CN213094322U - Reflector structure, electronic equipment and electronic equipment protective sleeve - Google Patents

Abstract

The utility model relates to an electronic equipment technical field especially relates to a reflector structure, electronic equipment and electronic equipment protective sheath. The mirror structure includes: a mirror seat provided with a reflector, a shell internally provided with a magnetic element and a rotating shaft. The rotating shaft is connected between the mirror base and the shell and used for driving the shell to rotate relative to the mirror base so as to enable the reflector structure to be in a storage state or a use state; when the reflector structure is in a storage state, the mirror base and the shell are in the same plane; when the reflector structure is in a use state, the shell rotates to form an included angle with the mirror base, so that the magnetic attraction element is magnetically connected with one surface of the electronic equipment, which is provided with the camera, and the reflector faces the surface of the electronic equipment, which is provided with the camera. The reflector structure has the advantage of convenient storage, and can adjust the shooting range of the camera of the electronic equipment.

Description

Reflector structure, electronic equipment and electronic equipment protective sleeve

Technical Field

The utility model relates to an electronic equipment technical field especially relates to a reflector structure, electronic equipment and electronic equipment protective sheath.

Background

With the development of science and technology and increasingly rich living requirements of human beings, humanized design of electronic equipment is more and more important. At present, in electronic equipment such as a family education machine or a tablet computer, a reflector structure is usually installed at a front camera of a display screen of the electronic equipment, and the shooting range of the front camera is adjusted through reflection of the reflector structure so as to shoot or scan a shot object more conveniently.

In the related art, the reflector structure is generally designed to be thicker at one end connected with the display screen of the electronic device, and thinner at one end far away from the display screen, so that the reflector structure is irregular in shape, is not convenient to store and is easy to lose when being placed alone without being matched with the electronic device for use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a reflector structure electronic equipment and electronic equipment protective sheath, this reflector structure have the advantage of being convenient for to accomodate, also can adjust the shooting scope of electronic equipment's camera simultaneously.

In a first aspect, the utility model discloses a reflector structure for cooperate with electronic equipment's camera in order to adjust the shooting scope of camera, reflector structure includes:

a mirror base provided with a reflective mirror;

a shell internally provided with a magnetic element;

the rotating shaft is connected between the mirror base and the shell and used for driving the shell to rotate relative to the mirror base so as to enable the reflector structure to be in a storage state or a use state;

when the reflector structure is in the accommodating state, the mirror base and the shell are in the same plane;

when the reflector structure is in the use state, the shell rotates to form an included angle with the mirror base, so that the magnetic attraction element is magnetically connected with one surface of the electronic equipment, which is provided with the camera, and the reflector faces the surface of the electronic equipment, which is provided with the camera.

Furthermore, one surface of the mirror base is recessed towards the mirror base to form a groove, and the reflective mirror is embedded in the groove.

Further, the both ends of one side of microscope base are kept away from to keeping away from respectively to the casing extend to the direction of microscope base to form first extension and the second extension that the interval set up, first extension with interval space between the second extension forms dodges the mouth, the reflector structure is in during the user state, the camera is located dodge in the mouth.

Furthermore, the housing comprises a first housing and a second housing which are connected with each other, the first housing and the second housing are folded to form a containing groove located inside the housing, and the magnetic element is embedded in the containing groove.

Furthermore, the accommodating groove comprises a first accommodating groove and a second accommodating groove, the first accommodating groove and the second accommodating groove are respectively located in the first extending portion and the second extending portion, the magnetic attraction element comprises a first magnetic attraction element and a second magnetic attraction element, and the first magnetic attraction element and the second magnetic attraction element are respectively located in the first accommodating groove and the second accommodating groove.

Furthermore, the magnetic element is flat, when the reflector structure is in the storage state, the thickness direction of the magnetic element is parallel to the thickness direction of the mirror base, and when the reflector structure is in the use state, the thickness direction of the magnetic element is parallel to the thickness direction of the electronic device.

Furthermore, a hall switch electrically connected with the control module of the electronic device and a third accommodating groove are also arranged in the shell, and the hall switch is accommodated in the third accommodating groove;

when the reflector structure is in a use state, the magnetic attraction element is magnetically connected with one surface of the electronic equipment, which is provided with the camera, so that the Hall switch is switched on and outputs a signal to the control module, and the control module controls the camera to be turned on.

