CN105992471A - Buoyancy device and portable electronic assembly using same - Google Patents

Abstract

The invention relates to a buoyancy device and a portable electronic assembly using the same. The portable electronic assembly includes a portable electronic device and the buoyancy device which accommodates the portable electronic device, the buoyancy device includes a device body and a cavity sealed in the device body, and the cavity includes at least one first sub cavity and at least one second sub cavity isolated from the at least one first sub cavity. the first sub cavity is isolated from the second sub cavity, the first and second sub cavities are filled with air so that the buoyancy device includes a relatively large buoyancy, and further the buoyancy device and the portable electronic device can float.

Description

Buoyant device and apply the portable electron device assembly of this buoyant device

Technical field

The present invention relates to a kind of buoyant device and apply the portable electron device assembly of this buoyant device.

Background technology

Along with the constantly progress of wireless communication technology and improving constantly of people's living standard, portable electron device such as mobile phone, panel computer etc. has become a part indispensable in people's life.At present the waterproofing design of electronic installation is more and more, but existing waterproofing design normally only can block the various interfaces of electronic installation to prevent waterlogged damage, when, after the long-time submerged of electronic installation, water-proof function increases as well as hydraulic pressure and constantly lost efficacy.And, if mobile phone falls in opaque liquid, it is also difficult to find.

Summary of the invention

In view of this, it is necessary to a kind of buoyant device improving portable electron device buoyancy is provided.

Separately, there is a need to provide the portable electron device assembly of a kind of this buoyant device of application.

A kind of buoyant device, including body and be sealed in this intrinsic cavity, described cavity includes the first son grade cavity and the second son grade cavity that at least two is mutually separated and sealed.

A kind of portable electron device assembly, including portable electron device and the buoyant device that is combined with portable electron device, this buoyant device includes body and is sealed in this intrinsic cavity, and described cavity includes the first son grade cavity and the second son grade cavity that at least two is mutually separated and sealed.

This buoyant device is by arranging the first mutually isolated son grade cavity and the second son grade cavity the most internal, and it is filled with air in this first son grade cavity and the second son grade cavity, so that this buoyant device has bigger buoyancy, so that can float when the portable electron device assembling this buoyant device falls into liquid, it is easy to find, and avoid the water inlet of this portable electron device, improve water resistance.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of the present invention the first preferred embodiment portable electron device assembly.

Fig. 2 is the axonometric chart of the protection set shown in Fig. 1.

Fig. 3 is the sectional view along III-III of the protection set shown in Fig. 2.

Fig. 4 is the sectional view along IV-IV of the protection set shown in Fig. 2.

Fig. 5 is the decomposing schematic representation of the portable electron device assembly of the present invention the second preferred embodiment.

Main element symbol description

Portable electron device assembly	100、200
		Portable electron device	90、190
Buoyant device	50、150
		Body	51
Base plate	511
		Diapire	5111
Roof	5113
		Side plate	513
Accepting groove	515
		Cavity	53、153
First son grade cavity	531
		First grandson's level cavity	5311
Dividing plate	5313
		Second son grade cavity	533
Second grandson's level cavity	5331
		Clamping plate	5333
Epiphragma	155

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Referring to Fig. 1, the present invention provides a kind of portable electron device assembly 100, and it includes buoyant device 50 and portable electron device 90, such as mobile phone, panel computer etc..This buoyant device 50 is used for being coated on portable electron device 90 protecting this portable electron device 90 and improves this portable electron device 90 in liquid environment, such as the buoyancy in water.

In the present invention the first preferred embodiment, this buoyant device 50 is protection set, and it can be made up of plastics or silica gel.Referring to Fig. 2 and Fig. 3, this buoyant device 50 includes body 51, this body 51 substantially one hollow structure, and it includes the base plate 511 that is wholely set and interconnective four side plates 513.This base plate 511 includes diapire 5111 and roof 5113, and this diapire 5111 and this roof 5113 relative spacing are arranged.

