CN115097716A - Intelligent watch and watchband thereof - Google Patents

Abstract

The application provides an intelligent watch and a watchband thereof. The watchband for the intelligent watch comprises a watchband body, a satellite antenna module and a communication interface; the satellite antenna module is arranged in the watchband body and used for establishing connection with a satellite so as to transmit data with a third party through the satellite; the communication interface is coupled with the satellite antenna module so that the satellite antenna module can communicate with the watch main body through the communication interface. This a watchband for intelligent wrist-watch can realize communicating through satellite and third party, and can effectively expand the size of satellite antenna module, promotes the communication performance of satellite antenna module, and the productivity is stronger, is favorable to popularizing and applying.

Description

Intelligent watch and watchband thereof

Technical Field

The invention relates to the technical field of electronic equipment, in particular to an intelligent watch and a watchband thereof.

Background

With the continuous progress of the electronic device technology field, wearable electronic devices are more and more concerned by people due to the characteristics of portability, multi-functionality and the like.

The smart watch is a typical wearable device, and various sensors are integrated on many smart watches at present for data acquisition and transmission of outdoor activities, so that mobile communication functions are also integrated on the smart watch. However, the device cannot well complete the communication work under the condition that no mobile communication network exists, such as outdoors and the like; therefore, the smart watch integrating the satellite communication function is produced.

However, the performance of the satellite antenna of the smart watch is greatly limited due to the size of the smart watch, and the satellite communication quality is greatly affected.

Disclosure of Invention

The application provides an intelligent wrist-watch and watchband thereof, the main technical problem who solves is that intelligent wrist-watch receives great restriction because self size reason leads to its satellite antenna's performance, causes the problem of great influence to the quality of satellite communication.

In order to solve the technical problem, the application adopts a technical scheme that: a watchband for a smart watch is provided. This a watchband for intelligent wrist-watch includes:

a watchband body;

the satellite antenna module is arranged in the watchband body; the satellite antenna module is used for establishing connection with a satellite so as to transmit data with a third party through the satellite;

and the communication interface is coupled with the satellite antenna module so that the satellite antenna module can communicate with the watch main body through the communication interface.

Wherein, the satellite antenna module includes:

the antenna body is used for capturing satellite signals and transmitting and receiving data information;

a matching circuit having a first input/output terminal and a second input/output terminal; the first input/output terminal is coupled with the antenna body, the second input/output terminal is coupled with the communication interface, and the matching circuit is configured to perform impedance matching with the antenna body in a frequency band of the satellite signal.

The satellite antenna module further comprises a flexible substrate, and at least the antenna main body is arranged on the flexible substrate; and the satellite antenna module is coated in the watchband body.

The watchband further comprises a connector, the connector is arranged at one end, close to the watch main body, of the watchband body, and the communication interface is arranged on the connector.

The watchband further comprises a communication module, and the communication module is coupled between the matching circuit and the connector and used for transmitting data with the satellite antenna module.

In order to solve the above technical problem, another technical solution adopted by the present application is: a smart watch is provided. This intelligent wrist-watch includes:

the watch main body comprises a control module and a communication module; the communication module is coupled to the control module;

the watchband is connected with the watch main body, and the watchband is the watchband related to the technical scheme;

the satellite antenna module is coupled with the communication module through the communication interface, so that the control module controls the communication module and the satellite antenna module to perform data transmission with a third party through a satellite.

The communication interface comprises a conductive connecting piece, and the satellite antenna module is coupled with the communication module through the conductive connecting piece; or, the communication interface includes a wireless connector, and the satellite antenna module is coupled with the communication module through the wireless connector.

In order to solve the above technical problem, the present application adopts another technical solution: a smart watch is provided. This intelligence wrist-watch includes:

a watch body including a control module;

the watchband is connected with the watch main body, and the watchband is the watchband related to the watchband;

the communication module is coupled with the control module through the communication interface, so that the control module controls the communication module and the satellite antenna module to perform data transmission with a third party through a satellite.

The communication interface is a conductive connecting piece, and the communication module is coupled with the control module through the conductive connecting piece; or, the communication interface is a wireless connector, and the communication module is coupled with the control module through the wireless connector.

