CN211127923U - Camera stress improvement structure and mobile terminal comprising same - Google Patents

Abstract

The utility model provides a camera atress improves structure and includes its mobile terminal, camera atress improves structure including integral type camera and flange support, the flange support can be dismantled and connect in the integral type camera, wherein, integral type camera is including camera head and base, one side of flange support is provided with the flange face, the flange face encircles around setting up around the camera head face of camera head in the camera head, the flange support is connected with camera head, and the pressure of flange support transmits to the base through the week side of camera head. The utility model discloses an area of sealed atress has been extended through the flange face of flange support around the integral type camera. Wherein, the flange face pressurized back of flange support, the lower extreme through flange support borrows pressure to the base by the week side transmission of lens portion to reduced the direct pressure to the lens portion, made the lens face pressurized reduce, improved the stability of shooing, the reinforcing effect of shooing.

Description

Camera stress improvement structure and mobile terminal comprising same

Technical Field

The utility model relates to a camera atress improves structure and reaches mobile terminal including it.

Background

The top of the lens of the existing integrated camera is a plastic monomer. When the camera is sealed by a sealing plate or the like during assembly, the pressure of the sealing plate directly acts on the sealing force-receiving surface around the lens of the integrated camera. Because the sealed stress surface is very close to the lens, the lens stress is unstable, the stability of lens shooting is poor, and the shooting effect is influenced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that the sealed stress surface of camera is very near from the camera lens among the prior art in order to overcome, therefore the camera lens atress is unstable, leads to the poor stability that the camera lens was shot, influences the effect defect of shooing, provides a camera atress and improves structure and including its mobile terminal.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

the utility model provides a structure is improved to camera atress, its characterized in that, structure is improved to camera atress is including integral type camera and flange support, flange support can dismantle connect in integral type camera, wherein, integral type camera is including lens portion and base, one side of flange support is provided with the flange face, the flange face encircles and sets up in around the lens face of lens portion, the flange support with lens portion connects, just the pressure of flange support passes through all sides transmission extremely of lens portion the base.

The utility model discloses in can also set up the cotton or other commonly used bearing structure of bubble and support on the flange support, the adjustment distance. The utility model discloses an area of sealed atress has been extended through the flange face of flange support around the integral type camera. Wherein, flange support's flange face pressurized back, lower extreme through flange support borrows pressure by the week side of lens portion transmits extremely the base to reduced the direct pressure to lens portion, made the lens face pressurized reduce, improved the stability of shooing, the reinforcing effect of shooing.

Preferably, the base is arranged to protrude from the lens portion, and a portion of the base protruding from the lens portion is located below the flange bracket. Through setting up the base for convex structure, be convenient for hold more inside components and parts.

Preferably, the flange bracket is provided with at least one bracket fastener, the periphery of the lens part is provided with at least one camera fastener, and the bracket fastener and the lens part are arranged to be connected in a fastening manner. From this flange bracket connects through the mode of buckle for the flange bracket is connected with dismantling between the lens portion more convenient. Meanwhile, the mode of the buckle is convenient for positioning, and the flange surface of the flange support can be accurately positioned around the lens surface of the lens part.

Preferably, the number of the bracket fasteners is plural and the bracket fasteners are arranged circumferentially, the number of the camera fasteners is plural and the camera fasteners are arranged circumferentially, wherein the flange bracket rotates relative to the lens part, thereby realizing the fastening and the disengagement of the camera fasteners and the bracket fasteners. The stability that the buckle combined can be improved by the arrangement of the plurality of support fasteners and the camera fastener. Wherein, support buckle spare and camera buckle spare are connected the location in a plurality of directions, can ensure the balance of the flange face of flange support. Meanwhile, the force transmission of the bracket fastener is more balanced and can be uniformly transmitted to all parts on the periphery of the lens part.

The connection and the dismantlement of support buckle spare and camera buckle spare are realized more conveniently through rotatory mode, and because the setting of a plurality of support buckle spare and camera buckle spare, required pivoted angle is less when installing and dismantling at every turn.

Preferably, spacing spaces are provided between the bracket fastening pieces and between the camera fastening pieces, wherein the spacing spaces between the camera fastening pieces are set so that the bracket fastening pieces pass through, and the spacing spaces between the bracket fastening pieces are set so that the camera fastening pieces pass through. The spacing space allows the bracket fastener and the camera fastener to pass through each other,

preferably, the circumference of the lens part is a cylindrical surface, the inner surface of the bracket fastener is a cylindrical surface, and the inner surface of the bracket fastener is attached to the circumference of the lens part. The circumference of the lens part and the inner side surface of the bracket fastener are arranged to be cylindrical surfaces so as to ensure the rotary fastening of the flange bracket relative to the lens part.

Preferably, the flange bracket has a flange ring at an upper end thereof, the flange surface is located at an upper end of the flange ring, and the bracket fastener is connected below the flange ring.