Further, the mirror base is provided with a first inclined plane at the joint of the mirror base and the shell, the shell is provided with a second inclined plane, wherein the first inclined plane is provided with a first mounting hole, the second inclined plane is provided with a second mounting hole, and two ends of the rotating shaft respectively extend into the first mounting hole and the second mounting hole so that the first inclined plane and the second inclined plane are close to and parallel to each other, and further the reflector structure is in the use state, an acute angle is formed between the mirror base and the shell.

Furthermore, the two ends of the rotating shaft respectively protrude in the direction away from the axis of the rotating shaft to form limiting parts, and the limiting parts respectively extend into and are clamped in the first mounting hole and the second mounting hole.

In a second aspect, the present invention discloses an electronic device, including the first aspect the reflector structure.

Furthermore, the electronic equipment comprises a front surface and a back surface, the front surface is provided with a display screen, a first magnet close to the back surface is arranged inside the electronic equipment, and when the reflector structure is in the accommodating state, the reflector structure is fixed on the back surface through the magnetic connection of the magnetic attraction element and the first magnet.

In a third aspect, the utility model also discloses an electronic equipment protective sheath for the cover is in the second aspect electronic equipment, electronic equipment includes the front and the back, just the front has the display screen, electronic equipment protective sheath is including relative first face and the second face that sets up, first face with the back laminating is in order to protect electronic equipment, first face with be equipped with second magnet between the second face, the reflector structure is in during the state of accomodating, through magnetism inhale the component with the magnetism of second magnet is connected so that the reflector structure is fixed the second face.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a reflector structure has the advantage of being convenient for accomodate when not using, and when installing reflector structure on electronic equipment, the shooting scope of electronic equipment's camera can be adjusted to the reflector structure simultaneously to make the use of this reflector structure and accomodate all comparatively convenient. The reflector structure is connected between a mirror base provided with a reflector and a shell internally provided with a magnetic attraction element in a relative rotation mode through a rotating shaft, and therefore switching of the reflector structure between a storage state and a use state is achieved through rotation between the mirror base and the shell. Meanwhile, through the rotation, when the reflector structure is in a storage state, the mirror base and the shell rotate to the same plane, and at the moment, the reflector structure is of a flat structure on the whole, so that the reflector structure is relatively easy to store. Especially, when the reflector structure is stored together with the electronic equipment, the display screen cannot be damaged due to the fact that the reflector structure is obviously irregular in shape with different thicknesses. In addition, when the reflector structure is in a use state, the shell rotates to form an included angle with the mirror base, the shell is adsorbed on the face, provided with the camera, of the electronic equipment through the magnetic attraction element, and meanwhile, the reflector on the mirror base faces the camera, and the shooting range of the camera can be adjusted by utilizing the reflection of the reflector.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used 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 it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a mirror structure of an embodiment of the present application when mounted on an electronic device for use;

FIG. 2 is a schematic structural view of a mirror structure of an embodiment of the present disclosure in a use state;

FIG. 3 is an exploded view of the structure of FIG. 2;

FIG. 4 is a schematic structural view of the mirror structure of the embodiment of the present application in a storage state;

FIG. 5 is an exploded view of a mirror base of the mirror structure according to an embodiment of the present disclosure;

FIG. 6 is a schematic structural diagram of a housing in a mirror structure according to an embodiment of the present disclosure;

FIG. 7 is an exploded view of a housing of the mirror structure of the present application;

FIG. 8 is a schematic structural diagram of a rotating shaft in the mirror structure according to an embodiment of the present disclosure;

fig. 9 is a schematic structural view of the mirror structure of the embodiment of the present application stored in an electronic device (the mirror faces outward);

FIG. 10 is an enlarged view of A in FIG. 9;

fig. 11 is a schematic structural diagram of a mirror structure accommodated in an electronic device according to an embodiment of the present application (the mirror faces the electronic device);

fig. 12 is an enlarged view of B in fig. 11.

Reference numerals: the electronic device comprises an electronic device-1, a first magnet-11, a mirror structure-2, a mirror base-21, a mirror-211, a groove-212, a first inclined surface-213, a first mounting hole-2131, a shell-22, a magnetic attraction element-221, a first magnetic attraction element-2211, a second magnetic attraction element-2212, a first extension part-222, a second extension part-223, an avoidance opening-224, a first shell-225, a second shell-226, a containing groove-227, a first containing groove-2271, a second containing groove-2272, a third containing groove-2273, a second inclined surface-228, a second mounting hole-2281, a rotating shaft-23, a limiting part-231, a Hall switch-24 and a bracket-3.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present 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 the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can 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 according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The technical solution of the present application will be further described with reference to the following embodiments and accompanying drawings.

