CN219499403U - Electronic equipment - Google Patents

Abstract

The application discloses electronic equipment includes: the first decorative ring comprises a first connecting part and a second connecting part, and a gap is formed between the first connecting part and the second connecting part; the main board support is overlapped on one side of the first decorative ring, a first part of the main board support is arranged corresponding to the first connecting part, and a second part of the main board support is arranged corresponding to the gap and the second connecting part; the battery cover is positioned between the first decorative ring and the second part of the main board bracket; the battery cell is located one side of the battery cover away from the first decorative ring, and an avoidance area is formed between the battery cell and the main board support.

Description

Electronic equipment

Technical Field

The application belongs to the technical field of electronic equipment, and particularly relates to electronic equipment.

Background

In the related art, the rear-shooting decorative ring of the mobile phone protrudes from the outer surface of the battery cover due to the stacking layout of the devices. When the mobile phone falls or is pressed and stressed, the highest post-shooting decorative ring is always stressed first, and then the force is transmitted to the internal battery cell, so that the safety problem of the battery cell is easily caused.

Disclosure of Invention

The application aims to provide electronic equipment, at least, the technical problem that the safety of an electric core is easy to cause when a post-shooting decorative ring is subjected to external force in the related technology is solved.

In order to solve the technical problems, the application is realized as follows:

in one aspect, an embodiment of the present application provides an electronic device, including: the first decorative ring comprises a first connecting part and a second connecting part, and a gap is formed between the first connecting part and the second connecting part; the main board support is overlapped on one side of the first decorative ring, a first part of the main board support is arranged corresponding to the first connecting part, and a second part of the main board support is arranged corresponding to the gap and the second connecting part; the battery cover is positioned between the first decorative ring and the second part of the main board bracket; the battery cell is located one side of the battery cover away from the first decorative ring, and an avoidance area is formed between the battery cell and the main board support.

In an embodiment of the application, an electronic device includes a first decorative ring, a motherboard bracket, a battery cover, and a battery cell. The first decorative ring comprises a first connecting part and a second connecting part.

The main board support is overlapped on one side of the first decorative ring and is provided with a first part and a second part. The first part of the main board support corresponds to the first connecting part, and the second part of the main board support corresponds to the gap and the second connecting part.

The battery cover is located between the first decorative ring and the second portion of the main board support, i.e. the battery cover is located below the first decorative ring. The battery cell is located one side of battery cover far away from first decorative ring, and has the region of dodging between battery cell and the mainboard support.

This application has rationally set up the cooperation structure of first decorative ring, mainboard support, battery cover and electric core, and wherein, first decorative ring is equipped with the gap. Because the existence of gap for when first decorative ring received external force to strike, gap and mainboard support cooperation can change the conduction path of power, can weaken the power that is conducted to the electric core, like this, can reduce the impact to the electric core and influence, avoid causing the damage to the electric core, can guarantee the life and the security and the reliability that electronic equipment used of electric core, be favorable to promoting the performance of product.

Specifically, when the first connecting portion of the first decorative ring is impacted by external force, the force on the first connecting portion cannot be conducted to the second connecting portion better due to the existence of the gap, the external force can be transferred to the main board support, and the external force cannot be transferred to the battery core by the second connecting portion, so that the impact on the battery core can be reduced, and the damage to the battery core is avoided.

Specifically, when the second connecting portion of the first decorative ring is impacted by external force, the force on the second connecting portion can be transmitted to the second portion of the main board support and the battery core through the battery cover, namely, the force transmitted by the battery cover is shared by the main board support and the battery core, so that the stress of the battery core can be reduced, the impact on the battery core can be reduced, and the damage to the battery core is avoided.

Additional aspects and advantages of the application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application.

Drawings

The foregoing and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, wherein:

FIG. 1 is a schematic structural view of a first portion of an electronic device according to one embodiment of the present application;

FIG. 2 is a schematic structural view of a second portion of an electronic device according to one embodiment of the present application;

FIG. 3 is a schematic structural view of a third portion of an electronic device according to one embodiment of the present application;

fig. 4 is a schematic structural view of a fourth part of the electronic device of the first embodiment of the present application;

fig. 5 is a schematic structural view of a fifth part of the electronic device of the first embodiment of the present application;

fig. 6 is a schematic structural view of a fourth portion of an electronic device according to a second embodiment of the present application;

fig. 7 is a schematic structural view of a fifth part of the electronic device of the second embodiment of the present application;

fig. 8 is a schematic structural view of a sixth portion of an electronic device according to an embodiment of the present application.

