CN105376463B - Wearable intelligent device with camera - Google Patents

Abstract

The invention provides wearable intelligent equipment with a camera, which comprises an equipment host and the camera, wherein the camera is connected with the equipment host and can move relative to the equipment host, and the shooting sight of the camera can be blocked during movement. After adopting above-mentioned structure, when needs protection privacy, when the camera is unsuitable to reuse, the mobile camera of user for example rotates, slides or flexible makes the shooting sight of camera obstructed, can not influence other functions of wearable smart machine like this, and the user still can wear this equipment, and the user can come the activity camera as other people's face in addition, and the convenience of customers more is convenient for communicate with other people, more has hommization. And because the camera is still connected with the equipment host, the camera is not easy to lose.

Description

Wearable intelligent device with camera

The technical field is as follows:

the invention relates to the field of wearable intelligent equipment, in particular to wearable intelligent equipment with a camera.

The background art comprises the following steps:

with the development of science and technology, people no longer satisfy handheld mobile intelligent terminals, such as cell-phones, panel computers etc. and then develop many wearable smart devices, such as intelligent wrist-watch, intelligent glasses etc.. Google company has promoted a google glasses, and it is equipped with a miniature display screen including setting up the wide strip computer processor device on picture frame right side on the camera of glasses place ahead suspension, lens, can project data on the camera of user's right eye top to realize a wearable intelligent terminal overhead, it possesses functions such as demonstration, make a video recording, data processing and upload, download, can realize intelligent terminal's any function in theory.

However, this kind of equipment has not been promoted for many reasons, and one of them reason is that, the camera that hangs in the equipment the place ahead is located equipment the place ahead all the time, and is working always, in some occasions that need protect people's privacy, or when people in front of the user need protect privacy, the function of taking a picture this moment just is unsuitable to be used again, however if the user takes off this wearable smart machine of taking the camera, just can not realize other functions of smart machine, if wear this wearable smart machine, then can not protect privacy again.

The invention content is as follows:

the wearable intelligent device with the camera provided by the invention can be used for overcoming the technical defects in the prior art and protecting privacy without being taken down.

The technical scheme provided by the invention is as follows: the invention provides wearable intelligent equipment with a camera, which comprises an equipment host and the camera, wherein the camera is connected with the equipment host and can move relative to the equipment host, and the shooting sight of the camera can be blocked during movement.

The equipment host is connected on a wearable support, or the camera and the equipment host are both connected on the same wearable support.

After adopting above-mentioned structure, the camera is connected on the equipment host computer, but it is movable for the equipment host computer, can make the shooting sight of camera obstructed during the activity, therefore, protect the privacy when needs, when the camera is unsuitable to reuse, the mobile camera of user for example rotates, slide or flexible shooting sight that makes the camera is obstructed, can not influence other functions of wearable smart machine like this, the user still can wear this equipment, and the user can come the activity camera as other people's face, convenience of customers is convenient for communicate with other people more, it is more humanized. And because the camera is still connected with the equipment host, the camera is not easy to lose.

Preferably, the wearable support is a spectacle frame, a head-mounted support, an ear-hanging support or a helmet. The wearable support referred to herein is any wearable device that can be worn on the head and provide support for the device, the glasses are commonly used head-mounted devices, the glasses frame provides support for the lenses of the glasses, the glasses frame can also be used as support for the wearable smart device with the camera herein, the earphone support is also a head-mounted device, and can also provide support for the wearable smart device with the camera herein, and the helmet serves as a head-mounted device, and of course, can also provide support for the wearable smart device with the camera herein. In theory, any head-mounted device can provide support for the wearable smart device with the camera herein.

The camera is movable relative to the equipment main machine, namely, the camera can stretch, slide or bend relative to the equipment main machine. The movable camera can be realized no matter stretching, sliding or bending, so that the shooting of the camera is blocked.

