CN117826566A - Shooting method, intelligent host and intelligent wearable device thereof - Google Patents

Abstract

The invention relates to the technical field of intelligent wearing equipment and discloses a shooting method, an intelligent host and intelligent wearing equipment thereof. By adopting the shooting method, when the intelligent host computer shoots, a user can shoot the shooting object by aiming the shooting module, and the shooting module can shoot the shooting object clearly.

Description

Shooting method, intelligent host and intelligent wearable device thereof

Technical Field

The invention relates to the technical field of intelligent wearing equipment, in particular to a shooting method, an intelligent host and intelligent wearing equipment thereof.

Background

In related art, an intelligent wearable device (such as an intelligent watch, an intelligent bracelet, etc.) is generally equipped with a camera module and a display screen to realize functions of photographing, video recording, code scanning, etc. The code scanning is mainly to identify the two-dimensional code through the camera module, so that mobile payment, information acquisition, website jump and the like are performed. However, the camera module of intelligent wearing equipment is same orientation with the display screen generally, and when the user sweeps the code, the camera module orientation two-dimensional code, then the user can't watch the display screen, and this leads to the user to be difficult to shoot the camera module alignment two-dimensional code, and the camera module is difficult to clearly shoot the two-dimensional code.

Disclosure of Invention

The embodiment of the invention discloses a shooting method, an intelligent host and intelligent wearable equipment thereof, wherein a user can shoot a shooting object by aiming at a shooting module, and the shooting module can shoot the shooting object clearly.

In a first aspect, an embodiment of the present invention discloses a shooting method, which is applied to an intelligent host, where the intelligent host includes a host body, a camera module, and a light emitting component, where the host body has a display surface, the display surface is provided with a display screen, the camera module is disposed on the display surface, a shooting direction of the camera module is the same as a display direction of the display screen, the light emitting component is disposed on the display surface, and the light emitting component is disposed at intervals with the camera module, and the light emitting component is used to emit light to a shooting object shot by the camera module;

the shooting method comprises the following steps:

shooting the intelligent host towards the shooting object;

adjusting the angle of the intelligent host to enable the light emitted by the light emitting component to be aligned to the shooting object;

and adjusting the distance between the intelligent host and the shooting object so that the shooting object falls into the range boundary of the light emitted by the light-emitting component, and the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light-emitting component.

As an optional implementation manner, in an embodiment of the present invention, the adjusting a distance between the smart host and the shooting object includes:

increasing a distance between the smart host and the photographic subject when the photographic subject portion is located outside a range boundary of light emitted by the light emitting means;

when the photographing object is completely located within the range boundary of the light emitted from the light emitting part and the outline of the photographing object is far from the outline of the range boundary of the light emitted from the light emitting part, the distance between the smart host and the photographing object is reduced.

As an alternative implementation manner, in an embodiment of the present invention, an optical element is disposed on a light emitting side of the light emitting component, and the optical element is configured to change a contour of light emitted by the light emitting component so that a contour of a range boundary of the light emitted by the light emitting component matches a contour of the photographic subject.

As an optional implementation manner, in an embodiment of the present invention, the smart host further includes a ranging component, where the ranging component is provided on the host body, and the ranging component is configured to measure a distance between the camera module and the shooting object;

the adjusting the distance between the intelligent host and the shooting object comprises the following steps:

comparing the distance between the camera module and the shooting object with a preset shooting distance;

and increasing or decreasing the distance between the intelligent host and the shooting object so that the distance between the intelligent host and the shooting object is equal to the preset shooting distance.

As an optional implementation manner, in an embodiment of the present invention, the ranging component includes an infrared emitter and an infrared receiver, where the infrared emitter and the infrared receiver are disposed on the display surface at intervals, the infrared emitter is configured to emit infrared light toward the shooting object, and the infrared receiver is configured to receive the infrared light reflected by the shooting object.

As an optional implementation manner, in an embodiment of the present invention, the smart host further includes a sound generating device, where the sound generating device is disposed on the host body, and the sound generating device is configured to emit sound information with different frequencies according to a difference between a distance between the smart host and the shooting object and the preset shooting distance.