Reference numerals:

the correspondence between the reference numerals and the component names in fig. 1 to 8 is:

100 electronic equipment, 110 first decorative ring, 112 first connecting part, 114 second connecting part, 116 through hole, 118 gap, 120 notch part, 122 second surrounding rib, 130 main board support, 132 main board support first part, 134 main board support second part, 140 battery cover, 150 electric core, 160 protection board, 170 second decorative ring, 172 first surrounding rib, 180 mounting groove, 190 decorative plate, 200 frame body, 210 supporting part, 220 lens, 230 circuit board, 240 avoiding area.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functionality throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

The features of the terms "first", "second", and the like in the description and in the claims of this application may be used for descriptive or implicit inclusion of one or more such features. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; the connection can be mechanical connection or connection; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

An electronic device 100 according to an embodiment of the present application is described below with reference to fig. 1 to 8.

As shown in fig. 1, 2, 3, 4, 5, 6, and 7, an electronic device 100 according to some embodiments of the present application includes: the first decorative ring 110, the first decorative ring 110 includes a first connecting portion 112 and a second connecting portion 114, and a gap 118 is provided between the first connecting portion 112 and the second connecting portion 114; the main board bracket 130 is stacked on one side of the first decorative ring 110, a first part 132 of the main board bracket is arranged corresponding to the first connecting part 112, and a second part 134 of the main board bracket is arranged corresponding to the gap 118 and the second connecting part 114; a battery cover 140 positioned between the first bezel 110 and the second portion 134 of the motherboard bracket; the battery cell 150 is located at one side of the battery cover 140 away from the first decorative ring 110, and an avoidance area 240 is provided between the battery cell 150 and the motherboard bracket 130.

In this embodiment, the electronic device 100 includes a first bezel 110, a motherboard bracket 130, a battery cover 140, and a battery cell 150. The first bezel 110 includes a first connection portion 112 and a second connection portion 114.

The main board support 130 is stacked on one side of the first decorative ring 110, and the main board support 130 has a first portion and a second portion. The first portion 132 of the motherboard bracket is disposed corresponding to the first connection portion 112, and the second portion 134 of the motherboard bracket is disposed corresponding to the slit 118 and the second connection portion 114.

The battery cover 140 is located between the first bezel 110 and the second portion 134 of the motherboard bracket, i.e., the battery cover 140 is located below the first bezel 110. The battery cell 150 is located at a side of the battery cover 140 away from the first decorative ring 110, and an avoidance area 240 is provided between the battery cell 150 and the motherboard bracket 130.

The application has rationally set up the cooperation structure of first decorative ring 110, mainboard support 130, battery cover 140 and electric core 150, and wherein, first decorative ring 110 is equipped with gap 118. Because the gap 118 exists, when the first decorative ring 110 is impacted by external force, the gap 118 and the main board bracket 130 cooperate to change the force conduction path, so that the force conducted to the battery core 150 can be weakened, the impact influence on the battery core 150 can be reduced, the damage to the battery core 150 is avoided, the service life of the battery core 150 and the use safety and reliability of the electronic equipment 100 can be ensured, and the use performance of the product can be improved.

Specifically, when the first connection portion 112 of the first decorative ring 110 is impacted by an external force (as shown in fig. 1, the arrow indicates the direction of the force F1), the force on the first connection portion 112 cannot be better transmitted to the second connection portion 114 due to the existence of the gap 118, and the external force is transmitted to the motherboard bracket 130, but not transmitted to the battery cell 150 by the second connection portion 114, so that the impact on the battery cell 150 can be reduced, and damage to the battery cell 150 is avoided.

Specifically, when the second connection portion 114 of the first decorative ring 110 is impacted by an external force (as shown in fig. 1, the arrow indicates the direction of the force F2), the force on the second connection portion 114 is transmitted to the second portion 134 of the main board support and the cell 150 through the battery cover 140, that is, the force transmitted by the battery cover 140 is shared by the main board support 130 and the cell 150, so that the stress at the cell 150 can be reduced, the impact on the cell 150 can be reduced, and the damage to the cell 150 is avoided.