The watch body further comprises a shell, the control module and/or the communication module are/is arranged in the shell, and the watchband and the shell are integrally formed or connected in a sealing mode.

According to the intelligent watch and the watchband thereof, the satellite antenna module is arranged in the watchband body, so that the size of the satellite antenna module can be effectively expanded under the condition that the size of the watch main body is not changed, and mutual interference among signals generated by the satellite antenna module and other modules or antennas in the watch main body is avoided, so that the communication performance of the satellite antenna module is effectively improved; meanwhile, the satellite antenna module is used for establishing connection with the satellite so as to transmit data with a third party through the satellite, so that the satellite antenna module can complete data bidirectional transceiving work; and, through coupling the communication interface with the satellite antenna module to make the satellite antenna module can carry out the communication through this communication interface and wrist-watch main part, thereby make the wrist-watch main part can realize the satellite communication function through the satellite antenna module. In addition, through setting up the satellite antenna module in the watchband body, its simple structure and easy to carry out's characteristics for this watchband has extremely strong producibility, and should set up the cost that the mode has effectively reduced the satellite antenna module under the condition of same performance, is favorable to popularizing and applying.

Drawings

Fig. 1 is a schematic structural diagram of a smart watch according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an embodiment of the watch body of FIG. 1;

FIG. 3 is a schematic diagram of another embodiment of the watch body of FIG. 1;

fig. 4 is a schematic structural view of the first body, the satellite antenna module and the connector shown in fig. 1;

fig. 5 is a schematic structural diagram of a smart watch according to another embodiment of the present application;

fig. 6 is a schematic structural diagram of an embodiment of the watch body shown in fig. 5.

Description of the reference numerals

1-a watch body; 11-a housing; 111-a display window; 12-a control module; 121-input/output interface; 122 — a control interface; 13-a communication module; 14-a display panel; 15-a button; 16-a microphone; 17-a loudspeaker; 18-a camera; 2-watchband; 20-watchband body; 21-a first body; 22-a second body; 221-positioning holes; 23-a stationary part; 231-a retaining ring; 232-positioning column; 24-a satellite antenna module; 25-an antenna body; 26-a matching circuit; 261-a first input/output terminal; 262-a second input-output end; 27-a connector; 271-a communication interface; 28-flexible substrate.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The terms "first", "second" and "third" in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. All directional indications (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the movement, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indication is changed accordingly. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The present application will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1-3, fig. 1 is a schematic structural diagram of an intelligent watch according to an embodiment of the present application, fig. 2 is a schematic structural diagram of an embodiment of a watch main body shown in fig. 1, and fig. 3 is a schematic structural diagram of another embodiment of the watch main body shown in fig. 1. The embodiment provides an intelligent watch which can be used in the fields of communication, data acquisition and the like and can realize a satellite communication function; such as outdoor environment data collection, user health data collection, and the like.

In the present embodiment, the smartwatch includes a watch body 1 and a band 2. The wristwatch body 1 includes a case 11, and a control module 12 and a communication module 13 provided inside the case 11. As shown in fig. 2, the communication module 13 is coupled to the control module 12, so that the control module 12 controls to transmit a control signal to the communication module 13, and after receiving the control signal, the communication module 13 encodes, modulates and the like data to be transmitted to modulate the data to be transmitted into a data frame of a target frequency band; and/or demodulate, decrypt, etc. the received information to convert the received information into a signal recognizable by the control module 12 for output to the user for receipt and identification. Specifically, the communication module 13 may add different frame headers according to types of data to be transmitted, group frames the data information to which the frame headers are added, compress the voice information and the picture information at a high compression ratio, perform source coding on the text information input by the user, and the like. In a specific embodiment, different frame headers are added according to information actively input by a user, current position information of the user, environment information of the environment where the user is located, motion state information of the user, body state information of the user and the like to classify the types of data information, so that when a third party communicates, a third party device can identify different types of data information according to different frame headers. In an embodiment, as shown in fig. 3, the communication module 13 may also be disposed on the control module 12, that is, the functions of the communication module 13 are integrated on the control module 12, and the control module 12 can complete the processing of the data information.