Preferably, the camera is telescopic relative to the equipment host, that is, the camera is connected with the equipment host through a telescopic structure, when the telescopic structure extends out, the shooting sight of the camera is normal, and when the telescopic structure retracts, the shooting sight of the camera is blocked. The normal shooting sight of the camera means that the camera can normally shoot a required image, and the blocked shooting sight means that the image shot by the camera is limited. The telescopic structure can be a structure which realizes the telescopic function such as a spring, a fence type telescopic frame and a cylinder, and can be electric telescopic structure or manual telescopic structure. The telescopic structure is connected on the camera, during the withdrawal, is pulling the camera and is breaking away from normal shooting direction, and when stretching out, the camera gets back to normal shooting direction.

Preferably, the camera is slidable relative to the device host, that is, the camera is connected with the device host through a sliding structure, when the camera slides out of the device host, the shooting sight of the camera is normal, and when the camera slides into the device host, the shooting sight of the camera is blocked. By adopting the structure, the sliding groove and the sliding block are respectively arranged on the camera and the equipment host, so that the camera is in sliding connection with the equipment host, when the camera slides out, the camera enters the normal shooting direction, when the camera slides back, the shooting sight of the camera is blocked, the sliding direction can be vertical to the sight direction of a user, a certain angle can also be arranged, and the functions can be realized.

Preferably, the fact that the camera is bendable relative to the device host means that the camera is rotatably connected with the device host, or the camera is connected with the device host through a flexible connection structure. The camera can indicate that the camera rotates with the equipment host computer to be connected for the equipment host computer flexible promptly, can indicate again that the camera passes through flexible connection structure to be connected with the equipment host computer, makes the camera flexible for the equipment host computer through crooked flexible connection structure.

The flexible connecting structure comprises a spring, an elastic sheet or a flexible connecting belt. The flexible connection structure is not limited to the above mentioned ones, but the flexible connection structure can be called as a flexible connection structure as long as the flexible connection structure is bendable, the flexible connection structure also comprises a flexible connection structure with elasticity, one end of the flexible connection structure is connected to the camera, the other end of the flexible connection structure is connected to the equipment host, and the flexible connection structure is bent to bend the camera to a certain angle relative to the equipment host, so that the camera leaves the original position, namely, the shooting sight of the camera is blocked.

As an improvement, still be equipped with on the equipment host computer and retract the equipment host computer at the camera, perhaps slide in the equipment host computer, perhaps can block the camera for the crooked back of equipment host computer, prevent the camera because of unexpected first limit structure who resets down, be equipped with on the camera with first limit structure complex second limit structure. The camera is in a working state when being in a normal shooting sight line position, the camera is in a retraction state when being in a position where the shooting sight line is blocked, and the camera is reset, namely the camera is separated from the retraction state.

The first limiting structure and the second limiting structure are connected in a magnetic mode or clamped in a clamping groove in a buckling mode, or bonded in a magic tape mode or inserted in a slot plug mode. The magnetic connection is adopted, namely the first limiting mechanism and the second limiting mechanism are two magnets which can attract each other respectively, or one of the magnets and the other magnet are objects which can be attracted by the magnets. When the camera withdraws into the equipment host, the camera is absorbed, the reset caused by carelessness of a user is prevented, the camera can keep the state of withdrawing the equipment host, and the camera can be reset only by applying certain force by the user. When camera and equipment host computer sliding connection, also can provide suction when the camera slides to the equipment host computer, prevent that the camera from reseing. When the camera for equipment host computer flexible connection, when the equipment host computer is pressed close to the another side of camera bending, provide suction, hold the camera, prevent that the camera from reseing. The magnet may be a permanent magnet or an electromagnet.

Adopt the mode joint of buckle draw-in groove, one of them establishes the draw-in groove on equipment host computer and the camera, and another establishes the buckle, can provide the spacing of certain dynamics when the camera is withdrawal, slides back or crooked equally, makes the camera keep withdrawal, slides back or crooked state, prevents that the camera from reseing.

Adopt magic subsides to bond, the one side of same camera is equipped with magic subsides public face of connecting, and the one side of equipment host computer is equipped with magic subsides female face of connecting, and camera accessible magic is pasted and is connected to the equipment host computer, provides the spacing of certain dynamics when the camera is retracted, is slided back or is crooked, makes the camera keep retracting, slides back or crooked state, prevents that the camera from reseing.