Preferably, the bracket fastener is L-shaped, a connecting groove is formed between the bracket fastener and the flange ring, and the camera fastener is connected with the connecting groove in a buckled manner, and the L-shaped bracket fastener and the camera fastener are arranged in a vertically surrounding manner, so that the connecting tightness is ensured, the bearing pressure on the bracket fastener is transferred to the periphery of the lens part by the camera fastener and is supported by the lower base, and the bearing pressure of the lens part is reduced.

Preferably, the outer side surface of the flange ring, the outer side surface of the camera fastener and the outer side surface of the bracket fastener are smoothly transitioned. The smooth transition arrangement improves the surface integrity of the flange bracket and the lens part and reduces the interference with the peripheral structure.

A mobile terminal is characterized by comprising a sealing plate and a camera stress improvement structure.

The utility model discloses an actively advance the effect and lie in: the utility model discloses an area of sealed atress has been extended through the flange face of flange support around the integral type camera. Wherein, flange support's flange face pressurized back, lower extreme through flange support borrows pressure by the week side of lens portion transmits extremely the base to reduced the direct pressure to lens portion, made the lens face pressurized reduce, improved the stability of shooing, the reinforcing effect of shooing.

Drawings

Fig. 1 is a schematic view of a combination of the structure for improving the stress of the camera according to the preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of the structure for improving the stress of the camera according to the preferred embodiment of the present invention.

Fig. 3 is a schematic structural view of a flange bracket according to a preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of the structure for improving the stress of the camera according to the preferred embodiment of the present invention.

Detailed Description

The present invention will be more clearly and completely described below with reference to the accompanying drawings.

As shown in fig. 1-4, the present embodiment discloses a camera stress improvement structure, wherein the camera stress improvement structure includes an integrated camera and a flange bracket 3, the flange bracket 3 is detachably connected to the integrated camera, wherein the integrated camera includes a lens portion 1 and a base 2, one side of the flange bracket 3 is provided with a flange surface 31, the flange surface 31 surrounds a lens surface 11 of the lens portion 1, the flange bracket 3 is connected to the lens portion 1, and the pressure of the flange bracket 3 is transmitted to the base 2 through a peripheral side 12 of the lens portion 1.

The utility model discloses in can also set up the cotton or other commonly used bearing structure of bubble and support on flange support 3, the adjustment distance. The utility model discloses a flange face 31 through flange support 3 has expanded the area of sealed atress around the integral type camera. Wherein, flange support 3's flange face 31 pressurized back, the lower extreme through flange support 3 borrows pressure to transmit to base 2 by week side 12 of lens portion 1 to reduced the direct pressure to lens portion 1, made lens face 11 pressurized reduction, improved the stability of shooing, the reinforcing effect of shooing.

As shown in fig. 1, 2 and 4, the base 2 of the present embodiment is configured to protrude from the lens portion 1, and a portion of the base 2 protruding from the lens portion 1 is located below the flange bracket 3. By arranging the base 2 to be a convex structure, more internal components can be accommodated conveniently.

As shown in fig. 1, 2 and 3, the flange frame 3 of the present embodiment is provided with at least one frame fastener 33, the peripheral side 12 of the lens portion 1 is provided with at least one camera fastener 13, and the frame fastener 33 and the lens portion 1 are configured to be in snap connection. From this flange bracket 3 connects through the mode of buckle for the connection between flange bracket 3 and the lens portion 1 is more convenient with the dismantlement. Meanwhile, the snap-fit mode is convenient for positioning, and the flange surface 31 of the flange bracket 3 can be accurately positioned around the lens surface 11 of the lens part 1.

As shown in fig. 1 and fig. 2, the number of the bracket fasteners 33 of the present embodiment is multiple, the bracket fasteners 33 are arranged circumferentially, the number of the camera fasteners 13 is multiple, the camera fasteners 13 are arranged circumferentially, and the flange bracket 3 rotates relative to the lens portion 1, so as to realize the engagement and disengagement of the camera fasteners 13 and the bracket fasteners 33. The arrangement of the plurality of bracket snaps 33 and the camera snap 13 can improve the stability of the snap coupling. The bracket fastener 33 and the camera fastener 13 are connected and positioned in multiple directions, so that the balance of the flange surface 31 of the flange bracket 3 can be ensured. Meanwhile, the force transmission of the bracket fastener 33 is more balanced and can be uniformly transmitted to all parts on the periphery of the lens part 1.

The support fastener 33 and the camera fastener 13 can be connected (see fig. 1) and detached (see fig. 2) conveniently by rotating, and the angle of rotation required for each installation and detachment is relatively small due to the arrangement of the plurality of support fasteners 33 and the camera fastener 13.