The embodiment of the application provides an electronic device, which can be an electronic device such as a family education machine, a notebook computer, a mobile phone, a tablet computer or a handheld computer, and is not limited herein as long as the electronic device is required to be provided with a camera module to realize functions such as photographing, shooting or scanning. The embodiment of the present application is described only by taking the electronic device as a family education machine as an example.

In the embodiment of the present application, as shown in fig. 1, when the electronic apparatus 1 is used while standing on a desktop, a camera (not shown) of the electronic apparatus 1 can only shoot forward (shoot leftward in fig. 1) and cannot perform recognition scanning on an object to be shot placed on the desktop. In order to adjust the shooting range of the camera of the electronic device 1, the embodiment of the application provides the reflective mirror structure 2 capable of being installed on the electronic device 1, and the shooting range of the camera is adjusted by utilizing the effect of the reflective mirror structure 2, so that when the electronic device 1 is stood on a horizontal workbench such as a desktop, a to-be-shot object such as a book on the desktop can be shot or scanned. Specifically, as shown in fig. 2 to 7, the mirror structure 2 includes a mirror base 21 on which the mirror 211 is mounted, a case 22 in which a magnetic attraction member 221 is provided, and a rotating shaft 23 connecting the mirror base 21 and the case 22. The rotating shaft 23 is connected between the mirror base 21 and the casing 22, and is used for driving the casing 22 to rotate relative to the mirror base 21, so that the mirror structure 2 is in a use state or a storage state. As shown in fig. 2, when the reflective mirror structure 2 is in a use state, the housing 22 rotates and forms an included angle with the mirror base 21, so that the magnetic attraction element 221 is magnetically connected with a side of the electronic device 1 provided with a camera, and the reflective mirror 211 faces the side of the electronic device 1 provided with the camera; as shown in fig. 4, when the mirror structure 2 is in the stored state, the mirror base 21 and the housing 22 are on the same plane.

In the embodiment of the present application, the mirror base 21 and the housing 22 are rotatably connected by the rotating shaft 23, so that the use state and the storage state can be conveniently switched by the relative rotation. Referring to fig. 2 and 3, when the mirror structure 2 is in use, the housing 22 rotates to form an included angle with the lens holder 21 through the rotating shaft 23, because the magnetic element 221 is disposed inside the housing 22, the housing 22 can be quickly and accurately aligned near the camera of the electronic device 1, and the magnetic element is magnetically fixed on the electronic device 1, and because a certain angle is formed between the lens holder 21 and the housing 22, the mirror 211 on the lens holder 21 faces the camera, an object to be photographed (such as textbook teaching materials and the like) on the desktop can enter the camera through reflection of the mirror 211, that is, the mirror 211 adjusts the photographing range of the camera, when a user uses the function of the camera, the content on a book can be obtained through the cooperation of the mirror structure 2 and the camera without moving the book on the desktop, thereby making the use of the electronic device more convenient, not only can save the time of a user, but also has better use experience.

Referring to fig. 4, when the mirror structure 2 is in the storage state, the mirror base 21 and the housing 22 rotate to the same plane through the rotation shaft 23, that is, the mirror structure 2 is a flat structure as a whole, and the situation that the mirror structure is irregular and inconvenient to store because one side is thin and the other side is thick does not occur. Thus, when the mirror base 21 and the housing 22 rotate to the same plane through the rotating shaft 23, the mirror structure 2 is easy to store because the upper and lower surfaces of the mirror structure 2 are flat and regular. In addition, the side of the mirror structure in the related art is an approximately triangular structure, and has a convex edge angle, which is not easy to be stored separately, and meanwhile, when the mirror structure is stored together with the electronic device, because the surface of the electronic device 1 is generally a flat surface, the convex edge angle easily damages the display screen or the housing of the electronic device, while when the mirror structure 2 of the embodiment of the present application is stored together with the electronic device 1, any one of the upper and lower surfaces of the mirror structure 2 contacts the surface of the electronic device 1, and the display screen of the electronic device 1 or the housing of the electronic device 1 cannot be damaged.

It should be noted that a magnetic element is also disposed near the camera of the electronic device 1, and the magnetic element 221 in the housing 22 is magnetically connected with the magnetic element in the electronic device 1, so as to quickly align and fix the housing 22 and the electronic device 1, where the magnetic element may be a magnetic material such as a magnet, a ferrite, or the like.

