CN219459142U - Mobile phone with damping function - Google Patents

Abstract

The utility model discloses a mobile phone with a damping function, which comprises a shell, a screen, an electronic element and a battery, and further comprises a damping component capable of absorbing impact forces in multiple directions, wherein a first damping pad is bonded on the shell, the screen is bonded on the upper surface of the first damping pad, the screen is bonded on the shell, the shell comprises an inner shell and an outer shell, the electronic element and the battery are arranged in the inner shell, frames of the inner shell and the outer shell are connected through the damping components, and a yielding space is arranged between the lower surface of the bottom of the inner shell and the upper surface of the bottom of the outer shell. The problem that when the mobile phone falls, the machine body receives impact force in other directions which are not perpendicular to the bottom surface of the battery cover of the mobile phone, and the components on the main board, the battery and the like can be damaged due to larger impact force is solved.

Description

Mobile phone with damping function

Technical Field

The utility model relates to the field of mobile phones, in particular to a mobile phone with a shock absorption function.

Background

With the development of science and technology and age, the mobile phone has more and more functions and wider application. The mobile phone can realize the communication in different places, can help us to acquire more information, expand our field of vision and increase knowledge.

At present, the mobile phone is carried about, so that the mobile phone is easy to slide from a hand or a pocket and fall on the ground, and the parts such as a main board and a battery in the mobile phone on the ground have strong impact force, so that electrical elements or the battery on the surface of the main board are damaged, and the normal use of the mobile phone is seriously affected.

In the prior art, for example, a mobile phone battery cover with damping function is proposed to chinese patent application number 201821606397.9, when the cell-phone carelessly drops, produces a reaction force after tensile through the tension spring, carries out the shock attenuation to the inner shell, and when gravity was great, the fixed plate contacted with the stopper for stopper atress back motion, stopper extrusion extension spring produces a reaction force after the extension spring receives powerful, and reverse promotion stopper motion reaches the absorbing effect. However, the above technical solution mainly absorbs the impact force perpendicular to the bottom surface of the mobile phone battery cover, when the mobile phone falls, the body receives impact forces in other directions not perpendicular to the bottom surface of the mobile phone battery cover, and the components on the main board, the battery and the like may be damaged due to larger impact forces.

Disclosure of Invention

1. Technical problem to be solved

The utility model provides a mobile phone with a damping function, which solves the problem that when the mobile phone falls down, the body receives impact forces in other directions which are not perpendicular to the bottom surface of a battery cover of the mobile phone, and the components on a main board, a battery and the like can be damaged due to larger impact forces.

2. Technical proposal

In order to achieve the above purpose, the utility model provides a mobile phone with a damping function, which comprises a shell, a screen, an electronic element and a battery, and further comprises a damping component capable of absorbing impact forces in multiple directions, wherein the shell is adhered with a first damping pad, the screen is adhered to the upper surface of the first damping pad, the screen is adhered to the shell, the shell comprises an inner shell and an outer shell, the electronic element and the battery are arranged in the inner shell, frames of the inner shell and the outer shell are connected through the damping components, and a yielding space is arranged between the lower surface of the bottom of the inner shell and the upper surface of the bottom of the outer shell.

Preferably, the first shock pad is an annular pad matched with the upper edge of the frame of the outer shell, the first shock pad is provided with one shock pad and is adhered to the upper edge of the frame of the outer shell, and the screen is adhered to the upper surface of the shock pad and the upper edge of the frame of the inner shell.

Preferably, the first damping pad is provided with two damping pads, the first damping pad is respectively an annular pad matched with the upper edge of the outer shell frame and an annular pad matched with the upper edge of the inner shell frame, and the second damping pad is respectively bonded with the upper edges of the outer shell and the inner shell frame.

Preferably, the first shock pad is provided with one shock pad, and the outer edge and the inner edge of the shock pad are simultaneously bonded on the upper edges of the frames of the inner shell and the outer shell.

Preferably, a plurality of heat dissipation holes are formed in the frame of the shell.

Preferably, a plurality of heat dissipation holes are formed in the frame of the inner shell.

Preferably, two connecting lugs I are arranged at four corners of the inner side of the frame of the shell.

Preferably, two double connecting lugs are arranged at four corners of the outer side of the inner shell frame.

