KR20170062864A - Smart watch - Google Patents

Abstract

This application discloses a smart watch that includes a camera. The present application relates to a case; A display located in the case and configured to display various information including a current time; A band connected to the case and configured to wrap a user's wrist; And a camera provided to the band and acquiring an image, the camera being capable of providing a smart watch configured to be movable so as to be accurately oriented to a subject.

Description

SMART WATCH

The present invention relates to a wearable smart device, and more particularly, to a smart watch that can be worn on a wearer's wrist.

A terminal can be divided into a mobile terminal (mobile / portable terminal) and a stationary terminal according to whether the terminal can be moved. The mobile terminal can be divided into a handheld terminal and a vehicle mounted terminal according to whether the user can directly carry the mobile terminal.

The functions of mobile terminals are diversified. For example, there are data and voice communication, photographing and video shooting through a camera, voice recording, music file playback through a speaker system, and outputting an image or video on a display unit. Some terminals are equipped with an electronic game play function or a multimedia player function. In particular, modern mobile terminals can receive multicast signals that provide visual content such as broadcast and video or television programs. In order to perform such a function, a mobile terminal is basically connected to other devices or networks using various communication protocols, and can provide ubiquitous computing to a user. That is, the mobile terminal has evolved into a smart device that enables connectivity to the network and continuous computing.

Such a smart device as a mobile terminal has traditionally been manufactured to a size that allows the user to hold the hand, and the user has carried it in his hand or put it in a bag or pocket. However, with the development of technology, smart devices have been developed into wearable smart devices which are manufactured in a smaller size and are worn directly on the user's body. Particularly, among these wearable smart devices, smart wristwatches have recently been developed to be worn on the wrist of a user in the form of a clock and are widely used.

The SmartWatch has been developed to have a variety of advanced functions as a mobile terminal as well as providing the functions of a conventional clock, for example time information, in a small size that can be worn. The recently developed SmartWatch has almost all the functions of the above-mentioned mobile terminal to replace the mobile terminal. On the other hand, since a smart device can be conveniently carried, recently, a user often uses a camera of a smart device to acquire desired image information, i.e., photograph and video. However, the SmartWatch has to have a small size that can be worn on the wrist, so unlike conventional smart devices, it is difficult to include a camera. Therefore, the SmartWatch needs to be improved to include a camera so that the user can obtain the image information.

This application is intended to solve the above problems and other problems. The object of the present application is to provide a SmartWatch with more extended functionality.

To the accomplishment of the foregoing or other ends, A display located in the case and configured to display various information including a current time; A band connected to the case and configured to wrap a user's wrist; And a camera provided to the band and acquiring an image, the camera being capable of providing a smart watch configured to be movable so as to be accurately oriented to a subject.

The camera may be configured to move away from the case or movable toward the case.

For the movable camera, the band may be configured to be movable along the circumferential direction of the user's wrist together with the camera.

First, the band may extend through the case so as to enclose the wrist of the user. The smartwatch further comprises a sensor disposed in the case adjacent the wrist of the user, the band being configured not to interfere with the sensor. More specifically, the band extends along its longitudinal direction and may include a slot in which the sensor is located. The band may also pass between the sensor and the display to avoid interfering with the sensor.

In addition, the case includes a first bar and a second bar mounted on the body, the band wrapping around the wrist of the user while being wound on the first bar, and then being wound on the second bar. The case also has a first bar mounted on its body, said band having a third bar mounted on its body, said band comprising a camera and comprising a belt wound on said first bar and said third bar have.

On the other hand, for a movable camera, the camera may be detachably attached to the band, or the camera may be configured to engage with the band. In addition, the camera may be slidably coupled to the band. In addition, the band may comprise a plurality of sections detachably coupled to one another, and the sections may comprise a first section comprising the camera.

Preferably, the camera is configured to be activated when the camera is moved or a distance between the case and the camera is changed. To this end, the smartwatch may further comprise a sensor configured to sense the movement of the camera or a change in the distance between the camera and the case.

The SmartWatch in the present application may include a camera installed in its band. Thus, the SmartWatch can acquire its own image in spite of its small size, and thus the functionality of the SmartWatch can be substantially expanded. In addition, the camera can be configured to move along the band for precise orientation. Thus, by this movement, the position of the camera can be adjusted to be accurately oriented to the subject, and the image of the desired subject can be obtained efficiently and conveniently. Furthermore, the camera can be automatically activated by its own movement. Therefore, the user can use the smart watch more conveniently and efficiently.

Further scope of applicability of the present application will become apparent from the following detailed description. It should be understood, however, that the detailed description and specific examples, such as the preferred embodiments of the present application, are given by way of illustration only, since various changes and modifications within the spirit and scope of the present application will be apparent to those skilled in the art.

1 is a block diagram illustrating the configuration of the SmartWatch described in the present application.
2 is a perspective view showing the SmartWatch according to the present application
3 is a cross-sectional view showing the SmartWatch obtained along the line AA in FIG.
4 is a perspective view showing an example of a band configured to be movable along the circumferential direction of the user's wrist.
5 is a rear view showing an example of the band and its arrangement of Fig. 4;
6 is a rear view showing another example of the band and its arrangement in Fig.
7 is a cross-sectional view taken along line BB in Fig.
8 is a perspective view showing another example of a band configured to be movable along the circumferential direction of the user's wrist.
Fig. 9 is a perspective view showing another example of a band configured to be movable along the circumferential direction of the user's wrist. Fig.
10 is a perspective view showing an example of a camera that is configured to be movable.
11 is a perspective view showing another example of a camera that is configured to be movable.
12 is a perspective view showing another example of a camera that is configured to be movable.
Fig. 13 is a perspective view showing still another example of a camera configured to be movable. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate identical or similar elements, and redundant description thereof will be omitted. The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role. In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be blurred. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as disclosed in the accompanying drawings. , ≪ / RTI > equivalents, and alternatives.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, terms such as " comprise, "" comprising" or "having ", and the like, specify that the presence of stated features, integers, Steps, operations, components, components, or combinations thereof, whether or not explicitly described in connection with the specification, figures, steps, operations, elements, parts or combinations thereof. Also for the same reason, this application is not to be construed as limited to the particular features, numbers, steps, operations, elements, combinations of parts set forth in the preceding description of the invention unless they depart from the intended purpose and effect of the disclosed application , Numbers, steps, operations, components, parts, and the like are also included.

The smart devices referred to herein include smart phones, smart phones, laptop computers, digital broadcast terminals, personal digital assistants (PDAs), portable multimedia (PMPs) as well as smart watches, player, navigation, slate PC, tablet PC, ultrabook, and other wearable devices such as smart glass, head mounted display (HMD) )), And the like.