It should also be understood that the reflective mirror 211 may be processed by a reflective material or by coating a reflective material on the surface of a substrate, for example, the reflective mirror 211 may be a glass lens, or may be processed by coating a silver coating on the surface of acrylic or polycarbonate, and the application is not limited herein.

In order to improve the sharpness of the image, the reflective mirror 211 in the embodiment of the present application is preferably a glass mirror. The glass lens has better reflection capability, can reduce image ghosting and distortion degree, enables image display to be clearer, is beneficial to improving the efficiency of identifying objects on a desktop by the camera, and gives better product experience to a user.

Next, the embodiment of the present application will be described in more detail with reference to the practical use scenario for accommodating and using the mirror structure 2.

Taking the electronic device as an example of a home teaching machine, when the electronic device 1 is a home teaching machine and an object to be photographed is a textbook teaching material of a student, when a child stands the electronic device 1 on a desk for use, for example, the electronic device 1 leans against a cabinet body behind the desk, or a bracket 3 (as shown in fig. 1) is installed on one surface of the electronic device 1, a camera of the electronic device 1 can only photograph or scan towards the front, and the textbook teaching material lying on the desk cannot be photographed or scanned, at this time, the child can rotate a lens base 21 and a housing 22 of a reflector structure 2 to a use state through a rotating shaft 23, an included angle is formed between the lens base 21 and the housing 22, then the reflector structure 2 is adsorbed near the camera of the electronic device 1 through the housing 22, at this time, the housing 22 is attached to the surface of the electronic device 1 having the camera, and the lens base 21 and the surface of the electronic device 1 having the camera form an included angle, therefore, the object on the desktop can be reflected into the camera through the reflective mirror 211 built in the mirror base 21, so that the camera can complete scanning on the object on the desktop. After the electronic device is used, a child can take the reflector structure 2 off the electronic device 1, and then rotate the mirror base 21 and the shell 22 to the same plane through the rotating shaft 23, so that the reflector structure 2 is flat and can be stored.

In order to protect the reflective mirror 211, one surface of the mirror base 21 in the embodiment of the present application is recessed toward itself to form a groove 212, and the reflective mirror 211 is embedded in the groove 212. Specifically, as shown in fig. 4 and 5, the reflective mirror 211 is embedded in the groove 212, and it is obvious that the periphery of the reflective mirror 211 is wrapped by the mirror base 21 to protect the periphery of the reflective mirror 211, so that the corner of the reflective mirror 211 can be prevented from being damaged when a user carelessly drops the reflective mirror structure 2 on the ground, and the service life of the reflective mirror 211 can be prolonged.

It should be noted that the surface of the reflective mirror 211 may protrude from the surface of the mirror base 21, and of course, the surface of the reflective mirror 211 may not protrude from the surface of the mirror base 21. When the surface of the reflective mirror 211 does not protrude from the surface of the mirror base 21, the mirror base 21 can better protect the reflective mirror 211, for example, when the reflective mirror structure 2 is in a storage state and is placed on a desktop, the surface of the mirror base 21 contacts with the desktop to form a support, so that the abrasion of the reflective mirror 211 can be reduced, and the service life of the reflective mirror 211 can be prolonged.

In the embodiment of the present application, please refer to fig. 6, two ends of one side of the housing 22 away from the lens holder 21 respectively extend in a direction away from the lens holder 21 to form a first extending portion 222 and a second extending portion 223 which are arranged at an interval, an avoiding opening 224 is formed in an interval space between the first extending portion 222 and the second extending portion 223, and when the mirror structure 2 is in a use state, the camera is located in the avoiding opening 2.

Both ends of one side of the housing 22 away from the lens holder 21 extend in a direction away from the lens holder 21, that is, the left end and the right end of the housing 22 in fig. 6 extend downward to form a first extending portion 222 and a second extending portion 223, and an avoiding opening 2 is formed between the first extending portion 222 and the second extending portion 223, and the camera is located in the avoiding opening 2. Due to the design, the housing 22 can avoid the camera, so that the camera can receive the image of the object to be photographed reflected by the reflective mirror 211, and meanwhile, the contact area between the housing 22 and the electronic device 1 can be increased by increasing the first extension portion 222 and the second extension portion 223, so that the reflective mirror structure 2 and the electronic device 1 are connected more firmly and reliably.

Further, referring to fig. 7, the housing 22 includes a first housing 225 and a second housing 226 connected to each other, the first housing 225 is close to the mirror base 21, and the second housing 226 is far from the mirror base 21; the first casing 225 and the second casing 226 are aligned to form a receiving groove 227 inside the casing, and the magnetic element 221 is embedded in the receiving groove 227.

