CN220400465U - Camera switch module and electronic equipment - Google Patents

Abstract

The utility model provides a camera switch module and electronic equipment, wherein the camera switch module comprises a camera bracket and a shielding switch, and the camera bracket is used for installing a camera; the shielding switch can be slidably arranged on the camera bracket, and the shielding switch is provided with a shielding part, a bending part and a poking part; the shielding part is positioned at one side of the lens of the camera, which is far away from the camera bracket, so as to shield or open the lens through the shielding part when the shielding switch slides; the bending part is formed by bending and extending from one end of the shielding part towards the direction away from the lens, and the bending part is positioned at one side of the camera bracket; the stirring part is arranged on the surface of the bending part far away from the camera bracket so as to push the shielding switch to slide through the stirring part. The utility model adopts a combined assembly and fixing method, can firstly assemble the camera, the camera bracket and the shielding switch into a whole, and then assemble the whole on the A shell of the notebook computer, thereby solving the problem of difficult assembly of the production line in processing and production.

Description

Camera switch module and electronic equipment

Technical Field

The embodiment of the utility model relates to the technical field of terminals, in particular to a camera switch module and electronic equipment.

Background

At present, with rapid development of the consumer electronics field, portable notebook computers increasingly enter lives of people. However, the problems of information fraud, candid photograph and the like are generated, and the normal life of people is disturbed. In order to protect privacy of users, a mechanical switch is arranged on a camera of part of the notebook computer, so that when the users do not use the camera, the camera lens of the camera is shielded by the mechanical switch, and the notebook computer has the function of preventing the illegal photographing.

In the existing notebook computer with a mechanical switch, the camera is usually installed on the a shell of the display end of the notebook computer, the mechanical switch is installed on the B shell of the display end, and the B shell is provided with a turning point of the mechanical switch. When the camera is assembled, the camera and the mechanical switch are required to be respectively arranged on the A shell and the B shell of the display end, and then the A shell and the B shell of the display end are assembled together.

Disclosure of Invention

The embodiment of the utility model aims to provide a camera switch module and electronic equipment, and aims to solve the problem that the conventional mechanical switch arrangement mode on a notebook computer can cause difficult assembly of a production line in processing and production.

In order to solve the above technical problems, an embodiment of the present utility model provides a camera switch module, including:

the camera support is used for installing a camera; the method comprises the steps of,

the shielding switch can be slidably arranged on the camera bracket, a limiting structure is arranged between the shielding switch and the camera bracket and used for limiting the shielding switch to be separated from the camera bracket, and a shielding part, a bending part and a poking part are arranged on the shielding switch;

the shielding part is positioned at one side of the camera lens far away from the camera bracket, so that the camera lens is shielded or opened by the shielding part when the shielding switch slides;

the bending part is formed by bending and extending from one end of the shielding part towards a direction away from the lens, and the bending part is positioned at one side of the camera bracket;

the stirring part is arranged on the surface of the bending part, which is far away from the camera bracket, so that the shielding switch is pushed to slide by the stirring part.

The utility model adopts a combined assembly and fixing method, can firstly assemble the camera, the camera bracket and the shielding switch into a whole, and then assemble the whole on the A shell of the notebook computer, thereby solving the problem of difficult assembly of the production line in processing and production.

Preferably, in the camera switch module, the limiting structure includes a limiting spring arm and a bracket limiting groove, the limiting spring arm and the bracket limiting groove are both arranged along the sliding direction of the shielding switch in an extending manner, and the limiting spring arm and the bracket limiting groove are respectively arranged on the shielding switch and the camera bracket;

the free end of the limiting spring arm stretches into the support limiting groove, and the free end of the limiting spring arm and the support limiting groove form sliding guide fit in the sliding direction.

Preferably, in the camera switch module, the two opposite end surfaces of the shielding switch in the sliding direction are respectively provided with a limiting spring arm, and two corresponding limiting spring arms on the camera support are provided with two support limiting grooves.

Preferably, in the camera switch module, the bracket limiting groove is formed on a surface of the camera bracket, which is close to the shielding part.

Preferably, in the camera switch module, a clamping part is arranged at the free end of the limiting spring arm, and a buckling part is arranged on the inner groove wall of the bracket limiting groove corresponding to the clamping part;

under the condition that the shielding switch is positioned at the opening position, the clamping part is in clamping connection with the buckling part; under the condition that the shielding switch is positioned at the shielding position, the clamping part is separated from the buckling part.

Preferably, in the camera switch module, the limit structure includes a bracket limit post and a switch limit groove, the surface of the camera bracket, which is close to the bending part, is provided with the bracket limit post, and the bending part is provided with the switch limit groove extending along the sliding direction of the shielding switch;

the free end of the support limit post stretches into the switch limit groove, and the free end of the support limit post and the switch limit groove form sliding guide fit in the sliding direction.

Preferably, in the camera switch module, the switch limit groove is located at one side of the toggle portion in the sliding direction.

Preferably, in the camera switch module, one end of the switch limiting groove away from the poking part penetrates through the bending part.

