresponding business work mode, and control the display content of the display component 12 in the display work mode at the same time.
  • control circuit 120 may be implemented by a main controller such as MCU, DSP (Digital Signal Process, digital signal processing chip), FPGA (Field Programmable Gate Array, programmable logic gate array chip).
  • main controller such as MCU, DSP (Digital Signal Process, digital signal processing chip), FPGA (Field Programmable Gate Array, programmable logic gate array chip).
  • multiple functional modules such as a processing unit, a memory, a signal unit, and a clock module may be integrated in the main controller, which is not limited here.
  • the main controller can receive and send analog signals and digital signals, such as SPI signals, I 2 C signals, USART signals, etc., and the types of digital signals are not limited here.
  • the main controller can search the magnetic pole detection signal-strap type-working mode mapping table pre-stored in the memory according to the received magnetic pole detection signal, confirm the current watch strap type, and choose among multiple working modes in the pre-stored memory And execute the working mode corresponding to the current strap type.
  • the display component 12 in the current mode is controlled to display the content corresponding to the type of the dial 10 .
  • the pre-stored magnetic pole detection signal-bracelet type-working mode mapping table and multiple working modes are set and stored in the control circuit 120 by the research and development personnel during the product development stage.
  • the control circuit 120 uses the main controller U1 and the magnetic pole detection circuit 111 uses a bipolar Hall sensor U2 as an example for illustration.
  • the main controller U1 has S polarity input pins P2 and N polarity input pins.
  • the input pin P1 and the display component 12 control pin IND, the bipolar Hall sensor U2 has an S polarity output pin OUT2 and an N polarity output pin OUT1, and the S polarity input pin P2 is connected to the S polarity output pin OUT2 , the N-polarity input pin P1 is connected to the N-polarity output pin OUT1 , and the display component 12 control pin IND is electrically connected to the display component 12 .
  • the bipolar Hall sensor U2 detects the polarity of the magnet on the strap 20 facing the dial 10. If the magnet on the strap 20 faces the dial 10 and is N pole, the bipolar Hall sensor U2 will A high level signal is output through the N polarity output pin OUT1, and a low level signal is output through the S polarity output pin OUT2; The polarity output pin OUT1 outputs a low-level signal, and at the same time outputs a high-level signal through the S polarity output pin OUT2; if no magnet is set on the strap 20, the bipolar Hall sensor U2 cannot detect the polarity of the magnet, and it will At the same time, a low level signal is output through the N polarity output pin OUT1 and the S polarity output pin OUT2.
  • the main controller U1 can search the pre-stored magnetic pole detection signal-strap type-working mode mapping table according to the combination of the two signals connected to the S polarity input pin P2 and the N polarity input pin P1 (such as the following chart) , find the watchband type corresponding to the combination of the two signals and select and execute the working mode corresponding to the watchband type, and at the same time, control the display component 12 to display the content corresponding to the watchband type.
  • P1 P2 strap type model 1 0 leather strap casual mode 0 1 Silicone strap sports mode 0 0 metal strap business model
  • the dial 10 can realize the identification of the three types of straps 20, and enter the corresponding working mode according to the identified strap type, and make the display component 12 display the corresponding content, thereby realizing the smart wearable device.
  • the interaction between 10 and the strap 20 enriches the function types of the dial 10, facilitates the user to switch the required working mode according to actual needs, and improves the convenience for the user to use the smart wearable device.
  • the magnet is small in size and can be directly embedded or injection-molded into a corresponding watchband type without setting too many fixing brackets and structures, which reduces the overall volume of the watchband 20 .
  • the electric control assembly 11 further includes a magnetic flux detection circuit 112 , and the output end of the magnetic flux detection circuit 112 is electrically connected to the control circuit 120 .
  • the magnetic flux detection circuit 112 is used to detect the magnetic flux of the magnetic part 200, and output the magnetic flux detection signal
  • the control circuit 120 is used to identify the type of the watch strap 20 according to the magnetic flux detection signal, so as to select and execute the matching with the watch strap according to the type of the watch strap 20.
  • the magnetic part 200 can be a square magnet.
  • the magnetic flux detection circuit 112 can be realized by using a 3D Hall sensor, and the 3D Hall sensor can detect the magnetic flux upward in three axes (X, Y, Z), and output it to the control circuit 120 as a magnetic flux detection signal, wherein the magnetic flux detection The signal is a digital signal; the control circuit 120 can check the table to confirm the current watchband type according to the pre-stored three-axis magnetic flux-strap type-working mode mapping table, and select and execute the same operation mode among the multiple working modes pre-stored in the memory.
  • the working mode corresponding to the current strap type is controlled to display the content corresponding to the type of the dial 10 .
  • the pre-stored three-axis magnetic flux-bracelet type-working mode mapping table and multiple working modes are all set and stored in the control circuit 120 by the R&D personnel during the product development stage.
  • the device and the magnetic flux detection circuit 112 in the above embodiment use the 3D Hall sensor U3 and the main controller U1 communicates with the 3D Hall sensor U3 through I 2 C communication as an example.
  • the main controller also has an I 2 C Communication clock pin SDA and I 2 C communication data pin SCL, U3 also has output first pin A1 and output second pin A2, output first pin A1 and I 2 C communication data pin SCL connection, output second pin A2 and I 2 C Communication clock pin SDA connection.
  • the 3D Hall sensor U3 After the 3D Hall sensor U3 detects the three-axis magnetic flux of the currently placed magnet, it will output the value of the three-axis magnetic flux to the main controller through the first pin A1 and the output second pin A2 in the form of an I 2 C signal
  • the main controller U1 receives the three-axis magnetic flux of the current magnet through the I 2 C communication clock pin SDA and the I 2 C communication data pin SCL, it will query the pre-stored three-axis magnetic flux-strap type-working mode mapping table, Find the strap type corresponding to the current three-axis magnetic flux combination, select and execute the working mode corresponding to the strap type, and at the same time, control the display component 12 to display the content corresponding to the strap type.
  • the dial 10 can recognize six types of straps 20, thereby expanding the selectable working modes. It can be understood that if the dial 10 is to recognize more types of watch straps 20, multiple magnets can be arranged on the watch strap 20, the number of magnets is greater than 1, and different three-axis magnetic fluxes can be realized by combining different positions of the magnets value, one magnet with different sizes can also be used, then the size of the three-axis magnetic flux will also be different, so that the dial 10 can be matched with more types of straps 20 and enter the corresponding working mode, and the control display component 12 displays the corresponding The content of the working mode.
  • This application is beneficial to the subsequent upgrading and expansion of smart wearable devices, and provides technical support for developing and selling more types of watch straps 20 .
  • the display component 12 includes an electronic screen 120 , and the electronic screen 120 is electrically connected to the control circuit 120 .
  • control circuit 120 is used for selecting and executing the working mode corresponding to the type of the strap according to the type of the strap 20 , and controlling the electronic screen 120 to display the dial style corresponding to the type of the strap.
  • the dial style can be the specific pattern of the background of the dial 10, or the specific shape and color of the hands and numbers, and the shape and color of other graphic elements such as icons on the dial 10.
  • a particular dial 10 presents a style.
  • the dial style can be divided into business, cartoon, sports, abstract, simple, fashion, rough, extremely, noble, elegant, leisure and other categories according to the type of strap and the corresponding working mode.
  • the functional area corresponding to the current working mode can also be displayed, for example, in the business mode corresponding to the metal watch strap, the memo can be displayed, and in the sports mode corresponding to the silicone watch strap , can display the current heart rate value, etc., so that the style of the dial is more suitable for the working mode currently selected by the user, and further improves the convenience of the user.
  • the main controller U1 also has a display signal output pin TV, which is electrically connected to the electronic screen 120, and the main controller U1 is used to The detected strap type controls the electronic screen 120 to display the corresponding dial style.
  • the user only needs to connect the dial 10 with different types of straps 20, and the dial 10 can display the corresponding dial style to adapt to the current environment, effectively improving the convenience of the user.
  • the display assembly 12 also includes an RGB lamp 121 and an RGB drive circuit 122, the output end of the RGB drive circuit 122 is electrically connected to the RGB lamp 121, and the input end of the RGB drive circuit 122 is connected to the control circuit 120 electrical connections.
  • control circuit 120 is used for selecting and executing the working mode corresponding to the type of the strap 20 according to the type of the strap 20, and controlling the RGB driving circuit 122 to drive the RGB lamp 121, so that the RGB lamp 121 displays the information corresponding to the type of the strap 20. lighting effects. And/or the control circuit 120 is further configured to control the electronic screen 120 to display the dial style corresponding to the display switching signal according to the touch signal.
  • the control circuit 120 can set the corresponding lighting effect after identifying the strap type according to the preset strap type-working mode-lighting effect.
  • the control circuit 120 can control the RGB light 121 to continuously display a single light color, or control the RGB light 121 to display a single light color in a blinking or breathing manner, for example, after connecting with the metal strap 20, enter the corresponding business
  • the control circuit 120 can control the RGB lamp 121 to display a single white light or no light.
  • Various light colors can also be switched and displayed. For example, after being connected with a leather strap, the control circuit 120 can control the RGB light 121 to display colorful gradient lights and the like.
  • the number of RGB lights 121 can also be multiple, and multiple RGB lights 121 can light up the same light color together, or each RGB light can light up different light colors, and can also switch and light different lights according to a certain rule. RGB lights to form different lighting effects.
  • the RGB lamp 121 drive circuit can be implemented by selecting the RGB lamp 121 drive chip, and the control circuit 120 can communicate with the RGB lamp 121 drive chip to output a light effect control signal so that the RGB lamp 121 drive chip controls the RGB lamp 121 according to Lighting in a manner corresponding to the lighting effect control signal can also be realized through multiple constant current chips.
  • the control circuit 120 is connected to multiple constant current chips, and controls multiple constant current chips to send RGB lights by outputting multiple lighting effect control signals.
  • the corresponding lamp beads in 121 output currents of different magnitudes, so that the RGB lamps 121 display different lighting effects.
  • the main controller also has a lighting effect enable pin EN, RGB lamp 121 clock communication pins RGB-SCL and RGB Lamp 121 data communication pin RGB-SDA
  • RGB lamp 121 drive chip includes enable input pin D-EN, clock communication input pin D-SCL, data communication input pin D-SDA, red light output pin RGB-R, green light output pin RGB-G and blue light output pin RGB-B
  • enable pin EN is connected to enable input pin D-EN
  • RGB light 121 clock communication pin RGB-SCL is connected to clock communication input pin D-SCL
