CN108023976A - Shatter-resistant mobile phone - Google Patents

Abstract

The embodiment of the present application discloses a kind of shatter-resistant mobile phone, including mobile phone body, the invention belong to terminal equipment software and hardware field, wherein, further include：A plurality of cavities, multiple supporters, multiple compression spring, switch module and gravity sensors；Wherein, gravity sensor is arranged on the inside of mobile phone body, for detecting acceleration of gravity when mobile phone falls；A plurality of cavities is arranged in mobile phone body；Multiple supporters are arranged inside a plurality of cavities；Multiple compression springs are arranged on multiple supporter bottoms；Switch module is used to detect that the acceleration that mobile phone falls is gravity acceleration g in gravity sensor, and switch module is changed to open mode by closed mode, and multiple compression springs are flicked, drive multiple supporters to eject.Using the embodiment of the present application, mobile phone is set to protect, not contacted directly with ground by supporter when falling, meanwhile, supporter effectively slows down the active force that mobile phone is subject to, and reduces mobile phone damage.

Description

Anti-falling mobile phone

Technical Field

The embodiment of the application relates to the field of terminal equipment software and hardware, in particular to an anti-falling mobile phone.

Background

Along with the development of science and technology, the mobile phone is more and more intelligent, and the function is more and more powerful. As a multifunctional electronic product, a mobile phone has been widely used in daily life. Most of existing mobile phones are smart phones, and compared with traditional key mobile phones, the screen of the mobile phone is larger, and most of mobile phone screens occupy the width of the whole mobile phone, so that the mobile phone screen has no frame or only a very narrow frame.

When using the mobile phone, the user holds the mobile phone in the hand for use, or places the mobile phone in a pocket of clothing. Because the mobile phone is large, the situation that the mobile phone slips from a hand or a clothes pocket often occurs. When the mobile phone falls down to the ground, the screen of the mobile phone is easily damaged or the back of the mobile phone is easily scratched.

Disclosure of Invention

In view of the above problems, embodiments of the present application are proposed to provide a fall-resistant mobile phone.

According to an aspect of the embodiments of the present application, there is provided an anti-falling mobile phone, including a mobile phone body, further including: the device comprises a plurality of cavities, a plurality of supporting bodies, a plurality of compression springs, a switch module and a gravity sensor; wherein,

the gravity sensor is arranged in the mobile phone body and used for detecting the gravity acceleration of the mobile phone when the mobile phone falls;

the plurality of cavities are arranged on the mobile phone body; the plurality of supporting bodies are arranged inside the plurality of cavities; the plurality of compression springs are arranged at the bottoms of the plurality of supporting bodies;

the switch module is used for changing the closing state into the opening state when the gravity sensor detects that the falling acceleration of the mobile phone is the gravity acceleration g, and the plurality of compression springs are bounced to drive the plurality of supporting bodies to be bounced.

According to the anti-falling mobile phone provided by the embodiment of the application, the gravity sensor is used for detecting the gravity acceleration of the mobile phone when the mobile phone falls. When the gravity sensor detects that the falling acceleration of the mobile phone is the gravity acceleration g, the switch module is changed from the closed state to the open state, and the plurality of compression springs are bounced to drive the plurality of supporting bodies to be bounced. When the mobile phone falls down, the mobile phone is protected by the support body and does not directly contact with the ground, and meanwhile, the support body effectively slows down the acting force applied to the mobile phone and reduces the damage of the mobile phone. Furthermore, the supporting body is arranged in the cavity on the mobile phone and integrally arranged with the mobile phone, so that the appearance of the mobile phone is not affected, and the user experience effect is good.

The foregoing description is only an overview of the technical solutions of the embodiments of the present application, and the embodiments of the present application can be implemented according to the content of the description in order to make the technical means of the embodiments of the present application more clearly understood, and the detailed description of the present application is provided below in order to make the foregoing and other objects, features, and advantages of the embodiments of the present application more clearly understandable.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a functional block diagram of an anti-falling mobile phone according to a first embodiment of the present application;

fig. 2a to fig. 2c are schematic structural diagrams of an anti-falling mobile phone according to an embodiment of the present application.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Example one

Fig. 1 is a functional block diagram of an anti-falling mobile phone according to an embodiment of the present application. As shown in fig. 1, the fall-resistant mobile phone includes: including cell-phone body 100, still include: a plurality of cavities 200, a plurality of supports 300, a plurality of compression springs 400, a switch module 500, and a gravity sensor 600.