In a second aspect, an embodiment of the invention discloses an intelligent host, which comprises a host body, a camera module and a light-emitting component, wherein the host body is provided with a display surface, the display surface is provided with a display screen, the camera module is arranged on the display surface, the shooting direction of the camera module is the same as the display direction of the display screen, the light-emitting component is arranged on the display surface, the light-emitting component and the camera module are arranged at intervals, and the light-emitting component is used for emitting light to a shooting object shot by the camera module.

As an alternative implementation manner, in an embodiment of the present invention, an optical element is disposed on a light emitting side of the light emitting component, and the optical element is configured to change a contour of light emitted by the light emitting component so that a contour of a range boundary of the light emitted by the light emitting component matches a contour of the photographic subject.

As an optional implementation manner, in an embodiment of the present invention, the smart host further includes a ranging component, where the ranging component is disposed on the host body, and the ranging component is configured to measure a distance between the camera module and the photographic object.

As an optional implementation manner, in an embodiment of the present invention, the ranging component includes an infrared emitter and an infrared receiver, where the infrared emitter and the infrared receiver are disposed on the display surface at intervals, the infrared emitter is configured to emit infrared light toward the shooting object, and the infrared receiver is configured to receive the infrared light reflected by the shooting object.

As an optional implementation manner, in an embodiment of the present invention, the smart host further includes a sound generating device, where the sound generating device is disposed on the host body, and the sound generating device is configured to emit sound information with different frequencies according to a difference between a distance between the smart host and the shooting object and the preset shooting distance.

In a second aspect, an embodiment of the present invention discloses an intelligent wearable device, where the intelligent wearable device includes a wearable component and an intelligent host of the second aspect, and the wearable component is connected to the host body of the intelligent host.

Compared with the prior art, the embodiment of the invention has at least the following beneficial effects:

in the embodiment of the invention, the camera module and the display screen are arranged on the display surface of the host body, the shooting direction of the camera module is the same as the display direction of the display screen, and the light-emitting component is arranged on the display surface and used for emitting light to a shooting object shot by the camera module. Like this, when utilizing the intelligent host to shoot towards the shooting object, can aim at the shooting object through the angle that makes the light that the luminescent part sent through adjusting the intelligent host to adjust the distance between intelligent host and the shooting object, make the shooting object fall into the scope boundary of the light that the luminescent part sent, and the contour of shooting object press close to the contour of scope boundary of the light that the luminescent part sent, at this moment, the user can aim at the shooting object with the module of making a video recording and shoot, the shooting object can be clearly shot to the module of making a video recording.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a photographing method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an intelligent host according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the positional relationship between an imaging module and a light emitting component according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an intelligent wearable device according to a third embodiment of the present invention.

Description of the main reference numerals

100. An intelligent host; 10. a host body; 10a, a display screen; 11. a camera module; 12. a light emitting member; 13. a display screen; 14. an optical element; 15. a ranging assembly; 151. an infrared emitter; 152. an infrared receiver.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are only used to better describe the present invention and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present invention will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish between different devices, elements, or components (the particular species and configurations may be the same or different), and are not used to indicate or imply the relative importance and number of devices, elements, or components indicated. Unless otherwise indicated, the meaning of "a plurality" is two or more.

The invention discloses a shooting method, an intelligent host and intelligent wearable equipment thereof, wherein a user can shoot a shooting object by aiming at a shooting module, and the shooting module can shoot the shooting object clearly.

Example 1

As shown in fig. 1, the intelligent host 100 includes a host body 10, a camera module 11 and a light emitting component 12, the host body 10 has a display surface 10a, the display surface 10a is provided with a display screen 13, the camera module 11 is disposed on the display surface 10a, the camera module 11 has the same shooting direction as the display direction of the display screen 13, the light emitting component 12 is disposed on the display surface 10a, the light emitting component 12 is disposed at intervals with the camera module 11, and the light emitting component 12 is used for emitting light to a shooting object shot by the camera module 11.

