CN204189130U

CN204189130U - A kind of electronic equipment

Info

Publication number: CN204189130U
Application number: CN201420438384.0U
Authority: CN
Inventors: 万喜
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-08-05
Filing date: 2014-08-05
Publication date: 2015-03-04
Anticipated expiration: 2024-08-05

Abstract

The utility model embodiment discloses a kind of electronic equipment, comprising: stationary installation is connected with described frame body, and described stationary installation is for being fixed on supporter by described electronic equipment; Described function body portion comprises display device, and described display device is arranged in described frame body, and described display device has the first viewing area and the second viewing area, and described first viewing area is greater than described second viewing area; Wherein, described display device, when described first viewing area shows the first displaying contents, makes user obtain the first perception picture with during the first described first display translation region of interactive mode viewing; When described second viewing area shows the second displaying contents, user is made to obtain the second perception picture with during the second described second display translation region of interactive mode viewing; The size of described first perception picture is less than the size of described second perception picture, and described first display translation region is greater than described second display translation region.

Description

Electronic equipment

Technical Field

The utility model relates to an information processing technology, concretely relates to electronic equipment.

Background

Today, intelligent wearable electronic devices such as smartwatches need to display more, more comprehensive information to be able to meet the user's needs for intelligent electronic devices. However, due to the limited size of the wearable electronic device itself, the conventional display provided therein has a small display area and can display limited information.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention provides an electronic device, which at least solves the above problems existing in the prior art.

In order to achieve the above object, the embodiment of the present invention provides a technical solution that:

the utility model provides an electronic equipment, electronic equipment includes: a frame body, a fixing device and a functional main body part;

the fixing device is connected with the frame body and is used for fixing the electronic equipment on a support body and forming an annular space with the frame body when the electronic equipment is fixed on the support body through the fixing device;

the functional main body part comprises a display device, the display device is arranged in the frame body and is provided with a first display area and a second display area, and the first display area is larger than the second display area;

the display device is used for forming a first display output area corresponding to the first display area on the outer surface of the frame body when the first display area displays first display content, so that a first perception picture is obtained when a user watches the first display output area in a first interactive mode, and the content of the first perception picture is the first display content; when second display content is displayed in the second display area, a second display output area corresponding to the second display area is formed on the outer surface of the frame body, so that a second perception picture is obtained when a user views the second display output area in a second interactive mode, and the content of the second perception picture is the second display content; the size of the first perception picture is smaller than that of the second perception picture, and the first display output area is larger than the second display output area; the first interaction mode is different from the second interaction mode.

The embodiment of the utility model provides an electronic equipment can form the first display output region that corresponds with first display area at the surface of the framework body when display device shows first display content at first display area to make the user obtain first perception picture when watching first display output region with first interactive mode, the content of first perception picture is first display content; when second display content is displayed in a second display area, forming a second display output area corresponding to the second display area on the outer surface of the frame body, so that a second perception picture is obtained when a user views the second display output area in a second interactive mode, wherein the content of the second perception picture is the second display content; the size of the first perception picture is smaller than that of the second perception picture, and the first display output area is larger than the second display output area; the first interaction mode is different from the second interaction mode. And displaying second display content which is more and richer relative to the first display content displayed by the first display area through a second display area of the display device, so that when a user watches the second display output area in a second interactive mode, the information obtained through the second perception picture is more, richer and more comprehensive.