Preferably, the damping component comprises a spring, an energy absorber, a first single connecting lug, a first connecting plate, a second single connecting lug and a second connecting plate, the spring is sleeved outside the energy absorber, the fixed end of the energy absorber is fixedly connected with one side surface of the first connecting plate, the first single connecting lug is fixedly connected with the other side surface of the first connecting plate, the output end of the energy absorber is fixedly connected with one side surface of the second connecting plate, the second single connecting lug is fixedly connected with the other side surface of the second connecting plate, the first single connecting lug is arranged between the two ears of the first double connecting lug, the second single connecting lug is arranged between the two ears of the second double connecting lug, and the damping component is hinged with the first double connecting lug and the second double connecting lug respectively through the first single connecting lug and the second single connecting lug, and the axis of a hinge shaft of the second single connecting lug is perpendicular to the bottom surface of the casing, and the second single connecting lug and the second double connecting lug are bonded with the second damping pad.

Preferably, the two ends of the damping component are respectively and universally hinged with the outer shell and the inner shell.

The utility model has the following beneficial effects:

the shock absorption assembly can absorb the impact force of the mobile phone in the direction parallel to the bottom surface of the shell, the shock absorption pad II can absorb the impact force of the mobile phone in the direction perpendicular to the bottom surface of the shell, when the inner shell and the outer shell do opposite reciprocating motion in the direction perpendicular to the bottom surface of the mobile phone, the two ends of the shock absorption assembly are not limited by the direction perpendicular to the bottom surface of the shell, so that the inner shell and the outer shell do opposite reciprocating motion in the direction perpendicular to the bottom surface of the mobile phone are not limited, the torsion of the two ends of the shock absorption assembly can be absorbed, the shock resistance capability and the adaptability of the mobile phone are improved, and components such as elements and batteries in the mobile phone are better protected; meanwhile, a yielding space is arranged between the inner shell and the outer shell, so that the inner shell is suspended in the outer shell, and can freely move in the outer shell, and the shock absorption performance and the adaptability of the mobile phone are further improved.

Drawings

FIG. 1 is a schematic diagram of a mobile phone with shock absorbing function according to the present utility model;

FIG. 2 is a schematic diagram showing the connection of a vibration damping assembly to an inner shell and an outer shell of a mobile phone with vibration damping function according to the present utility model;

FIG. 3 is an enlarged view of FIG. 2A;

FIG. 4 is a partial cross-sectional view of a cellular phone with shock absorbing function according to the present utility model;

FIG. 5 is a schematic diagram of a mobile phone with damping function according to the present utility model, wherein two damping pads are provided between a screen and a casing;

fig. 6 is a schematic connection diagram of the inner edge and the outer edge of the first shock pad of the mobile phone with shock absorption function and the upper edge of the frame of the inner shell and the outer shell respectively.

1, a screen; 2. a first shock pad; 3. a housing; 31. a housing; 311. an outer heat dissipation hole; 312. a first double connecting lug; 32. an inner case; 321. an inner heat dissipation hole; 322. two connecting lugs II and 4 and a damping component; 41. a spring; 42. an energy dissipater; 43. a single connecting ear I; 431. a first connecting plate; 44. a second single connecting lug; 441. a second connecting plate; 5. and a second shock pad.

Detailed Description

The present utility model is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the utility model by referring to the description.

The utility model provides a mobile phone with a damping function, as shown in fig. 1 and 2, which comprises a shell 3, a screen 1, electronic elements, a battery and a damping component 4 capable of absorbing impact force in multiple directions, wherein the shell 3 is adhered with a damping pad I2, the screen 1 is adhered to the upper surface of the damping pad I2, the screen 1 is adhered to the shell 3, the shell 3 comprises an inner shell 32 and an outer shell 31, the electronic elements and the battery are arranged in the inner shell 32, frames of the inner shell 32 and the outer shell 31 are connected through the damping component 4, and a yielding space is arranged between the lower surface of the bottom of the inner shell 32 and the upper surface of the bottom of the outer shell 31 as shown in fig. 4, 5 and 6. The shock-absorbing assembly 4 and the shock-absorbing pad one 2 are matched to absorb impact forces in multiple directions, and meanwhile, a yielding space is arranged between the inner shell 32 and the outer shell 31, so that the inner shell 32 is suspended in the outer shell 31, the inner shell 32 can freely move in the outer shell 31, and the shock-absorbing performance and the adaptability of the mobile phone are improved.

