Utility model content
This utility model embodiment discloses a kind of wearable device, to realize projecting whenever and wherever possible。
For reaching above-mentioned purpose, this utility model embodiment discloses a kind of wearable device, and described wearable device includes: shell (01), the first fixing band (02), the second fixing band (03), for start described wearable device or close the button (04) of described wearable device, as the touch screen (05) of described shell (01) upper surface;Described wearable device, for carrying out information displaying in face, projected background place with projection pattern;
Described shell (01) includes the first end face (06), the second end face (07), the 3rd end face (08) and the 4th end face (09), described first end face (06) is relative with described second end face (07), described 3rd end face (08) is: and end face away from human body the back of the hand adjacent with described first end face (06) and described second end face (07), described 4th end face (09) is the end face relative with described 3rd end face (08), and is provided with circuit board in described shell (01);
One end of described first fixing band (02) is fixed on first end face (06) of described shell (01);
One end of described second fixing band (03) is fixed on second end face (07) of described shell (01);And the dismountable clamping of the other end of the other end of described first fixing band (02) and described second fixing band (03), described wearable device to be fixed on the arm position of human body;
Described button (04), is disposed through the button installing hole of described 3rd end face (08), and part is positioned at outside described button installing hole, and part is positioned at inside described button installing hole, and electrically connects with the processor on described circuit board;
4th end face (09) of described shell (01) is provided with projector installing hole (10), ambient light sensor installing hole (19) and RGB sensor mounting hole (20), wherein, described projector installing hole (10) is positioned at the side of upper and close described second end face (07) of described 4th end face (09);Described ambient light sensor installing hole (19) and RGB sensor mounting hole (20) are positioned at the side of upper and close described first end face (06) of described 4th end face (09);Projector on described circuit board, ambient light sensor and RGB sensor are respectively arranged in described projector installing hole (10), ambient light sensor installing hole (19) and RGB sensor mounting hole (20);
When described wearable device is in running order, processor on described circuit board receives the first colouring information of described ambient light sensor transmission and the second colouring information of described RGB sensor transmission, according to described first colouring information and described second colouring information, detect the colouring information of the projected background that the projector of described wearable device projects。
Wherein, described 3rd end face (08) of described shell (01) is additionally provided with speaker installing hole (13), speaker is installed in described speaker installing hole (13), and described speaker electrically connects with described processor。
Wherein, described first end face (06) of described shell (01) and described second end face (07) are also respectively provided with first Mike's installing hole (14) and second Mike's installing hole (15), it is respectively arranged with the first Mike and the second Mike in described first Mike's installing hole (14) and second Mike's installing hole (15), and described first Mike and the second Mike electrically connect with the processor on described circuit board。
Wherein, the hole heart of described projector installing hole (10) and described sensor mounting hole is located along the same line。
Wherein, described projector is installed in described projector installing hole (10), and the projection lens place plane of described projector is in the same plane with described 4th end face (09)。
Wherein, 4th end face (09) of described shell (01) is additionally provided with intensity of illumination sensor mounting hole (21), wherein, described intensity of illumination sensor mounting hole (21) is positioned at the side of upper and close described first end face (06) of described 4th end face (09);Intensity of illumination sensor on described circuit board is installed in described intensity of illumination sensor mounting hole (21);
When described wearable device is in running order, processor on described circuit board receives the intensity of illumination of the environment light of external environment condition residing for the described wearable device that described intensity of illumination sensor sends, and according to described intensity of illumination, described first colouring information and described second colouring information, it is thus achieved that the colouring information of described projected background;When judging that projecting environment residing for described wearable device changes according to described intensity of illumination, send colouring information to described ambient light sensor and described RGB sensor respectively and gather signal。
Wherein, 4th end face (09) of described shell (01) is additionally provided with range sensor installing hole (22), wherein, described range sensor installing hole (22) is positioned at the side of upper and close described first end face (06) of described 4th end face (09);Electrical distance sensor on described circuit board is installed in described range sensor installing hole (22);
When described wearable device is in running order, processor on described circuit board receives the projector distance that described range sensor sends, and when judging that the projection environment residing for described wearable device changes according to described projector distance, send colouring information to described ambient light sensor and described RGB sensor respectively and gather signal。
Wherein, described wearable device is the wearable projector equipment of wrist。
Wherein, it is characterised in that face, projected background place is the back of the hand, metope or projection screen。
The wearable device that application this utility model embodiment provides, the content needing projection can be realized projection by user whenever and wherever possible, meets the demand of user, improves Consumer's Experience。
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments。Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection。
This utility model embodiment provides a kind of wearable device, and for carrying out information displaying in face, projected background place with projection pattern, in the present embodiment, described wearable device is the wearable projector equipment of wrist, and certainly, it can also be arm type wearable equipment etc.。Face, projected background place can be the back of the hand, metope or projection screen etc., say, that the face existed in any reality, can as the face, projected background place in the application。