Drawings

Fig. 1 is a schematic view of a composition structure of an electronic device according to an embodiment of the present invention;

fig. 2 is a schematic view of a usage scenario according to an embodiment of the present invention;

fig. 3a is a schematic view of a composition structure of an electronic device according to an embodiment of the present invention;

fig. 3b is a schematic diagram of an external surface pattern of an electronic device according to an embodiment of the present invention;

FIG. 4 is a schematic view of a usage scenario of the present invention;

fig. 5 is a first schematic view of a first display content and a second display content according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a first display content and a second display content according to an embodiment of the present invention;

fig. 7 is a third schematic view of the first display content and the second display content according to the embodiment of the present invention;

fig. 8a is a schematic diagram of a relative area of an electronic device according to an embodiment of the present invention;

fig. 8b is a schematic diagram of a relative area of an electronic device according to an embodiment of the present invention;

fig. 8c is a schematic diagram of a relative area of an electronic device according to an embodiment of the present invention;

fig. 9 is a schematic view of a scene for acquiring a relative area of an electronic device according to an embodiment of the present invention;

fig. 10 is a schematic view of a second display module assembly structure according to an embodiment of the present invention;

fig. 11 is a schematic view of a second display module assembly structure according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The first embodiment,

An embodiment of the utility model provides an electronic equipment, as shown in fig. 1, electronic equipment includes: a frame body 11, a fixing device 12, and a functional main body portion 13;

the fixing device 12 is connected to the frame body 11, the fixing device 12 is used for fixing the electronic device on a support body, and forms an annular space with the frame body 11 when the electronic device is fixed on the support body by the fixing device 12;

the function body 13 portion includes a display device provided in the frame body 11, having a first display area and a second display area, the first display area being larger than the second display area;

Here, the electronic device may be a smart watch; the frame body may include a dial of a smart watch; the support may be a wrist portion of a user.

The first display area and the second display area are both physical concepts, namely display modules which really show the first display content and the second display content.

The first display area and the second display area can correspond to the same set of display module or two sets of display modules with the same display principle. Or, the first display area and the second display area correspond to display modules of different display principles, wherein the first display module and the second display module may be in a side-by-side position relationship or a stacked position relationship. Wherein the first display output area may be the same size as the first display area; the second display output area is larger than the second display area, for example, when the second display module is a projection module, the second display area is a reflection unit formed by prisms, and the second display output area is a light spot formed by projecting the light spot onto the outer surface of the frame body. The first display output area is larger than the second display output area in terms of physical size.

When the first display area and the second display area are the same set of display module, the mode that the size of the first perception picture is smaller than that of the second perception picture is achieved, the first display content can be directly displayed in the first display area for controlling the display module, and the outer surface of the frame body corresponding to the second display area is made of a material with a magnifying glass effect, so that the size of the second perception picture is larger when the display module displays the second display content in the second display area.

When the first display area and the second display area are different display modules, the display modes of the first display area and the second display area can be controlled through software, so that the size of the first perception picture is smaller than that of the second perception picture; the implementation manner of the method may be that the display module is controlled to directly display the first display content in the first display area, and the second display module is a projection module, so that when the user views the second display content through the second display output area 21 as shown in fig. 2, the second perception picture 22 is obtained, and it is obvious that the second perception picture can enable the user to view the content with a larger size.

With the adoption of the scheme, when the display device displays the first display content in the first display area, the first display output area corresponding to the first display area is formed on the outer surface of the frame body, so that a first perception picture is obtained when a user watches the first display output area in a first interactive mode, and the content of the first perception picture is the first display content; when second display content is displayed in a second display area, forming a second display output area corresponding to the second display area on the outer surface of the frame body, so that a second perception picture is obtained when a user views the second display output area in a second interactive mode, wherein the content of the second perception picture is the second display content; the size of the first perception picture is smaller than that of the second perception picture, and the first display output area is larger than the second display output area; the first interaction mode is different from the second interaction mode. And displaying second display content which is more and richer relative to the first display content displayed by the first display area through a second display area of the display device, so that when a user watches the second display output area in a second interactive mode, the information obtained through the second perception picture is more, richer and more comprehensive.