Specifically, the electronic device 100 includes headphones. The electronic device 100 may be a mobile terminal such as a mobile phone, a wearable device, a tablet computer, a laptop computer, a mobile computer, an augmented reality device (also known as an AR device), a virtual reality device (also known as a VR device), a palm game machine, and the like.

Specifically, as shown in fig. 1, because the matching structure of the first decorative ring 110, the main board support 130, the battery cover 140 and the battery core 150 is reasonably set in the application, when the first decorative ring 110 is impacted by external force, the impact on the battery core 150 can be reduced, and damage to the battery core 150 is avoided, so that the use safety of the battery core 150 is ensured, and meanwhile, compared with the first decorative ring 110 without the gap 118, the distance of A can be reduced, thus, the external dimension of the electronic device 100 can be reduced under the condition that the external dimension of the electronic device 100 is unchanged, the dimension of the battery core 150 can be increased, and the battery capacity of the whole machine can be increased, so as to increase the endurance time of the electronic device 100.

In some embodiments, the second portion 134 of the motherboard bracket is closer to the battery cover 140 than the battery cells 150.

In this embodiment, the mating structure of the motherboard bracket 130, the battery cells 150, and the battery cover 140 is further defined such that the second portion 134 of the motherboard bracket is closer to the battery cover 140 than the battery cells 150, i.e., the distance of the second portion 134 of the motherboard bracket to the battery cover 140 is less than the distance of the battery cells 150 to the battery cover 140. The arrangement is such that when the second connecting portion 114 of the first decorative ring 110 is impacted by an external force, the force on the second connecting portion 114 is transmitted to the second portion 134 of the main board bracket through the battery cover 140, and then transmitted to the battery core 150 through the battery cover 140, so that the force on the battery core 150 can be relieved, the impact on the battery core 150 is reduced, and the battery core 150 is protected.

In some embodiments, as shown in fig. 1 and 2, a notch 120 is disposed on a side of the first connection portion 112 near the slit 118, an end portion of the battery cover 140 extends into the notch 120, and the battery cover 140 is spaced from a wall of the notch 120.

In this embodiment, it is further defined that the mating structure of the first connection part 112 and the battery cover 140, specifically, a side of the first connection part 112 near the slit 118 is provided with a notch part 120, and an end of the battery cover 140 protrudes into the notch part 120, that is, the notch part 120 has a function of accommodating an end of the battery cover 140. In this way, in the direction from the middle to the outer edge of the electronic device 100, the size of the electronic device 100 is advantageously reduced, and the electronic device 100 is advantageously made lighter. In addition, the structure is beneficial to increasing the supporting effect on the battery cover 140 and enhancing the structural strength of the electronic device 100, so that the probability of deformation of the battery cover 140 when external force acts on the battery cover 140 can be reduced, and the use safety and reliability of the electronic device 100 can be improved.

Further, the battery cover 140 is spaced apart from the opening wall of the notch 120, that is, the battery cover 140 has a space from the opening wall of the notch 120, so that the force transmission path can be changed, so that when the first connection part 112 of the first decorative ring 110 is impacted by an external force, the external force transmitted to the battery cover 140 is reduced, and the impact to the battery cell 150 is reduced.

In some embodiments, as shown in fig. 2 and 3, one end of the battery cover 140 extends along the bottom of the second connection portion 114 beyond the slit 118 to the notch portion 120.

In this embodiment, the mating structure of the battery cover 140, the first connection part 112, and the second connection part 114 is further defined, and in particular, one end of the battery cover 140 extends along the bottom of the second connection part 114 to the notch part 120 across the slit 118, so that the notch part 120 has both the function of accommodating the battery cover 140 and the function of conduction.

Therefore, the force is transmitted to the motherboard bracket 130 through the notch 120, but not transmitted to the battery cover 140 from the first connection part 112, and further not transmitted to the battery cell 150.

Specifically, a portion of the first connection portion 112 protrudes toward the main board holder 130 to form an opening wall of the notch portion 120, and the notch portion 120 abuts against the main board holder 130. This setting can be at the spacing battery cover 140 of edge to middle part of electronic equipment 100, can guarantee the cooperation size of battery cover 140 and the framework of electronic equipment 100, and then can guarantee the overall dimension of electronic equipment 100.