In particular, the control module 12 may include a memory and a processor. The memory can comprise a hard disk drive memory, a static random access memory, a dynamic random access memory, a flash memory or a read-only memory and the like; the processor may include one or more microprocessors, microcontrollers, digital signal processors, application specific integrated circuits, and the like. Control module 12 may be used to implement communication protocols including internet protocols, Wireless Local Area Network (WLAN) protocols (e.g., IEEE 802.11 protocols, WiFi), protocols for other short-range wireless communication links such as bluetooth protocols or other Wireless Personal Area Network (WPAN) protocols, cellular telephone protocols, MIMO protocols, wireless diversity protocols, satellite navigation system protocols, millimeter wave communication protocols, IEEE802.15.4 ultra-wideband communication protocols or other ultra-wideband communication protocols, and the like, which may be implemented using control module 12.

Specifically, the watch body 1 further includes a display panel 14 for displaying data information, prompt information, or the like; the display panel 14 may be installed in the housing 11 and disposed corresponding to the display window 111 of the housing 11, and the display window 111 may be an opening to expose the display panel 14, or a window made of a transparent material and disposed opposite to the display panel 14, so that the display panel 14 can display image information through the transparent window. In particular embodiments, a touch electrode layer or other touch sensing element, such as a resistive touch sensing device, an acoustic touch sensing element, a force-based touch sensing element, a light-based touch sensing element, and the like, may also be incorporated. The capacitive touch electrode can be formed by an array of indium tin oxide pads or other transparent conductive structures.

The display panel 14 may include a pixel array formed of a liquid crystal display element, an electrophoretic display pixel array, a plasma display pixel array, an organic light emitting diode display pixel array, a light emitting diode display pixel array, an electrowetting display pixel array, or a display pixel array based on other display technologies, which is not particularly limited.

In the embodiment, the display panel 14 is coupled to the control module 12, and specifically, can be connected to the input/output interface 121 of the control module 12, so that the control module 12 transmits a control signal to the display panel 14 through the input/output interface 121 to control the display panel 14 to perform a display operation. The touch electrode layer incorporated in the display panel 14 can be connected to the input/output interface 121 of the control module 12, so that a user can input data information or control signals to be transmitted through the touch electrode layer and transmit the data information or control signals to the control module 12.

Further, the watch body 1 further comprises buttons 15, and the number of the buttons 15 can be set according to specific requirements. A button 15 may be located in an opening of the housing 11, the button 15 being in particular coupled with the control module 12 for controlling the on/off of the watch body 1, the volume level, etc. Button 15 may be a rotary button 15, a sliding button 15, a button 15 actuated by pressing a movable button 15 member, etc. The button 15 member for the button 15 may be formed of metal, glass, plastic, or other material.

Further, the watch body 1 may further include input/output components such as a speaker 17, a microphone 16, a camera 18, an audio jack, a status indicator, a motion sensor, a light sensor, a proximity sensor, and a charging interface, and is coupled to the control module 12 to cooperate with the control module 12.

The housing 11 may be made of plastic, glass, ceramic, fiber composite, metal, other suitable materials, or a combination of several materials, and the housing 11 may be integrally formed or assembled with a plurality of structures, which is not limited in particular.

Referring to fig. 1 and 4, fig. 4 is a schematic structural view of the first body, the satellite antenna module and the connector shown in fig. 1; in the present embodiment, a band 2 for a smart watch is provided. The band 2 is connected to the watch body 1 and can be used to hold the watch body 1 on the wrist of the user or in other positions. The band 2 includes a band body 20, a satellite antenna module 24, and a connector 27.

The band body 20 includes a first body 21 and a second body 22, the first body 21 and the second body 22 are respectively connected to two opposite ends of the case 11; wherein, the end of the first body 21 away from the watch main body 1 is further provided with a fixing portion 23, the fixing portion 23 specifically comprises a fixing ring 231 and a positioning post 232, one end of the positioning post 232 close to the first body 21 is movably connected with the first body 21, and the other end can abut against the fixing ring 231; a plurality of positioning holes 221 are arranged in the second body 22 along the extending direction of the band 2, so that when a user wears the smart watch, the second body 22 passes through the fixing ring 231, the positioning post 232 passes through the positioning holes 221, and then abuts against the fixing ring 231, so that the smart watch is worn on the wrist or other parts of the user. Furthermore, the first body 21 may further include a positioning ring, and the second body 22 is more attached to the wrist by passing the second body 22 through the positioning ring, so as to improve the wearing comfort. Of course, in other embodiments, the wearing structure on the band body 20 may be other structures as long as the smart watch can be better worn on the wrist or other parts of the user, and the specific structure thereof may refer to the prior art and is not specifically described here.