Described four side plate 513 rings are located on described base plate 511 and the most described base plate 511, thus jointly surround an accepting groove 515 with described base plate 511.Described accepting groove 515 is used for housing described portable electron device 90.

The diapire 5111 of described base plate 511, roof 5113 and described four side plates 513 enclose and set formation one cavity 53, and this cavity 53 is for being filled with and house air or the less gas of other density, such as nitrogen etc..In the present embodiment, this cavity 53 includes the first son grade cavity 531 and the second son grade cavity 533 that at least two is mutually separated and sealed.Described first son grade cavity 531 is formed in base plate 511, and between the most described diapire 5111 and described roof 5113, described second son grade cavity 533 is formed in described four side plates 513.

Incorporated by reference to refering to Fig. 4, described first son grade cavity 531 is in honey comb structure, and it includes first grandson's level cavity 5311 that at least two is mutually separated and sealed.Specifically, each described first grandson's level cavity 5311 is hexagonal structure, and it includes interconnective six dividing plates 5313.Described each dividing plate 5313 connects diapire 5111 and the roof 5113 of described base plate 511, so that the first son grade cavity 531 of this buoyant device 50 has preferable laser intensity.When the portable electron device 90 in this buoyant device 50 and this buoyant device 50 falls and face is fallen in the contact of this base plate 511, described dividing plate 5313 can buffer the impact force that this portable electron device 90 is subject to and prevent described portable electron device 90 damaged.

Within described second son grade cavity 533 is arranged on the described first son periphery of grade cavity 531 and is positioned at described four side plates 513, described second son grade cavity 533 is mutually isolated with the described first sub grade cavity 531 and includes second grandson's level cavity 5331 that at least two is mutually separated and sealed.Referring to Fig. 4, each described second grandson's level cavity 5331 includes second splint 5333.Each described second splint 5333 is all connected with two described dividing plates 5313 and the side plate 513 of first grandson's level cavity 5311 described in, thus strengthens the laser intensity of described second son grade cavity 533.In the present embodiment, the described second son grade cavity 533 of the side plate 513 being positioned at this left and right sides is arranged continuously, and described second son grade cavity 533 interval of the side plate 513 being positioned at these upper and lower two ends is arranged.

When the portable electron device 90 in this buoyant device 50 and this buoyant device 50 falls and face is fallen in described side plate 513 contact, described clamping plate 5333 can enough buffer impact force that this portable electron device 90 is subject to prevent described portable electron device 90 damaged.

When making this buoyant device 50, injection mo(u)lding can be carried out in air chamber or nitrogen chamber, so that when making this buoyant device 50, i.e. possess, in first son grade cavity 531 of this cavity 53 and the second son grade cavity 533, the gas that desired density is less, then this portable electron device 90 is arranged in the accepting groove 515 of this buoyant device 50.When the portable electron device 90 being provided with buoyant device 50 falls, some dividing plates 5313 in cavity 53 in this buoyant device 50 and clamping plate 5333 can support this buoyant device 50 and this portable electron device 90 and buffer impact force that this portable electron device 90 is subject to thus avoid this portable electron device 90 to be damaged.When this portable electron device 90 and this buoyant device 50 drop in liquid in (such as water or other liquid), the first son grade cavity 531 in this cavity 53 and the air in the second son grade cavity 533 can make this buoyant device 50 and this portable electron device 90 possess bigger buoyancy, thus float on liquid, to prevent this portable electron device 90 from intaking and to be easy to look for this portable electron device 90.

Refer to Fig. 5, in the present invention the second preferred embodiment, this portable electron device assembly 200 includes buoyant device 150 and portable electron device 190, and this buoyant device 150 is internally formed a cavity 153, and this cavity 153 is identical with cavity 53 structure function in the present invention the first preferred embodiment.Its difference is: described buoyant device 150 is the shell on the back of portable electron device, and this buoyant device 150 is for covering at the back side of this portable electron device 190.This portable electron device assembly 200 farther includes epiphragma 155, and this epiphragma 155 can be transparent or opaque glued membrane, and this epiphragma 155 is fitted on the cavity 153 within described buoyant device 150 to keep the air-tightness of this cavity 153.