Fig. 2 is a flowchart of a photographing method according to a first embodiment of the present invention, where the photographing method includes the following steps:

s101, shooting the intelligent host 100 towards a shooting object.

The Light emitting component 12 may be an LED (Light emitting Diode) lamp, and the Light emitted by the LED lamp is visible Light, so that a user can directly observe that the Light emitted by the Light emitting component 12 irradiates the shooting object, so as to determine whether the shooting module 11 can shoot aiming at the shooting object according to the Light emitted by the Light emitting component 12.

As shown in fig. 3, fig. 3 shows a positional relationship between a shooting field of the image pickup module 11 and a light field of the light emitting member 12, and a shooting subject is shown in a dotted line box in fig. 3. The relationship between the subject and the image capturing module 11 and the light emitting member 12 is shown in five positions a, b, c, d, e, and when the subject is located at any one of the positions, the light emitted from the light emitting member 12 is directed to the subject.

S102, adjusting the angle of the intelligent host 100 to enable the light emitted by the light emitting component 12 to be aimed at the shooting object.

By implementing step S102, the image capturing module 11 can be made to capture an image of the subject, and at this time, the subject partially enters the image capturing frame of the image capturing module 11, the distance between the image capturing module 11 and the subject is small, or the distance between the image capturing module 11 and the subject is large when the subject entirely enters the image capturing frame of the image capturing module 11. As shown in fig. 3, the distance between the subject at the position a and the image pickup module 11 in fig. 3 is small, and the distance between the subject at the position e and the image pickup module 11 is small.

Further, the user can determine whether the imaging module 11 can capture an image of the subject directly by the light emitted from the light emitting member 12 without viewing the display 13. That is, when the light emitted from the light emitting member 12 is directed to the subject, the image capturing module 11 can queue up to the subject, and otherwise, cannot.

S103, adjusting the distance between the smart host 100 and the object so that the object falls within the boundary of the range of the light emitted by the light emitting component 12, and the contour of the object is close to the contour of the boundary of the range of the light emitted by the light emitting component 12.

Where the range boundary refers to the periphery of the light emitted by the light emitting component 12, for example, the light emitted by a flashlight is typically a cylindrical beam, the range boundary is circular, and the outline of the range boundary is a circle. As shown in fig. 3, the photographic subjects located at positions b, c, d in fig. 3 fall within the boundary of the range of light emitted from the light emitting member 12, and the outline of the photographic subject is close to the outline of the boundary of the range of light emitted from the light emitting member 12. The difference is that the size of the photographing object increases sequentially according to b, c, and d, and the larger the photographing object is, the farther the distance between the photographing module 11 and the photographing object can be.

In some embodiments, as shown in fig. 1, the light emitting side of the light emitting component 12 is provided with an optical element 14, and the optical element 14 is used to change the contour of the light emitted by the light emitting component 12 so that the contour of the boundary of the range of the light emitted by the light emitting component 12 matches the contour of the subject. The optical element 14 in fig. 1 shields the light emitting member 12, and the light emitting member 12 is shown in fig. 1 by a broken line in order to show the installation position of the light emitting member 12.

In this way, the outline of the range boundary of the light emitted by the light emitting component 12 is matched with the outline of the shooting object by the optical element 14, so that the shooting object can fall into the range boundary of the light emitted by the light emitting component 12 more accurately, the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light emitting component 12, and the definition of the shooting object by the shooting module 11 is improved. For example, when the object to be photographed is a two-dimensional code, the outline of the two-dimensional code is substantially square, and the optical element 14 can form the outline of the boundary of the range of light emitted from the light emitting member 12 into a square.

Alternatively, the optical element 14 may be a Fresnel lens (Fresnel lens) or other lens, a lens, or the like that changes the outline of the boundary of the range of light, which is not particularly limited in this embodiment.