The plurality of cavities 200 are disposed on the mobile phone body 100. Specifically, the plurality of cavities 200 may be disposed on the front surface of the mobile phone body 100 as shown in fig. 2a, without affecting the screen usage and the position of the circuit disposed inside the mobile phone body 100; or on the back of the mobile phone body 100 as shown in fig. 2b, without affecting the position of the circuit and camera inside the mobile phone body 100; or the mobile phone is arranged on the peripheral side surface of the mobile phone body 100 as shown in fig. 2c, and the circuit arranged in the mobile phone body 100 and the position of the external ports such as buttons including a volume adjusting key and an on-off key, a mobile phone charging port and an earphone port are not influenced. The cavities 200 may be provided in a plurality, and in addition to the number and positions shown in fig. 2a, 2b and 2c, they may be provided in other positions that do not affect the use of the mobile phone. The specific number and position can be set according to the actual situation of the mobile phone, and are not limited herein.

The plurality of supports 300 are disposed inside the plurality of cavities 200, and are used for supporting the phone body 100 when ejected. The plurality of supports 300 may have a solid geometry such as a cylinder, a cube, a cuboid, etc. As shown in fig. 2a, 2b, 2c, the cavity 200 is circular and the corresponding support 300 is cylindrical; the cavity 200 may also be square, and the corresponding support 300 is square; the cavity 200 may also be rectangular and the corresponding support 300 may be rectangular. The shape of the support body 300 corresponds to the shape of the cavity 200. Further, the number and the position of the supporting bodies 300 correspond to the cavities 200 one by one.

In order to make the support body 300 better support the mobile phone body 100, the length of the support body 300 can be set within a certain range, and if the length of the support body 300 is too short, the falling speed of the mobile phone body 100 cannot be buffered, and the mobile phone body 100 can be supported so as to keep a distance from a plane after falling; if the length of the support 300 is too long, the appearance of the mobile phone body 100 is seriously damaged, and the user experience is not good when using the mobile phone. Therefore, when the length of the support 300 and the depth of the cavity 200 are set, in combination with the actual situation of the mobile phone body 100, for example, when the support 300 and the cavity 200 are set on the front or back of the mobile phone body 100, the length of the support 300 and the depth of the cavity 200 may be set to be only half or two thirds of the thickness of the mobile phone without penetrating through the whole mobile phone body 100; or the support 300 and the cavity 200 may be set to be 5cm or more when they are set on the peripheral side of the handset body 100, and the specific length should be set to be suitable for not affecting the internal circuit. Further, when the support 300 and the cavity 200 are disposed on both the front and the back of the mobile phone body 100, the support 300 and the cavity 200 disposed on the front and the back of the mobile phone body 100 may be disposed on a corresponding line, or may be disposed at staggered positions. The above are all illustrations, and the implementation can be set according to actual situations, and is not limited herein.

The plurality of compression springs 400 are disposed at the bottom of the plurality of supporting bodies 300 and inside the plurality of cavities 200, and the number and the positions of the plurality of compression springs 400 correspond to the supporting bodies 300 one by one. Specifically, the compression spring 400 may be directly connected to the support 300, and when the compression spring 400 is in a compressed state, the support 300 is retracted inside the cavity 200, and the head of the support 300 and a certain surface of the phone body 100 are maintained at the same height; when the compression spring 400 is in the spring-open state, the support body 300 is ejected by the compression spring 400, and the support body 300 can be completely ejected to support the mobile phone body 100.

The switch module 500 and the gravity sensor 600 are disposed inside the handset body 100. The gravity sensor 600 is used for detecting the gravity acceleration of the mobile phone when falling. The switch module 500 may adopt an electromagnetic switch module, for when the gravity sensor 600 detects that the acceleration of the mobile phone falling is the gravity acceleration g, the switch module 500 is changed from the off state to the on state, the previous compression of the plurality of compression springs 400 is changed into the bouncing off state, thereby driving the plurality of supporting bodies 300 to pop up, when the mobile phone falls, on the one hand, the speed of the mobile phone falling is buffered, on the other hand, the mobile phone is prevented from directly contacting the ground or other planes, and the damage of the mobile phone is reduced.

Preferably, the gravity acceleration g can be obtained according to the position information of the mobile phone on the map.

The plurality of supporting bodies 300 can be made of elastic materials, so that when the mobile phone falls to the ground, the supporting bodies 300 made of the elastic materials can effectively buffer the falling speed of the mobile phone, and impact force and damage probability of the falling of the mobile phone are greatly reduced. Such as rubber or the like. Further, in order to maintain the appearance and visual effect of the mobile phone without affecting the appearance of the mobile phone, the plurality of supporting bodies 300 are preferably made of a transparent elastic material. The transparent support 300 does not affect the appearance of the original mobile phone and does not affect the use of the mobile phone.