Example II,

the fixing device 12 is connected to the frame body 11, and is used for fixing the electronic device on a support and forming an annular space with the frame body 11 when the electronic device is fixed on the support by the fixing device 12;

the function body 13 portion includes a display device provided in the frame body 11, the display device having a first display area and a second display area; the first display area is larger than the second display area;

Here, the electronic device may be a smart watch; the frame body may include a dial of a smart watch; in an embodiment of the present invention, the supporting body may be a wrist of the user or other body parts of the user; of course, the support body may be any object other than the body part of the user, for example, an arm prosthesis and the like, and may also be a handrail on a bus or a subway operation vehicle. In the embodiment of the utility model, electronic equipment is the electronic equipment of wearing formula, as the embodiment of a preferred, electronic equipment still can be for intelligent ring. When the electronic device is a smart ring, correspondingly, the support body can be a finger.

The first display area and the second display area can correspond to the same set of display module or correspond to the same set of display module that shows originally, wherein the display module is located under the dial plate of the frame body, the first display area can be located on the upper half portion of the dial plate, and the second display area can be located on the lower half portion of the dial plate.

Alternatively, as shown in fig. 3a, the display device in the functional body includes: the display module comprises a first display module 31 and a second display module 32, wherein the display principle of the first display module 31 is different from that of the second display module 32;

wherein, the first display module 31 has a first display area 311; the second display module 32 has a second display area 312; due to the fact that the display principle of the first display module 31 is different from that of the second display module 32, a first interaction mode of the user using the first display module 31 of the electronic device is different from a second interaction mode of the user using the second display module 32 of the electronic device;

the first interaction mode is a viewing mode that the eyes of the user are far away from the first display output area on the electronic equipment; the second interaction mode is a viewing mode in which the eyes of the user approach the second display output area on the electronic equipment;

when the user is far away from the first display output area of the electronic equipment in the first interactive mode, the eyes of the user enable the user to perceive a first perception picture; the size of the first perception picture is equal to the first display output area; when the user approaches a second display output area of the electronic equipment in the second interaction mode, the light beam emitted by the second display module is incident to the eyes of the user, so that the user perceives a second perception picture; the size of the second perception picture is larger than the second display output area.

The first display area 31 and the second display area 32 correspond to different display modules, which may be a first display module 311 and a second display module 321, respectively, wherein the first display module 311 and the second display module 321 may be in a side-by-side positional relationship or a stacked positional relationship.

Wherein the first display output area 312 may be the same size as the first display area 31; the second display output area 322 is larger than the second display area 32, for example, when the second display module is a projection module, the second display area is a reflection unit formed by prisms, and the second display output area 322 is a light spot formed by projecting the light spot onto the outer surface of the frame body. From a physical size perspective, the first display output area 312 is larger than the second display output area 322, as shown in fig. 3 b.

When the first display area and the second display area are different display modules, the display modes of the first display area and the second display area can be controlled through software, so that the size of the first perception picture is smaller than that of the second perception picture; the implementation manner of the method may be that the display module is controlled to directly display the first display content in the first display area, and the second display module is a projection module, so that when the user views the second display content through the second display area 21 as shown in fig. 2, the second perception picture 22 is obtained, and it is obvious that the second perception picture can enable the user to view the content with a larger size.

Example III,

Alternatively, as shown in fig. 3, the display device in the functional body includes: the display module comprises a first display module 31 and a second display module 32, wherein the display principle of the first display module 31 is different from that of the second display module 32;

Wherein the first display output area 312 may be the same size as the first display area 31; the second display output area 322 is larger than the second display area 32, for example, when the second display module is a projection module, the second display area is a reflection unit formed by prisms, and the second display output area 322 is a light spot formed by projecting the light spot onto the outer surface of the frame body. The first display output area 312 is larger than the second display output area 322 in physical size.