The contour of the subject is close to the contour of the boundary of the light emitted by the light emitting component 12, so that the contour of the subject and the contour of the boundary of the light emitted by the light emitting component 12 tend to overlap as much as possible, because the contour of the subject and the contour of the boundary of the light emitted by the light emitting component 12 cannot be completely identical, there is a certain difference, and the distance between the smart host 100 and the subject is difficult to be finely adjusted, and when the image capturing module 11 captures the image of the subject, the finely-different distance does not greatly affect the definition captured by the image capturing module 11.

As an alternative embodiment, step S102 may include:

when the photographing object part is located outside the range boundary of the light emitted from the light emitting part 12, the distance between the smart host 100 and the photographing object is increased; when the photographing object is completely located within the boundary of the range of light emitted from the light emitting part 12 and the contour of the photographing object is far from the contour of the boundary of the range of light emitted from the light emitting part 12, the distance between the smart host 100 and the photographing object is reduced.

The relative position of the range boundary of the light emitted by the shooting object and the light emitting component 12 can be judged by naked eyes by a user without using the display screen 13, so that whether the current distance between the shooting module 11 and the shooting object can enable the shooting module 11 to shoot a clear image or not can be known, and then the distance between the intelligent host 100 and the shooting object can be adjusted. That is, when the camera module 11 shoots, the display 13 cannot be oriented to the user for the user to watch, so that the camera module 11 can still be aimed at the shooting object to shoot by means of the light emitted by the light emitting component 12, and the shooting definition is high.

As another alternative embodiment, as shown in fig. 1, the host can further include a ranging component 15, where the ranging component 15 is disposed on the host body 10, and the ranging component 15 is used for measuring the distance between the camera module 11 and the shooting object. Step S102 may include:

the distance between the intelligent host 100 and the shooting object is adjusted, the distance between the camera module 11 and the shooting object is compared with the preset shooting distance, and the distance between the intelligent host 100 and the shooting object is increased or decreased, so that the distance between the intelligent host 100 and the shooting object is equal to the preset shooting distance.

The preset shooting distance refers to a distance between the camera module 11 and the shooting object, which is matched with a focal length of the camera module 11, and the camera module 11 can shoot clear images at the distance.

Thus, the distance between the camera module 11 and the shooting object can be accurately measured through the distance measuring assembly 15, when the distance between the camera module 11 and the shooting object is greater than the preset shooting distance, the distance between the intelligent host 100 and the shooting object is reduced, and when the distance between the camera module 11 and the shooting object is smaller than the preset shooting distance, the distance between the intelligent host 100 and the shooting object is increased, so that the distance between the intelligent host 100 and the shooting object is equal to the preset shooting distance. At this time, the image capturing module 11 can clearly capture an image of the subject, and the accuracy of the distance adjustment is high.

Optionally, the distance measuring component 15 includes an infrared emitter 151 and an infrared receiver 152, where the infrared emitter 151 and the infrared receiver 152 are spaced apart from each other and disposed on the display surface 10a, the infrared emitter 151 is configured to emit infrared light to the shooting object, and the infrared receiver 152 is configured to receive the infrared light reflected by the shooting object. In this way, the infrared emitter 151 emits infrared light to the subject, and the infrared receiver 152 can calculate the time elapsed between the emission and the reception of the infrared light after receiving the infrared light reflected by the subject, so that the distance between the distance measuring unit 15 and the subject can be obtained, and the distance measuring unit 15 is provided on the display surface 10a in the same manner as the image capturing module 11, so that the distance between the image capturing module 11 and the subject can be obtained.

In some embodiments, the smart host 100 further includes a sound emitting device (not shown), where the sound emitting device is disposed on the host body 10, and the sound emitting device is configured to emit sound information with different frequencies according to a difference between a distance between the smart host 100 and a shooting object and a preset shooting distance. For example, the sound information may be a "drip" sound, and when the difference between the distance between the smart host 100 and the photographed object and the preset photographed distance is reduced, the frequency of the sound information may be increased to remind the user that the distance between the smart host 100 and the photographed object is about to be adjusted in place, and when the difference between the distance between the smart host 100 and the photographed object and the preset photographed distance is increased, the frequency of the sound information may be reduced to remind the user that an error occurs in the adjustment direction of the distance between the smart host 100 and the photographed object so as to correct in time.