Preferably, in the camera switch module, the bracket limit post is abutted with the slot side wall of the switch limit slot, which is close to the poking part, under the condition that the shielding switch is positioned at the shielding position.

Preferably, in the camera switch module, a light hole is formed in the shielding part, and the light hole is opposite to the lens in the optical axis direction of the camera when the shielding switch is located at the open position; under the condition that the shielding switch is positioned at the shielding position, the light hole and the lens are staggered in the optical axis direction of the camera.

Preferably, in the camera switch module, the shielding switch comprises a switch bracket and a shielding sheet, the switch bracket can be slidably mounted on the camera bracket, the switch bracket is provided with the bending part and the poking part, the shielding sheet is mounted on the switch bracket, and the shielding sheet is provided with the shielding part.

Preferably, in the camera switch module, an identification mark is arranged on a surface of the shielding part, which is far away from the camera bracket, and the identification mark is positioned on one side of the light hole in the sliding direction of the shielding switch; and under the condition that the shielding switch is positioned at the shielding position, the identification mark is opposite to the lens in the optical axis direction of the camera.

Preferably, in the camera switch module, a mounting groove is formed in a surface, close to the shielding portion, of the camera support, and the camera is mounted in the mounting groove.

In order to achieve the above object, the present utility model further provides an electronic device, including a camera mounting case and the camera switch module described above;

the camera mounting shell comprises a first shell wall and a second shell wall, and one end, far away from the shielding part, of a camera bracket in the camera switch module is mounted on the first shell wall;

the second shell wall is formed by bending and extending from one end of the first shell wall towards the direction close to the shielding part, the second shell wall is located at one side, far away from the camera support, of the bending part in the camera switch module, and a poking groove is formed in the second shell wall corresponding to the poking part in the camera switch module.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

Fig. 1 is a schematic structural diagram of a camera switch module according to an embodiment of the present utility model, in which a shutter switch is located at an open position;

FIG. 2 is a second schematic diagram of a camera switch module according to an embodiment of the present utility model, wherein a shielding switch is located at a shielding position;

FIG. 3 is a schematic view of the structure of the camera bracket in FIG. 2;

FIG. 4 is a schematic diagram of the shutter switch in FIG. 2;

FIG. 5 is a schematic view of the switch bracket of FIG. 4;

FIG. 6 is a schematic view of the structure of the shielding sheet in FIG. 4;

fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present utility model;

fig. 8 is a partial enlarged view at a in fig. 7.

The utility model is described by reference numerals:

reference numerals	Name of the name	Reference numerals	Name of the name
				1000	Electronic equipment	314	Clamping part
100	Camera switch module	315	Switch limit groove
				1	Camera support	316	Mounting part
11	Bracket limit groove	317	Notch
				12	Fastening part	318	Positioning column
13	Spacing post of support	32	Shielding sheet
				14	Mounting groove	321	Shielding part
15	Boss	322	Light hole
				16	Mounting hole	323	Identification mark
2	Camera head	324	Positioning hole
				21	Lens	200	Camera mounting shell
3	Shielding switch	210	First shell wall
				31	Switch bracket	220	Second shell wall
311	Bending part	230	Toggle groove
				312	Toggle part	300	Screw
313	Spacing spring arm

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

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

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The utility model provides a camera switch module which can be applied to electronic equipment such as a notebook computer and an intelligent sound device, and fig. 1 to 6 show a preferred embodiment of the camera switch module. Referring to fig. 7 and 8, the following description will take the example that the camera switch module 100 is used in a notebook computer, i.e. the electronic device 1000 is a notebook computer.

Referring to fig. 1, in the present embodiment, a camera switch module 100 includes a camera bracket 1 and a shutter switch 3.

Referring to fig. 1 to 3, a camera holder 1 is used for mounting a camera 2.

Specifically, referring to fig. 7 and 8, the camera bracket 1 is a carrier for the camera 2, and the camera switch module 100 is also mounted on the camera mounting case 200 of the notebook computer through the camera bracket 1. Wherein the camera 2 may be part of the camera switch module 100, i.e. the camera switch module 100 may comprise the camera 2; the camera 2 may also be a part not being part of the camera switch module 100, i.e. the camera switch module 100 may not include the camera 2.

The following description will take the example that the camera switch module 100 includes the camera 2, that is, the camera switch module 100 includes the camera bracket 1, the camera 2 and the shielding switch 3. After the camera 2 is mounted on the camera support 1, the camera support 1 does not form shielding to the lens 21 of the camera 2, and the camera 2 can shoot normally. The optical axis direction of the camera 2 is defined as the front-rear direction below, and the lens 21 of the camera 2 is disposed forward.

The front end of the camera 2 is provided with a lens 21, and the rear end of the camera 2 may be fixedly mounted on the front surface of the camera bracket 1 by means of bonding, screw fixation or snap fixation. Optionally, in this embodiment, the camera 2 is adhered to the camera bracket 1 by using a double sided tape, and the fixing manner of the camera 2 is simpler.