The second display area is smaller than or equal to a preset area; the first display area is larger than the predetermined area;

the predetermined area may be an area value preset according to an actual situation, for example, the predetermined area may be set to be 2 squares;

alternatively, the predetermined area may also be a cross-sectional area of a field of vision of the user's eyes when the user's eyes meet the predetermined distance from the electronic device; the predetermined distance may be preset according to practical situations, for example, may be preset to 1 cm, as shown in fig. 4, and it is assumed that the user's eyes can see the full view of the second display output area 41 when approaching the electronic device, but only part of the first display output area 42 is seen. In addition, in practical implementation, a predetermined distance may be set for each user individually, for example, if the user nail obtains a comfortable visual sensation at 2 cm, the cross-sectional area of the user's eye field of vision is determined according to the predetermined distance, and then the size of the second display output area is determined. Therefore, the size of the second display output area can be flexibly set according to the actual situation, and the visual perception of the user when using the electronic equipment is further improved.

Example four,

alternatively, the predetermined area may also be a cross-sectional area of a field of vision of the user's eyes when the user's eyes meet the predetermined distance from the electronic device; the predetermined distance may be preset according to practical situations, for example, may be preset to 1 cm, as shown in fig. 4, and it is assumed that the user's eyes can see the full view of the second display output area 41 when approaching the electronic device, but only part of the first display output area 42 is seen. In addition, in practical implementation, a predetermined distance may be set for each user individually, for example, if the user nail obtains a comfortable visual sensation at 2 cm, the cross-sectional area of the user's eye field of vision is determined according to the predetermined distance, and then the size of the second display output area is determined.

In this embodiment, the first display content and the second display content may or may not be related.

Specifically, when the first display content is associated with the second display content, the second display content may be an identification image that can be used to obtain the first display content, such as a two-dimensional code that can be used by a user to obtain the first display content; the second display content may also be a data item capable of operating the first display content, such as virtual operation keys for sharing, downloading, and the like; alternatively, the second display content may be a partial content of the first display content. For example, as shown in fig. 5, the second display content 52 may be map path information; accordingly, the first display content 51 is a direction identifier corresponding to the second display content 52, i.e. an arrow direction, so that the user can move according to the direction identifier.

Or, the first display content is a prompt of text (such as short message) information received by the electronic device, and may also be a picture (such as multimedia message) containing text; the second display content is specific information corresponding to the first display content, as shown in fig. 6, and the first display content 61 includes "a new piece of information", so that the specific information displayed in the second display content 62.

Or the first display content may be prompt information in a manner of sharing second display content, where the second display content may be any information such as characters, pictures, or videos; the text, the picture or the video can be a resource stored by the electronic device, or can be a network resource obtained online from a network after the electronic device accesses the network. As shown in fig. 7, the first display content 71 may be divided into four sharing manners, such as "email", "bluetooth", "share", and "microblog", for example, the second display content 72 may be sent to a certain contact by email; or transmitting the second display content 72 to the corresponding electronic device through bluetooth; or, the second display content 72 is shared to a friend circle of WeChat; or sending the second display content 72 to a microblog; wherein the operable data items in the second display content are not limited to the above-described operable data items.

Or, the electronic device is set as a wireless network hotspot by itself, and then the electronic device acquires a storage location (storage address) of the second display content in its own storage area, generates a two-dimensional code image according to the storage location, and takes the two-dimensional code image as the first display content. In this way, other electronic devices can identify the two-dimensional code image in the first display content through a scanning function (such as two-dimensional code scanning), so that the other electronic devices obtain the second display content according to the two-dimensional code image.

Or, since the first display content must be observed by the eyes of the user approaching the second display output area, or after the user authorization, the eyes of other users approaching the second display output area, and the eyes of the user far away from the first display area can observe the first display content, that is, all users can observe the first display content; the privacy level of the second display content is higher than the privacy level of the first display content, so that part of the second display content can be extracted as the first display content. Thus, the privacy of the electronic equipment during use can be improved.

Example V,

The functional main body part also comprises an inductor and a control circuit; the sensor is used for generating a detection signal of an interaction mode between a user wearing the electronic equipment and the electronic equipment; the sensor is connected with a control circuit, and the control circuit is used for enabling the first display module and controlling a first display area of the first display module to display the first display content when the fact that the user wearing the electronic equipment is located in a first interaction mode with the electronic equipment is determined according to the detection signal; and the control circuit is used for enabling the second display module and controlling the second display module to display the second display content in a second display area of the second display module when the fact that the user wearing the electronic equipment is located in a second interaction mode with the electronic equipment is determined according to the detection signal.