  • the pin RGB-SDA is connected to the data communication input pin D-SDA
  • the red light output pin RGB-R is connected to the first pin of RGB light 121
  • the green light output pin RGB-G is connected to the second pin of RGB light 121
  • the blue light output pin RGB -B is connected to the third pin of the RGB lamp 121 .
  • the main controller U1 After the main controller U1 recognizes the corresponding watchband type, it can search the watchband type-working mode-lighting effect, output a high-level signal through the enable pin EN to control the RGB driver chip to start working, and at the same time pass the RGB light 121 Clock communication pin RGB-SCL and RGB light 121 data communication pin RGB-SDA output light effect control signal to control RGB light 121 drive chip output current corresponding to the current strap type to control the three RGB LED beads to present the current strap type lighting effects.
  • the user only needs to connect the dial 10 with different types of straps 20, and the RGB lamp 121 can display the corresponding light effect to adapt to the current environment, effectively improving the convenience of the user. and experience.
  • the electronic screen 120 includes a display screen 120A and a touch screen 120B, and the touch screen 120B is fixedly installed on the display screen 120A; the display assembly 12 also includes a touch circuit 123, and the touch circuit 123 is disposed on the electric control board, and the touch circuit 123 is electrically connected to the touch screen 120B and the control circuit 120 respectively.
  • the touch circuit 123 is used to receive the touch signal through the touch screen 120B, and output the touch signal to the control circuit 120, and the control circuit 120 is used to control the RGB drive circuit 122 to drive the RGB light 121 according to the touch signal, so as to Make the RGB lights 121 display light effects corresponding to the touch signals.
  • the control circuit 120 is also used to control the electronic screen 120 to display the dial style corresponding to the display switching signal according to the touch signal.
  • the touch circuit 123 can be realized by selecting a touch chip.
  • the touch chip is electrically connected to the touch screen 120B.
  • the touch screen 120B can be selected from a capacitive screen or a resistive screen.
  • the touch circuit 123 can be based on the capacitance or resistance of the touch screen 120B. The position touched by the user is calculated and output to the control circuit 120 .
  • the size of the touch screen 120B is exactly the same as that of the display screen 120A.
  • the control circuit 120 can execute the function of the functional area corresponding to the current touched position according to the touched position.
  • the electronic screen 120 can display a lighting effect switching functional area and a dial style switching functional area, and the user can realize leisure lighting effect 1, leisure lighting effect 2 and Leisure Lighting Effect 3
  • the control circuit 120 After the control circuit 120 receives the touch signal corresponding to the location of the lighting effect switching function area, it will search and match the pre-stored watchband type-working mode-lighting effect mapping table.
  • the corresponding lighting effect, and control the RGB driving circuit 122 to drive RGB to display the corresponding lighting effect.
  • the switching between casual dial style 1, casual dial style 2 and casual dial style 3 can also be realized by touching the dial style switching functional area.
  • the corresponding dial style will be searched in the pre-stored strap type-working mode-dial style mapping table, and the electronic screen 120 will be controlled to display the corresponding dial style. In this way, the user can switch the lighting effect and the dial style of the same strap type through the touch screen 120B, which reflects personal taste while avoiding aesthetic fatigue, and effectively improves the convenience of the user.
  • the user can not only switch the dial style or lighting effect through the touch screen, but also use different functions by touching different functional areas in different working modes.
  • the user can touch the position of the stopwatch functional area through the touch screen to realize the stopwatch timing function.
  • the user can switch the lighting effect and dial style under the same strap type through the touch screen 120B and the touch module, so that the user can switch between multiple sets of lighting effects and dial styles.
  • Choose the type you like in the style which effectively improves the user experience.
  • the user can also realize the functions in different working modes by touching the functional areas on the dial style in different working modes, which improves the convenience of users.
  • the electronic control assembly 11 also includes a communication circuit 113, the communication circuit 113 is arranged on the electric control board, the communication circuit 113 is connected to the external terminal in communication, and the communication circuit 113 is connected to the control circuit 120 electrical connection.
  • the communication circuit 113 is used to receive the display switching signal and the lighting effect switching signal output by the external terminal, and the control circuit 120 is used to control the RGB driving circuit 122 to drive the RGB lamp 121 according to the lighting effect switching signal, so that The RGB lamp 121 displays the lighting effect corresponding to the lighting effect switching signal, and the control circuit 120 is also used to control the electronic screen 120 to display the dial style corresponding to the display switching signal according to the display switching signal.
  • the communication circuit 113 can communicate with an external terminal such as a mobile phone through various wireless communication networks such as WIFI, Bluetooth, 4G/5G, and a local area network.
  • the user can control the APP related to the smart wearable device on the external terminal, and In the corresponding functional area on the APP, switch the lighting effect under the current dial 10 type or the dial style under the current dial 10 type.
  • the current type of dial 10 is a metal strap, and the corresponding working mode is business mode. Users can select and switch different dial styles such as business 1, business 2, and business 3 on the APP, and can also switch the current lighting effect.
  • the constant white light is switched to a breathing white light with 1S on/1S off.
  • the external terminal will send out the corresponding lighting effect switching signal and/or display switching signal according to the user's selection on the APP.
  • the control circuit 120 After the control circuit 120 receives the display switching signal through the communication circuit 113, it will search the corresponding dial style in the pre-stored strap type-working mode-dial style mapping table, and control the electronic screen 120 to display the corresponding dial style. style. In this way, the user can switch the lighting effect and the dial style of the same strap type through the touch screen 120B, which reflects personal taste while avoiding aesthetic fatigue, and effectively improves the convenience of the user.
  • users can switch between different dial styles and lighting effects under the same strap type through an external terminal, which can reflect the user's personal taste and better fit the current environment, while avoiding aesthetic fatigue and improving the user experience.
  • the user can download multiple dial styles in the same working mode on the external terminal and store them in the dial 10 of the smart wearable device.
  • the dial 10 of the smart wearable device For example, in the business mode corresponding to the metal strap, there are three dial styles of business 1, business 2 and business 3 stored. In this way, the user can obtain more choices of lighting effects and dial styles under the same strap type, which improves the user's experience of using the smart wearable device with an interactive strap and dial in the present application.
  • the dial 10 includes a watch case 101, the watch case 101 is provided with a connecting portion, and the connecting portion is provided with a mounting hole; connect.
  • the raw lugs can be separated from the strap 20.
  • the dial 10 needs to be connected to the corresponding strap 20
  • the raw lugs can pass through the fixing holes at both ends of the strap 20, and the two ends Embedding in the corresponding mounting hole of the connection part on the watch case 101 can realize the quick installation of the dial 10 and the strap 20. If it needs to be removed, you can use a watch removal tool such as a strap remover to disconnect the strap 20 and the strap 20. connection between dials 10.
  • the raw ears can also be directly arranged at the two ends of the watch strap 20, and are fixedly connected with the two ends of the watch strap 20, so that the user does not need to purchase the raw ears specially and does not need to worry about losing the raw ears because they are too small.
  • the strap 20 is provided with a mounting groove, and the dial 10 is disposed in the mounting groove so as to be detachably connected with the strap 20 .
  • the installation groove on the watch strap 20 can be a silicone installation groove, and the user can embed the dial 10 in the installation groove and let the silicone installation groove wrap the dial 10 to realize fixing, and a buckle can also be set on the installation groove of the watch strap 20, so that After the dial 10 is installed in the installation groove, the dial 10 and the watch strap 20 are fixed by buckles. When the dial 10 needs to be removed or the strap 20 needs to be replaced, it is only necessary to open the buckle and take out the dial 10 .
  • the detachable connection between the dial 10 and the watch strap 20 can be realized, which is convenient for users to quickly and conveniently replace different types of watch straps 20 in real time according to their own needs, and improves the convenience of users.
  • the electronic screen 120 is fixedly arranged on the watch case 101, and forms an accommodating cavity with the watch case 101, the electric control board is arranged in the accommodating cavity, the RGB lamp 121, the RGB driving circuit 122.
  • the magnetic pole detection circuit 111 and the magnetic flux detection circuit 112 are both arranged in the accommodating cavity, and are arranged close to the connection part, and are electrically connected to the electric control board through the flexible circuit board.
  • a lighting opening 102 is provided on the watch case 101 corresponding to the position of the RGB lamp 121 , and a light-guiding fiber is also provided on the strap 20 .
  • the control circuit 120 in it will control the RGB driving circuit 122 to drive the RGB lights 121 to display the lighting effect corresponding to the type of the strap. Since the position of the RGB lights 121 is close to the connection part, Then the light of the RGB lighting will pass through the lighting opening 102 and irradiate on the light guide fiber of the watch strap 20, and guide it on the light guide fiber of the watch strap 20, so that the watch strap 20 can also display the same light effect, improving the Ornamental features of smart wearable devices.
  • the light effect displayed on the watchband 20 through the light guide fiber can also serve as a better reminder.
  • the customer pre-sets 21:00 in the memo to discuss with the customer
  • the RGB light 121 in the constant display white light state will start to flash, and at this time the light effect on the strap 20 will also change from the original constant display white light state to the flashing white light state.
  • the user's attention can be better drawn, and the convenience of the user's use is further improved.
  • the description is relatively simple, and for related parts, please refer to the part of the description of the method embodiment.
  • the apparatus embodiments described above are merely illustrative, where units illustrated as separate components may or may not be physically separate. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this application. It can be understood and implemented by those skilled in the art without creative effort.
  • the methods of the above embodiments can be implemented by means of software plus a necessary general-purpose hardware platform, and of course also by hardware, but in many cases the former is better implementation.
  • the technical solution of the present application can be embodied in the form of a software product in essence or the part that contributes to the prior art, and the computer software product is stored in a storage medium as described above (such as ROM/RAM , magnetic disk, optical disk), including several instructions to make a terminal device (which can be a mobile phone, computer, server, air conditioner, or network equipment, etc.) execute the exercise time calculation method described in various embodiments of the present application.