The camera 2 is mounted on the front surface of the camera mount 1, and the specific mounting position of the camera 2 on the front surface of the camera mount 1 can be set according to the actual situation. Alternatively, referring to fig. 3, in the present embodiment, a mounting groove 14 is provided on the camera bracket 1, and the camera 2 is mounted in the mounting groove 14. The front surface of the camera bracket 1 is provided with the mounting groove 14 with a front notch, and the shape of the mounting groove 14 is generally matched with the shape of the rear end of the camera 2, and the mounting positioning of the camera 2 on the camera bracket 1 can be realized by arranging the mounting groove 14 on the front surface of the camera bracket 1.

Referring to fig. 1 to 4, a shielding switch 3 is slidably mounted on a camera bracket 1, and a shielding portion 321, a bending portion 311 and a toggle portion 312 are disposed on the shielding switch 3; the shielding portion 321 is located at a side of the lens 21 of the camera 2 away from the camera mount 1 to shield or open the lens 21 by the shielding portion 321 when the shielding switch 3 slides.

Specifically, the shutter 3 is slidable within a predetermined stroke with respect to the camera holder 1, and the sliding direction of the shutter 3 is perpendicular or nearly perpendicular to the optical axis direction of the camera 2, and the sliding direction of the shutter 3 is defined as the right-left direction below. The shielding part 321 on the shielding switch 3 is located at the front sides of the lens 21 and the camera bracket 1, and the shielding part 321 can shield or open the lens 21 in the process of sliding the shielding switch 3 left and right, so that the shielding switch 3 has a shielding position and an open position.

When the shutter switch 3 is positioned at the shutter position, the shutter 321 blocks the lens 21 of the camera 2 in the front-rear direction, so that the camera 2 cannot shoot; when the shutter switch 3 is in the open position, the shutter 321 does not block the lens 21 of the camera 2 in the front-rear direction, and the camera 2 can take a picture.

The shielding position of the shielding switch 3 may be left or right of the open position, and the shielding position of the shielding switch 3 will be described below by taking the left of the open position as an example. When the shielding switch 3 is positioned at the opening position, the shielding switch 3 can be slid leftwards to the shielding position; and when the shutter 3 is in the shutter position, the shutter 3 can be slid rightward to the open position.

The shielding portion 321 may be used to shield and open the lens 21 in various manners, for example, when the shielding switch 3 is located at the shielding position, the shielding portion 321 is opposite to the lens 21 in front-back direction; and when the shutter switch 3 is in the open position, the shutter 321 is displaced from the lens 21.

Alternatively, referring to fig. 1, 2 and 4, in the present embodiment, a light hole 322 is provided on the shielding portion 321, and in the case where the shielding switch 3 is located at the open position, the light hole 322 is opposite to the lens 21 in the optical axis direction of the camera 2; when the shielding switch 3 is positioned at the shielding position, the light transmitting hole 322 is offset from the lens 21 in the optical axis direction of the camera 2.

Specifically, the light holes 322 penetrate the shielding portion 321 from front to back, and the shape of the light holes 322 is generally adapted to the shape of the lens 21. When the shutter 3 is in the open position, the light-transmitting hole 322 is opposite to the lens 21, and light can be projected from the light-transmitting hole 322 to the lens 21 through the shutter 321. When the shielding switch 3 is positioned at the shielding position, the light hole 322 is displaced from the lens 21 in the front-rear direction, and the shielding portion 321 shields the lens 21, so that light cannot be projected onto the lens 21.

The shielding portion 321 is usually black, and since the lens 21 of the camera 2 is usually black, if the non-light-transmitting hole of the shielding portion 321 is also black, the light-transmitting hole 322 is located at the front side of the lens 21 and the non-light-transmitting hole is located at the front side of the lens 21 are not large, so that it is difficult for a user to distinguish whether the shielding switch 3 is located at the open position or the shielding position.

In order to facilitate the user to quickly confirm whether the shutter switch 3 is located at the on position or the shutter position, optionally, referring to fig. 1, 2 and 4, in this embodiment, an identification mark 323 is provided on a surface of the shutter portion 321 away from the camera support 1, the identification mark 323 being located at one side of the light hole 322 in the sliding direction of the shutter switch 3; when the shutter 3 is positioned at the shutter position, the identification mark 323 is opposed to the lens 21 in the optical axis direction of the camera 2.

Specifically, the shielding portion 321 is provided with an identification mark 323 on the front surface, and the identification mark 323 is located on the right side of the light hole 322. When the shutter 3 is in the open position, the identification mark 323 is shifted from the lens 21. When the shutter 3 is positioned at the shutter position, the identification mark 323 is opposed to the lens 21. When the user sees the identification mark 323, the user can confirm that the blocking switch 3 is located at the blocking position, and the lens 21 of the camera 2 is blocked by the blocking portion 321, so that the user can directly recognize from the naked eye whether the camera 2 is directly turned off or not through the identification mark 323.

In this case, the identification mark 323 is usually set to be non-black such as red. Alternatively, referring to fig. 1, 2 and 4, in the present embodiment, the identification mark 323 is a red dot, which makes discrimination easier.

