CN205596166U - Cell -phone shell and cell -phone - Google Patents

Abstract

The utility model discloses a cell -phone shell and cell -phone, cell -phone shell install at the cell -phone back, and the cell -phone shell includes thin -film solar cell, a phase change material layer, electric heat rete, the 2nd phase change material layer by setting gradually in outer the reaching, thin -film solar cell is the power supply of electric heat rete, the circular telegram of electric heat rete is generated heat. The utility model discloses a cell -phone shell and cell -phone, the cell -phone shell can generate heat with constant temperature, for both hands and mobile phone lithium battery provide warm comfortable temperature, has both improved the comfort level the when user uses the cell -phone, has guaranteed mobile phone lithium battery's normal work again, has prolonged mobile phone lithium battery's life, but guarantees when external low temperature environment still normal use of cell -phone, has improved user's use and has experienced.

Description

A kind of mobile phone shell and mobile phone

Technical field

This utility model belongs to mobile phone technique field, specifically, relates to a kind of mobile phone shell and the mobile phone using described mobile phone shell to design.

Background technology

Mobile phone is that in daily life, people contact most frequent electronic equipment, in order to protect mobile phone, market has emerged miscellaneous mobile phone shell.

But; current mobile phone shell is only provided that preventing mobile phone from colliding with draws the limited defencive function scraping equivalent damage; can not generate heat; cosy environment cannot be provided under cryogenic for mobile phone; and mobile phone uses lithium battery as power source mostly, lithium battery under cryogenic, will have a greatly reduced quality by life-span and capacity; cannot normally work, reduce user's experience.

Summary of the invention

This utility model provides a kind of mobile phone shell and mobile phone, solves present in prior art the problem of cisco unity malfunction under cellular li-ion battery low temperature.

In order to solve above-mentioned technical problem, this utility model is achieved by the following technical solutions:

A kind of mobile phone shell, is arranged on the mobile phone back side, including by outer and in set gradually thin-film solar cells, the first phase-change material layers, electric membranous layer, the second phase-change material layers；Described thin-film solar cells is that electric membranous layer is powered, described electric membranous layer heating power.

Further, being additionally provided with energy storage in described mobile phone shell, described thin-film solar cells is energy storage charging, and described energy storage is that electric membranous layer is powered.

Further, controller and two temperature sensors it are additionally provided with in described mobile phone shell, said two temperature sensor gathers the first phase-change material layers and the temperature of the second phase-change material layers respectively, and the data collected are transmitted to controller, described controller controls the break-make that energy storage is electric membranous layer supply line.

Further, described electric membranous layer includes the first Electric radiant Heating Film and the second Electric radiant Heating Film, and described first Electric radiant Heating Film is near the first phase-change material layers, and described second Electric radiant Heating Film is near the second phase-change material layers；Described energy storage the respectively first Electric radiant Heating Film and the second Electric radiant Heating Film are powered, and it is the first Electric radiant Heating Film and the break-make of the second Electric radiant Heating Film supply line that described controller controls energy storage respectively.

Preferably, described energy storage is film type ultracapacitor, is arranged between described first Electric radiant Heating Film and the second Electric radiant Heating Film.

Further, being additionally provided with charging port in described mobile phone shell, external power supply is that energy storage charges by described charging port.

Further, being additionally provided with blue-tooth device in described mobile phone shell, described controller controls the operation of blue-tooth device.

Further, the thickness of described first Electric radiant Heating Film and the second Electric radiant Heating Film is respectively less than 0.5mm, and the transition temperature range of described first phase-change material layers and the second phase-change material layers is 20 °～45 °.

Further, described thin-film solar cells, the first phase-change material layers, the first Electric radiant Heating Film, film type ultracapacitor, the second Electric radiant Heating Film, the second phase-change material layers pass sequentially through Tenon mode and connect.

Design based on above-mentioned mobile phone shell, this utility model also proposed a kind of mobile phone, including described mobile phone shell；Described mobile phone shell is arranged on the mobile phone back side, including by outer and in set gradually thin-film solar cells, the first phase-change material layers, electric membranous layer, the second phase-change material layers；Described thin-film solar cells is that electric membranous layer is powered, described electric membranous layer heating power.

Compared with prior art, advantage of the present utility model and good effect be: mobile phone shell of the present utility model and mobile phone, mobile phone shell can be with constant temp. warming, cosy temperature is provided for both hands and cellular li-ion battery, both improve comfort level when user uses mobile phone, and in turn ensure that the normal work of cellular li-ion battery, extend the service life of cellular li-ion battery, ensure that mobile phone still can normally use when extraneous low temperature environment, improves the experience of user.

After reading in conjunction with the accompanying the detailed description of this utility model embodiment, other features of the present utility model and advantage will become clearer from.

Accompanying drawing explanation

Fig. 1 is the structural representation of an embodiment of the mobile phone shell that this utility model is proposed；

Fig. 2 is the structural representation of another embodiment of the mobile phone shell that this utility model is proposed；

Fig. 3 is the circuit block diagram of the mobile phone shell that this utility model is proposed.

Reference:

1, mobile phone shell；2, thin-film solar cells；3, the first phase-change material layers；4, electric membranous layer；4-1, the first Electric radiant Heating Film；4-2, the second Electric radiant Heating Film；5, the second phase-change material layers；6, film type ultracapacitor.

Detailed description of the invention

Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described in more detail.