Landscapes

  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Human Computer Interaction (AREA)
  • General Engineering & Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • Electric Clocks (AREA)

Abstract

本申请公开一种表带表盘可交互的智能穿戴设备,包括表盘、表带、电控组件和显示组件,表盘与表带可拆卸连接,电控组件设置于表盘内,显示组件设置于表盘上,显示组件与电控组件电连接。本申请实现了表盘与表带的之间的智能搭配。

Description

表带表盘可交互的智能穿戴设备
本申请要求于2021年05月08日提交中国专利局、申请号为202110508101.X、发明名称为“表带表盘可交互的智能穿戴设备”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本申请涉及智能穿戴设备技术领域,特别涉及一种表带表盘可交互的智能穿戴设备。
背景技术
在智能穿戴设备领域,特别是智能手表和智能手环,因其便携性和功能性,受到了消费者的喜欢。但随着智能穿戴设备产业的成熟,目前的智能穿戴设备的技术与功能越发的同质化,所以许多品牌和厂家都将产品的创新点扩展至外观、配件和使用场景。而在这其中,如何实现表带和表体更为智能的搭配,有着较大的技术创新潜力。
发明内容
本申请的主要目的是提供一种表带表盘可交互的智能穿戴设备,旨在实现表盘与表带的之间的智能搭配。
为实现上述目的,本申请提出的表带表盘可交互的智能穿戴设备,包括:
表盘;
表带,所述表盘与所述表带可拆卸连接;
电控组件,所述电控组件设置于所述表盘内;
显示组件,所述显示组件设置于所述表盘上,所述显示组件与所述电控组件电连接;以及,
所述电控组件,具有多种工作模式,用于在所述表带连接至所述表盘时,识别所述表带的类型,以根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述显示组件显示与所述表带类型对应的内容。
可选地,所述表带上设置有磁性件;所述电控组件包括:
电控板;
磁极检测电路,所述磁极检测电路用于检测所述磁性件朝向所述表盘的磁极极性,并输出磁极检测信号;
控制电路,所述控制电路分别与所述磁极检测电路的输出端和所述显示组件电连接,所述控制电路设置于所述电控板上;
所述控制电路用于根据所述磁极检测信号识别所述表带的类型,以根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述显示组件显示与所述表带类型对应的内容。
可选地,所述电控组件还包括:
磁通量检测电路,所述磁通量检测电路的输出端与所述控制电路电连接,所述磁通量检测电路用于检测所述磁性件的磁通量,并输出磁通量检测信号;
所述控制电路用于根据所述磁通量检测信号识别所述表带的类型,以根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述显示组件显示与所述表带类型对应的内容。
可选地,所述显示组件包括:
电子屏,所述电子屏与所述控制电路电连接;
RGB灯;
RGB驱动电路,所述RGB驱动电路的输出端与所述RGB灯电连接,所述RGB驱动电路的输入端与所述控制电路电连接;
所述控制电路,用于根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述电子屏显示与所述表带类型对应的表盘风格;
所述控制电路还用于根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述RGB驱动电路驱动所述RGB灯,以使所述RGB灯显示与所述表带的类型对应的灯光效果。
可选地,所述电子屏包括显示屏和触控屏,所述触控屏固定安装于所述显示屏上;所述显示组件还包括:
触控电路,所述触控电路设置于所述电控板上,所述触控电路分别与所述触控屏以及所述控制电路电连接,所述触控电路用于通过所述触控屏接收触控信号,并将所述触控信号输出至所述控制电路;
所述控制电路用于根据所述触控信号,控制所述RGB驱动电路驱动所述 RGB灯,以使所述RGB灯显示与所述触控信号对应的灯光效果;和/或
所述控制电路还用于根据所述触控信号,控制所述电子屏显示与所述显示切换信号对应的表盘风格。
可选地,所述电控组件还包括:
通讯电路,所述通讯电路设置于所述电控板上,所述通讯电路与所述外部终端通讯连接,所述通讯电路与所述控制电路电连接;所述通讯电路,用于接收所述外部终端输出的显示切换信号和灯效切换信号;
所述控制电路用于根据所述灯效切换信号,控制所述RGB驱动电路驱动所述RGB灯,以使所述RGB灯显示与所述灯效切换信号对应的灯光效果;
所述控制电路还用于根据所述显示切换信号,控制所述电子屏显示与所述显示切换信号对应的表盘风格。
可选地,所述表带类型为金属表带;所述电控组件用于在识别所述表带类型为金属表带时,选择并执行商务模式,并控制所述显示组件显示商务模式的内容。
可选地,所述表带类型为硅胶表带;所述电控组件用于在识别所述表带类型为硅胶表带,选择并执行运动模式,并控制所述显示组件显示运动模式的内容。
可选地,所述表盘包括:表壳,所述表壳上设置有连接部,所述连接部设置有安装孔;所述表带通过生耳与所述表壳的连接部可拆卸连接。
所述电子屏固定设置于所述表壳上,并与所述表壳形成容置腔,所述电控板设置于所述容置腔中;
所述RGB灯、RGB驱动电路、磁极检测电路和磁通量检测电路均设置于所述容置腔中,并与所述连接部的位置贴近设置,并通过柔性电路板与所述电控板电连接;
所述表壳上对应所述RGB灯位置还设置有亮灯开口。
可选地,所述表带上还设置有导光纤维。
本申请通过在表盘上设置电控组件来识别与之连接的不同类型的表带。当用户将表盘和多种类型的表带中的任一一个连接时,表盘内的电控组件便识别当前的表带类型,并根据表带的类型,选择及执行与所述表带类型对应的工作模式。同时,在与之对应的工作模式下控制表盘上的显示组件显示与 所述表带类型对应的内容,从而改变表盘整体的风格和显示效果。本申请实现了表盘与表带的之间的智能搭配,使同一表盘能够识别与其连接的表带的类型并进入相对应的工作模式,实现不同的功能,并显示不同的显示内容。如此,用户无需购买多款智能穿戴设备,只需要更换与表盘连接的表带类型,就能够改变当前智能穿戴设备的功能和显示内容,有效地提高用户使用智能穿戴设备的便利性。
附图说明
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一部分附图,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据提供的附图获得其他的附图。
图1为本申请表带表盘可交互的智能穿戴设备一实施例的模块结构图;
图2为本申请表带表盘可交互的智能穿戴设备三种实施例的表带类型图;
图3为本申请表带表盘可交互的智能穿戴设备一实施例的具体电路图;
图4为本申请表带表盘可交互的智能穿戴设备另一实施例的具体电路图;
图5为本申请表带表盘可交互的智能穿戴设备另一实施例的具体电路图;
图6为本申请表带表盘可交互的智能穿戴设备另一实施例的具体电路图;
图7为本申请表带表盘可交互的智能穿戴设备另一实施例的具体电路图;
图8为本申请表带表盘可交互的智能穿戴设备一实施例的结构图。
具体实施方式
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本申请保护的范围。
应当理解,此处所描述的具体实施例仅仅用以解释本申请,并不用于限定本申请。
在后续的描述中,使用用于表示元件的诸如“模块”、“部件”或“单元”的后缀仅为了有利于本申请的说明,其本身没有特定的意义。因此,“模块”、“部件”或“单元”可以混合地使用。
本申请实施例运动时间计算终端可以是PC,也可以是智能手环、智能手表等具有运动模式获取功能的可穿戴设备。
需要说明,本申请实施例中所有方向性指示(诸如上、下、左、右、前、后……)仅用于解释在某一特定姿态(如附图所示)下各部件之间的相对位置关系、运动情况等,如果该特定姿态发生改变时,则该方向性指示也相应地随之改变。
在本申请中,除非另有明确的规定和限定,术语“连接”、“固定”等应做广义理解,例如,“固定”可以是固定连接,也可以是可拆卸连接,或成一体;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通或两个元件的相互作用关系,除非另有明确的限定。对于本领域的普通技术人员而言,可以根据具体情况理解上述术语在本申请中的具体含义。
另外,在本申请中如涉及“第一”、“第二”等的描述仅用于描述目的,而不能理解为指示或暗示其相对重要性或者隐含指明所指示的技术特征的数量。由此,限定有“第一”、“第二”的特征可以明示或者隐含地包括至少一个该特征。另外,各个实施例之间的技术方案可以相互结合,但是必须是以本领域普通技术人员能够实现为基础,当技术方案的结合出现相互矛盾或无法实现时应当认为这种技术方案的结合不存在,也不在本申请要求的保护范围之内。
参考图1和图2,在本申请一实施例中,本申请提出一种表带表盘可交互的智能穿戴设备,包括表盘10、表带20、电控组件11和显示组件12,表盘10与表带20可拆卸连接,电控组件11设置于表盘10内,显示组件12设置于表盘10上,显示组件12与电控组件11电连接。