Specifically, when the user uses the mobile phone, the mobile phone may slip off the hand of the user or fall off the pocket of the clothes, and at this time, when the gravity sensor 600 detects that the gravitational acceleration of the mobile phone when falling is the gravitational acceleration g, the switch module 500 is changed from the original off state to the on state. In the open state of the switch module 500, the compression spring 400 may be opened by changing the original compression into springing, for example, by opening some elastic pieces for compressing the compression spring 400, etc. disposed on the upper portion of the compression spring 400, the compression spring 400 is opened, and the supporting body 300 is driven to be ejected. When the phone is dropped to a floor, a table, etc., the support 300 first contacts the surface. The plurality of supports 300 space the cellular phone from the plane so that the cellular phone does not directly contact the plane. The support 300 is in direct contact with the plane, so that damage caused by direct impact between the mobile phone screen or other parts and the plane is avoided. Meanwhile, the support body 300 made of the elastic material slows down the falling speed and impact force of the mobile phone and also slows down the vibration of the mobile phone.

Further, after the mobile phone is grounded, the switch module 500 of the mobile phone is in an open state, and meanwhile, the plurality of compression springs 400 are sprung out, and the plurality of supporting bodies 300 are sprung out, so that the mobile phone is protected. When the mobile phone is in a stable state and does not fall down, or the mobile phone is picked up by the user, if the plurality of supporting bodies 300 are still ejected all the time, the use of the mobile phone by the user is influenced. Therefore, the plurality of supports 300 need to be retracted. When the plurality of supporting bodies 300 are retracted, the supporting bodies may be automatically retracted or manually retracted. When the automatic retraction mode is determined that the mobile phone meets the preset condition, the switch module 500 may be changed from the on state to the off state, and retract the plurality of compression springs 400 to drive the plurality of support bodies 300 to return to the original position. Specifically, the preset condition may be that, for example, the acceleration of the mobile phone falling detected by the gravity sensor 600 is not the gravity acceleration g, that is, the mobile phone does not continue to fall, and the mobile phone does not have the risk of continuous falling damage when the mobile phone is in the hand of the user or after the mobile phone falls on a plane; or after a predetermined time elapses after the plurality of supports 300 are ejected. The predetermined time may be set to 20 seconds or more to ensure that the handset is no longer in danger of continuing to fall and be damaged. The preset time can be set according to the specific situation when the mobile phone is implemented. The preset condition may be set to satisfy one of the conditions, or may be set to satisfy the above two conditions, which is not limited herein. When a predetermined condition is satisfied, the switch module 500 automatically retracts the plurality of compression springs 400, and brings the plurality of supporters 300 to return to the original position. The manual retraction mode is that after the plurality of supporters 300 are ejected, the plurality of supporters 300 are restored to their original positions by a manual pressing mode. The plurality of supporters 300 are manually pressed to compress the plurality of compression springs 400 connected to the plurality of supporters 300, thereby restoring the plurality of supporters 300 to their original positions. When the plurality of supporters 300 are all restored by being manually pressed, that is, when the plurality of compression springs 400 are also all compressed, the switch module 500 is also changed from the open state to the closed state.

The above two modes are both illustrated by way of example, and the specific implementation is set according to the implementation situation, and is not specifically limited herein.

According to the anti-falling mobile phone provided by the embodiment of the application, the gravity sensor is used for detecting the gravity acceleration of the mobile phone when the mobile phone falls. The switch module detects that the falling acceleration of the mobile phone is the gravity acceleration g at the gravity sensor, the switch module is changed from the closed state to the open state, and the plurality of compression springs are bounced to drive the plurality of supporting bodies to be bounced. When the mobile phone falls down, the mobile phone is protected by the support body and does not directly contact with the ground, and meanwhile, the support body effectively slows down the acting force applied to the mobile phone and reduces the damage of the mobile phone. Furthermore, the supporting body is arranged in the cavity on the mobile phone and integrally arranged with the mobile phone, so that the appearance of the mobile phone is not affected, and the user experience effect is good.