Referring to fig. 1, 2 and 4, a bending portion 311 is formed by bending and extending from one end of a shielding portion 321 towards a direction away from a lens 21, and the bending portion 311 is located at one side of the camera bracket 1; the poking part 312 is arranged on the surface of the bending part 311 away from the camera bracket 1, so that the poking part 312 pushes the shielding switch 3 to slide.

Specifically, the shielding portion 321 is connected to the bending portion 311 at one end in a direction perpendicular to the optical axis direction of the camera 2 and perpendicular to the sliding direction of the shielding switch 3, and the end of the shielding portion 321 near the bending portion 311 is defined as an upper end of the shielding portion 321, and the end of the shielding portion 321 away from the bending portion 311 is defined as a lower end of the shielding portion 321. The bending portion 311 is formed by bending and extending rearward from the upper end of the shielding portion 321, and the bending portion 311 is located on the upper side of the camera mount 1.

The upper surface of the bending portion 311 is provided with a toggle portion 312, and a user can slide the shutter 3 left and right by operating the toggle portion 312. The specific arrangement of the toggle portion 312 is not particularly limited, and the toggle portion 312 is generally a protrusion, or the like, alternatively, referring to fig. 1, 2 and 4, in this embodiment, the toggle portion 312 is cylindrically arranged along the vertical direction.

The shielding part 321 and the bending part 311 are formed on the shielding switch 3, and the shielding part 321 and the bending part 311 are arranged at 90 degrees or approximately at 90 degrees, so that the shielding switch 3 is integrally arranged in an L shape. The shielding switch 3 adopts a three-dimensional structure, so that the shielding point (namely, the shielding part 321) of the shielding switch 3 and the poking point (namely, the poking part 312) are arranged at 90 degrees.

The shielding switch 3 may be one component, or the shielding switch 3 may be assembled from a plurality of components. Alternatively, referring to fig. 4 to 6, in the present embodiment, the shielding switch 3 includes a switch bracket 31 and a shielding piece 32, the switch bracket 31 is slidably mounted on the camera bracket 1, a bending portion 311 and a toggle portion 312 are disposed on the switch bracket 31, the shielding piece 32 is mounted on the switch bracket 31, and a shielding portion 321 is disposed on the shielding piece 32.

Specifically, the switch bracket 31 is L-shaped, the shielding switch 3 further includes a mounting portion 316, the mounting portion 316 is formed by bending and extending downward from the front end of the bending portion 311, the mounting portion 316 is located at the front side of the camera bracket 1, and a notch 317 is provided on the mounting portion 316 corresponding to the lens 21 of the camera 2, so as to avoid the shielding of the lens 21 by the switch bracket 31. The shielding plate 32 is mounted on the front surface of the mounting portion 316 forward, and the portion of the shielding plate 32 opposite to the front and rear of the notch 317 on the mounting portion 316 is the shielding portion 321.

The manner of fixing the switch holder 31 to the shielding piece 32 is not particularly limited, and for example, the shielding piece 32 may be fixed to the mounting portion 316 by adhesion, fastening, screw fastening, or the like. Alternatively, referring to fig. 4 to 6, in the present embodiment, a positioning hole 324 is provided on the shielding plate 32, and a positioning post 318 is provided on the shielding switch 3 corresponding to the positioning hole 324, where the positioning post 318 forms a positioning fit with the positioning hole 324.

Specifically, the front surface of the mounting portion 316 is provided with a positioning post 318 extending in the front-rear direction, and the shielding sheet 32 is provided with a positioning hole 324 penetrating the corresponding positioning post 318, so that the mounting and positioning between the switch bracket 31 and the shielding sheet 32 can be realized by positioning and matching between the mounting portion 316 and the positioning hole 324.

The specific number of the positioning posts 318 and the positioning holes 324 is not limited, and a plurality of positioning posts 318 and positioning holes 324 are generally disposed in a one-to-one correspondence. Alternatively, referring to fig. 4 to 6, in the present embodiment, two positioning posts 318 are disposed on the shielding switch 3 at left and right intervals, and the two positioning posts 318 are respectively located on the left side and the right side of the notch 317, and two positioning holes 324 are disposed on the shielding piece 32 corresponding to the two positioning posts 318. Thus, the mounting portion 316 and the positioning hole 324 have a good mounting and positioning effect on the switch bracket 31 and the shielding plate 32.

Referring to fig. 1, 3 and 4, a limit structure is disposed between the shielding switch 3 and the camera bracket 1, and the limit structure is used for limiting the shielding switch 3 from being separated from the camera bracket 1.

Specifically, as the limit structure is arranged between the shielding switch 3 and the camera bracket 1, the limit structure can limit the shielding switch 3 and the camera bracket 1 to separate from each other, so that the camera bracket 1, the camera 2 and the shielding switch 3 can be assembled into a whole, and then the whole is assembled on the camera mounting shell 200 of the notebook computer. The limiting structure does not interfere with the normal sliding travel of the shielding switch 3 in the left-right direction, and the shielding switch 3 can freely slide from the shielding position to the opening position and also can freely slide from the opening position to the shielding position on the camera bracket 1.