其中,电控组件11具有多种工作模式,用于在表带20连接至表盘10时,识别表带20的类型,以根据表带20的类型选择及执行与表带类型对应的工作模式,并控制显示组件12显示与表带类型对应的内容。
在本实施例中,表带20和表盘10可以通过生耳或者是表带20上设置安装槽来实现可拆卸链接。通过上述快速可拆卸连接设计,在实际应用中,用户可以根据当前环境的需求,快速地将表盘10从当前的表带20上取下,并与另一块不同类型的表带20连接,有效地提高了用户使用的便利性。
在本实施例中,电控组件11可以检测表带20的类型,表带20的类型可以 根据其使用的材质进行区分,比如金属表带、皮革表带、皮革表带、硅胶表带和珠宝表带等,也可以根据其表带20的收紧方式来区别,比如蝴蝶扣、针扣、卡扣等。每种表带20的类型可以对应一种工作模式,例如金属表带对应商务模式,皮革表带对应休闲模式,硅胶表带对应运动模式等。在实际应用中,用户可以根据自己的喜好和需求,将表盘10与不同类型的表带20连接,电控组件11能够根据检测的表带类型,进入对应的工作模式,并控制显示组件12显示与表带类型对应的内容,从而满足自己不同环境下的对于智能穿戴设备的显示与功能的需求。同时,由于切换不同工作模式只需要额外购买不同类型的表带20,无需更换表盘10,从而大大降低了用户购买的成本,提升了用户的消费体验。
在本实施例中,不同的工作模式对应着不同的显示内容,显示组件12所显示的内容可以为与当前表带类型对应的UX(User Experience用户体验界面),例如表盘10上显示的背景图案、表针、数字的样式等,也可以是与当前表带类型相关的功能,例如在金属表带对应的商务模式下,表盘10上除了会显示当前的时间还可以显示全球多地区时间,比如表盘10上除了用来显示当前北京时间的表针和刻度,还可以有多个小表盘10,每个小表盘10里均有表针与刻度,用于显示巴黎、东京、纽约等地时间。在实际应用中,用户可以根据使用环境需求将表盘10与对应的表带类型进行连接,从而更换当前的工作模式,并显示对应的显示内容,以实现表盘10与表带20之间的智能联动。本申请能够让用户通过单一表盘10实现不同表带类型对应的工作模式下的显示内容的切换,有效地提高了用户使用的体验感,同时提高了用户使用的便利性,让用户无需再为了适配不同环境下的多种工作模式去购买多款手表。
在另一实施例中,电控组件11还可以包括多个检测传感器,电控组件11可以在不同的工作模式下激活不同的检测传感器以实现不同的功能,并控制述显示组件12显示与功能对应的内容。比如在硅胶表带对应的运动模式下,电控组件11可以启动脉搏检测传感器,检测当前用户运动时的脉搏值并控制显示组件12在表盘10上显示当前的脉搏值,或者是在金属表带对应的商务模式下,电控组件11启动温度传感器、湿度传感器,检测当前环境下的温度和湿度并控制显示组件12显示当前的温度值和湿度值。通过上述设置,能够更好地满足用户对于不同使用环境下的功能需求,提高了用户使用的便利性。
本申请通过在表盘10上设置电控组件11来识别与之连接的不同类型的表 带20。当用户将表盘10和多种类型的表带20中的任一一个连接时,表盘10内的电控组件11便识别当前的表带类型,并根据表带20的类型,选择及执行与所述表带类型对应的工作模式。同时,在与之对应的工作模式下控制表盘10上的显示组件12显示与所述表带类型对应的内容,从而改变表盘10整体的风格和显示效果。本申请实现了表盘10与表带20的之间的智能搭配,使同一表盘10能够识别与其连接的表带20的类型并进入相对应的工作模式,实现不同的功能,并显示不同的显示内容。如此,用户无需购买多款智能穿戴设备,只需要更换与表盘10连接的表带类型,就能够改变当前智能穿戴设备的功能和显示内容,有效地提高用户使用智能穿戴设备的便利性。
参考图2,在本申请一实施例中,表带类型为金属表带。电控组件11用于在识别表带类型为金属表带时,选择并执行商务模式,并控制显示组件12显示商务模式的内容。
在本实施例中,商务模式下可以包括较多与商务工作相关的功能,比如备忘录功能,用户可以在备忘录内加入当日的行程安排与时间,表盘10上可以始终显示距离目前时间最近的工作安排,以便于用户随时确认当前的工作进程。同时,在商务工作模式下,电控组件11还可以设置通讯模块,用于与外部智能终端通讯,并从接收由外部终端发来的环境信息,例如天气、温度、湿度等,并将上述环境信息显示在表盘10上,便于用户实时查看并作出相应的计划与安排。此外,对于表盘10上时间的显示方式,在当前商务模式下,电控组件11会控制表盘10上显示时间刻度和转动地表针来指示时间,并且控制表盘10的底色为单色,从而使表盘风格整体更加贴合商务工作环境。
在另一实施例中,表带类型还为硅胶表带。所述电控组件11用于在识别所述表带类型为硅胶表带,选择并执行运动模式,并控制所述显示组件12显示运动模式的内容。
在本实施例中,运动模式下可以包括较多与运动相关的功能,比如心率监测功能,电控组件11可以启动心率传感器检测并控制表盘10显示用户当前的心率,以便于用户在运动时时刻监测自身的心率状态。还可以具有记步功能,比如用户在跑步时,电控组件11可以记录当前用户的步数以及公里数,进而还可以计算出当前的跑步速度和消耗的卡路里值,并将上述结果均在表盘10上显示,以便于用户实时观察自己当前的运动状况。此外,对于表盘10上时间的显示方式,在当前运动模式下,电控组件11会控制表盘10上直接显 示当前时间的具体数字,比如当前时间为上午12点27分,电控组件11便会在表盘10上显示12:27,从而方便用户在运动时对当前时间进行读数。
通过上述设置,用户可以将表盘与金属表带连接以使表盘进入商务模式,从而贴合商务工作环境,也可以将表盘与硅胶表带连接以使表盘进入运动模式,从而适用于运动环境。可以理解的是,除了上述实施例外,还可以由智能穿戴设备的研发团队提前设置并在表盘内预存更多的工作模式,以适配不同类型的表带。其中,不同的工作模式还可以设置不同的功能以贴合当前的使用环境,并且不同的工作模式下表盘还可以显示不同的内容、图案、数值以及以不同的方式显示时间。
参考图1和图3,在申请一实施例中,表带20上设置有磁性件200。电控组件11包括电控板、磁极检测电路111和控制电路120,控制电路120设置于电控板上,控制电路120分别与磁极检测电路111的输出端和显示组件12电连接。
其中,磁极检测电路111用于检测磁性件200朝向表盘10的磁极极性,并输出磁极检测信号。控制电路120用于根据磁极检测信号识别表带20的类型,以根据表带20的类型选择及执行与表带类型对应的工作模式,并控制显示组件12显示与表带类型对应的内容。
在本实施例中,磁性件200可以选用磁铁,可以采用嵌件或注塑的方式把磁铁置于表带20之中。
在本实施例中,磁极检测电路111可以采用磁极传感器比如双极霍尔传感器来实现,磁性件200在表带20上的放置方式可有三种,分为S极朝向表盘10设置,N极朝向表盘10设置和不设置磁性件200三种情况,双极霍尔传感器可以检测磁性件200朝向表盘10的极性并输出磁极检测信号至控制电路120,控制电路120可以根据接受到的磁极检测信号和预存的磁极检测信号-表带类型-工作模式映射表,查表确认当前的表带类型并进入对应的工作模式,例如检测到表带20上的磁性件200N极朝向表盘10,控制电路120查表后确认当前的表带类型为金属表带,则进入对应的商务工作模式,同时控制显示组件12在显示工作模式下的显示内容。
在本实施例中,控制电路120可以采用主控制器例如MCU、DSP(Digital Signal Process,数字信号处理芯片)、FPGA(Field Programmable Gate Array,可编程逻辑门阵列芯片)来实现。其中,主控器中可以集成有处理单元、存储器和信号单元和时钟模块等多个功能模块,此处不作限定。同时,主控制 器能够接收和发送模拟信号以及数字信号,比如SPI信号、I 2C信号、USART信号等,此处数字信号类型不作限定。主控制器可以根据接受到的磁极检测信号,查找预存在存储器的磁极检测信号-表带类型-工作模式映射表,确认当前的表带类型,并在预存在存储器中的多个工作模式中选择及执行与当前表带类型对应的工作模式。同时,控制当前模式下的显示组件12显示与表盘10类型对应的内容。其中,预存的磁极检测信号-表带类型-工作模式映射表和多个工作模式均为产品在研发阶段由研发人员设置并存储在控制电路120中。
具体地,以磁性件200为磁铁,控制电路120采用主控制器U1和磁极检测电路111采用双极霍尔传感器U2为例进行说明,主控制器U1具有S极性输入脚P2、N极性输入脚P1和显示组件12控制脚IND,双极霍尔传感器U2具有S极性输出脚OUT2和N极性输出脚OUT1,所述S极性输入脚P2与所述S极性输出脚OUT2连接,所述N极性输入脚P1与所述N极性输出脚OUT1连接,所述显示组件12控制脚IND与所述显示组件12电连接。
当表盘10与表带20连接后,双极霍尔传感器U2检测表带20上磁铁朝向表盘10的极性,若表带20上磁铁朝向表盘10为N极,双极霍尔传感器U2则会通过N极性输出脚OUT1输出高电平信号,同时通过S极性输出脚OUT2输出低电平信号;若表带20上磁铁朝向表盘10为S极,双极霍尔传感器U2则会通过N极性输出脚OUT1输出低电平信号,同时通过S极性输出脚OUT2输出高电平信号;若表带20上不设置磁铁,双极霍尔传感器U2检测不到磁铁的极性,则会同时通过N极性输出脚OUT1以及S极性输出脚OUT2输出低电平信号。主控制器U1根据S极性输入脚P2和N极性输入脚P1接入的两个信号组合的不同,可以查找预存的磁极检测信号-表带类型-工作模式映射表(例如下述图表),查找到与两个信号组合对应的表带类型和选择并执行与表带类型对应的工作模式,同时,控制显示组件12显示与所述表带类型对应的内容。