In a first embodiment of the present invention, an image capturing module 11 and a display screen 13 are disposed on a display surface 10a of a host body 10, and an image capturing direction of the image capturing module 11 is the same as a display direction of the display screen 13, and a light emitting component 12 is disposed on the display surface 10a for emitting light to an image capturing object captured by the image capturing module 11. Thus, when the intelligent host 100 is used for shooting towards the shooting object, the angle of the intelligent host 100 can be adjusted to enable the light emitted by the light emitting component 12 to be aimed at the shooting object, and the distance between the intelligent host 100 and the shooting object is adjusted, so that the shooting object falls into the range boundary of the light emitted by the light emitting component 12, the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light emitting component 12, at the moment, a user can aim the shooting module 11 at the shooting object to shoot, and the shooting module 11 can clearly shoot the shooting object.

Example two

Referring to fig. 1, a schematic structural diagram of an intelligent host 100 according to a second embodiment of the present invention is provided, the intelligent host 100 includes a host body 10, a camera module 11 and a light emitting component 12, the host body 10 has a display surface 10a, the display surface 10a is provided with a display screen 13, the camera module 11 is provided on the display surface 10a, a shooting direction of the camera module 11 is the same as a display direction of the display screen 13, the light emitting component 12 is provided on the display surface 10a, the light emitting component 12 is spaced from the camera module 11, and the light emitting component 12 is used for emitting light to a shooting object shot by the camera module 11.

In this embodiment, the image capturing module 11 and the display screen 13 are disposed on the display surface 10a of the host body 10, and the image capturing direction of the image capturing module 11 is the same as the display direction of the display screen 13, and the light emitting component 12 is disposed on the display surface 10a for emitting light to the image capturing object captured by the image capturing module 11. In this way, when the smart host 100 is used to capture an image of a subject, the smart host 100 can be determined and adjusted by the light emitted from the light emitting unit 12, so that the image capturing module 11 can clearly capture the image of the subject. Specifically, the angle of the intelligent host 100 is adjusted to enable the light emitted by the light emitting component 12 to be aligned with the shooting object, and the distance between the intelligent host 100 and the shooting object is adjusted, so that the shooting object falls into the range boundary of the light emitted by the light emitting component 12, the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light emitting component 12, at this time, the user can shoot the shooting object with the shooting module 11 aligned with the shooting object, and the shooting module 11 can clearly shoot the shooting object.

In some embodiments, the light emitting side of the light emitting component 12 is provided with an optical element 14, and the optical element 14 is configured to change the contour of the light emitted by the light emitting component 12, so that the contour of the boundary of the range of the light emitted by the light emitting component 12 matches the contour of the photographic subject. Where the range boundary refers to the periphery of the light emitted by the light emitting component 12, for example, the light emitted by a flashlight is typically a cylindrical beam, the range boundary is circular, and the outline of the range boundary is a circle. In this way, the outline of the range boundary of the light emitted by the light emitting component 12 is matched with the outline of the shooting object by the optical element 14, so that the shooting object can fall into the range boundary of the light emitted by the light emitting component 12 more accurately, the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light emitting component 12, and the definition of the shooting object by the shooting module 11 is improved. For example, when the object to be photographed is a two-dimensional code, the outline of the two-dimensional code is substantially square, and the optical element 14 can form the outline of the boundary of the range of light emitted from the light emitting member 12 into a square.

The contour of the subject is close to the contour of the boundary of the light emitted by the light emitting component 12, so that the contour of the subject and the contour of the boundary of the light emitted by the light emitting component 12 tend to overlap as much as possible, because the contour of the subject and the contour of the boundary of the light emitted by the light emitting component 12 cannot be completely identical, there is a certain difference, and the distance between the smart host 100 and the subject is difficult to be finely adjusted, and when the image capturing module 11 captures the image of the subject, the finely-different distance does not greatly affect the definition captured by the image capturing module 11.