The limiting structure can normally limit the space between the shielding switch 3 and the camera bracket 1 in the up-down direction, the front-back direction and the left-right direction, and the specific setting mode of the limiting structure can be set according to actual conditions.

Optionally, referring to fig. 1, 3 and 4, in this embodiment, the limiting structure includes a limiting spring arm 313 and a support limiting groove 11, the limiting spring arm 313 and the support limiting groove 11 are all extended along the sliding direction of the shielding switch 3, the limiting spring arm 313 and the support limiting groove 11 are respectively disposed on the shielding switch 3 and the camera support 1, the free end of the limiting spring arm 313 extends into the support limiting groove 11, and the free end of the limiting spring arm 313 and the support limiting groove 11 form a sliding guide fit in the sliding direction.

Specifically, the shielding switch 3 is provided with a stopper arm 313 extending in the left-right direction, and the camera holder 1 is provided with a holder stopper groove 11 extending in the left-right direction corresponding to the stopper arm 313. Through the cooperation of spacing bullet arm 313 and support spacing groove 11, can play the effect of slip direction to shelter from switch 3 upwards about, make shelter from switch 3 can smoothly left and right sliding on camera support 1.

The cooperation of spacing bullet arm 313 and support spacing groove 11 can play the effect of sliding guide in addition to shelter from switch 3, and spacing bullet arm 313 and support spacing groove 11's cooperation can also play spacing effect to shelter from switch 3 in the groove width direction of support spacing groove 11. For example, if the bracket limiting groove 11 is disposed on the upper surface or the lower surface of the camera bracket 1, the notch of the bracket limiting groove 11 faces upward or downward, the groove width direction of the bracket limiting groove 11 is forward and backward, and the cooperation of the limiting spring arm 313 and the bracket limiting groove 11 can play a limiting role on the shielding switch 3 in forward and backward directions. For another example, if the bracket limiting groove 11 is disposed on the front surface or the rear surface of the camera bracket 1, the notch of the bracket limiting groove 11 faces forward or backward, the groove width direction of the bracket limiting groove 11 is upward and downward, and the cooperation of the limiting spring arm 313 and the bracket limiting groove 11 can play a limiting role on the shielding switch 3 upward and downward.

Alternatively, referring to fig. 1 to 3, in the present embodiment, a bracket limiting groove 11 is disposed on a surface of the camera bracket 1 near the shielding portion 321. The support limit groove 11 is formed in the front surface of the camera support 1, the notch of the support limit groove 11 faces forward, and the cooperation of the limit spring arm 313 and the support limit groove 11 can play a limiting role on the shielding switch 3 in an up-down direction, and the support limit groove 11 is formed in the front surface of the camera support 1 for introduction.

The specific implementation manner of providing the bracket limit groove 11 on the front surface of the camera bracket 1 is not particularly limited, and for example, the bracket limit groove 11 may be formed by directly grooving the front surface of the camera bracket 1 in the left-right direction.

Alternatively, referring to fig. 3, in the present embodiment, two bosses 15 extending in the left-right direction are disposed on the camera bracket 1 at intervals, and a bracket limiting groove 11 is formed between the two bosses 15.

Specifically, the bracket limit groove 11 is formed by providing the boss 15 on the front surface of the camera bracket 1, so that in the process of sliding the shutter switch 3 left and right, the part of the front surface of the camera bracket 1 other than the boss 15 is not easy to interfere with the shutter switch 3.

Alternatively, referring to fig. 1, 3 and 4, in this embodiment, two end faces of the shutter switch 3 opposite to each other in the sliding direction are provided with two limiting spring arms 313, and two support limiting grooves 11 are provided on the camera support 1 corresponding to the two limiting spring arms 313.

Specifically, two limiting spring arms 313 are provided corresponding to the bracket limiting grooves 11, the two limiting spring arms 313 are respectively arranged on the left end face and the right end face of the shielding switch 3, and the two bracket limiting grooves 11 are respectively arranged at the left end and the right end of the camera bracket 1. So set up two sets of spacing bullet arm 313 and support spacing groove 11 for the atress of shielding switch 3 can be comparatively balanced, thereby more be favorable to shielding switch 3 can smoothly left and right sliding on camera support 1, and also better to shielding switch 3's spacing effect.

The shielding switch 3 is provided with two limiting spring arms 313, and the two limiting spring arms 313 can be arranged on the switch bracket 31 or the shielding sheet 32. Alternatively, referring to fig. 5, in the present embodiment, two limiting spring arms 313 are disposed on the left end face and the right end face of the mounting portion 316, respectively.

And the left end and the right end of the camera bracket 1 are provided with two parallel bosses 15, so that bracket limiting grooves 11 are formed at the left end and the right end of the camera bracket 1. And the boss 15 on the left side and the boss 15 on the right side can also play a limiting role on the shielding switch 3 in the left-right upward direction, so that the situation that the shielding switch 3 slides down from the camera bracket 1 is avoided.

Alternatively, referring to fig. 2, in the present embodiment, in the case where the shutter switch 3 is located at the shutter position, the shutter switch 3 abuts against the boss 15 located at the left end of the camera bracket 1. When the shutter 3 is slid leftward to the shutter position, the left end face of the mounting portion 316 abuts against the right end faces of the two bosses 15 located on the left side, thereby realizing sliding positioning of the shutter 3 at the shutter position.