P1 P2 表带类型 模式
1 0 皮革表带 休闲模式
0 1 硅胶表带 运动模式
0 0 金属表带 商务模式
通过上述设置,表盘10能够实现对三中类型表带20的识别,并根据识别到的表带类型进入对应的工作模式,并制显示组件12显示对应的内容,从 而实现了智能穿戴设备中表盘10与表带20的交互,丰富了表盘10的功能类型,便于用户根据实际需求切换需要的工作模式,提高了用户使用智能穿戴设备的便利性。同时,磁铁的体积较小,能够直接嵌入或者注塑进对应的表带类型中,不用设置过多的固定支架与结构,减小了表带20整体的体积。
在另一实施例中,参考图4,若表带类型和对应的工作模式大于三种,则采用磁极检测电路111可能无法实现识别大于三种的表带类型。故在本实施例中,电控组件11还包括磁通量检测电路112,磁通量检测电路112的输出端与控制电路120电连接。
其中,磁通量检测电路112用于检测磁性件200的磁通量,并输出磁通量检测信号,控制电路120用于根据磁通量检测信号识别表带20的类型,以根据表带20的类型选择及执行与表带类型对应的工作模式,并控制显示组件12显示与表带类型对应的内容。
在本实施例中,磁性件200可以选用正方形磁铁,在嵌入或注塑方式设置于表带20上时,理论上有六种摆法,六种不同摆法所产生的磁通量大小不同。磁通量检测电路112可以采用3D霍尔传感器来实现,3D霍尔传感器能够检测三个轴(X,Y,Z)向上的磁通量,并将其作为磁通量检测信号输出至控制电路120,其中,磁通量检测信号为数字信号;控制电路120可以根据预存的三轴磁通量-表带类型-工作模式映射表,查表确认当前的表带类型,并在预存在存储器中的多个工作模式中选择及执行与当前表带类型对应的工作模式。同时,控制当前模式下的显示组件12显示与表盘10类型对应的内容。其中,预存的三轴磁通量-表带类型-工作模式映射表和多个工作模式均为产品在研发阶段由研发人员设置并存储在控制电路120中。
具体地,以上述实施例中的器件和磁通量检测电路112采用3D霍尔传感器U3以及主控制器U1和3D霍尔传感器U3通过I 2C通讯为例进行说明,主控制器还具有I 2C通讯时钟脚SDA和I 2C通讯数据脚SCL,U3还具有输出第一脚A1和输出第二脚A2,输出第一脚A1和I 2C通讯数据脚SCL连接,输出第二脚A2和I 2C通讯时钟脚SDA连接。3D霍尔传感器U3在检测到当前摆放的磁铁的三轴磁通量后,会以I 2C信号的方式,将三轴磁通量的值通过第一脚A1和输出第二脚A2输出至主控制器U1,主控制器U1通过I 2C通讯时钟脚SDA和I 2C通讯数据脚SCL接收到当前磁铁的三轴磁通量后,便会查询预存的三轴磁通量-表带类型-工作模式映射表,查找到与当前的三轴磁通量组 合对应的表带类型和选择并执行与表带类型对应的工作模式,同时,控制显示组件12显示与所述表带类型对应的内容。例如当前的三轴磁通量为BX=10Wb、BY=8Wb和BZ=3Wb,则查表后确认当前的表带类型为编制表带20,对应的工作模式为学生模式,则主控制器U1在预存的工作模式中选择并开始执行学生模式,同时控制显示组件12显示对应学生模式的内容。
通过上述设置,能够使得表盘10识别六种类型的表带20,从而扩充可选择的工作模式。可以理解的是,若想让表盘10识别更多类型的表带20,可以在表带20上设置多颗磁铁,磁铁的数量大于1,通过磁铁之间不同的位置组合实现不同的三轴磁通量数值,也可以采用大小不同的1颗磁铁,那么三轴磁通量的大小也会不同,从而能够实现表盘10与更多类型的表带20进行匹配并进入对应的工作模式,控制显示组件12显示对应工作模式的内容。本申请有利于智能穿戴设备后续的升级与扩展,为研发并售卖更多类型的表带20提供了技术支持。
参考图5,在本申请一实施例中,显示组件12包括电子屏120,电子屏120与控制电路120电连接。
其中,控制电路120用于根据表带20的类型选择及执行与表带类型对应的工作模式,并控制电子屏120显示与表带类型对应的表盘风格。
在本实施例中,表盘风格可以是表盘10背景的具体图案,也可以是表针、数字的具体的形状、色彩,以及表盘10上其他图标等图形元素的形状、色彩,还刻意是手表的一个具体的表盘10呈现样式。其中,表盘风格可以根据表带类型以及对应的工作模式,分为商务、卡通、运动、抽象、简洁、时尚、粗犷、精致、高贵、优雅、休闲等多种类别。
在另一实施例中,在不同的表盘风格中,还可以显示与当前工作模式对应的功能区,比如在金属表带对应的商务模式下,能够显示备忘录,在硅胶表带对应的运动模式下,能够显示当前的心率值等,从而使表盘风格更加贴合用户当前选择的工作模式,进一步提高用户的便利性。
具体地,以上述实施例中的器件和电子屏120为例进行说明,主控制器U1还具有显示信号输出脚TV,显示信号输出脚TV与电子屏120电连接,主控制器U1用于根据检测到的表带类型,控制电子屏120显示对应的表盘风格。
通过上述设置,用户只需要将表盘10与不同类型的表带20连接,就能 够使表盘10显示对应的表盘风格,以适配当前的所处的环境,有效地提高了用户使用的便利性。
参考图5,在本申请一实施例中,显示组件12还包括RGB灯121和RGB驱动电路122,RGB驱动电路122的输出端与RGB灯121电连接,RGB驱动电路122的输入端与控制电路120电连接。
其中,控制电路120用于根据表带20的类型选择及执行与表带类型对应的工作模式,并控制RGB驱动电路122驱动RGB灯121,以使RGB灯121显示与表带20的类型对应的灯光效果。和/或控制电路120还用于根据触控信号,控制电子屏120显示与显示切换信号对应的表盘风格。
在本实施例中,由于RGB灯121由三原色组成,所以可以调整每颗灯珠的亮度以混成不同的颜色,例如三个灯珠同一亮度时,整体为白色。在表盘10与某一类型的表带20连接后,控制电路120可以根据预设的表带类型-工作模式-灯效,在识别表带类型后设置对应的灯效。其中,控制电路120可以控制RGB灯121持续显示单一的灯色,或者是以闪烁、呼吸的方式控制RGB灯121显示单一的灯色,比如在与金属类型表带20连接后,进入对应的商务工作模式,控制电路120可以控制RGB灯121显示单一的白光,或者是不亮光。也可以切换显示多种灯色,比如在与皮革表带连接后,控制电路120可以控制RGB灯121显示七彩渐变灯等。
在另一实施例中,RGB灯121的数量还可以为多个,多个RGB灯121可以一起亮同一灯色,或者每颗RGB灯亮不同的灯色,也可以按照一定的规律切换点亮不同的RGB灯,以形成不同的灯效。
在本实施例中,RGB灯121驱动电路可以选择RGB灯121驱动芯片来实现,控制电路120可以通过与RGB灯121驱动芯片通讯,输出灯效控制信号让RGB灯121驱动芯片控制RGB灯121按照与灯效控制信号对应的方式亮灯,还可以通过多个恒流芯片来实现,控制电路120与多个恒流芯片连接,通过输出多个灯效控制信号控制多个恒流芯片向RGB灯121中对应的灯珠输出不同大小的电流,以使RGB灯121显示出不同的灯效。
具体地,以上述实施例中的器件和RGB驱动电路122为RGB灯121驱动芯片U4为例进行说明,主控制器还具有灯效使能脚EN、RGB灯121时钟通讯脚RGB-SCL和RGB灯121数据通讯脚RGB-SDA,RGB灯121驱动芯 片包括使能输入脚D-EN、时钟通讯输入脚D-SCL、数据通讯输入脚D-SDA、红灯输出脚RGB-R、绿灯输出脚RGB-G和蓝灯输出脚RGB-B,使能脚EN与使能输入脚D-EN连接,RGB灯121时钟通讯脚RGB-SCL与时钟通讯输入脚D-SCL连接,RGB灯121数据通讯脚RGB-SDA与数据通讯输入脚D-SDA连接,红灯输出脚RGB-R与RGB灯121第一脚连接,绿灯输出脚RGB-G与RGB灯121第二脚连接,蓝灯输出脚RGB-B与RGB灯121第三脚连接。
主控制器U1在识别了对应的表带类型后,可以查找表带类型-工作模式-灯效,通过使能脚EN输出高电平信号以控制RGB驱动芯片开始工作,并同时通过RGB灯121时钟通讯脚RGB-SCL和RGB灯121数据通讯脚RGB-SDA输出灯效控制信号控制RGB灯121驱动芯片输出与当前表带类型对应的电流以控制RGB的三个灯珠呈现与当前表带类型的灯效。
通过上述设置,用户只需要将表盘10与不同类型的表带20连接,就能够使RGB灯121显示对应的光效,以适配当前的所处的环境,有效地提高了用户使用的便利性和体验感。
在本申请一实施例中,参考图6,电子屏120包括显示屏120A和触控屏120B,触控屏120B固定安装于显示屏120A上;显示组件12还包括触控电路123,触控电路123设置于电控板上,触控电路123分别与触控屏120B以及控制电路120电连接。
其中,触控电路123用于通过触控屏120B接收触控信号,并将触控信号输出至控制电路120,控制电路120用于根据触控信号,控制RGB驱动电路122驱动RGB灯121,以使RGB灯121显示与触控信号对应的灯光效果。控制电路120还用于根据触控信号,控制电子屏120显示与显示切换信号对应的表盘风格。