The connection between the first casing 225 and the second casing 226 may be a connection manner such as clamping, screwing, etc., and such a split design facilitates the assembly of the first casing 225 and the second casing and the replacement of the magnetic attraction element 221 inside the casing 22; of course, the housing 22 may be integrally formed. In addition, the magnetic element 221 is embedded in the receiving groove 227, so that the magnetic element 221 is more firmly and stably fixed, and when a user carries the reflective mirror structure 2, the magnetic element 221 does not shake in the housing 22 to generate abnormal sound, which affects the experience of the user.

As an optional implementation manner, the accommodating groove 227 is formed only on the first casing 225, and at this time, the accommodating groove is formed from the first casing 225 to be recessed inward in a direction away from the second casing 226 (i.e. toward the inside of the accommodating groove), and the magnetic attraction element 221 is embedded in the accommodating groove;

as another optional implementation manner, the accommodating groove 227 is formed only on the second housing 226, at this time, there is no accommodating groove on the first housing 225, the second housing 226 is recessed towards a direction away from the mirror base 21 to form an accommodating groove, and the magnetic attraction element 221 is embedded in the accommodating groove;

as another optional implementation manner, the first housing 225 is recessed inward toward a direction close to the mirror base 21 to form a receiving groove, the second housing 226 is recessed inward toward a direction away from the mirror base 21 to form a receiving groove corresponding to the receiving groove on the first housing 225, and the magnetic attraction element 221 is embedded in the receiving grooves of the two.

In the embodiment of the present application, referring to fig. 7 specifically, the receiving groove 227 includes a first receiving groove 2271 and a second receiving groove 2272, the first receiving groove 2271 and the second receiving groove 2272 are respectively located in the first extending portion 222 and the second extending portion 223, the magnetic attraction element 221 includes a first magnetic attraction element 2211 and a second magnetic attraction element 2212, and the first magnetic attraction element 2211 and the second magnetic attraction element 2212 are respectively located in the first receiving groove 2271 and the second receiving groove 2272.

Since the first receiving groove 2271 and the second receiving groove 2272 are respectively located in the first extending portion 222 and the second extending portion 223, that is, the first receiving groove 2271 and the second receiving groove 2272 are located at two sides of the avoiding opening 224, at this time, the first magnetic attraction element 2211 and the second magnetic attraction element 2212 are respectively embedded in the first receiving groove 2271 and the second receiving groove 2272, that is, the first magnetic attraction element 2211 and the second magnetic attraction element 2212 are located at two sides of the avoiding opening 224, so that the housing 22 can be firmly connected to the vicinity of the camera of the electronic device 1, and the reflector structure 2 and the electronic device 1 are firmly connected.

It should be understood that the number of the magnetic attraction elements 221 may be 1, 2, 3, 4, 5, etc., as long as the reflective mirror structure 2 is capable of being attracted to the vicinity of the camera of the electronic device 1 and is convenient to take down from the electronic device 1, which is not specifically limited in this application.

In the embodiment of the present application, the magnetic attraction element 221 is flat, when the mirror structure 2 is in the storage state, the thickness direction of the magnetic attraction element 221 is parallel to the thickness direction of the mirror base 21, and when the mirror structure 2 is in the use state, the thickness direction of the magnetic attraction element 221 is parallel to the thickness direction of the electronic device 1.

Please refer to fig. 7, the magnetic attraction element 221 is flat, that is, the magnetic attraction element 221 with a flat shape and a thin thickness is selected. When the mirror structure 2 is in the storage state, the thickness direction (i.e. the approximately left-right direction in fig. 7) of the magnetic attraction element 221 is parallel to the thickness direction (i.e. the approximately up-down direction in fig. 4) of the mirror base 21, and the thickness of the magnetic attraction element 221 is thinner, so the thickness of the housing 22 can be made thinner, and meanwhile, since the mirror base 21 includes the mirror 211 and the housing for accommodating the mirror 211, the mirror 211 is of a planar structure, so the mirror base 21 can also be made thinner, so the thickness of the housing 22 and the thickness of the mirror base 21 can be made thinner, and the thicknesses of the housing 22 and the mirror base 21 can be the same or close, so that the mirror structure 2 is thinner as a whole and has a flat surface, and has the advantages of small volume and convenient storage; when the mirror structure 2 is in a use state, a thickness direction (i.e., a left and right direction in fig. 7) of the magnetic attraction element 221 is parallel to a thickness direction (i.e., a left and right direction in fig. 1) of the electronic device 1, when the mirror structure 2 is installed on the electronic device 1, the housing 22 is attached to a surface of the electronic device 1 where the camera is disposed, at this time, the thickness direction of the magnetic attraction element 221 is parallel to the thickness direction of the electronic device 1, that is, a surface of the magnetic attraction element 221 perpendicular to the thickness direction is opposite to and parallel to the surface of the electronic device 1 where the camera is disposed, and a surface of the magnetic attraction element 221 perpendicular to the thickness direction is a surface with a largest area, so that the attraction between the housing 22 and the electronic device 1 is better, and the mirror structure 2 can be firmly and stably magnetically attracted to the.