Optionally, the smart host 100 further includes a ranging component 15, where the ranging component 15 is disposed on the host body 10, and the ranging component 15 is used for measuring a distance between the camera module 11 and the shooting object. Like this, can accurately measure the distance between the module 11 of making a video recording to the shooting object through range finding assembly 15, the user can learn whether the module 11 of making a video recording is located the shooting distance of predetermineeing according to the distance between the module 11 of making a video recording to the shooting object, if yes, the module 11 of making a video recording can clearly shoot the shooting object, if no, the user adjusts the distance between smart host 100 and the shooting object according to the distance between the module 11 of making a video recording to the shooting object and the difference of predetermineeing the shooting distance. For example, if the difference is positive, the distance between the smart host 100 and the subject is reduced, whereas if the difference is positive, the distance between the smart host 100 and the subject is increased.

Illustratively, the ranging unit 15 includes an infrared emitter 151 and an infrared receiver 152, where the infrared emitter 151 and the infrared receiver 152 are spaced apart from each other and disposed on the display surface 10a, the infrared emitter 151 is configured to emit infrared light toward the photographing object, and the infrared receiver 152 is configured to receive infrared light reflected by the photographing object. In this way, the infrared emitter 151 emits infrared light to the subject, and the infrared receiver 152 can calculate the time elapsed between the emission and the reception of the infrared light after receiving the infrared light reflected by the subject, so that the distance between the distance measuring unit 15 and the subject can be obtained, and the distance measuring unit 15 is provided on the display surface 10a in the same manner as the image capturing module 11, so that the distance between the image capturing module 11 and the subject can be obtained.

The intelligent host 100 further includes a sound generating device (not shown), where the sound generating device is disposed on the host body 10, and the sound generating device is configured to generate sound information with different frequencies according to a difference between a distance between the intelligent host 100 and a shooting object and a preset shooting distance. For example, the sound information may be a "drip" sound, and when the difference between the distance between the smart host 100 and the photographed object and the preset photographed distance is reduced, the frequency of the sound information may be increased to remind the user that the distance between the smart host 100 and the photographed object is about to be adjusted in place, and when the difference between the distance between the smart host 100 and the photographed object and the preset photographed distance is increased, the frequency of the sound information may be reduced to remind the user that an error occurs in the adjustment direction of the distance between the smart host 100 and the photographed object so as to correct in time.

In a second embodiment of the present invention, an intelligent host 100 is provided, where an image capturing module 11 and a display screen 13 are disposed on a display surface 10a of a host body 10, and a capturing direction of the image capturing module 11 is the same as a display direction of the display screen 13, and a light emitting component 12 is disposed on the display surface 10a for emitting light to a capturing object captured by the image capturing module 11. Thus, when the intelligent host 100 is used for shooting towards the shooting object, the angle of the intelligent host 100 can be adjusted to enable the light emitted by the light emitting component 12 to be aimed at the shooting object, and the distance between the intelligent host 100 and the shooting object is adjusted, so that the shooting object falls into the range boundary of the light emitted by the light emitting component 12, the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light emitting component 12, at the moment, a user can aim the shooting module 11 at the shooting object to shoot, and the shooting module 11 can clearly shoot the shooting object.

Example III

Referring to fig. 4, a schematic structural diagram of an intelligent wearable device 300 according to a third embodiment of the present invention is shown, where the intelligent wearable device 300 includes a wearable component 30 and an intelligent host 100 according to a second embodiment, and the wearable component 300 is connected to a host body of the intelligent host 100.

The third embodiment of the present invention provides an intelligent wearable device 300, where a user can shoot a shooting object by aiming a camera module, and the camera module can clearly shoot the shooting object.

The shooting method, the intelligent host and the intelligent wearable device thereof disclosed by the embodiment of the invention are described in detail, and the principle and the implementation mode of the invention are described by applying examples, wherein the description of the above embodiment is only used for helping to understand the shooting method, the intelligent host, the intelligent wearable device and the core ideas of the intelligent wearable device; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present invention, the present description should not be construed as limiting the present invention in view of the above.