In some embodiments, as shown in fig. 1, 2, and 3, the electronic device 100 further includes: and a protection plate 160 connected with the battery cell 150, at least a part of the protection plate 160 being located at the peripheral side of the battery cell 150, the battery cell 150 being closer to the battery cover 140 than the protection plate 160, the protection plate 160 being located at the bottom of the avoidance area 240, and the part of the protection plate 160 located at the peripheral side of the battery cell 150 being opposite to and spaced apart from the second portion 134 of the main board support.

In this embodiment, the structure of the electronic device 100 is further defined, specifically, the electronic device 100 further includes a protection board 160, the protection board 160 is connected to the battery cell 150, and the protection board 160 and the battery cell 150 form a complete battery structure by wrapping with auxiliary materials.

The battery cell 150 is closer to the battery cover 140 than the protection plate 160, i.e., the distance from the battery cell 150 to the battery cover 140 is smaller than the distance from the protection plate 160 to the battery cover 140. In other words, the height of the battery cell 150 is higher than the height of the protection plate 160 in the thickness direction of the electronic device 100.

Further, the protection plate 160 is located at the bottom of the avoidance area 240, and a portion of the protection plate 160 located at the peripheral side of the battery cell 150 is opposite to and spaced apart from the second portion 134 of the main board support. That is, the second portion 134 of the motherboard bracket is cantilevered over the protective plate 160. In other words, there is a gap between the second portion 134 of the main board holder and the protection board 160. Thus, when the first connection portion 112 of the first decorative ring 110 is impacted by an external force, the gap between the second portion 134 of the main board support and the protective board 160 changes the conduction path of the force, the external force is transmitted to the main board support 130, but not transmitted to the protective board 160 and the battery cell 150 by the main board support 130, so that the impact to the battery cell 150 can be reduced, and the damage to the battery cell 150 is avoided.

In some embodiments, as shown in fig. 6 and 7, the second connection portions 114 are spaced apart from the circumferential side of the first connection portion 112.

In this embodiment, the mating structure of the first connection portion 112 and the second connection portion 114 is further defined, specifically, the second connection portion 114 is spaced apart on the peripheral side of the first connection portion 112. That is, the gap 118 between the first connection portion 112 and the second connection portion 114 is an annular gap. The first connecting portion 112 and the second connecting portion 114 are two relatively independent components, the first connecting portion 112 and the second connecting portion 114 are completely disconnected, and the first connecting portion 112 and the second connecting portion 114 have no direct connection relationship.

When the first decorative ring 110 is impacted by an external force, the first connecting portion 112 or the second connecting portion 114 is separated, so that the force on the first connecting portion 112 is not transmitted to the second connecting portion 114, and similarly, the force on the second connecting portion 114 is not transmitted to the first connecting portion 112. In this way, damage to the cells 150 is advantageously reduced.

In some embodiments, a portion of the second connection portion 114 is connected to the first connection portion 112, and another portion of the second connection portion 114 is spaced apart from the first connection portion 112 to form a gap 118.

In this embodiment, the mating structure of the first connection portion 112 and the second connection portion 114 is further defined, specifically, a portion of the second connection portion 114 is connected with the first connection portion 112, and another portion of the second connection portion 114 is spaced apart from the first connection portion 112 to form a slit 118. That is, the portion of the first bezel 110 located between the first connection portion 112 and the second connection portion 114 is cut to form a strip-shaped slit, that is, the first bezel 110 is not divided into two separate portions due to the presence of the slit 118, but the first connection portion 112 and the second connection portion 114 are formed in a partially notched manner on the first bezel 110.

In other words, the first bezel 110 is integrally formed with the slit 118. The structure omits the assembly process of the first connecting part 112 and the second connecting part 114, so that the assembly and subsequent disassembly processes of the first connecting part 112 and the second connecting part 114 are simplified, the assembly and disassembly efficiency is improved, and the production and maintenance cost can be reduced. In addition, the slit 118 integrally formed in the first bezel 110 can ensure the accuracy of the molding dimensions of the first connection portion 112 and the second connection portion 114.

In some embodiments, the slit 118 includes any one or a combination of the following: straight strip-shaped slits, arcuate slits, and fold-line-shaped slits.

In this embodiment, the slit 118 includes any one or a combination of the following: straight strip-shaped slits, arcuate slits, and fold-line-shaped slits. That is, the shape of the slit 118 is defined.