These smart devices share many of the structural and functional features. It will therefore be readily apparent to those skilled in the art that the configuration according to the embodiments described herein may be applied to other common smart devices, except where applicable to smartwatches only.

FIG. 1 is a block diagram for explaining a smart watch related to the present application, and a general configuration of a smart watch will be described with reference to FIG.

The smart watch 100 includes a wireless communication unit 11, an input unit 12, a sensing unit 14, an output unit 15, an interface unit 16, a memory 17, a control unit 18 and a power supply unit 19 ), And the like. The components shown in FIG. 1 are not essential for implementing a smart watch, so that the smart watch described herein may have more or fewer components than those listed above. In addition, not all of the above-mentioned components are shown, and only some of the important components are shown in the figures following Fig. However, it is understandable to those skilled in the art that although not all shown, the described components may be included in a smart watch to implement the function as a smart device.

More specifically, the wireless communication unit 11 among the above components can communicate with the smart watch 100 and the wireless communication system, between the smart watch 100 and another smart device, or between the smart watch 100 and the external server, And may include one or more modules to enable communication. The wireless communication unit 11 may include one or more modules for connecting the smart watch 100 to one or more networks.

The wireless communication unit 11 may include at least one of a broadcast receiving module 11a, a mobile communication module 11b, a wireless Internet module 11c, a short distance communication module 11d, and a location information module 11e .

The input unit 12 includes a camera 12a or a video input unit for inputting a video signal, a microphone 12b for inputting an audio signal, or an audio input unit, a user input unit 12c for receiving information from a user A touch key, a mechanical key, and the like). The voice data or image data collected by the input unit 12 may be analyzed and processed by a user's control command.

The sensing unit 14 may include one or more sensors for sensing at least one of information in the smart watch, surrounding environment information surrounding the smart watch, and user information. For example, the sensing unit 14 may include a proximity sensor 14a, an illumination sensor 14b, a touch sensor, an acceleration sensor, a magnetic sensor, A G-sensor, a gyroscope sensor, a motion sensor, an RGB sensor, an infrared sensor, a finger scan sensor, an ultrasonic sensor, A microphone 12b, a battery gauge, an environmental sensor (for example, a barometer, a hygrometer, a thermometer, a radiation detection sensor, a temperature sensor, A thermal sensor, a gas sensor, etc.), a chemical sensor (e.g., an electronic nose, a healthcare sensor, a biometric sensor, etc.). Meanwhile, the smart watch disclosed in the present specification can combine and use information sensed by at least two of the sensors.

The output unit 15 includes at least one of a display unit 15a, an acoustic output unit 15b, a haptic module 15c, and a light output unit 15d to generate an output related to visual, auditory, can do. The display unit 15a may have a mutual layer structure with the touch sensor or may be integrally formed to realize a touch screen. This touch screen may function as a user input 12c that provides an input interface between the smart watch 100 and the user and may provide an output interface between the smart watch 100 and the user.

The interface unit 16 serves as a channel with various kinds of external devices connected to the smart watch 100. The interface unit 16 may be configured to connect a device equipped with a wired / wireless headset port, an external charger port, a wired / wireless data port, a memory card port, And may include at least one of a port, an audio I / O port, a video I / O port, and an earphone port. In the smart watch 100, corresponding to the connection of the external device to the interface unit 16, the smart watch 100 can perform appropriate control related to the connected external device.

In addition, the memory 17 stores data supporting various functions of the smart watch 100. The memory 17 may store a plurality of application programs (application programs or applications) driven by the smart watch 100, data for operation of the smart watch 100, and commands. At least some of these applications may be downloaded from an external server via wireless communication. At least some of these application programs may also be stored on the smart watch 100 from the time of shipment to the smart watch 100 for the basic functions (e.g., phone call incoming, outgoing, message receiving, Can exist. On the other hand, the application program is stored in the memory 17, installed on the smart watch 100, and can be driven by the control unit 18 to perform the operation (or function) of the smart watch.

In addition to the operations associated with the application program, the control unit 18 typically controls the overall operation of the smart watch 100. The control unit 18 may process or process signals, data, information, and the like input or output through the above-mentioned components, or may drive an application program stored in the memory 17 to provide or process appropriate information or functions to the user.

In addition, the controller 18 may control at least some of the components illustrated in FIG. 1 to drive an application program stored in the memory 17. Furthermore, the control unit 18 may operate at least two of the components included in the smart watch 100 in combination with each other for driving the application program.

The power supply unit 19 receives external power and internal power under the control of the controller 18 to supply power to the components included in the smart watch 100. The power supply unit 19 includes a battery 19a, and the battery 19a may be an internal battery or a replaceable battery.

At least some of the components may operate in cooperation with each other to implement a method of operation, control, or control of the smart watch 100 according to various embodiments described below. The operation, control, or control method of the smart watch 100 may be implemented on the smart watch 100 by driving at least one application program stored in the memory 17.

In the remainder of the following figures, the smart watch 100 is shown to have a type of wearable wear on the wearer's body, in particular a wearer's wrist, i.e. a traditional watch. However, the present application is not limited thereto and may have various structures, for example, in the form of a necklace. That is, the configuration and description for a particular type of smart watch 100 may be generally applied to other types of smart watch 100 as well as to a particular type of smart watch 100.

Following the general construction of the smart watch 100 described above, the structure of the smart watch 100 is described with reference to the associated drawings. In this regard, FIG. 2 is a perspective view showing a SmartWatch according to an example of the present application, and FIG. 3 is a sectional view showing a SmartWatch obtained along a line A-A of FIG.

The smartwatch 100 may include a case 110 that forms the body of the smartwatch 100 substantially. The case 110 may form an internal space of a predetermined size to accommodate various components, as best shown in Fig. The case 110 may also have an opening 110a communicating with the inner space so that the components can be installed in the inner space. The case 110 may be formed of one member as a whole. However, the case 110 may have a case back 110b that is detachably coupled, as shown. Internal components received through such a detachable case bag 110b can be easily accessed. In addition, the illustrated case 110 has a generally circular shape, but may have various other shapes including a rectangular shape.

The smartwatch 100 may also include a band 120 connected to the case 110. The band 120 may be configured to worn the body, i.e., the smart wrist 100, on the wrist. The band 120 is worn on the wrist so as to surround the wrist and may be formed of a flexible material so as to be deformed according to the outer shape of the wrist. As an example, the band 120 may be formed of various materials, such as leather, rubber, silicone, synthetic resin, and the like. The band 120 may be detachably attached to the case 110, and may be configured to be replaceable by various types of bands according to the user's preference. On the other hand, the band 120 can be used to expand the performance of the antenna of the wireless communication unit 11 (see FIG. 1). For example, the band 120 may include a ground extension (not shown) electrically connected to the antenna to extend the ground region.