The sensor can detect the distance between the eyes of the user and the electronic equipment and take the distance as a detection signal of an interaction mode, and the sensor can be an infrared sensor and detect the distance between the electronic equipment and the user through the infrared source; correspondingly, the control circuit determines whether the distance between the eyes of the user and the electronic device is greater than a preset distance, determines that the user wearing the electronic device and the electronic device are in a first interaction mode when the distance is greater than the preset distance, and determines that the user wearing the electronic device and the electronic device are in a second interaction mode when the distance is not greater than the preset distance, for example, as shown in fig. 4, when the user is close enough to the electronic device, the control circuit determines to switch to the second interaction mode.

Alternatively, the sensor provided in another embodiment of the present invention is configured to sense a relative position between the electronic device and an observer wearing the electronic device, and the relative position is used as the detection signal of the interaction mode, and the sensor may be a gravity sensor. For example, as shown in fig. 8a, when the relative position between the electronic device and the observer wearing the electronic device sensed by the sensor satisfies a first relative area 81, it is characterized that the electronic device is located in a side area of the body of the observer; when the relative position between the electronic device and the observer wearing the electronic device sensed by the sensor satisfies a second relative area 82, characterizing that the electronic device is located in the area in front of the body of the observer, as shown in fig. 8 b; when the relative position between the electronic device and the observer wearing the electronic device as sensed by the sensor satisfies a third relative area 83, it is characterized that the electronic device is located in the front of the head of the observer's body, as shown in fig. 8 c. In the practical application process of the electronic device provided by the embodiment of the present invention, when the relative position between the electronic device sensed by the sensor and the observer wearing the electronic device satisfies the first relative area, the electronic device controls the first display module and the second display module to be in a low power consumption state (off state or standby state); when the relative position between the electronic equipment and an observer wearing the electronic equipment, which is sensed by the sensor, meets a second relative area, the electronic equipment determines to be in a first interaction mode, and controls the first display module to be in a working state and the second display module to be maintained in the low power consumption state; when the relative position between the electronic equipment sensed by the sensor and an observer wearing the electronic equipment meets a third relative area, determining to switch to a second interaction mode, and controlling at least the second display module to be in a working state, but actually controlling the first display module to be in the working state at the same time; when the relative position between the electronic equipment sensed by the sensor and an observer wearing the electronic equipment meets a third relative area, the first display module can be controlled to be in the low power consumption state at the same time; similarly, when the relative position between the electronic device sensed by the sensor and the observer wearing the electronic device satisfies a third relative area, the first display module is maintained in the working state (the working state at this time is that the first display module is controlled to be in the working state in the second relative area). When the relative position between the electronic equipment and an observer wearing the electronic equipment meets the first relative area again, the electronic equipment controls the first display module and the second display module to be switched to the low power consumption state (off state or standby state).

The two display modules in the electronic equipment can have various use states when in use. The electronic device is worn on the wrist as a smart watch for explanation, for example, when a user is walking, the arm of the user naturally droops, and at this time, the first display module and the second display module of the electronic device may be both in a low power consumption state such as an off state or a standby state, and the off state or the standby state may save power to prolong the service time of the electronic device; when the user's arm is naturally drooping, the electronic device can be considered to be in a first relative area, that is, the first relative area indicates a relative positional relationship between the user and the electronic device, that is, a side area of the user's body.

Then, the user wants to see for a certain time during the walking process, and the user lifts the arm, and the electronic device is assumed to be in a second relative area (namely, the chest area of the user's body) when the user lifts the arm; when the electronic equipment detects that the electronic equipment is in the second relative area, the first display module is enabled (the first display module is started or awakened), and then the time is displayed to a user; or the prompt information is displayed to the user through the first display module.