The satellite antenna module 24 is disposed in the watchband body 20, and specifically, may be disposed in the first body 21 or the second body 22; in this embodiment, the satellite antenna module 24 is disposed in the first body 21. Specifically, the satellite antenna module 24 is used for establishing a connection with a satellite so as to transmit data with a third party through the satellite; the connector 27 has one end coupled to the satellite antenna module 24 and the other end coupled to a communication module in the watch body 1. The communication interface 271 is coupled to the satellite antenna module 24; specifically, the connector 27 is provided with a communication interface 271, and the satellite antenna module 24 is coupled to the watch body 1 through the communication interface 271, so that the satellite antenna module 24 communicates with the watch body 1 through the communication interface 271.

In the present embodiment, the satellite antenna module 24 includes an antenna main body 25 and a matching circuit 26. The antenna body 25 is used for capturing satellite signals and transmitting and receiving data information. Specifically, the antenna main body 25 is disposed in the watch band body 20 and is covered by the watch band body 20, and the specific shape of the antenna main body 25 may be set according to actual requirements, which is not specifically limited. Compared with the case that the antenna main body 25 is arranged in the limited space of the watch main body 1, the watchband 2 provided by the embodiment enables the size of the antenna main body 25 to be effectively expanded by arranging the antenna main body 25 in the watchband main body, so that the antenna main body 25 can cover multiband signals, the gain of the satellite antenna module 24 can be improved, the communication performance of the satellite antenna module 24 is effectively improved, and the volume size of the watch main body 1 does not need to be increased; it is easy to understand that, since the space in which the antenna main body 25 can be designed in the band body 20 is larger than the space in which the antenna main body 25 can be designed in the wristwatch main body 1, the limitation of the shape and size of the antenna main body 25 by the space is smaller, and thus the size, particularly the area size, of the antenna main body 25 can be effectively expanded. Meanwhile, the antenna main body 25 is disposed in the watchband body 20, so that the antenna main body 25 is separated from other functional modules or other antenna modules in the watch main body 1, mutual interference between signals generated by the antenna main body 25 and other functional modules or other antenna modules in the watch main body 1 can be effectively avoided, and the communication quality of the satellite antenna module 24 can be further improved. In addition, through setting up satellite antenna module 24 in watchband body 20, its simple structure and easy to carry out's characteristics for this watchband 2 has extremely strong producibility, and should set up the cost that the mode has effectively reduced satellite antenna module 24 under the condition of same performance, is favorable to popularizing and applying.

Further, the satellite antenna module 24 further includes a flexible substrate 28, and the antenna main body 25 is disposed on the flexible substrate 28, so that when the watchband body 20 is bent, the antenna main body 25 can be bent together with the watchband body 20, thereby effectively protecting the structure of the antenna main body 25, avoiding the occurrence of the problem that the antenna main body 25 is broken due to bending when the watchband body 20 is bent, and further reducing the limitation on effective expansion of the area size of the antenna main body 25. Moreover, by disposing the antenna main body 25 on the flexible substrate 28, the foreign body sensation of the user when wearing the watch band can be reduced, so that the watch band body 20 can be well attached to the wrist or other parts of the user, and the comfort of wearing the watch band body by the user can be improved.

In a specific embodiment, the antenna main body 25 is configured to capture a satellite signal, convert data information to be transmitted, which is encoded and frequency modulated by the communication module 13 or the control module 12, into a radio frequency signal to be transmitted to a satellite, and receive the radio frequency signal transmitted by the satellite and convert the radio frequency signal into an electrical signal, so that the smart watch performs data transmission with a third party through the satellite, thereby implementing a satellite communication function of the smart watch. It should be understood that, in the embodiments of the present application, a satellite refers to a communication satellite, such as a low-orbit internet-of-things communication network satellite, a medium-orbit internet-of-things communication network satellite, and a high-orbit internet-of-things communication network satellite. For example, in the present embodiment, the antenna body 25 is preferably used to capture a satellite signal of a low-earth-orbit internet-of-things communication network and establish a connection with the satellite, so that the communication distance is short, the antenna gain is large, and the operating frequency is low, thereby ensuring the effectiveness of satellite communication.