The band 120 may have a variety of structures, and FIG. 2 illustrates the most basic structure of the band 120. As previously described, the band 120 may be strained to wrap the wearer's wrist so that the smart wrist 100 can be worn on the wrist of a curved user. When worn on the user's wrist, the coupled case 110 and the band 120, i.e., the smart wrist 100, may have a closed loop or ring shape that wraps the user's wrist as a whole. In order for the smart wrist 100 to be worn on the user's wrist or peeled from the wrist, the smart wrist 100 needs to be opened. That is, a part of the closed ring-shaped smartwatch 100 needs to be discontinuous. Through the gap created by this discontinuity, the wrist of the user is inserted into the open loop formed by the smart wrist 100, i.e., by the smart wrist 100, . In addition, the user's wrist can be withdrawn from the smartwatch 100 through the gap, and thus can be separated from the smartwatch 100. However, since the case 110 is rigidly formed to protect the components of the watch 100, the band 120 itself needs to be selectively broken or combined to form the gap instead of this case 110 . Thus, as shown in FIG. 2, the bands 120 may include first and second bands 121, 122 that are configured to selectively separate or couple to one another. The first and second bands 121 and 122 may be connected to any position of the case 110. However, it may be advantageous for the first and second bands 121, 122 to be connected to the sides of the case 110 to wrap the wearer's wrist. Also, for the same reason, the first and second bands 121 and 122 may be arranged to face each other. More specifically, for this opposing arrangement, the first band 121 is placed at or near the 6 o'clock position of the smart watch 100 or the case 110, while the second band 122 is located at the smart watch 100 100 or the case 110 at 12 o'clock or above. That is, the first band 121 may be connected to the first point 110e of the case 110, and the second band 122 may be connected to the second point 110f of the case 110. Here, the first point 110e may correspond to the 6 o'clock direction (or the lower direction) of the case 110 side, and the second point 110f may correspond to the 12 o'clock direction Upper part) of the image.

The first and second bands 121 and 122 may be connected to the case 110 by various methods. Among these various methods, a bar may be used for connecting the bands 121 and 122 and the case 110. [ The bar may actually be a spring bar. The spring bar may include a hollow body with a spring incorporated therein and fins that are supported by the spring and are fitted to both ends of the body. When the pins are pressed while being supported by the spring, the length of the spring bar can be shortened, and when the force applied to the pins is removed, the spring bar can be restored to its original length. Accordingly, the bar can be easily coupled to and separated from the case 110 together with the bands 121 and 122. More specifically, the case 110 may include a first bar 111 installed at the first point 110e and a second bar 112 installed at the second point 110f. Also, for stable installation of the first and second bars 111, 112, the case 110 may include first and second lugs 113, 114. The first lug 113 may be a pair of protrusions disposed adjacent to the first point 110e and spaced apart from each other by a predetermined distance. Likewise, the second lug 114 may comprise a pair of protrusions disposed adjacent the second point 110f and spaced apart from each other by a predetermined distance. These first and second lugs 113 and 114 may include holes or recesses capable of receiving pins disposed at opposite ends of the first and second bars 111 and 112. The first and second bars 111 and 112 may first be inserted into the ends of the first and second bands 121 and 122. The first and second bars 111 and 112 are inserted into the holes of the first and second lugs 113 and 114 by inserting the pins of the first and second bars 111 and 112 exposed from the bands 121 and 122 into the holes of the first and second lugs 113 and 114, And second bands 121 and 122, respectively, to the first and second lugs 113 and 114, respectively. When installed in the first and second lugs 113 and 114, as described above, the first and second bars 111 and 112 are shortened by pressing the pins provided at both ends thereof. The first and second bars 111 and 112 may be aligned with the holes of the first and second lugs 113 and 114 and then inserted into the holes while expanding again by removing the force applied thereto. Accordingly, the first and second bands 121 and 122 can be stably connected to the first and second points 110e and 110f of the case 110. [

The first and second bands 121 and 122 are separated from each other in order to remove the smart watch 100. In order to wear the smart watch 100, the first and second bands 121 and 122, It must be reconnected. Thus, for this selective separation and connection, the band 120 may be provided with a fastener. The fastener may be embodied by a buckle, a snap-fit hook structure, or a velcro (trademark), and may include a stretchable section or material. Fig. 2 shows an example in which the fastener is implemented in a buckle shape. More specifically, the band 120 may include a buckle 120a as a fastener and a pin 120b coupled to the buckle 120a. 4, the buckle 120a and the pin 120b may be installed in any one of the first and second bands 121 and 122, and FIG. 2 is a perspective view of the buckle 120a And a pin 120b. The buckle 120a and the pin 120b may be connected to the band 120 using a bar similar to the connection between the case 110 and the band 120. [ More specifically, a third bar 120c is provided at the other end opposite to one end of the first band 121 connected to the case 110, and a buckle 120a is attached to the third bar 120c. And the pin 120b may be coupled. In addition, a plurality of adjustment holes 120d may be formed in a band different from a band in which the buckle 120a and the pin 120b are provided, that is, the second band 122. [ Thus, by engaging the buckle 120a and the pin 120b with either of the holes 120d, the entire circumferential length of the smart wrist 100 can be adjusted to fit the wrist of the user.

The smartwatch 100 may include a bezel 130 positioned on the case 110. The bezel 130 is made of a ring-shaped member and can extend along the edge of the case 110. More specifically, the bezel 130 may be configured to enclose the opening 110a of the case 110. As shown in FIG. Thus, as will be described later, the bezel 130 surrounds and protects the display portion 15a disposed in the opening portion 110a. Furthermore, the bezel 130 may hold or hold a separate glass or crystal member that protects the display unit 15a, and may hold the display unit 15a itself. In addition to this protective purpose, the bezel 130 may be configured to provide other functions and may also be used for decorative purposes.

The smartwatch 100 may also have a crown 140 disposed on the side of the case 110. In a typical analogue watch, the crown 140 is rotatably connected to a movement mounted within the case 110 and can move the physical hands by rotating the crown 140. Thus, in a typical watch, the crown 140 is used to adjust the hands for correction of the time error. Similarly, in the smartwatch 100, the crown 140 can be used to adjust the virtual hands displayed on the display unit 15a to indicate the correct time. Furthermore, in the smartwatch 100, the crown 140 can be configured as an input 12c. More specifically, the crown 140 is rotated to transmit a predetermined control signal to the control unit 18, and a predetermined operation can be instructed to the smartwatch 100 according to the signal. For example, according to the rotation of the crown 140, the user can scroll the list displayed on the display unit 15a or zoom in or out on a specific object. In addition, the crown 140 may be configured to depress the switch connected to the substrate 13, i.e., the input unit 12c, and to direct the operation accordingly. In addition, the smartwatch 100 may include a push button 110c to configure the more extended input unit 12c. The push button 110c may be disposed on the side of the case 110c adjacent to the crown 140, as shown in Fig. As an example, the push button 110c may abut a switch that is mounted on the substrate 13 or is electrically connected thereto. Therefore, by pushing the push button 110c, a predetermined electrical signal is given to the substrate 13 and the control unit 18, thereby enabling the electronic components to be instructed to operate as a mobile terminal.

