CN211830947U - Auxiliary device and electronic equipment subassembly shoot - Google Patents

Abstract

The application discloses auxiliary device shoots, includes: the auxiliary device body comprises a first light guide channel, a first light hole and a second light hole which are arranged at intervals, wherein the first end of the first light guide channel is arranged opposite to the first light hole, the second end of the first light guide channel is provided with a first light inlet, and the distance between the first light inlet and the second light hole is larger than the distance between the first light hole and the second light hole; the first light path adjusting mechanism is arranged in the first light guide channel and can reflect a first light ray entering the first light inlet hole to the first light transmitting hole. The application also discloses an electronic device assembly. According to the scheme, the problem that the 3D shooting effect of the camera shooting module in the current electronic equipment is poor can be solved.

Description

Auxiliary device and electronic equipment subassembly shoot

Technical Field

The application relates to the technical field of communication equipment, in particular to a photographing auxiliary device and an electronic equipment assembly.

Background

With the progress of technology and the development of electronic devices, users have higher and higher requirements for the shooting performance of electronic devices, and technical coefficients such as high pixels, large apertures, and G lenses appear. At present, in order to satisfy user's user demand, electronic equipment's the module of making a video recording adopts the technical scheme that two cameras were shot to make the module of making a video recording can realize the 3D and shoot the effect, thereby promote the user and use experience.

Under the general condition, based on bionics, in order to make the module of making a video recording can realize better 3D and shoot the effect, can make the interval between two cameras in the module of making a video recording equal with the conventional interpupillary distance of people's eye to improve the 3D of the module of making a video recording and shoot the effect. However, more functional devices are usually arranged in the current electronic equipment, if the distance between two cameras is increased, so that the distance between the two cameras in the camera module is equal to the conventional interpupillary distance of human eyes, the two cameras far away from each other will affect the space layout inside the electronic equipment, and the design difficulty of the electronic equipment is increased.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide a photographing auxiliary device and an electronic equipment assembly, and the problem that the 3D photographing effect of a photographing module in the existing electronic equipment is poor can be solved.

In order to solve the above technical problem, the present application is implemented as follows:

in a first aspect, an embodiment of the present application provides an auxiliary device for taking a picture, including:

the auxiliary device body comprises a first light guide channel, a first light hole and a second light hole which are arranged at intervals, wherein a first end of the first light guide channel is arranged opposite to the first light hole, a second end of the first light guide channel is provided with a first light inlet, and the distance between the first light inlet and the second light hole is larger than the distance between the first light hole and the second light hole;

the first light path adjusting mechanism is arranged in the first light guide channel and can reflect first light rays entering the first light inlet hole to the first light transmitting hole.

In a second aspect, the present application provides an electronic device assembly, the disclosed electronic device assembly includes an electronic device and the above photographing auxiliary device, the photographing auxiliary device is connected to the electronic device, the first light transmission hole is arranged relative to the first camera of the electronic device, and the second light transmission hole is arranged relative to the second camera of the electronic device.

The technical scheme adopted by the application can achieve the following beneficial effects:

in the photographing auxiliary device disclosed in the embodiment of the application, the light entering position of the first light hole is changed through the first light guide channel and the first light path adjusting mechanism, so that the distance between the light entering position of the first light hole and the light entering position of the second light hole is increased, and under the condition that the photographing auxiliary device is applied to electronic equipment, the first light guide channel and the first light path adjusting mechanism can increase the distance between the light entering position of the first camera and the light entering position of the second camera, so that the visible range of the first camera and the second camera is increased, and the 3D photographing effect of the electronic equipment can be improved; moreover, in the embodiment of the application, the distance between the first camera and the second camera in the electronic device can be smaller, so that the 3D shooting effect of the electronic device can be improved, and the internal space layout of the electronic device is facilitated.