In some embodiments, as shown in fig. 1, the plane where the battery cover 140 is located is a projection plane, in which the distance between the projection of the battery cell 150 and the projection of the outer peripheral wall of the first decorative ring 110 is a, and the distance between the projection of the battery cell 150 and the projection of the outer peripheral wall of the motherboard bracket 130 is B, where B > a, and b+.1mm.

In this embodiment, the mating structure of the battery cell 150, the first decorative ring 110 and the motherboard bracket 130 is further defined, specifically, the plane where the battery cover 140 is located is a projection plane, in which the distance between the projection of the battery cell 150 and the projection of the peripheral wall of the first decorative ring 110 is a, and the distance between the projection of the battery cell 150 and the projection of the peripheral wall of the motherboard bracket 130 is B, where B > a, and B is equal to or greater than 1mm.

It is understood that the battery cells 150 are spaced apart from the first bezel 110 along the center to edge of the electronic device 100. When the first decorative ring 110 is impacted by an external force, the impact to the battery cell 150 can be reduced, and the damage to the battery cell 150 is avoided, so that the distance a can be reduced when the use safety of the battery cell 150 is ensured, compared with the first decorative ring 110 without the slit 118.

It can be appreciated that, along the middle-to-edge of the electronic device 100, the battery cells 150 are spaced apart from the motherboard bracket 130, i.e., the space B has a function of reserving a safe distance, which provides an effective and reliable structural support for the safety and reliability of the electronic device 100.

It will be appreciated that, as shown in fig. 1, the effective protection distance of the protective board 160 by the second portion 134 of the motherboard bracket is C, where the value of C is the difference between the width of the protective board 160 in the direction from the middle to the edge of the electronic device 100 and the interval B.

Specifically, the values of B include 1.5mm, 2mm, 2.5mm, 3mm, etc., which are not listed herein.

Specifically, the dotted line portion in fig. 8 is a region where the second portion 134 of the main board holder overlaps the protection board 160.

In other embodiments, the distance between the battery cell 150 and the outer peripheral wall of the first bezel 110 is a, and the distance between the battery cell 150 and the outer peripheral wall of the motherboard bracket 130 is B, along the middle to the edge of the electronic device 100, wherein B is equal to or less than a.

In some embodiments, as shown in fig. 1, 2 and 3, the first connection portion 112 is provided with a through hole 116, and the electronic device 100 further includes: the second decorative ring 170 is disposed on a side of the first connecting portion 112 away from the motherboard bracket 130, the second decorative ring 170 is disposed on a peripheral side of the through hole 116, the second decorative ring 170 is provided with a first surrounding rib 172, and the first surrounding rib 172 protrudes from an outer surface of the first decorative ring 110 along a thickness direction of the electronic device 100.

In this embodiment, the electronic device 100 further includes a second bezel 170, where the second bezel 170 is disposed on a side of the first connection portion 112 away from the motherboard bracket 130, and the first bezel 110 serves as a mounting carrier for the second bezel 170, and has a function of mounting and fixing the second bezel 170. The second decorative ring 170 is provided with a first enclosing rib 172, and the first enclosing rib 172 protrudes out of the outer surface of the first decorative ring 110. That is, when the external force acts on the back of the electronic device 100, the first surrounding rib 172 is the highest stress point, and when the first surrounding rib 172 receives the external force, the external force is transmitted to the motherboard bracket 130 through the first connecting portion 112 at the lower layer of the first surrounding rib 172, but not transmitted to the battery cell 150 by the second connecting portion 114, so that the impact on the battery cell 150 can be reduced, and the damage to the battery cell 150 is avoided.

In addition, since the second decorative ring 170 is disposed on the side of the first connecting portion 112 away from the main board bracket 130, that is, the second decorative ring 170 and the second connecting portion 114 are disposed independently, it is able to reduce or even avoid the external force of the second decorative ring 170 from being transferred to the second connecting portion 114.

It is understood that the first connecting portion 112 is provided with a through hole 116, and the through hole 116 has a function of allowing light to pass therethrough, and the lens 220 of the electronic device 100 covers the through hole 116. In some embodiments, as shown in fig. 2 and 3, the edge of the second connecting portion 114 is provided with a second enclosing rib 122, and a mounting groove 180 is enclosed between the second decorative ring 170 and the second enclosing rib 122; the electronic device 100 further includes a decorative plate 190, the decorative plate 190 being provided to the mounting groove 180, the decorative plate 190 covering the slit 118.