As mentioned above, in terms of functionality, the case 110 can be configured to support various electronic and mechanical components that are basically required for operation of the smartwatch 100. Figure 3 shows the interior of the SmartWatch well, so the internal components of the SmartWatch will be described in detail below with reference to this figure.

The smart watch 100 may include a display unit 15a as an output unit 15. [ The display unit 15a may be exposed from the watch 100 so that the display unit 15a is visible to the user in a state where the smart wristwatch 100 is worn. The display unit 15a is basically disposed in the case 110 and can be exposed to the user through the opening 110a of the case 110. [ Accordingly, the display unit 15a can form the outer shape of the smartwatch 100 together with the case 110. [ In addition, the display unit 15a may provide various information to the user as a function of the mobile terminal or the smart device. More specifically, the display unit 15a may display various information processed in the smartwatch 100. For example, For example, the display unit 15a basically outputs various image and text information, and displays execution screen information of an application program driven by the smartwatch 100 or UI (User Interface), GUI Graphic User Interface) can be displayed. Furthermore, the display unit 15a can inform the user of the current time. In order to display the current time, the display unit 15a can directly display the number corresponding to the current time, and can display a dial or a face and hands as an analog clock. That is, the display unit 15a and other electronic components related thereto can realize an electronic and virtual clock in the smart watch.

The display unit 15a may be a liquid crystal display (LCD), a thin film transistor-liquid crystal display (TFT LCD), an organic light-emitting diode (OLED) display, a 3D display, and an e-ink display. The display unit 15a may include a display module 15f and a window 15e covering the display module 15f. The display module 15f may be a display element such as an LCD or an OLED as described above, and is a component that actually displays image information. The window 15e may be disposed at a portion exposed to the user of the display module 15f and may protect the display module 15f from the outside. That is, the window 15e can function as a glass or crystal member in a conventional clock. In addition to this protection function, the window 15e should allow the information displayed on the display module 15f to be seen by the user. Accordingly, the window 15e can be made of a material having appropriate strength and transparency. As best shown in Fig. 3, the display module 15f can be directly attached to the rear surface of the window 15e. In this case, as shown, the bezel 130 can be configured to catch both the window 15e and the display module 15f together with the case 110. [ The display module 15f can be directly attached to the window 15e in various ways, and the adhesive can be most conveniently used for direct attachment.

The display unit 15a may include a touch sensor that senses a touch with respect to the display unit 15a so that a control command can be received by a touch method. The touch sensor may use at least one of various touch methods such as a resistance film type, a capacitive type, an infrared type, an ultrasonic type, and a magnetic field type. As an example, the touch sensor may be configured to convert a change in a pressure applied to a specific portion of a touch screen or a capacitance occurring at a specific portion into an electrical input signal, such as in a resistive film type and a capacitive type. When a touch is made to the display unit 15a using the touch sensor, the touch sensor senses the touch, and the control unit 18 can generate a control command corresponding to the touch based on the touch. The content input by the touch method may be a letter or a number, an instruction in various modes, a menu item which can be designated, and the like.

The touch sensor may be formed of a film having a touch pattern and disposed between the window 15e and the display module 15f or may be a metal wire directly patterned on the back surface of the window 15e. Alternatively, the touch sensor may be formed integrally with the display module 15f. For example, the touch sensor may be disposed on the substrate of the display module 15f or inside the display module 15e. In this way, the display unit 15a can form a touch screen together with the touch sensor. In this case, the touch screen can function as a user input unit 12c (see FIG. 1). If desired, a physical key (e.g., a push key) adjacent to the display portion 15a, which is a touch screen, may additionally be provided as a user input 12c for convenient input of the user.

The smartwatch 100 may include a substrate 13 that is mounted within the case 110. The substrate 13 is mounted with various electronic components, especially other circuits and elements that the control unit 18 assists. The control unit 18 may be a microprocessor. The microprocessor is an assembly of circuits for controlling the smartwatch 100, and may be composed of a plurality of sub-circuit assemblies, that is, a plurality of modules, which are structurally and functionally different from each other according to a control operation. Each of the components 11-19 shown in Figure 1 may be directly mounted on the substrate 13 so as to be controlled by the control unit 18 or may be mounted on the case 110 130, respectively. Therefore, the control unit 18 provided on the substrate 13 is electrically connected to all of these components, and control over them can be made. For this reason, the control unit 18 may be referred to as various names such as a controller and a controlling device, and may control all components of the smartwatch 100. Such controlled components include not only the components included in Figures 1 - 3 but also other components that will not be shown in these figures, but will be described separately below. Accordingly, the control unit 18 can be a practical component that appropriately performs the control method of the present invention described later by controlling the operation of other components. For this reason, all of the detailed steps performed in the control method of the present application can be all the features of the control section 18. [

Furthermore, the smartwatch 100 may include a battery 19a (see FIG. 1) as a power supply 19 for supplying power. The battery 19a may be fixed within the case 110 or may be detachably installed in the case 110. [ The battery 19a may be charged through a power cable connected to the smartwatch 100. [ In addition, the battery 19a may be configured to be wirelessly chargeable through a wireless charger. The wireless charging may be implemented by a magnetic induction method or a resonance method (magnetic resonance method).

As already discussed above, the smartwatch 100 is difficult to include the camera due to its small size, while the user more frequently uses the camera in the smart device or mobile terminal. Particularly, as shown in FIGS. 2 and 3, since the display unit 15a occupies most of the body of the smart device 100, that is, the case 110, the structure for exposing the lens of the camera to the outside is secured It is difficult to do. On the other hand, unlike the case 110, the band 120 is exposed to the outside, so it may be suitable for attaching various components. For this reason, the smartwatch 100 may include a camera 150 that is provided to the band 120. The camera 150 can be placed anywhere on the band 120. For example, although FIG. 2 illustrates a camera 150 disposed in a first band 121, the camera 150 may also be disposed in a second band 122. Also, if necessary, the cameras 150 may be disposed in both the first and second bands 121, 122.

The camera 150 is made of a digital camera and can be provided to the band 120 as an independent and compact module. Unlike a conventional camera that prints an image of a subject onto a film, such a digital camera module can be configured to basically acquire image information about an external subject using electronic elements. Such image information may include a digital still image, i.e., a photo or moving image, i.e., video. In the following detailed description of the present application, for convenience, the image information is simply represented as an image, and the described image should be understood to include not only a still image (photograph) but also a moving image (video).