Drawings

Fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 are schematic structural diagrams of an electronic device assembly disclosed in an embodiment of the present application at different viewing angles, respectively;

fig. 6 is a schematic structural diagram of a photographing assisting device disclosed in the embodiment of the present application.

Description of reference numerals:

100-an auxiliary device body, 110-a first light guide channel, 111-a first light inlet, 112-a first light outlet, 113-a first extension section, 114-a second extension section, 120-an installation space, 130-a first light hole, 140-a second light hole, 150-a second light guide channel and 151-a second light inlet;

200-electronic device, 210-first camera, 220-second camera;

310-a first reflector, 320-a second reflector, 330-a third reflector, 340-a lens, 350-a fourth reflector, 360-a fifth reflector, 370-a lens assembly;

410-first light, 420-second light.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The following describes the camera module provided in the embodiments of the present application in detail through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

As shown in fig. 1 to 6, an embodiment of the present application discloses a photographing assisting device, which can be applied to an electronic device 200, and can improve a 3D photographing effect of the electronic device 200.

Specifically, the photographing assisting device disclosed in the embodiment of the present application includes an assisting device body 100 and a first optical path adjusting mechanism.

The auxiliary device body 100 may provide a mounting position for other components of the photographing auxiliary device, and meanwhile, optionally, in a case where the photographing auxiliary device is applied to the electronic apparatus 200, the auxiliary device body 100 may be a protective shell, the protective shell may have a mounting space 120, and the electronic apparatus 200 may be mounted in the mounting space 120 of the protective shell, so as to implement the assembly of the electronic apparatus 200 and the photographing auxiliary device support, and in this case, the protective shell may play a role of protecting the electronic apparatus 200, so as to prevent the electronic apparatus 200 from being damaged due to falling. Alternatively, the protective case may be a flexible member, thereby not only facilitating the installation of the electronic apparatus 200, but also better protecting the electronic apparatus 200. Certainly, the protective housing can be plastic part or silica gel spare, and the protective housing also can be other parts that have flexibility, and this application embodiment does not do the restriction to this.

In the embodiment of the present application, the auxiliary device body 100 includes the first light guide channel 110, the first light transmissive hole 130 and the second light transmissive hole 140 that are arranged at an interval, and when the auxiliary device for taking pictures is applied to the electronic apparatus 200, the first light transmissive hole 130 may be arranged opposite to the first camera 210 of the electronic apparatus 200, so that the first camera of the electronic apparatus 200 can implement a shooting function through the first light transmissive hole 130; the second light hole 140 may be disposed opposite to the second camera 220 of the electronic device 200, so that the second camera of the electronic device 200 may implement a photographing function through the second light hole 140. The first camera 210 and the second camera 220 enable the electronic device 200 to capture 3D images to improve the user experience.

Specifically, the first end of the first light guide channel 110 is disposed opposite to the first light hole 130, the second end of the first light guide channel 110 is disposed with a first light inlet 111, a distance between the first light inlet 111 and the second light hole 140 is greater than a distance between the first light hole 130 and the second light hole 140, the first light path adjusting mechanism is disposed in the first light guide channel 110, please refer to fig. 1 again, an arrow in the figure indicates a propagation direction of the first light 410, and the first light path adjusting mechanism can reflect the first light 410 incident into the first light inlet 111 to the first light hole 130, so that the first light 410 incident into the first light inlet 111 can irradiate on the first camera 210, and the first camera 210 can realize a shooting function.

As can be seen from the above, in the auxiliary photographing device disclosed in the embodiment of the present application, the light entering position of the first light hole 130 is changed through the first light guide channel 110 and the first light path adjusting mechanism, so that the distance between the light entering position of the first light hole 130 and the light entering position of the second light hole 140 is increased, and in a case that the auxiliary photographing device is applied to the electronic apparatus 200, the first light guide channel 110 and the first light path adjusting mechanism can increase the distance between the light entering position of the first camera 210 and the light entering position of the second camera 220, so that the visible range of the first camera 210 and the second camera 220 is increased, and thus the 3D photographing effect of the electronic apparatus 200 can be improved; moreover, in the embodiment of the present application, the distance between the first camera 210 and the second camera 220 in the electronic device 200 may be smaller, so that not only the 3D shooting effect of the electronic device 200 can be improved, but also the internal space layout of the electronic device 200 is facilitated.