The mode that adopts slot and plug is connected with the mode class of buckle draw-in groove, provides the spacing of certain dynamics when the camera is retracted, is slided back or crooked, makes the camera keep the state of retraction, slided back or crooked, prevents that the camera from reseing.

The camera rotates with the equipment host computer to be connected and includes, establish the axis of rotation between equipment host computer and the camera, the equipment host computer pass through the axis of rotation with the camera is articulated. The axis of rotation can set up alone, also can be the partly of equipment host computer or camera, adopts this kind of common rotation to connect the structure, realizes that the camera rotates for equipment host computer to be connected.

The camera rotates with the equipment host and is connected including, it still includes a rotating turret, be equipped with first axis of rotation and second axis of rotation on the rotating turret, the equipment host is rotated with the rotating turret through first axis of rotation and is connected, the camera rotates with the rotating turret through the second axis of rotation and is connected. By adopting the structure, the camera can be bent relative to the equipment host, namely, the camera is connected in a rotating way.

The axes of the first rotating shaft and the second rotating shaft are vertical or parallel. When the first rotating shaft is vertical to the second rotating shaft, the rotating direction of the camera relative to the rotating frame is vertical to the rotating direction of the rotating frame relative to the equipment host, so that the camera can rotate relative to the equipment host not only in a plane but also in a three-dimensional manner, and the camera can be conveniently rotated to a proper position to be attached to the equipment host. When the first rotating shaft and the second rotating shaft are parallel, the camera can rotate in a plane relative to the equipment main machine.

The equipment host machine further comprises a first interface electrically connected with a circuit in the camera, the camera is also provided with a second interface electrically connected with the circuit in the equipment host machine, and the first interface and the second interface are connected or separated through rotation of the camera relative to the equipment host machine. By adopting the structure, when the camera rotates relative to the equipment host to enable the shooting sight of the camera to be blocked, the first interface is separated from the second interface, so that the camera loses the shooting function due to power failure, the power consumption of the camera can be saved, when the camera returns to a working state, the shooting sight is normal, the first interface is communicated with the second interface, and the camera plays a role again.

Preferably, one of the first interface and the second interface comprises at least one conductive contact, the other one of the first interface and the second interface comprises at least one conductive elastic sheet corresponding to the position of the conductive contact, the conductive contact is electrically connected with a circuit in the equipment host or the camera, the conductive elastic sheet is electrically connected with the circuit in the equipment host or the camera, and when the camera is connected to the equipment host, each conductive elastic sheet is contacted with the conductive contact corresponding to the position of the conductive elastic sheet and is conducted. The conductive elastic sheet and the conductive contact are used as the electric connection mode of the first interface and the second interface, only the connection interfaces of the camera and the equipment host are required to be contacted with each other, and the elastic sheet is used, so that the connection part of the conductive contact and the conductive elastic sheet has certain elasticity, and the conductive contact and the conductive elastic sheet cannot be easily separated or have poor contact.

Preferably, one of the first interface and the second interface comprises at least one conductive groove made of conductive material, the other one comprises at least one conductive protrusion corresponding to the position of the groove, the conductive groove is electrically connected with a circuit in the device host or the camera, the conductive protrusion is electrically connected with the circuit in the device host or the camera, and when the camera is connected to the device host, each conductive protrusion is embedded in the corresponding conductive groove and is mutually conducted. By adopting the electric connection mode, not only the electric connection of the first interface and the second interface is provided, but also a positioning mode is provided, when the conductive protrusion is embedded in the conductive groove, a certain lateral resistance is provided, the user is prompted to slide to a proper position, and the sliding deviation of the user is prevented.