More specifically, the image in the camera 150 can be basically obtained by the interaction between the lens and the image sensor. The lens can focus the light incident from the subject to a spot. Thus, a sensor having a relatively small size may change the optical information of a subject contained within a focused spot into an electrical signal. The acquired image may be communicated wired or wirelessly to associated components in the case 110, for example, the control unit 18 and the memory 17. For example, the camera 150 may include any one of the wireless communication modules as described in the wireless communication unit 11 of FIG. 1, and wirelessly acquires an image acquired using the module from the smartwatch 100 That is, to the case 110. In this case, That is, the first acquired image is transmitted to the wireless communication module in the case 110, and then to the controller 18 and other related components. On the other hand, the camera 150 can be directly connected to the substrate 13 and related components in the case 110 by wire or FPCB (Flexible Printed Circuit Board) embedded in the band 120 to transmit the acquired image have. With such a camera 150, the smartwatch 100 can obtain its own image in spite of its small size, and thus the functionality of the smartwatch 100 can be extended.

On the other hand, since smart devices are generally heard by the user, their orientation can be changed freely. However, since the smart watch 100 is worn on the wrist of the user, the change of the orientation can be restricted. Therefore, it may be difficult to accurately orient the camera 150 toward the subject in the smartwatch 100. [ For this reason, the camera 150 can be configured to be movable so as to be accurately oriented to the subject. Since the camera 150 is basically provided to the band 120, the camera 150 can be configured to move along the band 120 for precise orientation. The band 120 is connected to the case 110 so that the camera 150 moves toward the case 110 while moving along the band 120, You can move away. Thus, by this movement, the position of the camera 150 can be adjusted to be accurately oriented to the subject, and an image of the desired subject can be obtained efficiently and conveniently.

The movement of the camera 150 may be performed according to various methods. Among these methods, the band 120 can be configured to be movable in place of the camera 150. [ Since the camera 150 is provided to the band 120, the movement of the band 120 allows the camera 150 to be movable together. Also, the band 120 extends along the circumferential direction of the wrist while wrapping the wrist. Thus, when the SmartWatch 100 is worn on the wearer's wrist, the band 120 can actually move along the circumferential direction of the user's wrist, and the camera 150 can also move such band 120, Along the circumferential direction. The camera 150 moved in accordance with the movement of the band 120 is described in more detail below with reference to the related drawings. 4 is a perspective view showing an example of a band configured to be movable along the circumferential direction of the user's wrist. Fig. 5 is a rear view showing an example of the band of Fig. 4 and its arrangement, and Fig. 6 is a rear view showing another example of the band of Fig. 4 and its arrangement. Finally, FIG. 7 is a cross-sectional view taken along the line B-B in FIG. Since FIG. 2 shows the overall structure of the smart watch 100, all subsequent descriptions always refer to FIG. 2 basically, except when particularly referenced figures are referred to.

Unlike the band 120 of FIG. 2 where the first and second bands 121 and 122 separated from each other are connected to the case 110, the band 120 of FIG. 4 (a) has a single piece, It can be made of a single strap. The band 120 may extend through the case 110 so as to cover the wearer's wrist. More specifically, the band 120 may extend into any one point of the case 110, for example, the first point 110e. Thereafter, the band 120 may extend through the case 110 from another point of the case 110, for example, from the second point 110f. The ends of the band 120 penetrating the case 110 are connected to each other or separated from each other by the fastener mechanisms 120a to 120d described above so that the smart watch 100 can be worn by the user or removed from the user. . It is also contemplated that instead of the previously described bars and lugs 111-114, the first and second slots 115,116 of a predetermined size may be inserted into the first and second And may be formed at two points 110e and 110f, respectively. That is, the band 120 may enter the case 110 through the first slot 115 and out of the case 110 through the second slot 116 while passing through the case 110. The band 120 is thus positioned between the first and second sections 123a, 123b exposed from the case 110, more precisely from the first and second points 110e, 110f or the first and second slots 115, 123b, and a third section 123c disposed within the case 110. As shown in FIG.

Due to such an installation structure, the band 120 can be freely moved through the case 110 since the band 120 is not constrained by the case 110. That is, the band 120 can be slidably coupled to the case 110, and in particular, can slide within the case 110. 4 (a), when the user moves the first or second section 123a or 123b exposed to the outside, the entire band 120 is moved together with the camera 150 It is possible to move in the circumferential direction along the wrist of the user. More specifically, as shown in FIG. 4 (b), for example, when the first section 123a is pulled down by the user, the band 120 along the direction of arrow A1 have. Therefore, the camera 150 installed on the band 120 can also be moved away from the case 110 along the direction of the arrow A1. On the other hand, if the first section 123a is pushed up by the user, for example, the band 120 can move entirely along the direction of the arrow A2 and the camera 150 can also move closer to the case 110 Can be moved. By the movement of the band 120 and the camera 150, the orientation of the camera 150 can be adjusted and the subject can be accurately faced. Accordingly, the user can acquire an image more conveniently and efficiently by using the smartwatch 100. Although the example of FIG. 4 has been described based on the movement of the first section 123a, moving the second section 123b may have the same result. The camera 150 need not necessarily be fixed to the band 120 since it is only required that the camera 150 be movable with the moving band 120 when the band 120 moves. That is, in the example of FIG. 4, the camera 150 may be configured to be fixed or separate from the band 120, and the configuration of such a camera 150 may utilize the movement of the band 120, The same can be applied to the examples of FIG. 8 and FIG.

As described above, the smartwatch 100 can have a small size and the ability to perform various functions. Thus, the smartwatch 100 can measure various information about the environment around the watch 100 and provide the user with additional functions based on the measured information. More specifically, since interest in health has increased recently, the smart watch 100 has been developed to measure various body information and to confirm and manage a person's health condition based on the measured information. In particular, since the smart watch 100 is directly worn on the user's body, it can be advantageous to measure the body information. For this reason, the smartwatch 100 may include a sensor 14c that measures body information, as also shown in Figure 4 (a) and other figures. The sensor 14c may be a PPG sensor for detecting a photo-plethysmography (PPG) signal, for example. PPG is a signal indicating a pulse component generated according to a heartbeat, that is, a change in blood volume in a blood vessel. The SmartWatch 100 can measure the pulse, respiration, and oxygen saturation by sensing the PPG signal by the sensor 14c.