In the embodiment of the present application, the first light guide channel 110 may be formed in various ways, for example, the auxiliary device body 100 may be provided with a groove-shaped structure, and the groove-shaped structure may be the first light guide channel 110. Of course, in order to prevent the first light guide channel 110 from affecting the installation of the electronic apparatus 200, optionally, the auxiliary device body 100 may include a base and a first lens barrel, the base may be provided with a first light hole 130 and a second light hole 140, and likewise, in the case that the photographing auxiliary device is applied to the electronic apparatus 200, the first light hole 130 may be disposed opposite to the first camera 210 of the electronic apparatus 200, so that the first camera of the electronic apparatus 200 may implement a photographing function through the first light hole 130; the second light hole 140 may be disposed opposite to the second camera 220 of the electronic device 200, so that the second camera 220 of the electronic device 200 may implement a photographing function through the second light hole 140.

The first barrel may be disposed at the base, and the first barrel may have the first light guiding channel 110, specifically, a first end of the first barrel may be disposed with a first light emitting hole 112 communicated with the first light guiding channel 110, the first light emitting hole 112 may be disposed opposite to the first light transmitting hole 130, a second end of the first barrel may be disposed with a first light entering hole 111, and the first light path adjusting mechanism may reflect the first light 410 entering the first light entering hole 111 to the first light transmitting hole 130 through the first light emitting hole 112. Under this condition, the structure of the auxiliary device of shooing is simpler and easier, and then is convenient for the machine-shaping of the auxiliary device of shooing.

In this embodiment, optionally, the first optical path adjusting mechanism may include a first reflective mirror 310 and a second reflective mirror 320, the first reflective mirror 310 and the second reflective mirror 320 both play a role of reflecting the first light 410, in a specific installation process, the first reflective mirror 310 may be obliquely disposed at a first end of the first light guide channel 110, the second reflective mirror 320 may be obliquely disposed at a second end of the first light guide channel 110, the second reflective mirror 320 may reflect the first light 410 entering the first light inlet 111 to the first reflective mirror 310, and the first reflective mirror 310 may reflect the first light 410 to the first light transmitting hole 130, so that the first light transmitting hole 130 enters light through the first light inlet hole 111, and thus a distance between a light entering position of the first light transmitting hole 130 and a light entering position of the second light transmitting hole 140 is relatively large.

In this case, only the first reflective mirror 310 and the second reflective mirror 320 are needed to change the propagation path of the first light 410, so that the distance between the first light inlet 111 and the second light inlet 140 is greater than the distance between the first light inlet 130 and the second light inlet 140, thereby making the structure of the first light path adjusting mechanism simpler and further facilitating the adjustment of the propagation path of the first light 410.

Further, in a case where the photographing assisting device is applied to the electronic apparatus 200, in order to make the visible range of the first camera 210 and the second camera 220 larger, optionally, the first light path adjusting mechanism may further include a third reflective mirror 330, the first light guide channel 110 may include a first extending section 113 and a second extending section 114 that are connected in sequence, the first extending section 113 may intersect with the second extending section 114, an end of the first extending section 113 may be disposed opposite to the first light transmitting hole 130, an end of the second extending section 114 may be disposed with a first light entering hole 111, the third reflective mirror 330 may be disposed at an intersection of the first extending section 113 and the second extending section 114, and the first light ray 410 may be reflected to the first reflective mirror 310 sequentially through the second reflective mirror 320 and the third reflective mirror 330. The first light guide channel 110 with such a structure can greatly extend the distance between the first light inlet hole 111 and the second light inlet hole 140, so that the visible range of the first camera 210 and the second camera 220 is large, the 3D shooting effect of the electronic device 200 can be improved, and the use experience of a user is good.