在本实施例中,预存的表带类型-工作模式-灯效映射表中的每种表带类型对应的灯效可能有多种,同理预存的表带类型-工作模式-表盘风格映射表中的每种表带类型对应的表盘风格也可能有多种。用户可以在同一表盘10类型下,切换不同的灯效以及不同的表盘风格。触控电路123可以选择触控芯片来实现,触控芯片与触控屏120B电连接,触控屏120B可以选择电容屏或者电阻屏,触控电路123可以根据触控屏120B幕的电容或者电阻的变化,计算出用户触摸的位置并输出至控制电路120。其中,触控屏120B的大小与显示屏120A 完全一致。控制电路120可以根据其触摸的位置,以执行当前触摸位置对应功能区的功能。比如在皮革表带对应的休闲模式下,电子屏120上可以显示有灯效切换功能区和表盘风格切换功能区,用户可以通过触摸灯效切换功能区实现休闲灯效1、休闲灯效2和休闲灯效3三种灯效之间的转换,控制电路120在接收到对应灯效切换功能区所在位置的触控信号后,会在预存的表带类型-工作模式-灯效映射表查找与之对应的灯效,并控制RGB驱动电路122驱动RGB显示对应的灯效。同理,也可以通过触摸表盘风格切换功能区实现休闲表盘风格1、休闲表盘风格2和休闲表盘风格3的切换,控制电路120在接收到对应表盘风格切换功能区所在位置的触控信号后,会在预存的表带类型-工作模式-表盘风格映射表查找与之对应的表盘风格,并控制电子屏120显示对应的表盘风格。如此,用户便可以通过触控屏120B实现同一表带类型下的灯效切换以及表盘风格的切换,在体现个人品味的同时避免了审美疲劳,有效地提高了用户使用的便利性。
在另一实施例中,用户不仅仅可以通过触摸屏实现切换表盘风格或者灯效,还可以在不同的工作模式下,通过触碰不同的功能区,以使用不同的功能。比如在硅胶表带对应的运动模式下,表盘风格上设置有秒表功能区,用户可以通过触摸屏触摸秒表功能区的位置,实现秒表计时功能。
通过上述设置,用户能够在表盘10与表带20连接后,通过触控屏120B和触控模块,实现在同一表带类型下切换灯效和表盘风格,使用户能够在多套灯效和表盘风格中选择喜欢的类型,有效地提高了用户的使用体验。同时,用户还可以通过触摸不同工作模式下表盘风格上的的功能区以实现不同工作模式下的功能,提高了用户使用的便利性。
参考图7,电控组件11还包括通讯电路113,通讯电路113设置于所述电控板上,所述通讯电路113与所述外部终端通讯连接,所述通讯电路113与所述控制电路120电连接。
其中,通讯电路113用于接收所述外部终端输出的显示切换信号和灯效切换信号,控制电路120用于根据所述灯效切换信号,控制所述RGB驱动电路122驱动RGB灯121,以使RGB灯121显示与所述灯效切换信号对应的灯光效果,所述控制电路120还用于根据所述显示切换信号,控制所述电子屏120显示与所述显示切换信号对应的表盘风格。
在本实施例中,通讯电路113可以通过WIFI、蓝牙、4G/5G、局域网等多种无线通讯网络与外部终端例如手机通讯连接,用户可以在外部终端上控制与智能穿戴设备相关的APP,并在APP上对应的功能区切换当前的表盘10类型下的灯效或者是当前表盘10类型下的表盘风格。例如当前表盘10类型为金属表带,对应的工作模式为商务模式,用户可以在APP上选择并切换商务1、商务2和商务3等不同的表盘风格,也可以切换当前的灯效,例如把常亮的白灯切换为1S亮/1S灭的呼吸式白灯。外部终端会根据用户在APP上的选择发出相应的灯效切换信号和/或显示切换信号,控制电路120在经通讯电路113接收到灯效切换信号后,会在预存的表带类型-工作模式-灯效映射表查找与之对应的灯效,并控制RGB驱动电路122驱动RGB显示与灯效切换信号对应的灯效。同理,控制电路120在经通讯电路113接收到显示切换信号后,会在预存的表带类型-工作模式-表盘风格映射表查找与之对应的表盘风格,并控制电子屏120显示对应的表盘风格。如此,用户便可以通过触控屏120B实现同一表带类型下的灯效切换以及表盘风格的切换,在体现个人品味的同时避免了审美疲劳,有效地提高了用户使用的便利性。
通过上述设置,用户可以通过外部终端切换在同一表带类型下,切换不同的表盘风格和灯效,可以体现用户的个人品味以及更佳贴合当前所处的环境,同时避免了审美疲劳,提升了用户的体验感。
在另一实施例中,用户可以在外部终端上下载同一工作模式下的多种表盘风格并将其存储在智能穿戴设备的表盘10中。比如在金属表带对应的商务模式下存储有商务1、商务2和商务3三种表盘风格。如此,用户在同一表带类型下便可以获得更多的灯效与表盘风格的选择,提高了用户对本申请表带表盘可交互的智能穿戴设备的使用体验感。
参考图8,在本申请一实施例中,表盘10包括表壳101,表壳101上设置有连接部,连接部设置有安装孔;表带20通过生耳与表壳101的连接部可拆卸连接。
在本实施例中,生耳可以和表带20分离设置,在需要将表盘10与对应的表带20连接时,可以通过采用生耳穿过表带20上两端的固定孔,并将两端嵌入表壳101上的连接部的对应的安装孔内,即可以实现表盘10与表带20的快速安装,若需要拆下,则可以使用拆表工具例如拆带器来断开表带20与 表盘10之间的连接。生耳还可以直接设置在表带20的两端,与表带20两端固定连接,这样用户就不用专门购置生耳以及不用担心生耳因为太小而丢失。
在另一实施例中,表带20上设置有安装槽,表盘10设置于安装槽内,以与表带20可拆卸连接。表带20上的安装槽可以为硅胶安装槽,用户可以将表盘10嵌入安装槽内并让其硅胶安装槽包裹表盘10以实现固定,还可以在表带20的安装槽上设置卡扣,让表盘10安装进安装槽后,通过卡扣将表盘10与表带20之间固定,在需要将表盘10单独去除或者更换表带20时,只需要打开卡扣取出表盘10即可。
通过上述设置,能够实现表盘10与表带20的可拆卸连接,便于用户根据自身的需求,快速方便地实时更换不同类型的表带20,提高了用户使用的便利性。
参考图8,在本申请一实施例中,电子屏120固定设置于表壳101上,并与表壳101形成容置腔,电控板设置于容置腔中,RGB灯121、RGB驱动电路122、磁极检测电路111和磁通量检测电路112均设置于容置腔中,并与连接部的位置贴近设置,并通过柔性电路板与电控板电连接。
在本实施例中,表壳101上对应RGB灯121位置还设置有亮灯开口102,表带20上还设置有导光纤维。如此,在表盘10与表带20连接后,其内的控制电路120会变控制RGB驱动电路122驱动RGB灯121显示出与表带类型对应的灯效,由于RGB灯121的位置靠近连接部,那么RGB亮灯的灯光会穿过亮灯开口102照射在表带20的导光纤维上,并在表带20的导光纤维上疏导,使表带20也能够显示同样的灯效,提高了智能穿戴设备的观赏性。同时,通过导光纤维展现在表带20上的灯效还能够更好的起到提示作用,比如在金属表带的商务工作模式下,客户预先在备忘录中设定了21:00与客户讨论方案的提醒,当时间到21:00时,处于恒定显示白光状态下的RGB灯121会开始闪烁,此时表带20上的灯效也会从原先的恒定显示白光状态转变为闪烁白光状态,能够更好的引起用户的注意,进一步提高了用户使用的便利性。
以上所述仅为本申请的可选实施例,并非因此限制本申请的专利范围,凡是在本申请的申请构思下,利用本申请说明书及附图内容所作的等效结构变换,或直接/间接运用在其他相关的技术领域均包括在本申请的专利保护范 围内。
需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体/操作/对象与另一个实体/操作/对象区分开来,而不一定要求或者暗示这些实体/操作/对象之间存在任何这种实际的关系或者顺序;术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者系统不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者系统所固有的要素。在没有更多限制的情况下,由语句“包括一个……”限定的要素,并不排除在包括该要素的过程、方法、物品或者系统中还存在另外的相同要素。
对于装置实施例而言,由于其基本相似于方法实施例,所以描述得比较简单,相关之处参见方法实施例的部分说明即可。以上所描述的装置实施例仅仅是示意性的,其中作为分离部件说明的单元可以是或者也可以不是物理上分开的。可以根据实际的需要选择中的部分或者全部模块来实现本申请方案的目的。本领域普通技术人员在不付出创造性劳动的情况下,即可以理解并实施。
上述本申请实施例序号仅仅为了描述,不代表实施例的优劣。
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到上述实施例方法可借助软件加必需的通用硬件平台的方式来实现,当然也可以通过硬件,但很多情况下前者是更佳的实施方式。基于这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品存储在如上所述的一个存储介质(如ROM/RAM、磁碟、光盘)中,包括若干指令用以使得一台终端设备(可以是手机、计算机、服务器、空调器、或者网络设备等)执行本申请各个实施例所述的运动时间计算方法。
以上仅为本申请的优选实施例,并非因此限制本申请的专利范围,凡是利用本申请说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其他相关的技术领域,均同理包括在本申请的专利保护范围内。