In conjunction with Fig. 1 to Fig. 6, described wearable device may include that shell (01), the first fixing band (02), the second fixing band (03), for start described wearable device or close the button (04) of described wearable device, as the touch screen (05) of described shell (01) upper surface。
Wherein, described shell (01) includes the first end face (06), the second end face (07), the 3rd end face (08) and the 4th end face (09), described first end face (06) is relative with described second end face (07), described 3rd end face (08) is: and end face away from human body the back of the hand adjacent with described first end face (06) and described second end face (07), described 4th end face (09) is the end face relative with described 3rd end face (08), and is provided with circuit board in described shell (01)。
One end of described first fixing band (02) is fixed on first end face (06) of described shell (01);
One end of described second fixing band (03) is fixed on second end face (07) of described shell (01);And the dismountable clamping of the other end of the other end of described first fixing band (02) and described second fixing band (03), described wearable device to be fixed on the arm position of human body。
Here, when the other end clamping of the other end of the first fixing band (02) and the second fixing band (03), can there is multiple implementation, specific in the present embodiment, the other end at the first fixing band (02) is provided with a protruding post (021), and described protruding post (021) includes cylinder (022) and cap (023) two parts;The other end at the second fixing band (03) is provided with some hole clippings (031), and the diameter of cap (023) is slightly larger than the diameter of hole clipping (031)。When needs the first fixing band (02) and the second fixing band (03) connect, slightly firmly the protruding post (021) of the first fixing band (02) is pushed a hole clipping (031) of the second fixing band (03), to realize clamping, when needs the first fixing band (02) and the second fixing band (03) separate, slightly firmly the protruding post (021) of the first fixing band (02) is released the hole clipping (031) at its place。
It is appreciated that, the mode that snaps connection of the first fixing band (02) and the second fixing band (03) is not limited to the implementation that above-described embodiment provides, can also having other implementations, as thread gluing connects, metal pin type connects, the mode connection of hammer drill etc.。
Described button (04), is disposed through the button installing hole of described 3rd end face (08), and part is positioned at outside described button installing hole, and part is positioned at inside described button installing hole, and electrically connects with the processor on described circuit board。
It should be noted that the length that button (04) is not positioned at described button installing hole Outboard Sections by this utility model embodiment is defined, it is possible to experience according to touching in practical application and carry out suitable adjustment。
4th end face (09) of described shell (01) is provided with projector installing hole (10), ambient light sensor installing hole (19) and RGB sensor mounting hole (20), wherein, described projector installing hole (10) is positioned at the side of upper and close described second end face (07) of described 4th end face (09);Described ambient light sensor installing hole (19) and RGB sensor mounting hole (20) are positioned at the side of upper and close described first end face (06) of described 4th end face (09);Projector on described circuit board, ambient light sensor and RGB sensor are respectively arranged in described projector installing hole (10), ambient light sensor installing hole (19) and RGB sensor mounting hole (20)。
It should be understood that projector be installed on projector installing hole (10) interior time, projector outer surface can flush with described 4th end face (09), it is also possible to is less than described 4th end face (09)。
It should be noted that, Fig. 5 illustrate only a kind of specific embodiment of the present utility model, this utility model embodiment is not to projector installing hole (10), distance between ambient light sensor installing hole (19) and RGB sensor mounting hole (20) is defined, also not to projector installing hole (10), ambient light sensor installing hole (19) and RGB sensor mounting hole (20) are defined to the outer peripheral distance of described 4th end face (09), as long as making projector installing hole (10), ambient light sensor installing hole (19) and RGB sensor mounting hole (20) disclosure satisfy that the needs of mechanical processing technique to the outer peripheral distance of described 4th end face (09)。
When described wearable device is in running order, processor on described circuit board receives the first colouring information of described ambient light sensor transmission and the second colouring information of described RGB sensor transmission, according to described first colouring information and described second colouring information, detect the colouring information of the projected background that the projector of described wearable device projects。Wherein, projector is for launching the laser projection light beam with preset color temperature。
Described circuit board is arranged in described shell (01), being provided with processor on described circuit board and for storing the memorizer of information image to be projected, described button (04), described touch screen (05), described memorizer, described projector, described environment electrical distance sensor, described RGB sensor electrically connect with described processor。
In a kind of specific embodiment of the present utility model, described wearable device also includes: speaker;
Described 3rd end face (08) of described shell (01) is additionally provided with speaker installing hole (13), described speaker is installed in described speaker installing hole (13), and described speaker electrically connects with described processor。
In another specific embodiment of the present utility model, described first end face (06) of described shell (01) and described second end face (07) are also respectively provided with first Mike's installing hole (14) and second Mike's installing hole (15), it is respectively arranged with the first Mike and the second Mike in described first Mike's installing hole (14) and second Mike's installing hole (15), and described first Mike and the second Mike electrically connect with the processor on described circuit board。
Wherein, described projector installing hole (10) and described sensor mounting hole the hole heart be located along the same line。