In the embodiment of the present application, one of the first extension 113 and the second extension 114 may extend in the width direction of the auxiliary device body 100, and the other may extend in the length direction of the auxiliary device body 100. This kind of mode can furthest extend the distance between first light inlet 111 and the second light trap 140 to make the visual scope of first camera 210 and second camera 220 bigger, thereby can promote the 3D shooting effect of electronic equipment 200 better, and then can make user's use experience better. Alternatively, the auxiliary device body 100 may be a rectangular structural member, in such a manner that the first light inlet 111 and the second light inlet 140 are located at two ends of a diagonal line of the rectangular structural member, that is, the first light inlet 111 and the second light inlet 140 are located at two positions on the rectangular structural member that are far away from each other, so that a distance between the first light inlet 111 and the second light inlet 140 is larger, so that the 3D shooting effect of the electronic device 200 is better.

In the embodiment disclosed in the present application, a lens 340 may be disposed between the first reflective mirror 310 and the second reflective mirror 320. In a specific working process, the lens 340 can enable the first camera 210 to realize a zoom function, so that the first camera 210 can acquire a suitable target focal length, and further the first camera 210 can shoot a clear image.

Alternatively, the number of the lenses 340 may be multiple, and the multiple lenses 340 may be disposed at intervals in the first light guide channel 110. The multiple lenses 340 can realize a high-power zoom function, so that the first camera 210 can acquire a more appropriate target focal length, and further the first camera 210 can shoot a clearer image.

Further, the lens 340 may be movably disposed in the first light guide channel 110, and in particular, the lens 340 may be driven to move by a driving mechanism to change the relative position of the lens 340 in the first light guide channel 110. In this case, the distances between the plurality of lenses 340 and the distance between the lens 340 and the first camera 210 may be adjusted according to the specific position of the subject to be photographed, so that the first camera 210 can obtain a proper target focal length, and finally, a clearer image can be photographed.

In the embodiments disclosed herein, the first reflective mirror 310 may be parallel to the second reflective mirror 320, and the first reflective mirror 310 or the second reflective mirror 320 may form an angle of 45 degrees with the central axis of the first light guide channel 110. In this way, a larger part of the first light 410 reflected by the first reflective mirror 310 can be reflected to the second reflective mirror 320, and is reflected to the first light transmission hole 130 through the second reflective mirror 320, so that the first camera 210 can receive a clearer image, and the shooting effect of the first camera 210 is better.

In the embodiment of the present application, optionally, on the outer surface of the auxiliary device body 100, the orthographic projection area of the first light inlet 111 may be larger than the orthographic projection area of the second reflective mirror 320. In this way, the second reflective mirror 320 can obtain more first light rays 410 through the first light inlet 111, so that the first camera 210 can capture clearer images.

In this embodiment, optionally, the auxiliary device body 100 may further include a second light guide channel 150 and a second optical adjustment mechanism, a first end of the second light guide channel 150 may be disposed opposite to the second light transmissive hole 140, a second end of the second light guide channel 150 may be disposed with a second light inlet hole 151, and a distance between the second light inlet hole 151 and the first light inlet hole 111 may be greater than a distance between the first light transmissive hole 130 and the second light transmissive hole 140. In this case, the light entering position of the first light-transmitting hole 130 is changed by the first light guide channel 110 and the first light path adjusting mechanism, and the light entering position of the second light-transmitting hole 140 is changed by the second light guide channel 150 and the second light path adjusting mechanism. The second optical adjustment mechanism is disposed in the second light guide channel 150, and the second optical adjustment mechanism can reflect the second light 420 entering the second light inlet 151 to the second light transmitting hole 140, please refer to fig. 1 again, an arrow indicates a propagation direction of the second light 420, and when the photographing assisting device is applied to the electronic apparatus 200, the second light 420 entering the second light inlet 151 can be irradiated onto the second camera 220 through the second optical adjustment mechanism.