Claims (10)

  1. 一种表带表盘可交互的智能穿戴设备,其特征在于,所述表带表盘可交互的智能穿戴设备包括:
    表盘;
    表带,所述表盘与所述表带可拆卸连接;
    电控组件,所述电控组件设置于所述表盘内;
    显示组件,所述显示组件设置于所述表盘上,所述显示组件与所述电控组件电连接;以及,
    所述电控组件,具有多种工作模式,用于在所述表带连接至所述表盘时,识别所述表带的类型,以根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述显示组件显示与所述表带类型对应的内容。
  2. 如权利要求1所述的表带表盘可交互的智能穿戴设备,其特征在于,所述表带上设置有磁性件;所述电控组件包括:
    电控板;
    磁极检测电路,所述磁极检测电路用于检测所述磁性件朝向所述表盘的磁极极性,并输出磁极检测信号;
    控制电路,所述控制电路分别与所述磁极检测电路的输出端和所述显示组件电连接,所述控制电路设置于所述电控板上;
    所述控制电路用于根据所述磁极检测信号识别所述表带的类型,以根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述显示组件显示与所述表带类型对应的内容。
  3. 如权利要求2所述的表带表盘可交互的智能穿戴设备,其特征在于,所述电控组件还包括:
    磁通量检测电路,所述磁通量检测电路的输出端与所述控制电路电连接,所述磁通量检测电路用于检测所述磁性件的磁通量,并输出磁通量检测信号;
    所述控制电路用于根据所述磁通量检测信号识别所述表带的类型,以根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述显示组件显示与所述表带类型对应的内容。
  4. 如权利要求3所述的表带表盘可交互的智能穿戴设备,其特征在于,所述显示组件包括:
    电子屏,所述电子屏与所述控制电路电连接;
    RGB灯;
    RGB驱动电路,所述RGB驱动电路的输出端与所述RGB灯电连接,所述RGB驱动电路的输入端与所述控制电路电连接;
    所述控制电路,用于根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述电子屏显示与所述表带类型对应的表盘风格;
    所述控制电路还用于根据所述表带的类型选择及执行与所述表带类型对应的工作模式,并控制所述RGB驱动电路驱动所述RGB灯,以使所述RGB灯显示与所述表带的类型对应的灯光效果。
  5. 如权利要求4所述的表带表盘可交互的智能穿戴设备,其特征在于,所述电子屏包括显示屏和触控屏,所述触控屏固定安装于所述显示屏上;所述显示组件还包括:
    触控电路,所述触控电路设置于所述电控板上,所述触控电路分别与所述触控屏以及所述控制电路电连接,所述触控电路用于通过所述触控屏接收触控信号,并将所述触控信号输出至所述控制电路;
    所述控制电路用于根据所述触控信号,控制所述RGB驱动电路驱动所述RGB灯,以使所述RGB灯显示与所述触控信号对应的灯光效果;和/或
    所述控制电路还用于根据所述触控信号,控制所述电子屏显示与所述显示切换信号对应的表盘风格。
  6. 如权利要求5所述的表带表盘可交互的智能穿戴设备,其特征在于,所述电控组件还包括:
    通讯电路,所述通讯电路设置于所述电控板上,所述通讯电路与外部终端通讯连接,所述通讯电路与所述控制电路电连接;所述通讯电路,用于接收所述外部终端输出的显示切换信号和灯效切换信号;
    所述控制电路用于根据所述灯效切换信号,控制所述RGB驱动电路驱动 所述RGB灯,以使所述RGB灯显示与所述灯效切换信号对应的灯光效果;
    所述控制电路还用于根据所述显示切换信号,控制所述电子屏显示与所述显示切换信号对应的表盘风格。
  7. 如权利要求1所述的表带表盘可交互的智能穿戴设备,其特征在于,
    所述表带类型为金属表带;所述电控组件用于在识别所述表带类型为金属表带时,选择并执行商务模式,并控制所述显示组件显示商务模式的内容。
  8. 如权利要求1所述的表带表盘可交互的智能穿戴设备,其特征在于,
    所述表带类型为硅胶表带;所述电控组件用于在识别所述表带类型为硅胶表带,选择并执行运动模式,并控制所述显示组件显示运动模式的内容。
  9. 如权利要求6所述的表带表盘可交互的智能穿戴设备,其特征在于,
    所述表盘包括:表壳,所述表壳上设置有连接部,所述连接部设置有安装孔;所述表带通过生耳与所述表壳的连接部可拆卸连接;
    所述电子屏固定设置于所述表壳上,并与所述表壳形成容置腔,所述电控板设置于所述容置腔中;
    所述RGB灯、RGB驱动电路、磁极检测电路和磁通量检测电路均设置于所述容置腔中,并与所述连接部的位置贴近设置,并通过柔性电路板与所述电控板电连接;
    所述表壳上对应所述RGB灯位置还设置有亮灯开口。
  10. 如权利要求9所述的表带表盘可交互的智能穿戴设备,其特征在于,所述表带上还设置有导光纤维。
PCT/CN2021/121579 2021-05-08 2021-09-29 表带表盘可交互的智能穿戴设备 WO2022237056A1 (zh)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN202110508101.XA CN113268111B (zh) 2021-05-08 2021-05-08 表带表盘可交互的智能穿戴设备
CN202110508101.X 2021-05-08