As shown in fig. 4, the first damping pad 2 is an annular pad matched with the upper edge of the frame of the outer shell 31, the first damping pad 2 is provided with one damping pad and is adhered to the upper edge of the frame of the outer shell 31, and the screen 1 is adhered to the upper surface of the first damping pad 2 and the upper edge of the frame of the inner shell 32. The screen 1 and the shell 31 can be flexibly connected through the arrangement of the first damping pad 2, when the mobile phone is vibrated, the screen 1 and the inner shell 32 can move in multiple directions relative to the shell 31, and meanwhile, the screen 1 can be protected through the cooperation of the damping pad 1 and the damping assembly 4.

As shown in fig. 5, two shock-absorbing pads 2 may be provided, where the two shock-absorbing pads 2 are respectively an annular pad adapted to the upper edge of the frame of the outer shell 31 and an annular pad adapted to the upper edge of the frame of the inner shell 32, and the two shock-absorbing pads 2 are respectively adhered to the upper edges of the frames of the outer shell 31 and the inner shell 32. The impact resistance of the cellular phone can be further improved, and the impact force of the inner case 32 to the screen 1 can be absorbed, thereby better protecting the screen 1.

As shown in fig. 6, the first damper 2 is provided with one and its outer and inner sides are bonded to the upper edges of the rims of the inner and outer casings 32 and 31 at the same time. Thus, the contact area between the first damping pad 2 and the screen 1 can be increased, and the impact force of the inner shell 32 and the outer shell 31 on the screen 1 can be further reduced.

As shown in fig. 2, a plurality of heat dissipation holes are provided on the frame of the housing 31. Therefore, the heat in the mobile phone can be dissipated, and meanwhile, the weight of the mobile phone is reduced, and the impact force of the mobile phone after the mobile phone is contacted with the bottom surface is reduced.

The frame of the inner shell 32 is provided with a plurality of heat dissipation holes. Therefore, the heat dissipation effect of the mobile phone can be further improved, meanwhile, the weight of the mobile phone is further reduced, and the load of the shock absorption assembly 4 is reduced, so that the shock absorption effect of the shock absorption assembly 4 is improved, and the protection of components such as mobile phone elements and batteries is further enhanced because the components such as the mobile phone elements and the batteries are arranged in the inner shell 32.

As shown in fig. 3, two connecting lugs 312 are respectively arranged at four corners of the inner side of the frame of the shell 31; two double connecting lugs 322 are arranged at four corners of the outer side of the frame of the inner shell 32.

As shown in fig. 3, the damper assembly 4 includes a spring 41, an energy absorber 42, a first single connecting lug 43, a first connecting lug 431, a second single connecting lug 44 and a second connecting lug 441, wherein the spring 41 is sleeved outside the energy absorber 42, the fixed end of the energy absorber 42 is fixedly connected with one side surface of the first connecting lug 431, the first single connecting lug 43 is fixedly connected with the other side surface of the first connecting lug 431, the output end of the energy absorber 42 is fixedly connected with one side surface of the second connecting lug 441, the second single connecting lug 44 is fixedly connected with the other side surface of the second connecting lug 441, the first single connecting lug 43 is arranged between the two ears of the first double connecting lug 312, the second single connecting lug 44 is arranged between the two ears of the second double connecting lug 322, the damper assembly 4 is hinged with the first double connecting lug 312 and the second double connecting lug 322 through the first single connecting lug 43 and the second single connecting lug 44, and the axis of the hinge shaft is perpendicular to the bottom surface of the casing 3, and the second damper pad 5 is bonded between the first single connecting lug 43 and the second double connecting lug 312 and the second single connecting lug 44 and the second double connecting lug 322. Therefore, the shock absorbing component 4 can absorb the impact force of the mobile phone in the direction parallel to the bottom surface of the shell 3, the second shock absorbing pad 5 can absorb the impact force in the direction perpendicular to the bottom surface of the shell 3, and when the inner shell 32 and the outer shell 31 do opposite reciprocating motion in the direction perpendicular to the bottom surface, the two ends of the shock absorbing component 4 are not limited by the direction perpendicular to the bottom surface of the shell 3, so that the inner shell 32 and the outer shell 31 do opposite reciprocating motion in the direction perpendicular to the bottom surface are not limited, the capability and adaptability of the mobile phone for resisting vibration are improved, and components such as elements and batteries in the mobile phone are better protected.

The two ends of the damper assembly 4 may also be gimballed with the outer shell 31 and the inner shell 32, respectively. Therefore, the shock absorbing component 4 can absorb impact force in more directions, and the shock resistance and adaptability of the mobile phone are further improved.