In the above manner, the distance between the light entering position of the first camera 210 and the light entering position of the second camera 220 is relatively large, so that the visible range of the first camera 210 and the second camera 220 is relatively large, and the 3D shooting effect of the electronic device 200 can be further improved; in addition, in the above manner, the distance between the light entering position of the first camera 210 and the light entering position of the second camera 220 can be increased to the maximum extent, so that the visible range of the first camera 210 and the second camera 220 is wider, and the 3D shooting effect of the electronic device 200 can be better improved.

Optionally, the second end of the first light guide channel 110 may extend along a first direction, the second end of the second light guide channel 150 may extend along a second direction, and the first direction may be opposite to the second direction, so that the distance between the first light inlet hole 111 and the second light inlet hole 151 is greater, and thus the 3D shooting effect of the electronic device 200 can be better improved. Of course, the specific layout ways of the first light guide channels 110 and the second light guide channels 150 may be various, and this is not limited in this embodiment of the application.

Further, the second optical path adjusting mechanism may include a fourth reflective mirror 350 and a fifth reflective mirror 360, both the fourth reflective mirror 350 and the fifth reflective mirror 360 may play a role of reflecting the second light 420, in a specific installation process, the fourth reflective mirror 350 may be obliquely disposed at a first end of the second light guide channel 150, the fifth reflective mirror 360 may be obliquely disposed at a second end of the second light guide channel 150, the fifth reflective mirror 360 may reflect the second light 420 incident into the second light inlet 151 to the fourth reflective mirror 350, and the fourth reflective mirror 350 may reflect the second light 420 to the second light transmitting hole 140, so that the second light transmitting hole 140 enters light through the second light inlet 151, and thus a distance between a light inlet position of the first light transmitting hole 130 and a light inlet position of the second light transmitting hole 140 is relatively large.

In this case, the propagation path of the second light 420 can be changed only by the fourth reflective mirror 350 and the fifth reflective mirror 360, so that the structure of the second light path adjusting mechanism is simple, and the propagation path of the second light 420 can be adjusted more conveniently.

Correspondingly, a lens assembly 370 may be disposed between the fourth reflective mirror 350 and the fifth reflective mirror 360, and when the electronic device 200 is installed in the auxiliary device for taking a picture, the lens assembly 370 may enable the second camera 220 to implement a zoom function, so that the second camera 220 may acquire a suitable target focal length, and further enable the second camera 220 to take a relatively clear image.

Based on the photographing auxiliary device disclosed in the embodiment of the present application, the embodiment of the present application further discloses an electronic device assembly, the disclosed electronic device assembly includes an electronic device 200 and the photographing auxiliary device described in any of the embodiments, specifically, the photographing auxiliary device is connected to the electronic device 200, so that the first camera 210 of the electronic device 200 is arranged opposite to the first light hole 130 on the auxiliary device body 100, and the first camera 210 can realize a photographing function; the second camera 220 of the electronic apparatus 200 is disposed opposite to the second light hole 140 of the auxiliary device body 100, so that the second camera 220 can implement a shooting function.

The electronic device related to the embodiment of the present application may be a smart phone, a tablet computer, an electronic book reader, a wearable device (e.g., a smart watch), an electronic game machine, and the like, and the embodiment of the present application does not limit a specific kind of the electronic device.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A photographing assistance apparatus, comprising:

the auxiliary device body (100) comprises a first light guide channel (110), a first light hole (130) and a second light hole (140) which are arranged at intervals, wherein a first end of the first light guide channel (110) is arranged opposite to the first light hole (130), a second end of the first light guide channel (110) is provided with a first light inlet hole (111), and the distance between the first light inlet hole (111) and the second light hole (140) is larger than the distance between the first light hole (130) and the second light hole (140);

the first light path adjusting mechanism is arranged in the first light guide channel (110), and can reflect the first light (410) which enters the first light inlet hole (111) to the first light hole (130).