Publications (1)

Publication Number Publication Date
WO2022237056A1 true WO2022237056A1 (zh) 2022-11-17

Family

ID=77230268

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2021/121579 WO2022237056A1 (zh) 2021-05-08 2021-09-29 表带表盘可交互的智能穿戴设备

Country Status (2)

Country Link
CN (1) CN113268111B (zh)
WO (1) WO2022237056A1 (zh)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113268111B (zh) * 2021-05-08 2023-02-28 歌尔股份有限公司 表带表盘可交互的智能穿戴设备
CN115390426A (zh) * 2022-09-20 2022-11-25 歌尔科技有限公司 一种智能手表、智能手表的发光控制方法和介质

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104677387A (zh) * 2015-03-25 2015-06-03 广东欧珀移动通信有限公司 智能设备保护套检测方法及装置
EP3352043A1 (en) * 2017-01-24 2018-07-25 Vestel Elektronik Sanayi ve Ticaret A.S. Illuminated smartwatch with watchstrap and method for operating an illuminated smartwatch
US10849392B1 (en) * 2016-09-20 2020-12-01 Apple Inc. Battery watch band
CN113268111A (zh) * 2021-05-08 2021-08-17 歌尔股份有限公司 表带表盘可交互的智能穿戴设备
CN113406999A (zh) * 2021-06-10 2021-09-17 歌尔智能科技有限公司 可穿戴设备及其表带识别方法、计算机可读存储介质

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090051227A1 (en) * 2006-03-31 2009-02-26 Houng Joong Kim Linear motor
FR2947506B1 (fr) * 2009-07-06 2011-06-10 Renault Sa Procede et dispositif de detection d'une situation de transport d'un vehicule en mode veille, et vehicule equipe d'un tel dispositif
CN103760758B (zh) * 2014-01-02 2016-05-04 林炮勤 智能手表及其智能显示方法
CN206115158U (zh) * 2016-09-06 2017-04-19 广州杰赛科技股份有限公司 多功能智能手表
CN108388307B (zh) * 2018-01-31 2023-01-13 安徽龙运智能科技有限公司 移动终端转变成穿戴设备的方法、移动终端及存储介质
CN108508736B (zh) * 2018-04-11 2019-12-06 歌尔科技有限公司 表壳和具有该表壳的腕戴设备

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104677387A (zh) * 2015-03-25 2015-06-03 广东欧珀移动通信有限公司 智能设备保护套检测方法及装置
US10849392B1 (en) * 2016-09-20 2020-12-01 Apple Inc. Battery watch band
EP3352043A1 (en) * 2017-01-24 2018-07-25 Vestel Elektronik Sanayi ve Ticaret A.S. Illuminated smartwatch with watchstrap and method for operating an illuminated smartwatch
CN113268111A (zh) * 2021-05-08 2021-08-17 歌尔股份有限公司 表带表盘可交互的智能穿戴设备
CN113406999A (zh) * 2021-06-10 2021-09-17 歌尔智能科技有限公司 可穿戴设备及其表带识别方法、计算机可读存储介质

Also Published As

Publication number Publication date
CN113268111A (zh) 2021-08-17
CN113268111B (zh) 2023-02-28

Similar Documents

Publication Publication Date Title
WO2022237056A1 (zh) 表带表盘可交互的智能穿戴设备
US11451257B1 (en) Active cover for electronic device
EP1850218A2 (en) Method and apparatus to control screen orientation of user interface of portable device
KR20160123936A (ko) 스마트 와치
CN104820469A (zh) 一种电子设备及识别外壳的方法
US9756908B2 (en) Wearable electronic ornament
US9880614B2 (en) Wearable electronic device capable of changing appearance and operating method thereof
US6238084B1 (en) Watch or other jewelry article with replaceable electronic images
US20190324409A1 (en) Clock using bright dot display
US20060239127A1 (en) Multifunctional desk-top inductive clock
CN107065506A (zh) 指针式智能数字时钟及时钟控制方法
CN202889407U (zh) 一种便携式终端
CN202275573U (zh) 一种语音报时数码相框
KR20110057098A (ko) 일정관리 기능을 갖는 디지털시계 및 그의 일정관리 방법
CN109752944A (zh) 一种基于柔性透明液晶显示屏的智能手表
CN109831221B (zh) 一种diy型智能穿戴设备及其实现方法
CN108810194A (zh) 移动终端模块和手表型移动终端
CN210089826U (zh) 可装配电子秤
CN109712553B (zh) 显示面板和可穿戴的显示装置
CN208354797U (zh) 手镯
US20150243244A1 (en) Accessory having a display
TW202134839A (zh) 具有增強的功能的電腦鼠標
US7148818B2 (en) Method of command entry for an electronic device
JP3080147U (ja) 色変わり携帯電話
CN109195476A (zh) 装饰装置、驱动控制方法和通信系统

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 21941622

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 21941622

Country of ref document: EP

Kind code of ref document: A1