At this time, if the user wants to see the data content more related to the prompt message, the electronic device is further moved forward, assuming that the electronic device is located in the third opposite area (i.e., the head area of the user's body), that is, when the electronic device is located in the third opposite area, the electronic device enables the second display module, and when the user's eyes are close to the light spot 200 formed on the protective layer after enabling the second display module, the user can see the related data content through the second display module by using the light spot 200.

It can be understood that the above-mentioned scenario is not limited to the use of the present invention, the use scenario of the present invention may further include that the user lies in bed, for example, as shown in fig. 9, when the user wants to see the information, the user can lift the hand to the second relative region 92, the sensor will acquire the detection data of the interaction mode, and then the control circuit will determine to enter the first interaction mode according to the detection data, control the first display module to open, and display the first display content; further, if the user wants to view the detailed information related to the first display content, i.e., view the second display content, the user can lift the arm to a third opposite area (not shown in the figure), and the control circuit determines to enter the second interaction mode, and then controls the second display module to be turned on, and simultaneously can turn off the first display module, or can not turn off the first display module.

In addition, the sensor can also be a touch sensor, and detection information of an interactive mode is acquired by detecting touch operation of a user on the outer surface of the frame body; for example, when the touch operation of the user is detected to be sliding from the first display area to the second display area, the control circuit determines to enable the second display module.

Preferably, the three implementation manners, that is, the distance between the eyes of the user and the electronic device is detected by the sensor as the detection signal of the interaction manner, the relative area of the electronic device with respect to the user is detected by the sensor as the detection signal of the interaction manner, and the touch operation of the user is detected by the sensor as the detection signal of the interaction manner, are not optional, and may be combined in three manners, or may be used alone, or may be combined in two manners. Therefore, the first interaction mode or the second interaction mode can be determined to be triggered by detecting the position of the electronic equipment, and the use experience of the electronic equipment is improved.

Example six,

Or, the sensor may also be a touch sensor, and the detection information of the interaction mode is acquired by detecting a touch operation of a user on the outer surface of the frame body; for example, when the touch operation of the user is detected to be sliding from the first display area to the second display area, the control circuit determines to enable the second display module.

Preferably, the power consumption of the first display module is less than the power consumption of the second display module.

The first display module can be a common module commonly used at present, such as an LED display module or an LCD display module;

the second display module is an optical projection system, a first part of the second display module is a light conduction assembly, and a second part of the second display module is a display assembly and a collimation assembly;

the light conduction assembly is made of transparent materials;

the display component is used for displaying and outputting second display content and projecting first light beam output in a light beam mode;

the collimation assembly is used for processing and converting the first light beam projected to be output in the light beam mode into the second light beam output;

the light conduction assembly is used for conducting the second light beam in a transparent material forming the light conduction assembly, wherein the light conduction assembly comprises a reflection unit, the reflection unit is arranged in a specific area of the excess part, and the reflection unit is used for projecting the second light beam in a second direction by changing the conduction direction of the second light beam in the transparent material; the second direction is consistent with the output direction of the first display content in the first display area of the first display module; the specific area of the light conduction assembly, in which the reflection unit is arranged, is a second display area of the second display module.

Next, the second display module 32 in fig. 3 will be described in detail, fig. 10 is a schematic diagram of a structure of a second display module according to an embodiment of the present invention, fig. 11 is a schematic diagram of a structure of a second display module according to an embodiment of the present invention, as shown in fig. 10 and fig. 11, the display module 321 includes a beam splitting unit 3211 and a display unit 3212, the collimating assembly 322 includes a second collimating unit 3221, a first collimating unit 3222, and a polarization beam splitting unit 3223, and the light conducting assembly 323 includes a waveguide unit 3231 and a reflecting unit 3232. Wherein the display assembly 321 in fig. 5-2 further includes a light emitting unit 3210. The collimating assembly 321 processes the first light beam projected and output in the form of the light beam, and converts the first light beam into the second light beam to be output to the light conducting assembly 323.