The sensor 14c can measure the PPG signal by irradiating light of a specific wavelength band to the human body and using the light reflected from the human body. Due to this sensing mechanism, the sensor 14c may be disposed in the case 110 adjacent the wrist of the user. More specifically, the sensor 14c can be installed in a case bag 110b that can directly contact the user's wrist. In addition, the sensor 14c may be exposed to the outside from the case 110, that is, the case bag 110b, in order to directly irradiate the user's skin with light and receive the reflected light. More specifically, the sensor 14c may include a front portion configured to illuminate and receive light, and this front portion may include a portion of the case 110 adjacent the wrist of the user, 110b. Since the band 120 penetrates the case 110, a portion of the band 120, that is, the third section 123c positioned inside the case 110, may interfere with the operation of the sensor 14c. For example, the third section 123c of the band 120 may block the light emitted from the sensor 14c. Therefore, for smooth operation of the sensor 14c, the band 120 may be configured not to interfere with the sensor 14c.

More specifically, as shown in FIG. 5, the band 120, i.e., the third section 123c, can pass between the case 110 (more precisely, between the case back 110b and the sensor 14c). The band 120 (i.e., the third section 123c) is blocked by the sensor 14c and the sensor 14c can not irradiate light to the user. The third section 123c may include a slot 123d of a predetermined size The slot 123d may be formed in alignment with the sensor 14c so that the slot 123d is located at the position of the sensor 14c The sensor 14c may be disposed in the slot 123d and may be formed in a part of the corresponding band 120. The sensor 14c may be disposed in the slot 123d, The band 120 is moved with the camera 150 so that the slot 123d is communicated with the camera 150 in the direction of movement of the band 120, Extend long The sensor 14c is always able to communicate with the outside through the slot 123d while the band 120 is being moved. By such a slot 123d, the sensor 14c can operate without interruption can do.

Alternately, the band 120, i. E., The third section 123c, may be used instead of the front portion of the sensor 14c configured to illuminate and receive light, as shown in Figs. 6 and 7, So as to face the rear portion directly opposite to the rear portion. That is, the band 120 may pass between the display part 15a (see FIG. 2) and the sensor 14c, which are disposed furthest away from the wrist instead of between the case back 110b and the sensor 14c. 6, the band 120, i.e., the third section 123c, does not interfere with the sensor 14c and the user's wrist, thereby preventing interference with the illumination and reception of light by the sensor 14c . More specifically, as shown in FIG. 7, a spacer 13a having a predetermined size may be disposed between the substrate 13 and the sensor 14c. The spacer 13a may support the auxiliary substrate 13b connected to the substrate 13 and the sensor 14c may be installed on the auxiliary substrate 13b. In addition, the spacer 13a may include a channel 13c, and the band 120, i.e., the third section 123c, may pass through the channel 13c. With such a support structure, the band 120 can pass between the sensor 14c and the display unit 15a so as not to interfere with the operation of the sensor 14c while being stably supported in the case 110. [

In addition to the configurations illustrated in FIGS. 4-7, the bands 120 may have other configurations that are movable in the circumferential direction. Fig. 8 is a perspective view showing another example of a band configured to be movable along the circumferential direction of the user's wrist. Fig. 9 is a perspective view showing another example of the band configured to be movable along the circumferential direction of the user's wrist. Referring to these figures, the movable band 120 will be described in detail below.

Like the band 120 of FIG. 4, the band 120 of FIG. 8 can also be made of a single piece, or a single strap. However, as shown in FIG. 8, the single-piece band 120 may be configured to wrap the user's wrist once more, instead of penetrating the case 110. That is, the band 120 of FIG. 8 may be configured to wrap the user's wrist twice. More specifically, the band 120 may be wound on one point of the case 110, e. G., The first bar 111, and continue to wrap the wearer's wrist. Thereafter, the band 120 wrapping the user's wrist may be wound on the second bar 112. Thus, both ends of the band 120 wrapping the user's wrist are connected to each other by the fastener mechanisms 120a-120d described above, so that the band 120 can finally wrap the user's wrist twice. Thus, the band 120 includes first and second sections 124a, 124b that are connected or rolled and selectively connected to the first and second bars 111, 112 and a third section 124c that wraps around the wearer's wrist Lt; / RTI >

Due to this mounting structure, the first and second sections 124a and 124b of the band 120 are not constrained to the first and second bars 111 and 112, and can slide on these bars. Thus, the band 120 moves the entirety of the band 120 along with the camera 150 along the wrist of the user by moving the first or second section 124a, 124b, as shown in Fig. 8 (a) Lt; / RTI > More specifically, as shown in Figure 8 (b), when the first section 124a is pulled down by the user, for example, the first section 124a along the first bar 111 And can slide in the same direction on the first bar 111. If the first bar 111 is configured to be rotatable, the first section 124a can slide more smoothly. Therefore, the camera 150 installed on the band 120 can also be moved away from the case 110 along the direction of the arrow A1. On the other hand, if the first section 123a is pushed up by the user, for example, the first section 124a can move along the direction of the arrow A2, and the camera 150 is also close to the case 110 You can move back. By the movement of the band 120 and the camera 150, the orientation of the camera 150 can be adjusted and the subject can be accurately faced.

Like the band 120 of FIG. 2, the band 120 of FIG. 9 includes first and second bands 121 and 122 separated from each other and connected to the first and second bars 111 and 112, respectively. Also, any one of the first and second bands 121 and 122, including the camera 150, may be made up of two pieces facing each other. 9, when the camera 150 is installed in the first band 121, the first band 121 is connected to the first piece 121a and the second piece 121a, 121b. The first piece 121a may include a camera while exposed to the outside, and the second piece 121b may directly face the wrist of the user. Actually, the first band 121 can be made up of one belt by the first and second pieces 121a and 121b. More specifically, one end of the first band 121 may first be wound on the first bar 111 installed on the case 110. The other end of the first band 121 may be wound around the third bar 120c installed in the band 120 itself. That is, the other end of the first band 121 may be installed in the third bar 120c for the fastener installed in the band 120. [ Accordingly, the first band 121 may be a belt member wound around the first and third bars 111 and 120c spaced apart from each other by a predetermined distance.

Due to such an installation structure, the first and second pieces 121a and 121b of the first band 121 are not constrained to the first and third bars 111 and 120c and can be rolled have. The band 120 thus moves the first or second piece 121a or 121b to move the first band 121 along with the camera 150 along the wrist of the user, It can move in the circumferential direction. More specifically, as shown in Fig. 9 (b), when the first piece 121a is pulled downward by the user, for example, the first bar 121 and the third bar 111, The band 121 rolls, and the first piece 121a can move in the same direction. If the first and third bars 111 and 120c are configured to be rotatable, the first band 121 can roll more smoothly. Therefore, the camera 150 installed on the first band 121, more precisely the first piece 121a, can also be moved away from the case 110 along the direction of the arrow A1. On the other hand, if the first piece 121a is pushed up by the user, for example, the first piece 121a can move along the direction of the arrow A2 similarly to that described above, and the camera 150 So that it can move closer to the case 110. By the movement of the band 120 and the camera 150, the orientation of the camera 150 can be adjusted and the subject can be accurately faced.