Example two

Compared to the first embodiment, the switch module 500 of the second embodiment is further configured to: when the gravity sensor 600 detects that the falling acceleration of the mobile phone is the gravity acceleration g, further, if the gravity sensor 600 detects that the mobile phone screen falls downward, the switch module 500 is changed from the off state to the on state. Meanwhile, the plurality of compression springs 400 arranged on the front surface of the mobile phone body 100 can be only bounced, and the plurality of supporting bodies 300 on the front surface of the mobile phone body 100 are only driven to be bounced; or the gravity sensor 600 detects that the back of the mobile phone falls downward, the switch module 500 is changed from the off state to the on state. Meanwhile, the plurality of compression springs 400 on the back of the mobile phone body 100 may be only sprung, and the plurality of supports 300 on the back of the mobile phone body 100 may be only driven to pop up. When detecting that the cell-phone is falling downwards according to gravity sensor 600, specific whereabouts face is a certain face of cell-phone, and switch module 500 only pops open the compression spring 400 of this face, drives a plurality of supporters 300 and pops out, and need not all compression spring 400 all pop open, makes all supporters 300 all pop out to when avoiding the cell-phone whereabouts to fall into less gap, all supporters 300 all pop out and the cell-phone that takes place is blocked the difficult condition of taking out in the gap. The frequency of use of the compression spring 400 is also reduced, and the service life is prolonged.

According to the anti-falling mobile phone provided by the embodiment of the application, the gravity sensor is used for detecting the gravity acceleration of the mobile phone when the mobile phone falls. The switch module is changed from a closed state to an open state when the gravity sensor detects that the falling acceleration of the mobile phone is the gravity acceleration g, and a plurality of compression springs on the falling surface of the mobile phone are bounced to drive a plurality of corresponding supporting bodies to be bounced according to the falling surface of the mobile phone when the gravity sensor detects that the mobile phone falls. When the mobile phone falls down, the mobile phone is protected by the support body and does not directly contact with the ground, and meanwhile, the support body effectively slows down the acting force applied to the mobile phone and reduces the damage of the mobile phone. Further, when avoiding the cell-phone whereabouts to fall into less gap, all supporters all pop out and the cell-phone that takes place is blocked the difficult condition of taking out in the gap. The frequency of use of the compression spring is reduced, and the service life is prolonged.

The foregoing description shows and describes several preferred embodiments of the present application, but as aforementioned, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.

Claims (10)

1. The utility model provides an anti-falling mobile phone, includes the cell-phone body, its characterized in that still includes: the device comprises a plurality of supporting bodies, a plurality of cavities, a plurality of compression springs, a switch module and a gravity sensor; wherein,

the gravity sensor is arranged in the mobile phone body and used for detecting the gravity acceleration of the mobile phone when the mobile phone falls;

the plurality of cavities are arranged on the mobile phone body; the plurality of supports are arranged inside the plurality of cavities; the plurality of compression springs are arranged at the bottoms of the plurality of supporting bodies;

the switch module is used for changing the closing state of the switch module into the opening state when the gravity sensor detects that the falling acceleration of the mobile phone is the gravity acceleration g, and the compression springs are bounced to drive the support bodies to be bounced.

2. The fall resistant cell phone of claim 1, wherein the switch module is further configured to:

if the support body is in the opening state, when the preset condition is met, the opening state of the switch module is changed into the closing state, the compression springs are retracted, and the support bodies are driven to recover the original position.

3. The crash-proof mobile phone of claim 2, wherein the preset condition is that the gravity sensor detects that the falling acceleration of the mobile phone is not the gravity acceleration g or that a preset time has elapsed after the plurality of supports are ejected.

4. The fall-resistant mobile phone of claim 1, wherein the plurality of supports are returned to their original positions by manual pressing; the switch module is changed from an open state to a closed state.

5. The crash-proof mobile phone of claim 1, wherein said plurality of cavities are disposed on the front, back and/or peripheral sides of the mobile phone body.

6. The fall resistant cell phone of claim 5, wherein the switch module is further configured to:

when the gravity sensor detects that a mobile phone screen falls downwards, and when the gravity sensor detects that the falling acceleration of the mobile phone is the gravity acceleration g, the switch module is changed from the off state to the on state, and the compression springs on the front face of the mobile phone body are bounced to drive the support bodies on the front face of the mobile phone body to be bounced;

when the gravity sensor detects that the back face of the mobile phone falls downwards, and when the gravity sensor detects that the falling acceleration of the mobile phone is the gravity acceleration g, the switch module is changed from the closed state to the open state, and the compression springs on the back face of the mobile phone body are bounced to drive the support bodies on the back face of the mobile phone body to be bounced.

7. The fall-resistant mobile phone according to any one of claims 1-6, wherein the switch module is an electromagnetic switch module.

8. The fall-resistant mobile phone of any one of claims 1-6, wherein the plurality of supports are cylinders, cubes and/or cuboids.

9. The fall-resistant mobile phone of any one of claims 1-6, wherein the plurality of supports are made of an elastic material.

10. The fall resistant cell phone of claim 9, wherein the plurality of supports are made of a transparent elastic material.