Specifically, the collimating assembly 321 includes a first collimating unit 3222 and a second collimating unit 3221 arranged oppositely, and a polarization beam splitting unit 3223 arranged between the first collimating unit 3222 and the second collimating unit 3221, and the first light beam output from the display assembly is reflected to the first collimating unit 3222 via the polarization beam splitting unit 3223, and then collimated by the first collimating unit 3222 and the second collimating unit 3221, and then exits as the second light beam via the polarization beam splitting unit 3223.

Here, the first collimating unit 3222 and the second collimating unit 3221 may be a single lens or a lens group designed as needed.

The light conduction assembly 323 is used for conducting the second light beam in a material forming the light conduction assembly and finally outputting the second light beam to an observer; the light guide module 323 includes a waveguide unit 3231 and a reflection unit 3232, and the second light beam can be controlled by setting the position and angle of the reflection unit 3232 and be guided to exit at the specific position. In the first case, the collimating component 322 and the display component 321 are located at a first side relative to the plane of the waveguide unit 3231, and when the reflecting unit 3232 is disposed, the second light beam can exit to a second side relative to the plane of the waveguide unit 3231, where the first side and the second side are opposite sides relative to the plane of the waveguide unit 3231.

Specifically, when the second display module is applied to a smart watch, for example, the configuration example described above may be adopted, so that the second light beam and the second light beam are emitted to the second side, that is, the second light beam is emitted to the eyes of a user wearing and watching a wrist-worn electronic device. In further detail, the emitting direction of the second display module can be configured according to the viewing requirement, for example, the rotation of the reflecting unit 3232 can be controlled, so as to control the emitting direction of the reflecting unit 3232, and realize the switching of the bidirectional display of the second display module. In the embodiment of the present invention, the reflecting unit 3232 can be a single prism or a prism group designed as required.

In an embodiment of the present invention, the first display module has a first display output area, and as described above, the first display module is a first display screen, so that a physical size of the first display screen is consistent with a size of the first display output area;

the second display module is provided with a second display output area, and the second display output area is a specific area of the reflection unit arranged on the excess part. Generally, the physical size of the reflection unit is larger than or equal to the size of the second display output area when a viewer (user) sees the reflection unit, and the size of the display unit in the second display module is smaller than the size of the second display output area. It should be noted that fig. 10 or fig. 11 is only for helping those skilled in the art to understand the technical solution of the present application, and is not a state of the electronic device provided in the embodiment of the present invention when in use; for example, the electronic device is fixed on a support body when in use, when the support body is a wrist, a user lifts an arm to place the electronic device in front of eyes, so that the user can see information provided by the electronic device in a front view angle when in use.

Example seven,

At this time, if the user wants to see the data content more associated with the prompt message, the electronic device is further moved forward, assuming that the electronic device is located in the third opposite area (i.e., the head area of the user's body), that is, when the electronic device is located in the third opposite area, the electronic device enables the second display module, and when the user's eyes are close to the light spot formed on the protective layer after enabling the second display module, the user can see the associated data content through the second display module by the light spot.

the light conduction assembly is made of transparent materials;

The fixing device in the embodiment of the present invention may be a connecting band made of flexible material, and the connecting band is movably connected to the frame body, for example, may be an elastic band, and the electronic device is worn on the wrist by stretching the elastic band; or, fixing device is connecting band and locking structure that flexible material made, the connecting band with framework body swing joint, the connecting band with locking structure fixed connection, for example, locking structure can be for the buckle will divide into the connecting band fastening of two parts through the buckle for the buckle.