As an improvement, when the camera and the equipment host are connected through sliding, stretching or elastic connection structures, the camera and the equipment host are electrically connected through a connecting wire. By adopting the structure, if the camera and the equipment host need to be electrically connected, the circuit in the camera and the circuit in the equipment host can be directly electrically connected through the connecting wire, and the connecting wire is soft, so that the sliding and the expansion between the camera and the equipment host can not be influenced, or the connection is realized through a spring and an elastic sheet or an elastic rubber belt.

The camera is provided with a first wireless transmission module which can be in wireless connection with the equipment host or third-party equipment.

And the equipment host is provided with a second wireless transmission module which can be in wireless connection with the camera or third-party equipment. After the mode is adopted, the camera can wirelessly transmit data with the equipment host or the third-party equipment through the first wireless transmission module, the equipment host can also wirelessly transmit data with the camera or the third-party equipment through the second wireless transmission module, and the first wireless transmission module and the second wireless transmission module can adopt wireless transmission modules such as a WIFI module, a Bluetooth module or a wireless radio frequency module.

The camera is optically connected with the equipment host.

The equipment host is in butt joint with the camera through a light path. With the structure, the imaging module is arranged on the equipment host. The camera only provides the function of a lens, so that the camera only needs to be movably connected with the equipment host and optically connected without electric connection.

The application also provides a wearable smart machine of taking camera, and it still includes a device that can cover the camera lens of camera including connecting equipment host computer and the camera on the wearable support. By adopting the structure, the lens which can directly cover the camera can block the shooting sight of the camera, the privacy can be protected, and other functions of the wearable intelligent device can not be lost.

The device capable of covering the camera is a baffle movably connected in front of the camera, and can cover the lens of the camera during movement. The baffle is movably connected in front of the camera, and can shield the lens of the camera during rotation and can not shield the lens of the camera.

Description of the drawings:

fig. 1 is a schematic structural diagram of a wearable intelligent device with a camera according to the present invention;

FIG. 2 is a schematic structural diagram of a device host;

FIG. 3 is a schematic structural diagram of a camera;

FIG. 4 is a schematic structural view of one embodiment;

FIG. 5 is a schematic diagram of a camera according to an embodiment;

FIG. 6 is a schematic structural diagram of a second embodiment;

FIG. 7 is a schematic view of a second embodiment of a curved camera;

FIG. 8 is a schematic structural diagram of a third embodiment;

fig. 9 is a schematic structural diagram of the third embodiment in which the camera slides back to the main unit of the apparatus;

FIG. 10 is a schematic structural diagram of a fourth embodiment;

FIG. 11 is a schematic structural view of the fifth embodiment;

FIG. 12 is a schematic structural view of the sixth embodiment;

FIG. 13 is a schematic structural diagram of a seventh embodiment;

FIG. 14 is a schematic structural diagram of an eighth embodiment;

FIG. 15 is a schematic structural diagram of a ninth embodiment;

FIG. 16 is a schematic structural diagram of a ninth embodiment of a camera rotated 270 degrees;

FIG. 17 is a schematic structural view of a tenth embodiment;

fig. 18 is a schematic structural view of a camera head of the tenth embodiment, which is rotated by 180 degrees.

As shown in the figure: 100. the glasses frame comprises a glasses frame body, 200 parts of a main machine of the glasses frame body, 300 parts of a camera, 210 parts of a power supply, 220 parts of the equipment main machine, a central processing unit, 230 parts of a memory, 240 parts of the camera interface module, 310 parts of an imaging module, 320 parts of a camera driving module, 260 parts of a clamping hook, 340 parts of a lens, 350 parts of an arrow-head-shaped sliding groove, 251 parts of a clamping groove, 252 parts of a first magnetic device, 332 parts of a second magnetic device, 253 parts of a sliding groove, 333 parts of a sliding block, 400 parts of a head-mounted support, 500 parts of a rotating frame, 510 parts of a first rotating shaft, 520 parts of a second rotating shaft, 600 parts of a telescopic mechanism, 700 parts of a flexible connecting band.