It is appreciated that, in other embodiments, described buoyant device 50,150 also can be made up of nanosphere, described cavity 53,153 is internal also can fill nanosphere, the gas less owing to being filled with density inside nanosphere, thus the buoyant device 50,150 made by nanosphere is increased the buoyancy of this portable electron device 100,200 and prevents described portable electron device 100,200 damaged.

This buoyant device 50 is set to hollow structure by the present invention, and the first son grade cavity 531 and the second son grade cavity 533 of full air is set between the base plate 511 and side plate 513 of this buoyant device 50, air capacity accommodating in increasing this buoyant device 50, this buoyant device 50 is made to have bigger buoyancy, during so that portable electron device 90 drops in liquid can float, prevent this portable electron device 90 from intaking and be easy to find.And, owing to described first son grade cavity 531 is in honeycomb, and second son grade cavity 533 also include multiple second grandson's level cavity 5331, when any first grandson's level cavity 5311 in this first son grade cavity 531 or the second son grade cavity 533 or second grandson's level cavity 5331 damage, nor affect on other the first grandson level cavity 5311 or air-tightness of second grandson's level cavity 5331, the reliability of this buoyant device 50 can be improved.In addition, the present invention is by arranging some dividing plates 5313 in the first son grade cavity 531, in the second son grade cavity 533, some clamping plate 5333 are set, and described dividing plate 5313 is connected with clamping plate 5333, so that described dividing plate 5313 forms an entirety with clamping plate 5333, not only increase the integrated model intensity of the cavity 53 of buoyant device 50, and when this portable electron device 90 and this buoyant device 50 drop, the impact force that this portable electron device 90 is subject to can be buffered, prevent this portable electron device 90 to be damaged.

Claims (10)

1. a buoyant device, it is characterised in that: this buoyant device includes body and is sealed in this intrinsic cavity, and described cavity includes the first son grade cavity and the second son grade cavity that at least two is mutually separated and sealed.

2. buoyant device as claimed in claim 1, it is characterised in that: described first son grade cavity is honeycomb and includes first grandson's level cavity that at least two is mutually isolated.

3. buoyant device as claimed in claim 1, it is characterised in that: described second son grade cavity includes second grandson's level cavity that at least two is mutually isolated.

4. buoyant device as claimed in claim 2, it is characterized in that: this body includes base plate and interconnective four side plates, described four side plates are arranged on described base plate, described base plate and described four side plates are hollow structure, described four side plates are higher than described base plate, and described four side plates and described base plate form a host cavity to house a portable electron device.

5. buoyant device as claimed in claim 4, it is characterized in that: described base plate includes diapire and the roof of spaced setting, a described first son grade cavity is formed between described diapire and roof, each described first grandson's level cavity includes six interconnective dividing plates, and described dividing plate connects described diapire and roof.

6. buoyant device as claimed in claim 5, it is characterized in that: described second son grade cavity is positioned at the periphery of described first son grade cavity and is formed at described side plate, each described second grandson's level cavity includes second splint, and described each described clamping plate connect dividing plate and side plate described in two.

7. a portable electron device assembly, is applied to portable electron device, it is characterised in that: this portable electron device assembly includes that the buoyant device as described in any one of claim 1 to 6, described buoyant device are combined with portable electron device.

8. portable electron device assembly as claimed in claim 7, it is characterised in that: described buoyant device includes accepting groove for protection set, described protection set, and described accepting groove houses described portable electron device.

9. portable electron device assembly as claimed in claim 7, it is characterized in that: described buoyant device is the shell on the back of described portable electron device, described portable electron device assembly also includes epiphragma, described epiphragma covers in described air chamber, and described shell on the back covers on described portable electron device.

10. portable electron device assembly as claimed in claim 7, it is characterised in that: described buoyant device is made up of nanosphere, fills described nanosphere in described air chamber.