Claims (12)

1. The shooting method is characterized by being applied to an intelligent host, wherein the intelligent host comprises a host body, a shooting module and a light-emitting component, the host body is provided with a display surface, the display surface is provided with a display screen, the shooting module is arranged on the display surface, the shooting direction of the shooting module is the same as the display direction of the display screen, the light-emitting component is arranged on the display surface, the light-emitting component and the shooting module are arranged at intervals, and the light-emitting component is used for emitting light to a shooting object shot by the shooting module;

the shooting method comprises the following steps:

shooting the intelligent host towards the shooting object;

adjusting the angle of the intelligent host to enable the light emitted by the light emitting component to be aligned to the shooting object;

and adjusting the distance between the intelligent host and the shooting object so that the shooting object falls into the range boundary of the light emitted by the light-emitting component, and the outline of the shooting object is close to the outline of the range boundary of the light emitted by the light-emitting component.

2. The photographing method of claim 1, wherein said adjusting the distance between said smart host and said photographed object comprises:

increasing a distance between the smart host and the photographic subject when the photographic subject portion is located outside a range boundary of light emitted by the light emitting means;

when the photographing object is completely located within the range boundary of the light emitted from the light emitting part and the outline of the photographing object is far from the outline of the range boundary of the light emitted from the light emitting part, the distance between the smart host and the photographing object is reduced.

3. The photographing method according to claim 1, wherein the light emitting side of the light emitting member is provided with an optical element for changing a contour of light emitted from the light emitting member so that a contour of a range boundary of the light emitted from the light emitting member matches a contour of the photographing object.

4. The shooting method according to claim 1, wherein the intelligent host further comprises a ranging component, the ranging component is arranged on the host body, and the ranging component is used for measuring a distance between the camera module and the shooting object;

the adjusting the distance between the intelligent host and the shooting object comprises the following steps:

comparing the distance between the camera module and the shooting object with a preset shooting distance;

and increasing or decreasing the distance between the intelligent host and the shooting object so that the distance between the intelligent host and the shooting object is equal to the preset shooting distance.

5. The intelligent host of claim 4, wherein the distance measuring assembly comprises an infrared emitter and an infrared receiver, the infrared emitter and the infrared receiver are arranged on the display surface at intervals, the infrared emitter is used for emitting infrared light rays to the shooting object, and the infrared receiver is used for receiving the infrared light rays reflected by the shooting object.

6. The shooting method of claim 4, wherein the intelligent host further comprises a sound generating device, the sound generating device is arranged on the host body, and the sound generating device is used for generating sound information with different frequencies according to the difference between the distance between the intelligent host and the shooting object and the preset shooting distance.

7. An intelligent host, comprising:

the host machine body is provided with a display surface, and the display surface is provided with a display screen;

the camera module is arranged on the display surface, and the shooting direction of the camera module is the same as the display direction of the display screen; and

the light-emitting component is arranged on the display surface, is arranged at intervals with the camera module, and is used for emitting light to a shooting object shot by the camera module.

8. The smart host according to claim 7, wherein the light-emitting side of the light-emitting member is provided with an optical element for changing a contour of light emitted from the light-emitting member so that a contour of a range boundary of the light emitted from the light-emitting member matches a contour of the photographic subject.

9. The intelligent host of claim 7, further comprising a ranging assembly disposed on the host body, the ranging assembly configured to measure a distance between the camera module and the subject.

10. The intelligent host of claim 9, wherein the distance measuring assembly comprises an infrared emitter and an infrared receiver, the infrared emitter and the infrared receiver are arranged on the display surface at intervals, the infrared emitter is used for emitting infrared light rays to the shooting object, and the infrared receiver is used for receiving the infrared light rays reflected by the shooting object.

11. The intelligent host of claim 9, further comprising a sound generating device, wherein the sound generating device is disposed on the host body, and the sound generating device is configured to generate sound information with different frequencies according to a difference between a distance between the intelligent host and the shooting object and the preset shooting distance.

12. A smart wearable device, characterized in that it comprises a wearable part and a smart host according to any of claims 7 to 11, the wearable part being connected to the host body of the smart host.