2. The photographing assisting device according to claim 1, wherein the assisting device body (100) includes a base and a first barrel, the base part is provided with a first light hole (130) and a second light hole (140), the first lens barrel is arranged on the base part and is provided with the first light guide channel (110), a first end of the first lens barrel is provided with a first light outlet hole (112) communicated with the first light guide channel (110), and the first light outlet hole (112) is arranged opposite to the first light transmission hole (130), the second end of the first lens barrel is provided with the first light inlet hole (111), and the first light path adjusting mechanism can reflect the first light ray (410) emitted into the first light inlet hole (111) to the first light transmitting hole (130) through the first light outlet hole (112).

3. The photographing assist device of claim 1, wherein the first optical path adjustment mechanism includes a first reflective mirror (310) and a second reflective mirror (320), wherein:

the first reflective mirror (310) is obliquely disposed at a first end of the first light guide channel (110), the second reflective mirror (320) is obliquely disposed at a second end of the first light guide channel (110), the second reflective mirror (320) can reflect the first light ray (410) incident into the first light inlet hole (111) to the first reflective mirror (310), and the first reflective mirror (310) can reflect the first light ray (410) to the first light transmission hole (130).

4. The auxiliary photographing device as claimed in claim 3, wherein the first light path adjusting mechanism further comprises a third reflective mirror (330), the first light guide channel (110) comprises a first extending section (113) and a second extending section (114) which are connected in sequence, the first extending section (113) intersects the second extending section (114), the end of the first extending section (113) is arranged opposite to the first light transmitting hole (130), the end of the second extending section (114) is provided with the first light inlet hole (111), the third reflective mirror (330) is arranged at the intersection of the first extending section (113) and the second extending section (114), and the first light ray (410) can be reflected to the first reflective mirror (310) through the second reflective mirror (320) and the third reflective mirror (330) in sequence.

5. The photographing aid device according to claim 4, wherein one of the first extension (113) and the second extension (114) extends in a width direction of the aid body (100), and the other extends in a length direction of the aid body (100).

6. The photographing assisting device according to claim 1, wherein the assisting device body (100) further comprises a second light guide channel (150) and a second optical adjusting mechanism, a first end of the second light guide channel (150) is disposed opposite to the second light transmitting hole (140), a second end of the second light guide channel (150) is disposed with a second light inlet hole (151), and a distance between the second light inlet hole (151) and the first light inlet hole (111) is greater than a distance between the first light transmitting hole (130) and the second light transmitting hole (140);

the second optical adjustment mechanism is disposed in the second light guide channel (150), and the second optical adjustment mechanism can reflect the second light (420) entering the second light inlet (151) to the second light transmitting hole (140).

7. A photographing aid device according to claim 3 wherein a lens (340) is provided between the first reflector (310) and the second reflector (320).

8. The auxiliary photographing device according to claim 3, wherein the first reflective mirror (310) is parallel to the second reflective mirror (320), and an angle between the first reflective mirror (310) or the second reflective mirror (320) and a central axis of the first light guide channel (110) is 45 degrees.

9. The photographing assisting device according to claim 3, wherein an orthographic area of the first light entrance hole (111) is larger than an orthographic area of the second reflecting mirror (320) on an outer surface of the assisting device body (100).

10. An electronic device assembly, comprising an electronic device (200) and the photographing aid of any one of claims 1 to 9, wherein the photographing aid is connected to the electronic device (200), the first light hole (130) is disposed opposite to a first camera (210) of the electronic device (200), and the second light hole (140) is disposed opposite to a second camera (220) of the electronic device (200).

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