In order to realize the sliding positioning of the shutter 3 at the open position, as shown in fig. 1 to 3, in this embodiment, a free end of the limiting spring arm 313 is provided with a clamping portion 314, and a buckling portion 12 is provided on an inner groove wall of the bracket limiting groove 11 corresponding to the clamping portion 314; wherein, when the shielding switch 3 is at the open position, the clamping part 314 is in clamping connection with the buckling part 12; when the shutter switch 3 is in the shutter position, the locking portion 314 is separated from the locking portion 12.

Specifically, the right end of the limiting spring arm 313 located on the right side is provided with a clamping portion 314, and the inner groove wall of the bracket limiting groove 11 located on the right side is provided with a buckling portion 12, and sliding positioning of the shielding switch 3 at the opening position can be achieved through the clamping fit between the clamping portion 314 and the buckling portion 12.

The specific arrangement manner of the clamping portion 314 and the buckling portion 12 is not limited, for example, the clamping portion 314 and the buckling portion 12 may be both protrusions; for another example, the fastening portion 314 and the fastening portion 12 may be a clasp, and the other may be a slot.

Alternatively, referring to fig. 3 to 5, in the present embodiment, the right end of the limiting spring arm 313 located on the right side is provided with a protrusion downward to form a clamping portion 314, the upper surface of one boss 15 located on the right end of the camera bracket 1 and located below is provided with a protrusion to form a fastening portion 12, and both the clamping portion 314 and the left and right ends of the fastening portion 12 are provided with guide surfaces (not shown in the drawings), so that the user can save effort when sliding the shielding switch 3 through the shielding position.

Limiting spring arm 313 and support spacing groove 11 through among the limit structure can upwards carry out spacingly between shielding switch 3 and camera support 1 from top to bottom, and as introduced above, limit structure can also upwards carry out spacingly between shielding switch 3 and camera support 1 from front to back.

Optionally, referring to fig. 1, 3 and 4, in this embodiment, the limiting structure includes a bracket limiting post 13 and a switch limiting groove 315, the surface of the camera bracket 1 near the bending portion 311 is provided with the bracket limiting post 13, the bending portion 311 is provided with the switch limiting groove 315 extending along the sliding direction of the shielding switch 3, the free end of the bracket limiting post 13 extends into the switch limiting groove 315, and the free end of the bracket limiting post 13 and the switch limiting groove 315 form a sliding guiding fit in the sliding direction.

Specifically, the upper surface of the camera support 1 is provided with a support limiting column 13 extending vertically, the bending part 311 is provided with a switch limiting groove 315 extending horizontally corresponding to the support limiting column 13, and the switch limiting groove 315 penetrates through the bending part 311 vertically, so that the upper end of the support limiting column 13 can extend into the switch limiting groove 315. The shielding switch 3 can be guided in a sliding manner in the left-right direction through the cooperation of the bracket limiting column 13 and the switch limiting groove 315; and the cooperation of the bracket limiting column 13 and the switch limiting groove 315 can play a limiting role on the shielding switch 3 in the front-back direction.

The bending portion 311 is provided with a toggle portion 312 and a switch limiting groove 315, and the switch limiting groove 315 may be located at one side of the toggle portion 312 in the sliding direction, i.e. the switch limiting groove 315 may be located at the left side or the right side of the toggle portion 312. The switch limit groove 315 may be located at one side of the toggle portion 312 in the optical axis direction of the camera 2, that is, the switch limit groove 315 may be located at the front side or the rear side of the toggle portion 312.

Alternatively, referring to fig. 1, 2 and 4, in the present embodiment, the switch limit slot 315 is located on the left side of the toggle portion 312, and the switch limit slot 315 will be described below as an example being located on the left side of the toggle portion 312.

Further, referring to fig. 1, 4 and 5, in the present embodiment, an end of the switch limiting groove 315 away from the toggle portion 312 penetrates the bending portion 311. The left end of the switch limit groove 315 penetrates through the bending portion 311, and an inlet (not shown in the figure) of the switch limit groove 315 is formed on the left end surface of the bending portion 311, so that the bracket limit post 13 can be conveniently installed in the switch limit groove 315 from the inlet.

Alternatively, referring to fig. 1, 4 and 5, in the present embodiment, in the case that the shielding switch 3 is located at the shielding position, the bracket limiting post 13 abuts against the slot sidewall of the switch limiting slot 315 near the toggle portion 312.

Specifically, when the shutter switch 3 is slid to the left to the shutter position, the bracket limit post 13 abuts against the right groove side wall of the switch limit groove 315, thereby realizing the sliding positioning of the shutter switch 3 at the shutter position.

The utility model adopts a combined assembly and fixing method, can firstly assemble the camera 2, the camera bracket 1 and the shielding switch 3 into a whole, and then assemble the whole on the A shell of the notebook computer, thereby solving the problem of difficult assembly of the production line in processing and production.