The magnetic attraction element 221 may have other shapes such as a circle, a square, and a special shape, as long as the housing 22 with the magnetic attraction element 221 built therein can be firmly and stably magnetically attracted to the electronic device 1, which is not limited herein.

Referring to fig. 7, the housing 22 further includes a hall switch 24 electrically connected to a control module (not shown) of the electronic device 1, and a third receiving groove 2273, wherein the hall switch 24 is received in the third receiving groove 2273; when the mirror structure 2 is in use, the magnetic attraction element 221 is magnetically connected to a surface of the electronic device 1 on which the camera is disposed, so that the hall switch 24 is turned on and outputs a signal to the control module, and the control module controls the camera to be turned on.

Wherein, the inside of casing 22 is provided with third containing groove 2273, imbeds hall switch 24 to third containing groove 2273 in, can firmly fix hall switch 24 in the inside of casing 22, and when the user carried reflector structure 2, hall switch 24 can not take place the activity and produce the abnormal sound in reflector structure 2. Wherein, when reflector structure 2 was in the user state, the user adsorbed reflector structure 2 near electronic equipment 1's camera through the effect of magnetism, and the magnetic field that the effect of magnetism produced was sensed by hall switch 24 this moment, and then hall switch 24 switches on and output signal to the controlling means who is connected with hall switch 24 electricity, and controlling means controls the camera at last and starts. The user only needs to adsorb near the camera on electronic equipment 1 with reflector structure 2 promptly, then the camera on electronic equipment 1 will be opened automatically to need not the manual start-up camera of user, reduce the operation step of user at this in-process, practice thrift user's time, be favorable to improving user's learning efficiency, such setting also has interest and science and technology nature simultaneously, has increased user's use enjoyment.

With reference to fig. 5 and fig. 6, at the connection between the mirror base 21 and the housing 22, the mirror base 21 has a first inclined surface 213, and the housing has a second inclined surface 228, wherein the first inclined surface 213 is provided with a first mounting hole 2131, the second inclined surface 228 is provided with a second mounting hole 2281, and two ends of the rotating shaft 23 respectively extend into the first mounting hole 2131 and the second mounting hole 2281, so that the first inclined surface 213 and the second inclined surface 228 are close to and parallel to each other, and thus when the mirror structure 2 is in a use state, an acute angle is formed between the mirror base 21 and the housing 22.

In order to better scan and identify objects on a desktop when the electronic device 1 is used while standing on the desktop, the lens holder 21 and the housing 22 respectively have a first inclined surface 213 and a second inclined surface 228 which are opposite to each other, the first inclined surface 213 and the second inclined surface 228 are respectively provided with a first mounting hole 2131 and a second mounting hole 2281, two ends of the rotating shaft 23 respectively extend into the first mounting hole 2131 and the second mounting hole 2281, so that the lens holder 21 and the housing 22 can rotate relative to each other, the first inclined surface 213 and the second inclined surface 228 connected with the rotating shaft 23 are both inclined surfaces, the connecting of the rotating shaft 23 enables the first inclined surface 213 and the second inclined surface 228 to be close to and parallel to each other, so that the lens holder 21 and the housing 22 can rotate to form an acute angle therebetween, i.e., the state of the mirror structure 2 shown in fig. 1, when the mirror structure 2 is attached to the electronic device 1, the mirror structure 2 can better reflect the objects on the desktop to a camera, so that the camera can better scan and identify the objects on the desktop.