In the present embodiment, the matching circuit 26 has a first input/output terminal 261 and a second input/output terminal 262, wherein the first input/output terminal 261 is coupled to the antenna main body 25, and the second input/output terminal 262 is coupled to the communication interface 271 of the connector 27. Specifically, the first input/output terminal 261 of the matching circuit 26 is electrically connected to the antenna main body 25 to perform impedance matching with the antenna main body 25, so that the matching circuit 26 is configured to perform impedance matching with the antenna main body 25 in a frequency band corresponding to a satellite signal, thereby enabling the antenna main body 25 to transmit and receive data information in a target frequency band range to reduce power consumption of the satellite antenna module 24; moreover, by providing the matching circuit 26 to perform impedance matching on the antenna main body 25, signal attenuation of data information on a transmission path between the watch main body 1 and the antenna main body 25 can be reduced, so that the signal gain of the satellite antenna module 24 is effectively improved, and the performance of the satellite antenna module 24 is improved.

The second input/output end 262 of the matching circuit 26 is electrically connected to the communication interface 271, so that the antenna module is connected to the watch main body 1, and the control module 12 or the communication module 13 in the watch main body 1 is in data information communication with the satellite antenna module 24, so that input data (such as text information, picture information, voice information, and the like input by a user) received by the control module 12 and data information (such as health information, motion information, surrounding environment information, and the like of the user) collected by various sensors of the watch main body 1 are processed by the control module 12 or the communication module 13 and then can be transmitted to the satellite antenna module 24 through the communication interface 271; the data information received by the satellite antenna module 24 is transmitted to the communication module 13 or the control module 12 through the communication interface 271, and the communication module 13 or the control module 12 processes the received data information and outputs the processed data information to the output components (such as the display panel 14 and the speaker 17) so as to be received and identified by the user.

In this embodiment, the communication interface 271 can be a physical communication interface 271, the physical communication interface 271 specifically can include a conductive connector, the satellite antenna module 24 is coupled with the communication module 13 through the conductive connector, and the physical communication interface 271 has a simple structure and is easy to implement, so that it is ensured that data information can be effectively transmitted, and the physical communication interface 271 is beneficial to mass production and convenient to popularize and apply. It can be understood that, when the communication interface 271 is a physical communication interface 271, the communication interface 271 can be disposed at an end of the watchband body 20 close to the watch main body 1, so as to reduce a transmission path of data information to a certain extent, reduce a line load, reduce signal attenuation of the data information, and improve data transmission efficiency; meanwhile, the bending degree and the bending frequency of the circuit of the connector 27 can be reduced, so that the service life of the connector 27 can be prolonged; in addition, in order to ensure that the transmission line between the satellite antenna module 24 and the watch main body 1 at the connection position of the band body 20 and the case 11 is not damaged or interfered by external factors, in this embodiment, the band body 20 and the case 11 are preferably integrally formed or hermetically connected, so that the connection position between the case 11 and the band body 20 is hermetically connected, that is, there is no connection gap, thereby protecting the transmission line between the satellite antenna module 24 and the watch main body 1 at the connection position from being damaged or interfered by external factors. In addition, according to the connection mode, the satellite antenna module 24 and the control module 12 can share the power supply module in the watch main body 1, the power supply module is not required to be additionally involved to supply power to the satellite antenna module 24, the structure is simpler, and the production cost can be saved.