The specific implementation mode is as follows:

the invention is described in detail below with reference to the following figures and specific embodiments:

as shown in fig. 1 to 18, the wearable smart device with a camera according to the present invention includes a device host 200 and a camera 300, where the camera 300 is connected to the device host 200, and is movable relative to the device host 200, and the visual range of the camera 300 is blocked when the camera is movable. The camera 300 and the device main body 200 can move, when the camera 300 moves, the camera can move to a position to enable the shooting sight line to be normal, the state is called as a working state, when the camera moves to another position, the sight line range is blocked, and the state is called as a retraction state.

The device host 200 is connected to a wearable mount, or the camera 300 is connected to a wearable mount.

The camera 300 may be a whole camera device with a lens and an imaging module, or may be only a lens, but as long as the camera can be connected with a device host, the camera can be a device that does not have a camera function when the camera is separated from the device host.

The wearable support may be a spectacle frame, a head-mounted support, or a helmet. The ear-hanging bracket also belongs to the head-wearing bracket described in the present application, and fig. 1 illustrates an eyeglass frame 100, fig. 14 illustrates a head-wearing bracket 400, which is similar to an earphone rack and can be worn on the head or hung on the ear.

The device host 200 generally includes a power supply 210, a central processing unit 220, a memory 230, and a camera interface module 240, which are all disposed in the device host to provide the functions of the host. If the camera is only a lens, an imaging module and a camera driving module are also arranged in the device host. Other modules, such as a wireless transmission module and a USB interface module, can also be arranged in the equipment host.

The device host 200 and the camera 300 directly transmit the electrical signal through the connection line and transmit the image signal through the electrical signal, and if the camera is only a lens, the device host needs to be optically connected with the lens of the camera so as to realize the camera shooting function.

The camera 300 is movable relative to the device main body 200, that is, the camera 300 can be extended, slid or bent relative to the device main body 200.

One of the embodiments is as follows:

as shown in fig. 4 and 5, the camera 300 is connected with the equipment host 200 through the telescopic mechanism, in this embodiment, the telescopic mechanism includes the spring 600 and the self-locking mechanism, but the telescopic mechanism can also be a structure with telescopic functions such as a cylinder, a fence type telescopic frame, etc., and the telescopic mechanism should be the application, in this embodiment, the self-locking mechanism includes the hook 260 arranged on the equipment host 200, the arrow-shaped chute 350 arranged on the camera 300, when the camera is positioned in the equipment host, the hook is hooked at the arrow tail of the arrow-shaped chute, the spring is in a power accumulation state, when the camera is pressed down towards the equipment host, the hook slides in the chute, the edge slides along the chute of the arrow tail, the camera is released again at the moment, the camera pops outwards due to the elasticity of the spring, until the arrow tip of the hook is hooked at the arrow tail of the arrow-shaped chute, the camera is hooked at the moment, the pop-up is prevented, if the camera is pressed back to the equipment host, the camera is pressed until the edge of the arrow tail slides to the arrow tail, then the hook is loosened again, the hook is automatically locked at the arrow tail, and the pop-up is prevented.

The second embodiment:

as shown in fig. 6 and 7, the camera 300 is connected with the equipment host through a flexible connecting band, the flexible connecting band can be a rubber band, a silica gel band or a cloth band, etc., the equipment host 200 is further provided with a first magnetic device 252 and a second magnetic device 332 on the camera 300, when the camera bends and rotates 270 degrees to the other side of the equipment host, the camera is adsorbed on the equipment host through a first disposable device and the second magnetic device, and the adsorption force is so large that the first magnetic device and the second magnetic device cannot be separated due to accidents. In the connection structure, the camera and the device host can be electrically connected through a connection line.

The third embodiment:

as shown in fig. 8 and 9, the camera 300 is slidably connected to the device host 200 through the sliding block 333 and the sliding groove 253, in this embodiment, the sliding groove is formed in the device host, the sliding block is formed in the camera, the sliding groove is an arc-shaped sliding groove, when the camera slides out, the camera normally shoots the sight line, and when the camera slides back to the device host along the sliding groove, the camera shooting is blocked. In this embodiment, the camera and the device host may also be electrically connected through a connection line.