4, 8 and 9, the camera 150 itself may be configured to be movable along the band 120 to control the orientation of the camera 150 have. This movable camera 150 is described in more detail below with reference to the associated drawings. FIG. 10 is a perspective view showing an example of a camera that is configured to be movable, and FIG. 11 is a perspective view showing another example of a camera configured to be movable. Fig. 12 is a perspective view showing still another example of a camera that is configured to be movable, and Fig. 13 is a perspective view showing still another example of a camera configured to be movable.

First, as shown in FIG. 10, the camera 150 may include a strip 151 that is removably attached to the band 120. The strip 151 may have a body that extends as long as the band 120, and a camera 150 may be installed on the body. The band 120 may include a seat or recess 125 extending along its body and a strip 151 of the camera 150 may be stably positioned within such a recess 125 . More specifically, the camera 150 may include an attachment member 151a mounted on the strip 151. [ This attachment member 151a may be made of, for example, a magnet or a velcro. In addition, at least a portion of the band 120, that is, a portion corresponding to the recess 125 can be configured to be detachably attached to the attachment member 151a. For example, the recess 125 may be provided with a magnetic material or a velcro. 10 (a), the strip 151 may be separated from the band 150 along with the camera 150, and then the other of the band 150, as shown in FIG. 10 (b) Position. Accordingly, the camera 150 can be moved to a desired position of the band 150.

11, the camera 150 may include a clip or clamp 152 that engages the band 120. As shown in FIG. The clamp 152 may include a first member 152a and a second member 152b, which are connected to each other at one ends thereof by a resilient member that can be restored. The camera 150 may be installed on one of the first and second members 152a and 152b, and Fig. 11 shows a camera 150 installed on the first member 152a. As shown, when the user holds one end of the clamp 152, the other end of the clamp 152 can be opened while the elastic member is deformed. That is, when the user presses one ends of the first and second members 152a and 152b, the other ends of the first and second members 152a and 152b may be distant from each other as the elastic member is deformed. Thus, the clamp 152 can be detached from the band 120 along with the camera 152. The separated camera 152 can be moved to another position of the band 120 along with the clamp 152. Thereafter, when one end of the clamp 152 is placed, the elastic member is restored and the other end of the clamp 152 is closed, and the clamp 152 is fixed to the other position of the band 120 together with the camera 150 . By this series of operations, the camera 150 can be moved to a desired position of the band 150.

As shown in FIG. 12, the camera 150 may include a strip 153 that is slidably coupled to the band 120. The strip 151 may have a body that extends as long as the band 120, and a camera 150 may be installed on the body. The band 120 may include an opening 126 extending along its body and a strip 153 of the camera 150 is disposed in such an opening 126 and the band 120, (Not shown). More specifically, as shown in cross section along line CC of FIG. 12, a protrusion 126a from the side wall of a portion of the band 120 facing the strip 153, that is, the opening 126, (Not shown). A recess 153a may be formed on the side of the strip 153, that is, a portion of the strip 153 facing the band 120, to receive the projection 126a. 12, a protrusion may be formed on the strip 153 in the recess 120 in the band 120. As shown in Fig. The strip 153 can be slid as indicated by the arrows along the length of the band 120 while being guided by these protrusions 126a. Thus, by this sliding movement, the camera 150 can be moved to the desired position of the band 150 along with the strip 153. The camera 150 may be slidable to the band 150 by a structure other than that shown in Fig. For example, instead of the opening 126, a recess such as that shown in Fig. 10 may be formed in the band 120, and the strip 153 may be provided slidably in such a recess.

Further, as shown in FIG. 13, the band 120 may be composed of a plurality of sections 127 detachably coupled to each other. The camera 150 may be installed in any one of the sections 127. That is, the sections 127 may include a first section 127a including a camera 150. [ The sections 127 may be combined in a variety of ways, but may be slidably coupled to adjacent other sections 127 as best seen in FIG. 13 (b). More specifically, the first section 127a may include a groove 127b formed in its body, for example, as shown in the cross section taken along line D-D in Fig. 13 (a). Further, another section 127 adjacent to the first section 127a may include a projection 127c configured to be inserted into the groove 127b. Any one of the sections 127 and 127a may include first and second ends that are respectively coupled to adjacent other sections 127 and may include a groove 127b and a projection 127c, And may be disposed at the first and second ends, respectively. The grooves 127b and the protrusions 127c may extend in various directions but may extend in the width direction of the first section 127a and the sections 127, for example, as shown in Fig. 13 . While being guided by the projection 127c, the first section 127a can slide in the direction of the arrow, that is, the widthwise direction thereof, as shown in Fig. 13 (b). And can be separated from adjacent sections 127 as a result of such sliding movement. May then be placed between the sections 127 that are different from the adjacent sections 127 in a manner similar to that described above. That is, the first section 127a can replace any of the other sections 127, and thus can be disposed at the position of the replaced section 127. [ Accordingly, the camera 150 can be moved to a desired position of the band 120 together with the first section 127a.

The first section 127a and the camera 150 installed therein are basically capable of wirelessly communicating with the electronic components, for example, the control section 18, in the case 110. [ However, on the other hand, the first section 127a and the camera 150 installed therein can also communicate with related components by wire. 13 (a), the first section 127a may include a pin 127d, and the other section 127 adjacent thereto may be electrically coupled to the pin 127d, for example, And may include a contact 127e. As described above, any one of the sections 127,127a can include first and second ends that are respectively coupled to adjacent other sections 127, and the pin 127d and contact < RTI ID = 0.0 > (127e) may be disposed at the first and second ends, respectively. Also, in one of the sections 127 and 127a, the pins 127d and 127e, which are disposed at both ends of the section 127 and 127a, may be electrically connected to each other by a wire. The first section 127a and the camera 150 thereof can be wired to the case 110 and its substrate 13 through the other section 127 interposed therebetween by the pin 127d / Connected, and can communicate with related components.

All of the cameras 150 described in Figures 4 to 13 can move along the band 120 toward or away from the case 110, have. Thus, by this movement, the position of the camera 150 can be adjusted to be accurately oriented to the subject, and an image of the desired subject can be obtained efficiently and conveniently. Further, the fact that the camera 150 is additionally movably configured according to the example of Figs. 10-13 does not affect the operation of the examples using the movement of the band 120 according to Figs. 4-9. Thus, the smartwatch 100 can simultaneously include features according to FIGS. 4-9, i.e., the movable band 120 and the features according to FIGS. 10-13, i.e., the movable camera 150 simultaneously.