In another embodiment, the communication interface 271 can also be a wireless communication interface 271, and the wireless communication interface 271 includes a wireless connector through which the satellite antenna module 24 is coupled to the communication module 13 for data information transmission. The wireless connector may be a wireless bluetooth connector, so that the communication module 13 and the satellite antenna module 24 may be connected in a wireless bluetooth connection manner. This connected mode can not cause the restriction to the connected mode of watchband body 20 and shell 11 for this a watchband 2 for intelligent wrist-watch can be produced with the shell 11 of wrist-watch main part 1 separately and prepare, and can use the connecting piece between current shell 11 and watchband 2, need not to carry out independent design and production to it. In this embodiment, the wristband 2 may further include a power module coupled to the matching circuit 26 for supplying power to the satellite antenna module 24. This power supply unit can set up to wireless charging mode, or charge in the interface mode of wired charging, and the interface that charges can set up in the opening part that watchband body 20 corresponds.

In a specific embodiment, the matching circuit 26 may be disposed on the flexible substrate 28, so that when the watch band body 20 is bent, the matching circuit 26 can be bent along with the watch band body 20, thereby effectively protecting the circuit structure of the matching circuit 26, and avoiding the occurrence of the problems of circuit breaking or disconnection of the circuit of the matching circuit 26 due to bending when the watch band body 20 is bent; it is easy to understand that by disposing the antenna main body 25 on the flexible substrate 28, the bending resistance of the matching circuit 26 is improved, so that the matching circuit 26 can be disposed at any position of the wristwatch body without causing damage to the wiring, and the restriction on the disposition position of the matching circuit 26 on the wristband body 20 can be reduced; of course, in order to ensure the reliability of the matching circuit 26, it is preferable to provide it at the end of the band body 20 close to the watch main body 1, so as to reduce the bending degree and the bending frequency of the matching circuit 26, thereby prolonging the life of the matching circuit 26. In addition, by providing the antenna main body 25 on the flexible substrate 28, the foreign body sensation of the user when wearing the watch band can be reduced, so that the watch band body 20 can be well attached to the wrist or other parts of the user, and the wearing comfort of the user can be improved.

Referring to fig. 5 and 6, fig. 5 is a schematic structural diagram of a smart watch according to another embodiment of the present application, and fig. 6 is a schematic structural diagram of an embodiment of a watch body shown in fig. 5. The present embodiment provides another smart watch including a watch body 1 and a band 2.

In the present embodiment, the wristwatch body 1 includes a case 11, and a control module 12, a display panel 14, and some input/output components provided in the case 11. The specific structure and function of the control module 12 are the same as or similar to those of the control module 12 described in the above embodiments, and the same technical effect can be achieved. It is easily understood that the specific structure and function of the display panel 14 and some input/output components in this embodiment are also the same as or similar to the specific structure and function of the display panel 14 and some input/output components described above, and the same technical effect can be achieved.

Unlike the embodiment shown in fig. 1-4, in this embodiment, the communication module 13 is disposed in the band body 20 and is coupled between the matching circuit 26 and the connector 27. Specifically, in this embodiment, the control module 12 in the watch main body 1 receives user input information (such as text information, picture information, and voice information input by a user) and data information (such as health information, motion information, and surrounding environment information of a user) collected by various sensors of the watch main body 1, processes the data information, outputs the data information to the control interface, and then transmits the data information to the communication module 13 through the communication interface 271 of the connector 27, the communication module 13 performs reprocessing (such as compression, encoding, frequency modulation, and filtering) on the data information transmitted by the control module 12 and then transmits the data information to the satellite antenna module 24, and the satellite antenna module 24 converts the data information processed by the control module 12 and the communication module 13 into radio frequency signals and transmits the radio frequency signals to a target satellite; the satellite antenna module 24 receives data information sent by a target satellite and transmits the data information to the communication module 13, the communication module 13 processes the received data information (such as filtering, demodulation, decryption, signal amplification and the like) and transmits the processed data information to the control module 12 of the watch main body 1 through the communication interface 271 and the control interface, and the control module 12 reprocesses the data information and outputs the processed data information to output end components (such as the display panel 14, the loudspeaker 17 and the like) so as to be received and identified by a user.

The watchband 2 that this embodiment provided includes satellite antenna module 24, communication module 13 and connector 27, and antenna module and communication module 13 establish being connected through connector 27 and wrist-watch main part 1 between to make carrying out mutual biography of data information between control module 12 in the wrist-watch main part 1 and the communication module 13, establish being connected with the satellite in order to realize this intelligence wrist-watch, and communicate with the third party through the satellite. In this embodiment, through setting up communication module 13 in watchband 2, can increase the design space in wrist-watch main part 1 to a certain extent to can hold other functional module or other communication module, thereby richen this intelligent wrist-watch's function or improve its performance (like improving duration, communication performance etc.).