Since the mirror base 21 and the housing 22 are connected by the rotation shaft 23, the rotation shaft 23 is required to achieve stable rotational connection between the mirror base and the housing 22. Referring to fig. 3 and 8, in the embodiment of the present application, two ends of the rotating shaft 23 respectively protrude in a direction away from the axis of the rotating shaft 23 to form a limiting portion 231, and the limiting portion 231 respectively extends into and is clamped in the first mounting hole 2131 and the second mounting hole 2281. Since the two ends of the rotating shaft 23 have the protruding limiting parts 231, the two ends of the rotating shaft 23 can be clamped in the first mounting hole 2131 and the second mounting hole 2281 and can rotate by placing the limiting parts 231 in the first mounting hole 2131 and the second mounting hole 2281 respectively, so that the connection between the mirror base 21 and the housing 22 is firm and the rotation is stable.

In summary, when the reflective mirror structure 2 disclosed in the present application is in the storage state, a user can rotate the mirror base 21 and the housing 22 through the rotating shaft 23, so that the mirror base 21 and the housing 22 are in the same plane, and at this time, the reflective mirror structure 2 is flat and overall, and when being stored together with the electronic device 1, the display screen and the housing are not damaged, which is convenient for storage; when the mirror structure 2 is in a use state, a user rotates the mirror base 21 and the housing 22 through the rotating shaft 23, so that an acute angle is formed between the mirror base 21 and the housing 22, and at this time, the mirror structure 2 is attracted to the vicinity of the camera of the electronic device 1, so as to adjust the scanning and shooting range of the camera.

The electronic device 1 in the present application includes a front surface and a back surface, and the front surface has a display screen. In order to further facilitate the storage of the mirror structure 2, the electronic device 1 is provided with a first magnet 11 near the back, and when the mirror structure 2 is in the storage state, the mirror structure 2 is fixed on the back by the magnetic connection of the first magnet 11 through the magnetic attraction element 221.

As an alternative embodiment, please refer to fig. 9 and 10, fig. 9 is a schematic structural diagram of the mirror structure stored in the electronic device (the mirror faces outward), wherein the mirror 211 faces outward, that is, the mirror 211 faces the right side in fig. 9, and fig. 10 is an enlarged view of B in fig. 9; a first magnet 11 (right side in fig. 10) is arranged inside the electronic device 1 and on one side close to the back surface, the mirror structure 2 is rotated to a storage state through a rotating shaft 23, that is, the mirror base 21 and the shell 22 are in the same plane, because the shell 22 of the mirror structure 2 is partially provided with the magnetic suction element 221, one surface of the mirror structure 2 without the mirror 211 can be correspondingly adsorbed at the position with the first magnet 11 on the back surface of the electronic device 1, when a user stores the mirror structure 2 and the electronic device 1 together, the mirror structure 2 can be firmly adsorbed on the back surface of the electronic device 1 without shaking, and the edge of the mirror structure 2 can not damage the electronic device 1;

as another alternative implementation, please refer to fig. 11 and 12, fig. 11 is a schematic structural diagram of a mirror structure accommodated in an electronic device according to an embodiment of the present application (mirror facing the electronic device), where the mirror 211 faces the electronic device 1, that is, the mirror 211 faces the left side in fig. 11, and fig. 12 is an enlarged view of B in fig. 11. Be provided with first magnet 11 (right side in fig. 12) in electronic equipment 1's inside and near back one side, rotate reflector structure 2 to the state of accomodating through pivot 23, that is mirror holder 21 and casing 22 are in the coplanar, because the casing 22 part of reflector structure 2 embeds there is magnetism to inhale component 221, consequently, the one side correspondence that has reflector 211 with reflector structure 2 adsorbs the position department that has first magnet 11 at the electronic equipment 1 back, when the user accomodates reflector structure 2 and electronic equipment 1 together, reflector structure 2 can firmly adsorb the back at electronic equipment 1, can not rock, reflector 211 pastes the back of electronic equipment 1 simultaneously, can protect reflector 211 can not by outside fish tail, improve reflector 211's life.

Further, this application embodiment still discloses an electronic equipment protective sheath (not shown in the figure), and the electronic equipment protective sheath is including relative first face and the second face that sets up, and the laminating of first face and electronic equipment's back is in order to protect electronic equipment, is equipped with the second magnet between first face and the second face, and when the reflector structure was in the state of accomodating, the magnetism through magnetism inhale component and second magnet is connected so that the reflector structure fixes at the second face.

In this embodiment, the electronic device protective cover is disposed outside the electronic device, so as to protect the housing of the electronic device, and the second magnet is disposed between the first surface and the second surface of the electronic device protective cover, so that the reflector structure 2 can be attracted to the second surface of the electronic device protective cover through the magnetic element 221 disposed in the housing 21. On one hand, the electronic equipment protective sleeve can play a role in protecting the electronic equipment; on the other hand, the reflector structure 2 can also be adsorbed outside the protective sleeve of the electronic device, so that the electronic device is convenient to store.