As shown in fig. 3 and 4, spacing spaces with a certain distance are respectively disposed between the bracket fasteners 33 and between the camera fasteners 13 of the present embodiment, wherein the spacing spaces between the camera fasteners 13 are set to allow the bracket fasteners 33 to pass through, and the spacing spaces between the bracket fasteners 33 are set to allow the camera fasteners 13 to pass through. The spacing allows the bracket catch 33 and the camera catch 13 to pass through each other,

as shown in fig. 3 and 4, the circumferential side 12 of the lens portion 1 of the present embodiment is a cylindrical surface, the inner surface of the holder latch 33 is a cylindrical surface, and the inner surface of the holder latch 33 is attached to the circumferential side 12 of the lens portion 1. The circumferential side 12 of the lens portion 1 and the inner surface of the holder catch 33 are arranged as cylindrical surfaces to ensure that the flange holder 3 is rotatably caught relative to the lens portion 1.

As shown in fig. 1, 2 and 3, the flange bracket 3 of the present embodiment has a flange ring 32 at an upper end thereof, a flange surface 31 is located at an upper end of the flange ring 32, and a bracket catch 33 is attached below the flange ring 32.

As shown in fig. 3, the holder latch 33 of the present embodiment is shaped like L, a connection groove 34 is formed between the holder latch 33 and the flange ring 32, and the camera latch 13 is connected to the connection groove 34 in a snap-fit manner, the L-shaped holder latch 33 and the camera latch 13 are arranged in a vertically surrounding manner, so as to ensure the connection tightness, and facilitate the bearing pressure on the holder latch 33 to be transferred to the peripheral side 12 of the lens portion 1 via the camera latch 13 and to be supported by the lower base 2, thereby reducing the bearing pressure of the lens portion 1.

As shown in fig. 1, the outer side surfaces of the flange ring 32, the camera fastener 13, and the bracket fastener 33 of the present embodiment are smoothly transitioned. The smooth transition arrangement improves the surface integrity of the flange bracket 3 and the lens part 1 and reduces the interference with the peripheral structure.

The embodiment also discloses a mobile terminal, wherein the mobile terminal comprises a sealing plate and a camera stress improvement structure.

The utility model discloses an area of sealed atress has been extended through the flange face of flange support around the integral type camera. Wherein, flange support's flange face pressurized back, lower extreme through flange support borrows pressure by the week side of lens portion transmits extremely the base to reduced the direct pressure to lens portion, made the lens face pressurized reduce, improved the stability of shooing, the reinforcing effect of shooing.

Although particular embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are examples only and that the scope of the present invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (10)

1. The utility model provides a structure is improved to camera atress, a serial communication port, the structure is improved including integral type camera and flange support to the camera atress, the flange support can dismantle connect in integral type camera, wherein, integral type camera is including lens portion and base, one side of flange support is provided with the flange face, the flange face encircles and sets up in around the lens face of lens portion, the flange support with lens portion connects, just the pressure of flange support passes through week side transmission extremely of lens portion the base.

2. The camera stress improvement structure of claim 1, wherein the base is arranged to protrude from the lens portion, and a portion of the base protruding from the lens portion is located below the flange bracket.

3. The camera stress improvement structure according to claim 1, wherein at least one bracket fastener is provided on the flange bracket, at least one camera fastener is provided on a peripheral side of the lens portion, and the bracket fastener and the lens portion are configured to be in snap-fit connection.

4. The camera stress-improving structure according to claim 3, wherein the number of the bracket fasteners is plural and the bracket fasteners are arranged circumferentially, and the number of the camera fasteners is plural and the camera fasteners are arranged circumferentially, wherein the flange bracket rotates relative to the lens portion, thereby achieving the engagement and disengagement of the camera fasteners and the bracket fasteners.

5. The camera stress improvement structure according to claim 4, wherein a space is provided between the bracket snaps and between the camera snaps, wherein the space between the camera snaps is provided so that the bracket snaps pass through, and the space between the bracket snaps is provided so that the camera snaps pass through.

6. The camera stress-improving structure of claim 3, wherein the periphery of the lens portion is a cylindrical surface, the inner surface of the holder latch is a cylindrical surface, and the inner surface of the holder latch is attached to the periphery of the lens portion.

7. The camera stress improvement structure of claim 3, wherein the upper end of the flange bracket is provided with a flange ring, the flange surface is positioned at the upper end of the flange ring, and the bracket fastener is connected below the flange ring.

8. The camera stress improvement structure of claim 7, wherein the bracket fastener is L-shaped, and a connection groove is formed between the bracket fastener and the flange ring, and the camera fastener is connected with the connection groove in a snap-fit manner.

9. The camera force modifying structure of claim 8, wherein an outer side surface of said flange ring, an outer side surface of said camera snap and an outer side surface of said bracket snap are smoothly transitioned.

10. A mobile terminal, characterized in that it comprises a sealing plate and a camera stress improvement structure according to any of claims 1-9.

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