On the other hand, prior to acquiring the desired image, the user needs to turn on or turn on the camera 150. In general, the camera 150 may be equipped with a switch to activate the camera 150. However, since the camera 150 is a small module separate from the body of the smartwatch 100, i.e., the case 110, it may be difficult to install a switch in such a camera 150 module. Also, even if a switch is installed, it is difficult for the user to operate the switch due to the small size, and unnecessarily increase the size of the camera 150 module. Also, due to the limitation of the power supply capacity, it may not be appropriate to always activate the camera 150. [ On the other hand, as discussed above, the user can, in most cases, move the camera 150 to accurately orient the camera 150 to the subject prior to acquiring the image. Thus, movement of the camera 150 may represent a substantial use of the camera 150. [ For this reason, the camera 150 may be configured to be automatically activated upon movement along the band 120. Of course, in addition to this feature, the camera 150 may include a switch for passive activation.

For such automatic activation, the smart device 100 may further include a sensor configured to detect movement of the camera 150 first. The sensor basically can be configured to directly sense the movement of the camera 150. For example, the sensor may be a motion sensor installed in the case 110 and sensing the movement of the camera 150.

4, since the camera 150 is configured to move along the band 120, as described above, the movement of the camera 150 is performed between the camera 150 and the case 110 The distance D can be changed. Therefore, by sensing such a change in the distance D, the movement of the camera 150 can be detected. For this reason, the sensor may be configured to directly measure or detect a change in the distance D between the camera 150 and the case 110 to detect movement of the camera 150 indirectly. On the other hand, a change in the distance D based on the measured distance D can be sensed by the sensor. In FIG. 4, the distance D is represented by the circumferential distance obtained along the band 120, but it may also be a straight line distance between the camera 150 and the case 110.

More specifically, the sensor may be made of a non-contact distance sensor to measure or sense the distance D. For example, the distance sensor may use light or ultrasonic waves. The distance sensor may emit light or sound waves from one of the case 110 and the camera 150 to another, and may detect the distance using light or sound waves that are returned. In addition, the distance sensor may include a transmitting unit and a receiving unit installed in the case 110 and the camera 150, respectively, and the distance may be detected using light or sound waves transmitted between the case 110 and the camera 150. The noncontact distance sensor does not require a physical connection to the camera 150 for distance sensing and thus can be applied to all the examples of cameras 150 according to FIGS. 4-10 described above. Alternatively, the sensor may include a resistance sensor that senses a change in resistance caused by movement of the camera 150 or the band 150. For example, the resistance sensor may be composed of a resistance sensor 13d disposed in the supporter 13a and in contact with the band 120, that is, the third section 123c, as shown in Fig. When the third section 123c moves together with the camera 150, the portion of the third section 123c which contacts the resistance sensor 13d is changed, and thus the resistance value may be changed. Accordingly, the resistance sensor can sense a change in distance by sensing a changing resistance value. Such a resistance sensor can be applied to the examples of FIGS. 10 and 12 using the movement of the stream as well as FIGS. 4, 8 and 9 using the movement of the band 120 without a large modification. On the other hand, the sensor may comprise a plurality of fixed contacts disposed at predetermined positions and a switch including a movable contact configured to contact any one of the fixed contacts while moving. For example, instead of the resistance sensor 13d in Fig. 7, the supporter 13a is disposed along the longitudinal direction of the band 120, that is, the third section 123c and is in contact with the third section 123c And may include a plurality of fixed contacts 13d. Also, a moving contact can be attached to any one of the third section 123c. With the camera 150, while the third section 123c is continuously moving, the moving contact of the third section 123c can also move together. The movable contact sequentially generates a different electric signal while being in contact with different fixed contacts, and accordingly, the controller 18 can detect a change of the distance D and the distance D by receiving such a signal. Such a contact switch can be applied to the examples of FIGS. 10 and 12 as well as FIGS. 5, 8 and 9 using the movement of the band 120 without a large modification. 12, the pin 127d of the first section 127a may be a moving contact, and the contact 127e of the other sections 127 may be a fixed contact. Thus, when the pin 127d of the first section 127a contacts the contacts 127e of the different sections 127, different signals can be generated. Upon receiving these signals, the controller 18 may sense the distance D and its change as well as the relative position of the first section 127a.

In this way, since the camera 150 is automatically activated by its own movement, the user does not need to perform any additional operation to turn on the camera 150. Activation of the camera 150 may also be performed when substantial use of the camera 150 is attempted, i.e., when the camera 150 is moved. Further, automatic activation of the camera 150 can be accomplished by a fairly simple mechanism. Therefore, the user can use the camera 150 more conveniently and efficiently without increasing the actual production cost.

The foregoing detailed description should not be construed in any way as limiting and should be considered illustrative. The scope of the present application should be determined by rational interpretation of the appended claims, and all changes within the scope of equivalency of the present application are included in the scope of the present application.

100: SmartWatch 110: Case
120: Band 130: Bezel
140: Crown 150: Camera

Claims (15)

case;
A display located in the case and configured to display various information including a current time;
A band connected to the case and configured to wrap a user's wrist; And
And a camera provided to the band and acquiring an image, the camera being configured to be movable so as to be accurately oriented to a subject. The method according to claim 1,
Wherein the camera is configured to be away from the case or movable toward the case. The method according to claim 1,
And the band is configured to be movable along the circumferential direction of the user's wrist together with the camera. The method of claim 3,
The band extending through the case so as to surround the wrist of the user. 5. The method of claim 4,
Wherein the smartwatch further comprises a sensor disposed in the case adjacent the wrist of the user, the band being configured not to interfere with the sensor. 6. The method of claim 5,
The band extending along its longitudinal direction and including a slot in which the sensor is located. 6. The method of claim 5,
The band passing between the sensor and the display. The method of claim 3,
The case includes a first bar and a second bar mounted on the body,
Wherein the band is wrapped around the wrist of the user while being wound on the first bar, and then wound on the second bar. The method of claim 3,
Said case having a first bar mounted on its body, said band having a third bar mounted on its body,
The band having a first band comprising the camera and consisting of a belt wound on the first bar and the third bar. The method according to claim 1,
Wherein the camera is detachably attached to the band. The method according to claim 1,
Wherein the camera is configured to engage with the band. The method according to claim 1,
Wherein the camera is slidably coupled to the band. The method according to claim 1,
The band comprising a plurality of sections releasably coupled to one another, the sections comprising a first section comprising the camera. The method according to claim 1,
Wherein the camera is configured to be activated when the camera is moved or a distance between the case and the camera is changed. 15. The method of claim 14,
And a sensor configured to detect a change in the distance of the camera or the distance between the camera and the case.

Images