In this embodiment, the electronic device 100 further includes a decorative board 190, and the decorative board 190 is disposed in the mounting groove 180 surrounded between the second decorative ring 170 and the second surrounding rib 122. The second decorative ring 170 and the first decorative ring 110 cooperate to support and fix the decorative plate 190, and the decorative plate 190 has the function of shielding the gap 118, so that the gap 118 is prevented from being exposed, and the appearance aesthetic property of the electronic device 100 can be ensured. And this arrangement also prevents dust, dirt, etc. in the environment from entering the interior of the electronic device 100 through the slit 118.

In addition, the second connecting portion 114 has a second rib 122 at the edge, and a mounting groove 180 is defined between the second decorative ring 170 and the second rib 122, and the decorative plate 190 is disposed in the mounting groove 180, and the mounting groove 180 has the function of mounting and fixing the decorative plate 190, so that the displacement of the decorative plate 190 relative to the first decorative ring 110 and the second decorative ring 170 can be limited. This arrangement can increase the contact area and contact angle of the decorative plate 190 with the first decorative ring 110 and the second decorative ring 170, and can ensure the assembling reliability of the decorative plate 190.

Specifically, the mounting groove 180 is annular in shape.

Specifically, the side of the decorative plate 190 remote from the first bezel 110 is in the same plane as the notch of the mounting groove 180. In this way, the aesthetic appearance of the electronic apparatus 100 can be ensured.

In some embodiments, as shown in fig. 1, 2, and 3, the electronic device 100 further includes: the frame body 200, the main board bracket 130 and the battery cover 140 are connected with the frame body 200, the frame body 200 is provided with a supporting part 210, and the supporting part 210 is abutted against one side of the main board bracket 130 away from the first decorative ring 110; the lens 220, the first rib 172 is located at the periphery of the lens 220, and the lens 220 covers the through hole 116.

In this embodiment, the electronic device 100 further includes a housing 200 and a lens 220. The main board support 130 is connected with the frame 200, and the battery cover 140 is connected with the frame 200, that is, the frame 200 serves as a mounting carrier for the main board support 130 and the battery cover 140, and has the function of mounting and fixing the main board support 130 and the battery cover 140, so that the matching size of the constituent components of the electronic device 100 can be ensured.

Further, the lens 220 of the electronic device 100 covers the through hole 116, the first rib 172 is located on the peripheral side of the lens 220, and the first rib 172 has the function of limiting the displacement of the lens 220.

Specifically, the first decorative ring 110 is partially or completely disconnected from the external force transmitted to the battery cell 150. Motherboard bracket 130 extends above protective plate 160 to form a cantilever to protect battery cell 150. This arrangement can more safely protect the battery cell 150 and increase the battery capacity of the whole machine.

As shown in fig. 1, when the second decorative ring 170 is impacted by the external force F1, the first decorative ring 110 is disconnected from the battery cell 150 outside the second decorative ring 170, so that the external force F1 is transmitted to the first connection portion 112 of the first decorative ring 110 through the second decorative ring 170, is transmitted to the motherboard bracket 130, and is not transmitted to the battery.

As shown in fig. 1, when the second connection portion 114 of the first bezel 110 is impacted by the external force F2, the main board bracket 130 extends directly above the protection board 160 to form a cantilever structure. Therefore, the external force F2 is transmitted to the battery cover 140 through the second connection portion 114, and then transmitted to the second portion 134 of the motherboard bracket and the battery cell 150, so that the motherboard bracket 130 and the battery cell 150 share together, and the stress at the battery cell 150 is reduced.

The distance between the edge of the first decorative ring 110 and the battery cell 150 is a, and the value a can be greatly reduced.

The spacing between the edge of the motherboard bracket 130 and the battery cell 150 is B, B is greater than or equal to 1mm.

The lens 220 is fixed to the second bezel 170 and the first bezel 110 by double-sided adhesive tape.

The second decorative ring 170 is fixed on the first decorative ring 110 through double faced adhesive tape, and the second decorative ring 170 is used as an appearance piece and is the highest component of the whole machine.