Specifically, the communication module 13, the connector 27 and the matching circuit 26 may be disposed at one end of the watchband body 20 close to the case 11, or disposed at other positions of the watchband body 20, and may be disposed according to actual requirements, which is not limited specifically. In order to further improve the reliability of the circuit of the communication module 13, the communication module 13 may also be disposed on the flexible substrate 28, so as to improve the bending resistance of the circuit of the communication module 13 and prolong the service life thereof. Moreover, the specific structure and function of the communication module 13 in this embodiment are also the same as or similar to the specific structure and function of the communication module 13 described above, and the same technical effect can be achieved.

It should be noted that, in the embodiment of the present application, in order to expand the area size of the antenna main body 25, the antenna main body 25 may extend in the extending direction of the watch band 2 in the watch band body 20, so that at least the antenna main body 25 is disposed on the flexible substrate 28 and covered by the watch band body 20, so as to avoid the problems of fracture, short circuit or other irreversible damages of the antenna main body 25 caused by bending of the watch band 2, and the damages of the antenna main body 25 caused by external factors. The matching circuit 26, the connector 27 and/or the communication module 13 may be disposed on the flexible substrate 28 or not disposed on the flexible substrate 28 according to actual requirements, as long as design requirements and production requirements can be met.

The above description is only an embodiment of the present application, and is not intended to limit the scope of the present application, and all equivalent structures or equivalent processes performed by the present application and the contents of the attached drawings, which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A watchband for a smart watch, comprising:

a watchband body;

the satellite antenna module is arranged in the watchband body; the satellite antenna module is used for establishing connection with a satellite so as to transmit data with a third party through the satellite;

and the communication interface is coupled with the satellite antenna module so that the satellite antenna module is communicated with the watch main body through the communication interface.

2. The wristband for a smart watch of claim 1, wherein the satellite antenna module comprises:

the antenna body is used for capturing satellite signals and transmitting and receiving data information;

a matching circuit having a first input/output terminal and a second input/output terminal; the first input/output terminal is coupled to the antenna body, the second input/output terminal is coupled to the communication interface, and the matching circuit is configured to perform impedance matching with the antenna body in a frequency band of the satellite signal.

3. The wristband for a smart watch of claim 2, wherein the satellite antenna module further comprises a flexible substrate, at least the antenna body being disposed on the flexible substrate; and the satellite antenna module is coated in the watchband body.

4. The band of claim 2, further comprising a connector disposed at an end of the band body adjacent to the watch body, wherein the communication interface is disposed on the connector.

5. The wristband of claim 4, further comprising a communication module coupled between the satellite antenna module and the connector for data transmission with the satellite antenna module.

6. A smart watch, comprising:

the watch body comprises a control module and a communication module; the communication module is coupled to the control module;

a band connected to the watch body, the band being as defined in any one of claims 1 to 4;

the satellite antenna module is coupled with the communication module through the communication interface, so that the control module controls the communication module and the satellite antenna module to perform data transmission with a third party through a satellite.

7. The smart watch of claim 6, wherein the communication interface comprises a conductive connection through which the satellite antenna module is coupled to the communication module; or, the communication interface comprises a wireless connector, and the satellite antenna module is coupled with the communication module through the wireless connector.

8. A smart watch, comprising:

a watch body including a control module;

a band connected to the watch body, the band being as defined in claim 5;

the communication module is coupled with the control module through the communication interface, so that the control module controls the communication module and the satellite antenna module to perform data transmission with a third party through a satellite.

9. The smart watch of claim 8, wherein the communication interface comprises a conductive connection through which the communication module is coupled with the control module; or, the communication interface includes a wireless connector, and the communication module is coupled with the control module through the wireless connector.

10. The smartwatch of claim 8, wherein the watch body further comprises a case, the control module and/or the communication module being disposed in the case, the wristband being integrally formed or sealingly connected to the case.

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