Preferably, the connection band has an accommodating space, and the control circuit is disposed in the accommodating space based on a shape of the accommodating space; the control circuit is used for guiding out the containing space of the connecting belt through a flexible connecting line and guiding the containing space into the frame body to be electrically connected with the first display module and the second display module respectively. For example, the control circuit may be disposed at the lower right side of the second display module 32 in the structure diagram shown in fig. 3, and signals of the first display module and the second display module may be transmitted to the control circuit through the connecting wires.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be defined by the appended claims, which are only preferred embodiments of the present invention, and should not be construed as limiting the protection scope of the present invention.

Claims

1. An electronic device, the electronic device comprising: a frame body, a fixing device and a functional main body part;

2. The electronic equipment according to claim 1, wherein the display device comprises a first display module and a second display module; wherein,

the first display module is different from the second display module in display principle and is provided with a first display area; the display principle of the second display module is different, so that the corresponding first interaction mode is different from the second interaction mode of the user using the second display module; the first interaction mode is a viewing mode that the eyes of the user are far away from the first display output area on the electronic equipment; the second interaction mode is a viewing mode in which the eyes of the user approach the second display output area on the electronic equipment; the eyes of a user cause the user to perceive a first perception screen when the user is away from the first display output region of the electronic device in the first interactive manner; the size of the first perception picture is equal to the first display output area; when the user approaches a second display output area of the electronic equipment in the second interactive mode, the light beam emitted by the second display module is incident to the eyes of the user, so that the user perceives a second perception picture; the size of the second perception picture is larger than the second display output area;

the second display module is provided with a second display area.

3. The electronic device according to claim 2, wherein the second display region is equal to or smaller than a predetermined area; the first display area is larger than the predetermined area.

4. The electronic device of claim 3, wherein the predetermined area is a cross-sectional area of a field of view of the user's eyes when the user's eyes meet the predetermined distance from the electronic device.

5. The electronic device of claim 3 or 4, wherein the first display content is correlated with the second display content; alternatively, the first display content and the second display content are not associated with each other.

6. The electronic device according to claim 2, wherein the functional main body portion further comprises an inductor and a control circuit; wherein,

the sensor is connected with the control circuit and used for generating a detection signal of an interaction mode between a user wearing the electronic equipment and the electronic equipment;

the control circuit is used for enabling the first display module and controlling a first display area of the first display module to display the first display content when the fact that the user wearing the electronic equipment is located in a first interaction mode with the electronic equipment is determined according to the detection signal; and/or enabling the second display module and controlling the second display content to be displayed in a second display area of the second display module when the fact that the user wearing the electronic equipment is in a second interaction mode with the electronic equipment is determined according to the detection signal.

7. The electronic device of claim 2, wherein the power consumption of the first display module is less than the power consumption of the second display module.

8. The electronic device of claim 7, wherein the second display module is an optical projection system, the first portion of the second display module is a light conducting component, and the second portion of the second display module is a display component and a collimating component;

the light conduction assembly is made of transparent materials;

the collimation assembly is used for processing the first light beam projected and output in the light beam mode and converting the first light beam into a second light beam output;

the light conduction assembly is used for conducting the second light beam in a transparent material forming the light conduction assembly;

the light conduction assembly comprises a reflection unit, the reflection unit is arranged in a specific area of an excess part and is used for changing the conduction direction of the second light beam in the transparent material and projecting the second light beam in a second direction; the second direction is consistent with the output direction of the first display content in the first display area of the first display module; the specific area of the light conduction assembly, in which the reflection unit is arranged, is a second display area of the second display module.

9. The electronic device of claim 2, wherein the fixing device is a connecting belt made of flexible material, and the connecting belt is movably connected with the frame body; or,

the fixing device is a connecting belt and a locking structure which are made of flexible materials, the connecting belt is movably connected with the frame body, and the connecting belt is fixedly connected with the locking structure.

10. The electronic device according to claim 6, wherein the connection band has an accommodation space, and the control circuit is disposed in the accommodation space based on a shape of the accommodation space; the control circuit is used for guiding out the containing space of the connecting belt through a flexible connecting line and guiding the containing space into the frame body to be electrically connected with the first display module and the second display module respectively.