The decorative plate 190 is fixed to the first decorative ring 110 by double sided tape, and the decorative plate 190 serves as an exterior member.

The first decorative ring 110 includes a first connection part 112 and a second connection part 114, a gap 118 is provided between the first connection part 112 and the second connection part 114, and the first connection part 112 and the second connection part 114 are fixed to the battery cover 140 through double sided tape.

The main board bracket 130 is fixed to the frame body 200 using screws, and the second portion 134 of the main board bracket extends above the protection plate 160.

The battery cover 140 is fixed to the frame 200 by double-sided tape, and the battery cover 140 serves as an exterior member.

The protective plate 160 and the battery cell 150 form a complete battery structure by adopting an auxiliary material wrapping mode.

The battery cell 150 is a main power storage and supply component of the battery, and the battery cell 150 is fixed on the frame 200 through double sided adhesive tape.

The frame 200 is a structural strength member of the whole machine.

Specifically, as shown in fig. 1, the electronic device 100 further includes a circuit board 230.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. An electronic device, comprising:

the first decorative ring comprises a first connecting part and a second connecting part, and a gap is formed between the first connecting part and the second connecting part;

the main board support is overlapped on one side of the first decorative ring, a first part of the main board support is arranged corresponding to the first connecting part, and a second part of the main board support is arranged corresponding to the gap and the second connecting part;

a battery cover positioned between the first decorative ring and the second portion of the main board support;

the battery cell is located the battery cover is far away from one side of the first decorative ring, and an avoidance area is arranged between the battery cell and the main board support.

2. The electronic device of claim 1, wherein the second portion of the motherboard bracket is closer to the battery cover than the battery cells.

3. The electronic device according to claim 1 or 2, wherein a notch portion is provided on a side of the first connection portion adjacent to the slit, an end portion of the battery cover extends into the notch portion, and the battery cover is spaced apart from a wall of the notch portion.

4. The electronic device of claim 3, wherein an end of the battery cover extends along a bottom of the second connection portion beyond the gap to the notch portion.

5. The electronic device of claim 1 or 2, further comprising:

the battery cell is characterized by comprising a battery cell, a battery cover, a protection plate, a main board support and a battery cell, wherein the battery cell is connected with the battery cell, at least one part of the protection plate is located on the periphery of the battery cell, the battery cell is closer to the battery cover than the protection plate, the protection plate is located at the bottom of the avoidance area, and the part of the protection plate located on the periphery of the battery cell is opposite to the second part of the main board support and is arranged at intervals.

6. The electronic device according to claim 1 or 2, wherein the second connection portions are spaced apart on a peripheral side of the first connection portion.

7. The electronic device of claim 1 or 2, wherein a portion of the second connection portion is connected to the first connection portion and another portion of the second connection portion is spaced apart from the first connection portion to form the gap.

8. The electronic device of claim 7, wherein the slot comprises any one or a combination of the following: straight strip-shaped slits, arcuate slits, and fold-line-shaped slits.

9. The electronic device according to claim 1 or 2, wherein the plane in which the battery cover is located is a projection plane, in which a distance between the projection of the battery cell and the projection of the outer peripheral wall of the first decorative ring is a, and a distance between the projection of the battery cell and the projection of the outer peripheral wall of the main board support is B, wherein B > a, and B is equal to or greater than 1mm.

10. The electronic device according to claim 1 or 2, wherein the first connection portion is provided with a through hole, the electronic device further comprising:

the second decorative ring is arranged on one side, far away from the main board support, of the first connecting portion and is positioned on the periphery of the through hole, and is provided with a first surrounding rib which protrudes out of the outer surface of the first decorative ring in the thickness direction of the electronic equipment.

11. The electronic device of claim 10, wherein a second surrounding rib is arranged at the edge of the second connecting portion, and a mounting groove is formed between the second decorative ring and the second surrounding rib in a surrounding manner;

the electronic equipment further comprises a decorative plate, the decorative plate is arranged in the mounting groove, and the decorative plate covers the gap.

12. The electronic device of claim 10, further comprising:

the main board support and the battery cover are connected with the support body, the support body is provided with a supporting part, and the supporting part is abutted against one side, far away from the first decorative ring, of the main board support;

and the first surrounding rib is positioned on the periphery side of the lens, and the lens covers the through hole.