The camera switch module 100 includes a camera bracket 1, a camera 2, a shielding switch 3, and the assembly process of the camera switch module 100 can be as follows:

1. firstly, assembling the camera 2 on the camera bracket 1, for example, adhering the camera 2 in an installation groove 14 on the camera bracket 1 by adopting double-sided adhesive tape;

2. from top to bottom, two limit spring arms 313 on the shielding switch 3 are respectively assembled into two frame limit grooves 11 on the camera bracket 1, and the two frame limit grooves 11 can limit the shielding switch 3 to move up and down upwards;

3. the switch limit groove 315 on the shielding switch 3 is aligned with the support limit post 13 on the camera support 1 and then slides rightwards, and the support limit post 13 can limit the movement of the shielding switch 3 in the front-back direction.

The utility model also provides an electronic device which can be a notebook computer, an intelligent sound device and the like, and the electronic device comprises the camera switch module 100, wherein the camera switch module 100 adopts the technical scheme of the embodiment, so that the electronic device has the beneficial effects brought by the technical scheme of the embodiment, and fig. 7 to 8 show a preferred embodiment of the electronic device provided by the utility model.

Referring to fig. 7 and 8, in the present embodiment, an electronic device 1000 includes a camera switch module 100 and a camera mounting case 200, the camera mounting case 200 includes a first case wall 210 and a second case wall 220, and one end of a camera bracket 1 in the camera switch module 100, which is far away from a shielding portion 321, is mounted on the first case wall 210; the second shell wall 220 is formed by bending and extending from one end of the first shell wall 210 towards the direction close to the shielding part 321, the second shell wall 220 is located at one side of the bending part 311 of the camera switch module 100, which is far away from the camera bracket 1, and a poking groove 230 is formed on the second shell wall 220 corresponding to the poking part 312 of the camera switch module 100.

Specifically, the second casing wall 220 is formed by bending and extending forward from the upper end of the first casing wall 210, the second casing wall 220 is disposed at 90 ° or approximately 90 ° between the first casing wall 210, and the second casing wall 220 is provided with a toggle slot 230 extending along the left and right directions. The camera switch module 100 is mounted on the camera mounting case 200, and the camera switch module 100 is close to the connection between the first case wall 210 and the second case wall 220. The rear end of the camera mount 1 is mounted on the front surface of the first case wall 210 such that the lens 21 of the camera 2 faces forward. The bending part 311 is located at the lower side of the second shell wall 220, and the upper end of the stirring part 312 extends into the stirring groove 230 on the second shell wall 220, so that a user can stir the stirring part 312 left and right along the stirring groove 230, thereby driving the shielding switch 3 to slide left and right.

The specific fixing manner of the camera bracket 1 on the first housing wall 210 is not particularly limited, and for example, the camera bracket 1 may be fixedly mounted on the first housing wall 210 by means of adhesion, screw fixation or clamping fixation. Alternatively, referring to fig. 3 and 8, in the present embodiment, the left and right ends of the camera bracket 1 are provided with mounting holes 16, a screw 300 is mounted at each mounting hole 16 to fixedly mount the camera bracket 1 on the first housing wall 210 by the screw 300, and a plastic stud (not shown in the drawings) in threaded connection with the screw 300 is typically disposed on the first housing wall 210.

Alternatively, referring to fig. 7 and 8, in the present embodiment, in the case that the shutter switch 3 is located at the shutter position, the striking part 312 abuts against the left slot sidewall of the striking slot 230; when the shutter switch 3 is in the open position, the toggle portion 312 abuts against the right slot sidewall of the toggle slot 230. Thus, through the cooperation of the poking part 312 and the poking groove 230, the sliding positioning of the shielding switch 3 at the shielding position and the opening position can be realized.

Alternatively, referring to fig. 7 and 8, in the present embodiment, the electronic device 1000 is a notebook computer, and the camera mounting case 200 is an a case of the notebook computer.

Specifically, the notebook computer includes the display terminal that is provided with the display screen, and the casing part of display terminal includes the A shell and the B shell of concatenation around, and the B shell is located the front side of A shell, is provided with forward display screen on the B shell, and camera switch module 100 installs on A shell, and the toggle point that shelters from switch 3 is located on the side of A shell, and the red point (i.e. identification mark 323) is located the screen, and both are 90 settings.

The assembly process of the camera switch module 100 and the a-shell may be as follows:

1. firstly, assembling the camera 2 on the camera bracket 1, for example, adhering the camera 2 in an installation groove 14 on the camera bracket 1 by adopting double-sided adhesive tape;

2. from top to bottom, two limit spring arms 313 on the shielding switch 3 are respectively assembled into two frame limit grooves 11 on the camera bracket 1, and the two frame limit grooves 11 can limit the shielding switch 3 to move up and down upwards;

3. the switch limit groove 315 on the shielding switch 3 is aligned with the bracket limit post 13 on the camera bracket 1 and then slides rightwards, and the bracket limit post 13 can limit the movement of the shielding switch 3 in the front-back direction, so that the assembly of the camera switch module 100 is completed;

4. the camera switch module 100 is attached to the front surface of the A shell and pushed into the poking groove 230 on the A shell from bottom to top, so that the poking part 312 on the shielding switch 3 enters the poking groove 230, and the poking groove 230 can limit the moving stroke of the shielding switch 3 in the left-right upward direction;

5. the camera bracket 1 is fixed on the plastic stud of the A shell by screws 300 at two ends;

6. assembling the B-shell and the lens such that the camera switch module 100 is in a closed cavity configuration;

7. the shielding switch 3 is shifted left and right, and the red dots synchronously move to block the camera 2, so that a physical shielding function is realized.