The fourth embodiment:

as shown in fig. 10, a rotating frame 500 is provided between the camera 300 and the device host 200, and two rotating shafts are provided on the rotating frame 500: the camera 300 is rotatably connected with the rotating frame through the first rotating shaft 510, the device host 200 is rotatably connected with the rotating frame through the second rotating shaft 520, the axis of the first rotating shaft is parallel to the axis of the second rotating shaft in this embodiment, the camera 300 is rotatably connected with the device host 200 in this embodiment, and the camera can rotate 270 degrees relative to the device host.

The fifth embodiment:

as shown in fig. 11, the camera 300 is rotatably connected to the apparatus main body 200 through a rotating frame 500, and two rotating shafts are provided on the rotating frame 500: first axis of rotation 510 and second axis of rotation 520, camera 300 rotate with the rotating turret through first axis of rotation 510 to be connected, and equipment host 200 rotates with the rotating turret through second axis of rotation 520 to be connected, and the axis of first axis of rotation 510 is perpendicular with the axis of second axis of rotation 520 in this embodiment, so camera 300 can do three-dimensional rotation for equipment host 200, can rotate to the outside earlier, and then upwards rotate to can rotate the top of equipment host 200. May be attached to the device host.

In the above embodiment, the device host may be provided with a first limiting structure for preventing the camera from being reset accidentally, and the camera may be provided with a second limiting structure matched with the first limiting structure. If the magnetic connection is adopted, or the clamping is realized by adopting a clamping groove of a buckle, or the magic tape is adopted for bonding, or the insertion is realized by adopting a slot plug. Of course, the above-mentioned ways of blocking the camera include, but are not limited to, the above-mentioned ways, and any structures of the blocking camera described in this application should be within the scope of protection of this application. Of course, when the camera is in a working state, the device host or the camera is also provided with a limiting device for preventing the camera from being accidentally separated from the working state, the structure of the limiting device is similar to the first limiting structure and the second limiting structure, but the limiting device is within the protection scope of the application as long as the camera is movably connected with the device host.

Sixth embodiment:

as shown in fig. 12, be equipped with the opening on the equipment host computer 200, camera 300 passes through the axis of rotation and rotates to be connected in this opening, and camera lens 340 establishes on the camera, and during the rotation, camera lens 340 can be outwards, and it shoots the sight in user the place ahead, and the sight is unobstructed, also can rotate inwards, and it is obstructed to shoot the sight this moment, and the camera can't normally shoot.

The seventh embodiment:

as shown in fig. 13, a baffle 800 is disposed on the camera 300 for shielding the lens, and in this embodiment, the baffle is a curtain and can be retracted into the camera at ordinary times and slide out to shield the lens when necessary. Of course, the baffle 800 may also be disposed on the device host, but it is within the scope of the present application as long as it can block the lens when moving. And the baffle 800 may take other forms.

Eight of the examples:

as shown in fig. 14, in the wearable smart device with a camera, which is a head-mounted stand, the device host 200 is connected to the head-mounted stand 400, and the camera 300 is rotatably connected to the device host through a rotating shaft. The figures show the head-mounted support with the head as the support, and in practical application, the head-mounted support with the ears as the support is also available.

Nine examples:

as shown in fig. 15 and 16, the device main unit 200 and the camera 300 are rotatably connected by a rotating shaft, and in this embodiment, the camera can rotate 270 degrees relative to the device main unit to rotate to the side of the device main unit, so that the shooting sight of the camera is blocked.

Tenth example:

as shown in fig. 17 and 18, in another embodiment in which the device host 200 and the camera 300 are rotatably connected through a rotating shaft, the camera can rotate 180 degrees relative to the device host, and at this time, the corresponding direction of the camera is the opposite direction of the user's field of view, and the camera cannot shoot, even if shooting is still possible, the shooting is not normal shooting, and it may be called as blocking of the shooting line of sight of the camera described in this application.