The above detailed description has been made on the reflective mirror structure, the electronic device and the electronic device protective sleeve disclosed in the embodiments of the present invention, and the description of the above embodiments is only used to help understanding the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, and in summary, the content of the present specification should not be understood as the limitation of the present invention.

Claims (12)

1. A mirror structure for cooperating with a camera of an electronic device to adjust a shooting range of the camera, the mirror structure comprising:

a mirror base provided with a reflective mirror;

a shell internally provided with a magnetic element;

the rotating shaft is connected between the mirror base and the shell and used for driving the shell to rotate relative to the mirror base so as to enable the reflector structure to be in a storage state or a use state;

when the reflector structure is in the accommodating state, the mirror base and the shell are in the same plane;

when the reflector structure is in the use state, the shell rotates to form an included angle with the mirror base, so that the magnetic attraction element is magnetically connected with one surface of the electronic equipment, which is provided with the camera, and the reflector faces the surface of the electronic equipment, which is provided with the camera.

2. The mirror construction of claim 1, wherein one face of the base is recessed toward itself to form a recess, the mirror being nested in the recess.

3. The mirror structure of claim 1, wherein two ends of a side of the housing away from the mirror base respectively extend in a direction away from the mirror base to form a first extension portion and a second extension portion that are disposed at an interval, a space between the first extension portion and the second extension portion forms an escape opening, and when the mirror structure is in the use state, the camera is located in the escape opening.

4. The mirror structure of claim 3, wherein the housing includes a first housing and a second housing connected to each other, the first housing and the second housing are folded to form a receiving groove inside the housing, and the magnetic element is embedded in the receiving groove.

5. The mirror structure of claim 4, wherein the receiving cavity includes a first receiving cavity and a second receiving cavity, the first receiving cavity and the second receiving cavity are respectively located in the first extending portion and the second extending portion, the magnetically attracting element includes a first magnetically attracting element and a second magnetically attracting element, and the first magnetically attracting element and the second magnetically attracting element are respectively located in the first receiving cavity and the second receiving cavity.

6. The mirror structure of any of claims 1-5, wherein the magnetically attractive element is flat, and when the mirror structure is in the stowed state, the thickness direction of the magnetically attractive element is parallel to the thickness direction of the mirror base, and when the mirror structure is in the use state, the thickness direction of the magnetically attractive element is parallel to the thickness direction of the electronic device.

7. The mirror structure according to any one of claims 1 to 5, wherein a hall switch electrically connected to a control module of the electronic device, and a third accommodating groove are further provided in the case, the hall switch being accommodated in the third accommodating groove;

when the reflector structure is in a use state, the magnetic attraction element is magnetically connected with one surface of the electronic equipment, which is provided with the camera, so that the Hall switch is switched on and outputs a signal to the control module, and the control module controls the camera to be turned on.

8. The mirror structure according to any one of claims 1 to 5, wherein the mirror base has a first inclined surface at a junction between the mirror base and the housing, and the housing has a second inclined surface, wherein a first mounting hole is provided on the first inclined surface, a second mounting hole is provided on the second inclined surface, and both ends of the rotation shaft respectively extend into the first mounting hole and the second mounting hole, so that the first inclined surface and the second inclined surface are close to and parallel to each other, and an acute angle is formed between the mirror base and the housing when the mirror structure is in the use state.

9. The mirror structure of claim 8, wherein both ends of the rotation shaft are respectively protruded in a direction away from an axis of the rotation shaft to form a stopper portion, and the stopper portions are respectively inserted into and caught in the first mounting hole and the second mounting hole.

10. An electronic device characterized by comprising the mirror structure of any one of claims 1 to 9.

11. The electronic device of claim 10, wherein the electronic device includes a front surface and a back surface, the front surface has a display screen, a first magnet is disposed inside the electronic device and is close to the back surface, and when the mirror structure is in the storage state, the mirror structure is fixed on the back surface by magnetic connection between the magnetic attraction element and the first magnet.

12. An electronic device protective cover, for covering on the electronic device of any one of claims 10-11, wherein the electronic device includes a front surface and a back surface, and the front surface has a display screen, the electronic device protective cover includes a first surface and a second surface that are disposed opposite to each other, the first surface is attached to the back surface to protect the electronic device, a second magnet is disposed between the first surface and the second surface, and when the mirror structure is in the storage state, the mirror structure is fixed on the second surface by magnetic connection of the magnetic element and the second magnet.

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