The foregoing description of the preferred embodiments of the present utility model should not be construed as limiting the scope of the utility model, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model as defined by the following description and drawings or any application directly or indirectly to other relevant art(s).

Claims (10)

1. A camera switch module, comprising:

the camera support is used for installing a camera; the method comprises the steps of,

the shielding switch can be slidably arranged on the camera bracket, a limiting structure is arranged between the shielding switch and the camera bracket and used for limiting the shielding switch to be separated from the camera bracket, and a shielding part, a bending part and a poking part are arranged on the shielding switch;

the shielding part is positioned at one side of the camera lens far away from the camera bracket, so that the camera lens is shielded or opened by the shielding part when the shielding switch slides;

the bending part is formed by bending and extending from one end of the shielding part towards a direction away from the lens, and the bending part is positioned at one side of the camera bracket;

the stirring part is arranged on the surface of the bending part, which is far away from the camera bracket, so that the shielding switch is pushed to slide by the stirring part.

2. The camera switch module as claimed in claim 1, wherein the limiting structure includes a limiting spring arm and a bracket limiting groove, the limiting spring arm and the bracket limiting groove are both extended along a sliding direction of the shielding switch, and the limiting spring arm and the bracket limiting groove are respectively disposed on the shielding switch and the camera bracket;

the free end of the limiting spring arm stretches into the support limiting groove, and the free end of the limiting spring arm and the support limiting groove form sliding guide fit in the sliding direction.

3. The camera switch module as claimed in claim 2, wherein the shielding switch is provided with the limiting spring arms on two opposite end surfaces in the sliding direction, and two support limiting grooves are formed on the camera support corresponding to the two limiting spring arms; and/or the number of the groups of groups,

the support limiting groove is formed in the surface, close to the shielding portion, of the camera support.

4. The camera switch module as claimed in claim 2, wherein the free end of the limiting spring arm is provided with a clamping part, and the inner groove wall of the bracket limiting groove is provided with a buckling part corresponding to the clamping part;

under the condition that the shielding switch is positioned at the opening position, the clamping part is in clamping connection with the buckling part; under the condition that the shielding switch is positioned at the shielding position, the clamping part is separated from the buckling part.

5. The camera switch module as claimed in any one of claims 1 to 4, wherein the limit structure includes a bracket limit post and a switch limit groove, the bracket limit post is provided on a surface of the camera bracket near the bending part, and the switch limit groove extending along a sliding direction of the shutter switch is provided on the bending part;

the free end of the support limit post stretches into the switch limit groove, and the free end of the support limit post and the switch limit groove form sliding guide fit in the sliding direction.

6. The camera switch module as in claim 5 wherein said switch limit slot is located on a side of said toggle portion in said sliding direction, wherein:

one end of the switch limit groove, which is far away from the poking part, penetrates through the bending part; and/or the number of the groups of groups,

under the condition that the shielding switch is positioned at the shielding position, the support limit post is abutted with the side wall of the switch limit groove, which is close to the poking part.

7. The camera switch module as claimed in any one of claims 1 to 4, wherein a light hole is provided on the shielding portion, the light hole being opposite to the lens in an optical axis direction of the camera in a case where the shielding switch is in an open position; when the shielding switch is positioned at the shielding position, the light hole and the lens are staggered in the optical axis direction of the camera; and/or the number of the groups of groups,

the shielding switch comprises a switch support and a shielding sheet, the switch support can be slidably installed on the camera support, the switch support is provided with a bending part and a poking part, the shielding sheet is installed on the switch support, and the shielding sheet is provided with the shielding part.

8. The camera switch module as claimed in claim 7, wherein an identification mark is provided on a surface of the shielding portion away from the camera bracket, the identification mark being located at a side of the light-transmitting hole in a sliding direction of the shielding switch; and under the condition that the shielding switch is positioned at the shielding position, the identification mark is opposite to the lens in the optical axis direction of the camera.

9. The camera switch module as in any one of claims 1-4 wherein said camera mount has a mounting slot on a surface thereof adjacent said shield portion, said camera being mounted in said mounting slot.

10. An electronic device comprising a camera mounting case and a camera switch module according to any one of claims 1 to 9;

the camera mounting shell comprises a first shell wall and a second shell wall, and one end, far away from the shielding part, of a camera bracket in the camera switch module is mounted on the first shell wall;

the second shell wall is formed by bending and extending from one end of the first shell wall towards the direction close to the shielding part, the second shell wall is located at one side, far away from the camera support, of the bending part in the camera switch module, and a poking groove is formed in the second shell wall corresponding to the poking part in the camera switch module.