When the mobile phone falls and is vertically contacted with the ground, the shell 3 is vibrated in the direction parallel to the bottom surface of the shell 3, the shock absorption component 4 absorbs the impact force of the ground to the outer shell 31 in the direction, and the inner shell 32 and the components in the inner shell are subjected to smaller impact force; when the mobile phone is in inclined contact with the ground, the shell 3 receives impact force parallel to the bottom surface direction of the shell 3 and perpendicular to the bottom surface direction of the shell 3, and the shock absorption assembly 4 and the shock absorption pad I2 cooperate to absorb the impact force of the ground to the outer shell 31 perpendicular to the bottom surface direction of the shell 3 and the impact force parallel to the bottom surface direction of the shell 3, so that the impact force received by the inner shell 32 and components inside the inner shell is reduced; when the mobile phone is horizontally contacted with the ground, the shell 3 receives impact force perpendicular to the bottom surface of the shell 3, and the shock absorption assembly 4 and the shock absorption pad I2 are matched to absorb the impact force perpendicular to the bottom surface of the shell 3, so that components in the mobile phone are protected.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. The utility model provides a cell-phone with shock-absorbing function, includes casing, screen, electronic component and battery, its characterized in that still includes the damper that can absorb the impact force of a plurality of directions, bond on the casing has a shock pad one, the screen bonds a shock pad upper surface, the screen bonds on the casing, the casing includes inner shell and shell, and electronic component and battery set up in the inner shell, the inner shell with connect through a plurality of damper between the frame of shell, the lower surface of inner shell bottom with be equipped with the space of stepping down between the upper surface of shell bottom.

2. The mobile phone with the shock absorbing function according to claim 1, wherein the first shock absorbing pad is an annular pad matched with the upper edge of the frame of the outer shell, the first shock absorbing pad is provided with one ring-shaped pad and is adhered to the upper edge of the frame of the outer shell, and the screen is adhered to the upper surface of the first shock absorbing pad and the upper edge of the frame of the inner shell.

3. The mobile phone with the shock absorbing function according to claim 1, wherein the first shock absorbing pads are two, the first shock absorbing pads are an annular pad matched with the upper edge of the outer shell frame and an annular pad matched with the upper edge of the inner shell frame, and the first shock absorbing pads are respectively adhered to the upper edges of the outer shell frame and the inner shell frame.

4. The mobile phone with shock absorbing function as set forth in claim 1, wherein said first shock absorbing pad is provided with one and outer and inner edges are adhered to the upper edges of the frames of said inner and outer shells at the same time.

5. The mobile phone with the shock absorbing function as claimed in claim 1, wherein a plurality of heat dissipation holes are formed in a frame of the housing.

6. The mobile phone with the shock absorbing function according to claim 5, wherein a plurality of the heat dissipation holes are formed in the frame of the inner shell.

7. The mobile phone with the shock absorbing function as claimed in claim 1, wherein two connecting lugs are arranged on four corners of the inner side of the frame of the shell.

8. The mobile phone with the shock absorbing function as claimed in claim 7, wherein two double connecting lugs are arranged at four corners of the outer side of the inner shell frame.

9. The mobile phone with the shock absorption function according to claim 8, wherein the shock absorption component comprises a spring, an energy absorber, a first single connecting lug, a first connecting plate, a second single connecting lug and a second connecting plate, the spring is sleeved outside the energy absorber, a fixed end of the energy absorber is fixedly connected with one side surface of the first connecting plate, the first single connecting lug is fixedly connected with the other side surface of the first connecting plate, an output end of the energy absorber is fixedly connected with one side surface of the second connecting plate, the second single connecting lug is fixedly connected with the other side surface of the second connecting plate, the first single connecting lug is arranged between the two ears of the first double connecting lug, the second single connecting lug is arranged between the two ears of the second double connecting lug, the damping component passes through the first single connecting lug and the second single connecting lug to be respectively hinged with the first double connecting lug and the second double connecting lug, the axis of the hinge shaft of the damping component is perpendicular to the bottom surface of the casing, and the second damping pad is adhered between the first single connecting lug and the first double connecting lug and between the second single connecting lug and the second double connecting lug.

10. The mobile phone with shock absorbing function as claimed in claim 9, wherein both ends of the shock absorbing assembly are respectively and universally hinged with the outer case and the inner case.