In the above embodiment, the electric connection between the camera and the device host may be implemented by using a connection line, or by using a first interface on the device host and a second interface on the camera:

the equipment host machine further comprises a first interface electrically connected with a circuit in the camera, the camera is also provided with a second interface electrically connected with the circuit in the equipment host machine, and the first interface and the second interface are connected or separated through rotation of the camera relative to the equipment host machine. By adopting the structure, when the camera rotates relative to the equipment host to enable the camera to leave the user visual field, the first interface is separated from the second interface, so that the camera loses the display function due to power failure, the power consumption of the camera can be saved, when the camera returns to the initial position, the camera returns the user visual field, the first interface is communicated with the second interface, and the camera plays a role again.

Preferably, one of the first interface and the second interface comprises at least one conductive contact, the other one of the first interface and the second interface comprises at least one conductive elastic sheet corresponding to the position of the conductive contact, the conductive contact is electrically connected with a circuit in the equipment host or the camera, the conductive elastic sheet is electrically connected with the circuit in the equipment host or the camera, and when the camera is connected to the equipment host, each conductive elastic sheet is in contact with and conducted with the conductive contact corresponding to the position of the conductive elastic sheet. The conductive elastic sheet and the conductive contact are used as the electric connection mode of the first interface and the second interface, only the connection interfaces of the camera and the equipment host are required to be contacted with each other, and the elastic sheet is used, so that the connection part of the conductive contact and the conductive elastic sheet has certain elasticity, and the conductive contact and the conductive elastic sheet cannot be easily separated or are not in poor contact.

Preferably, one of the first interface and the second interface comprises at least one conductive groove made of conductive material, the other one comprises at least one conductive protrusion corresponding to the position of the groove, the conductive groove is electrically connected with a circuit in the device host or the camera, the conductive protrusion is electrically connected with the circuit in the device host or the camera, and when the camera is connected to the device host, each conductive protrusion is embedded in the corresponding conductive groove and is mutually conducted. By adopting the electric connection mode, not only the electric connection of the first interface and the second interface is provided, but also a positioning mode is provided, when the conductive protrusion is embedded in the conductive groove, a certain lateral resistance is provided, the user is prompted to slide to a proper position, and the sliding deviation of the user is prevented.

Of course, the camera may not be electrically connected with the device host. If the camera is a lens, the camera only needs to be optically connected with the equipment host.

Eleventh example:

the camera is provided with a first wireless transmission module which can be wirelessly connected with the equipment host or third-party equipment, and the equipment host is also provided with a second wireless transmission module which can be wirelessly connected with the camera or third-party equipment. The mechanical connection between the device host and the camera head may be any one or a combination of the above-mentioned movable connections. The first wireless transmission module and the second wireless transmission module are both WIFI modules. The camera can also be provided with a USB interface module which is connected with third-party equipment through a USB interface and used for transmitting images to the third-party equipment.

The twelfth embodiment:

the camera is a lens, and the mechanical connection between the equipment host and the camera can adopt any one of the movable connection modes or combination. The camera can be in butt joint with the equipment host through the optical interface, when the camera leaves the equipment host, the equipment host does not have a lens and cannot shoot, and when the equipment host is connected with the camera together, the equipment host has the lens and can realize a shooting function.

The wearable smart device with a camera described in this application includes, but is not limited to, the above embodiments or combinations, but it is within the scope of the present application as long as the camera is connected to the device host and the two are relatively movable.

Claims (18)

1. The utility model provides a take wearable smart machine of camera, it includes equipment host computer and forward camera, its characterized in that: the forward camera is connected to the equipment host, can move relative to the equipment host and can block the shooting sight of the forward camera during movement; when the privacy of people before need protection user's face, when the camera forward is unsuitable to reuse, the mobile camera forward of user makes the shooting sight of camera forward obstructed and does not influence other functions of wearable smart machine, and still be in the same place with equipment host computer connection forward camera, a wearable support is connected to equipment host computer, or a wearable support is connected to the camera, or equipment host computer and camera all are connected with same wearable support, wearable support is glasses mirror holder, head-mounted support, supra-aural support or helmet, the camera is mobile for equipment host computer and indicates, and the camera is scalable for equipment host computer, slides or bends.