Wherein, described projector is installed in described projector installing hole (10), and the projection lens place plane of described projector is in the same plane with described 4th end face (09)。
In another specific embodiment of the present utility model, 4th end face (09) of described shell (01) is additionally provided with intensity of illumination sensor mounting hole (21), wherein, described intensity of illumination sensor mounting hole (21) is positioned at the side of upper and close described first end face (06) of described 4th end face (09);Intensity of illumination sensor on described circuit board is installed in described intensity of illumination sensor mounting hole (21)。
It should be noted that, Fig. 5 illustrate only a kind of specific embodiment of the present utility model, described light intensity illuminance transducer installing hole (21) need not be defined by this utility model embodiment to the outer peripheral distance of described 4th end face (09), makes described light intensity illuminance transducer installing hole (21) disclosure satisfy that the needs of mechanical processing technique to the outer peripheral distance of described 4th end face (09) as far as possible。
When described wearable device is in running order, processor on described circuit board receives the intensity of illumination of the environment light of external environment condition residing for the described wearable device that described intensity of illumination sensor sends, and according to described intensity of illumination, described first colouring information and described second colouring information, it is thus achieved that the colouring information of described projected background;When judging that projecting environment residing for described wearable device changes according to described intensity of illumination, send colouring information to described ambient light sensor and described RGB sensor respectively and gather signal, so that current the first colouring information of described ambient light sensor collection and current the second colouring information of described RGB sensor acquisition。
In another specific embodiment of the present utility model, 4th end face (09) of described shell (01) is additionally provided with range sensor installing hole (22), wherein, described range sensor installing hole (22) is positioned at the side of upper and close described first end face (06) of described 4th end face (09);Electrical distance sensor on described circuit board is installed in described range sensor installing hole (22)。
It should be noted that, Fig. 5 illustrate only a kind of specific embodiment of the present utility model, described range sensor installing hole (22) need not be defined by this utility model embodiment to the outer peripheral distance of described 4th end face (09), makes described range sensor installing hole (22) disclosure satisfy that the needs of mechanical processing technique to the outer peripheral distance of described 4th end face (09) as far as possible。
Additionally, this utility model does not limit the relative position of described light intensity illuminance transducer installing hole (21) and described range sensor installing hole (22), that is, can be described light intensity illuminance transducer installing hole (21) than described range sensor installing hole (22) closer to described first end face (06), it is also possible to be described range sensor installing hole (22) as shown in Figure 5 closer to described first end face (06)。
Concrete, the type of described range sensor sum be originated from following several in one:
Infrared laser ranging sensor, infrared LED distance measuring sensor or close to optical sensor。
When described wearable device is in running order, processor on described circuit board receives the projector distance that described range sensor sends, and when judging that the projection environment residing for described wearable device changes according to described projector distance, send colouring information to described ambient light sensor and described RGB sensor respectively and gather signal, so that current the first colouring information of described ambient light sensor collection and current the second colouring information of described RGB sensor acquisition。
In another specific embodiment of the present utility model, when described wearable device is in running order, the colouring information according to the projected background obtained of the processor on described circuit board, it is determined that the colouring information of projection prospect。
Understand in order to convenient, below the work process of the wearable device that above-mentioned this utility model provides illustrated:
First, this wearable device obtains the colouring information of the environment light of external environment condition residing for it by ambient light sensor, and sends the first colouring information gathered to the processor on described circuit board;
Secondly, the laser projection light beam with preset color temperature launched by projector to projected background, and RGB sensor receives the reflection light of this laser projection light beam and gathers the colouring information of this reflection light, sends the second colouring information gathered to described processor;
Finally, processor is according to the first colouring information received and the second colouring information, it is thus achieved that the colouring information of projected background。
Visible, application this utility model embodiment, image without acquired projections background, when projected background is carried out color detection, available sensor device is to obtain related data, and the data volume of these data is much smaller than the data volume of gathered image, therefore reduce data and process the time spent, improve detection speed。It addition, when projected background is carried out color detection, sensor device obtains the electricity consumed in the process of relevant device would generally run, far below photographic head, the electricity consumed, and has the superior function that power consumption is low, therefore, is relatively specific for portable projector equipment。
Each embodiment in this specification all adopts relevant mode to describe, between each embodiment identical similar part mutually referring to, what each embodiment stressed is the difference with other embodiments。Especially for system embodiment, owing to it is substantially similar to embodiment of the method, so what describe is fairly simple, relevant part illustrates referring to the part of embodiment of the method。
The foregoing is only preferred embodiment of the present utility model, be not intended to limit protection domain of the present utility model。All make within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., be all contained in protection domain of the present utility model。