2. The wearable smart device with a camera of claim 1, wherein: the camera is telescopic relative to the equipment host, and the camera is connected with the equipment host through a telescopic structure.

3. The wearable smart device with a camera of claim 1, wherein: the camera is slidable relative to the equipment host, that is, the camera is connected with the equipment host through a sliding structure.

4. The wearable smart device with a camera of claim 1, wherein: the camera is bendable relative to the equipment host, namely the camera is rotatably connected with the equipment host, or the camera is connected with the equipment host through a flexible connection structure.

5. The wearable smart device with a camera of claim 4, wherein: the flexible connecting structure comprises a spring, an elastic sheet or a flexible connecting belt.

6. The wearable smart device with a camera according to claims 2, 3, or 4, wherein: still be equipped with on the equipment host computer and retract equipment host computer at the camera, perhaps slide in equipment host computer, perhaps can block the camera for equipment host computer crooked back, prevent the first limit structure that the camera resets because of the accident, be equipped with on the camera with first limit structure complex second limit structure.

7. The wearable smart device with a camera according to claim 6, wherein: the first limiting structure and the second limiting structure are connected in a magnetic mode, or clamped in a buckling clamping groove mode, or bonded through magic tapes, or spliced through a slot plug mode.

8. The wearable smart device with a camera according to claim 4, wherein: the camera rotates with the equipment host to be connected and includes, establish the axis of rotation between equipment host and the camera, the equipment host pass through the axis of rotation with the camera is articulated.

9. The wearable smart device with a camera of claim 4, wherein: the camera rotates with the equipment host to be connected and includes, and it still includes a rotating turret, be equipped with first axis of rotation and second axis of rotation on the rotating turret, the equipment host is rotated with the rotating turret through first axis of rotation and is connected, the camera passes through the second axis of rotation and is connected with the rotating turret rotation.

10. The wearable smart device with a camera according to claim 9, wherein: the axes of the first rotating shaft and the second rotating shaft are vertical or parallel.

11. The wearable smart device with a camera according to claim 1, wherein: the equipment host machine further comprises a first interface electrically connected with a circuit in the camera, the camera is also provided with a second interface electrically connected with the circuit in the equipment host machine, and the first interface and the second interface are connected or separated through rotation of the camera relative to the equipment host machine.

12. The wearable smart device with a camera of claim 11, wherein: one of the first interface and the second interface comprises at least one conductive contact, the other one comprises at least one conductive elastic sheet corresponding to the position of the conductive contact, the conductive contact is electrically connected with a circuit in the equipment host or the camera, the conductive elastic sheet is electrically connected with the circuit in the equipment host or the camera, and when the camera rotates to the normal shooting sight line, each conductive elastic sheet is in contact with and conducted with the conductive contact corresponding to the position of the conductive elastic sheet.

13. The wearable smart device with a camera of claim 11, wherein: one of the first interface and the second interface comprises at least one conductive groove made of conductive materials, the other one of the first interface and the second interface comprises at least one conductive protrusion corresponding to the groove, the conductive groove is electrically connected with a circuit in the equipment host or the camera, the conductive protrusion is electrically connected with the circuit in the equipment host or the camera, and when the camera rotates to the normal shooting sight line, each conductive protrusion is embedded in the corresponding conductive groove and is mutually conducted.

14. The wearable smart device with a camera of claim 1, wherein: the camera is electrically connected with the equipment host through a connecting wire.

15. The wearable smart device of any of claims 1-5 and 8-14, wherein: the camera is optically connected with the equipment host.

16. The wearable smart device of claim 15, wherein: the equipment host is in butt joint with the camera through an optical interface.

17. The wearable smart device of any of claims 1-5 and 8-14, wherein: the camera is provided with a first wireless transmission module which can be in wireless connection with the equipment host or the third-party equipment.

18. The wearable smart device of any of claims 1-5 and 8-14, wherein: and the equipment host is provided with a second wireless transmission module which can be in wireless connection with the camera or third-party equipment.

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