The mobile phone shell 1 of the present embodiment is arranged on the mobile phone back side, mainly include by outer and in set gradually thin-film solar cells the 2, first phase-change material layers 3, electric membranous layer the 4, second phase-change material layers 5 etc., shown in Figure 1, thin-film solar cells 2 is powered for electric membranous layer 3, electric membranous layer 3 heating power.

Thin-film solar cells 2 converts solar energy into electrical energy, power for electric membranous layer 4, electric membranous layer 4 heating power, first phase-change material layers 3 and the second phase-change material layers 5 absorb electric membranous layer 4 liberated heat, first phase-change material layers 3 predominantly mobile phone shell 1 lateral wall provides heat, in the range of the temperature making mobile phone shell 1 lateral wall maintains safety and comfort and save energy consumption, possess warm hand function, improve the comfort level of both hands when user uses mobile phone；The medial wall of the second phase-change material layers 5 predominantly mobile phone shell 1 provides heat, the temperature making mobile phone shell 1 medial wall maintains in the range of safety and comfort and saves energy consumption, cellular li-ion battery is avoided to affect capacity and life-span because environment temperature is too low, thus ensure that cellular li-ion battery normally works, improve the experience of user；Therefore the mobile phone shell of the present embodiment can be with constant temp. warming, cosy temperature is provided for both hands and mobile phone, both improve comfort level when user uses mobile phone, in turn ensure that the normal work of cellular li-ion battery, extend the service life of cellular li-ion battery, it is ensured that mobile phone still can normally use when extraneous low temperature environment.

It is without prejudice for protective film solaode, outside thin-film solar cells, is provided with waterproof scratch-resistant pad pasting.

In the present embodiment, first phase-change material layers 3 and the second phase-change material layers 5 use the phase-changing energy storage material that transition temperature range is 20 °～45 °, latent heat of phase change is big, the temperature effectively controlling mobile phone shell is in plateau temperature range, safeguard work safety also reduces energy consumption, both meet the requirement of user's both hands comfort level, meet again the ambient temperature requirement that cellular li-ion battery normally works required.

In order to improve stability and the reliability of electric membranous layer 4 electricity consumption, it is additionally provided with energy storage in mobile phone shell 1, thin-film solar cells 2 converts solar energy into electrical energy, and transmit to energy storage, for energy storage charging accumulation of energy, energy storage electrically connects with electric membranous layer 4, powers for electric membranous layer 4, is allowed to generate heat.

By arranging energy storage, the unnecessary electrical power storage that thin-film solar cells 2 can be exported, so that when the electric energy deficiency that thin-film solar cells 2 converts, energy storage can utilize the electric energy of storage to power for electric membranous layer 4, to improve stability and the reliability of electric membranous layer 4 electricity consumption, and then ensure the stability of electric membranous layer 4 liberated heat, it is ensured that the first phase-change material layers 3 and temperature of the second phase-change material layers 5.

Controller and two temperature sensors it are additionally provided with: the first temperature sensor and the second temperature sensor in mobile phone shell 1；First temperature sensor gathers the temperature of the first phase-change material layers 3, second temperature sensor gathers the temperature of the second phase-change material layers 5, the data collected are transmitted to controller by two temperature sensors, and controller controls the break-make that energy storage is electric membranous layer 4 supply line, shown in Figure 3.When the temperature of temperature sensor transmission to controller is more than design temperature, controller disconnects the supply line that energy storage is electric membranous layer 4, thus avoid mobile phone shell 1 temperature too high, avoid causing staff uncomfortable and cellular li-ion battery environment temperature is too high, and then improve the safety in utilization of mobile phone shell.

In the present embodiment, electric membranous layer 4 includes the first Electric radiant Heating Film 4-1 and the second Electric radiant Heating Film 4-2, and the first Electric radiant Heating Film 4-1 is near the first phase-change material layers 3, and the second Electric radiant Heating Film 4-2 is near the second phase-change material layers 5, shown in Figure 2；Energy storage the respectively first Electric radiant Heating Film 4-1 and the second Electric radiant Heating Film 4-2 are powered, and it is the first Electric radiant Heating Film 4-1 and the break-make of the second Electric radiant Heating Film 4-2 supply line that controller controls energy storage respectively；First phase-change material layers 3 absorbs the first Electric radiant Heating Film 4-1 liberated heat, and the second phase-change material layers 5 absorbs the second Electric radiant Heating Film 4-2 liberated heat.

When the temperature of the first temperature sensor transmission to controller is more than design temperature, controller cuts off the supply line that energy storage is the first Electric radiant Heating Film 4-1, it is to avoid mobile phone shell 1 temperature outside is too high, reduces staff comfort level；When the temperature of the second temperature sensor transmission to controller is more than design temperature, controller cuts off the supply line that energy storage is the second Electric radiant Heating Film 4-2, it is to avoid inside mobile phone shell 1, temperature is too high, eliminates the too high potential safety hazard caused of cellular li-ion battery environment temperature.

Owing to the energising of the first Electric radiant Heating Film and the second Electric radiant Heating Film can be controlled respectively whether, therefore the first phase-change material layers and the temperature of the second phase-change material layers can be controlled respectively, and then can control outside mobile phone shell respectively and the temperature of inner side, thus improve the motility of use.

In order to reduce the volume of mobile phone shell 1, in the present embodiment, energy storage is preferably film type ultracapacitor 6, film type ultracapacitor 6 is arranged between the first Electric radiant Heating Film 4-1 and the second Electric radiant Heating Film 4-2, therefore mobile phone shell 1 by outer and in set gradually as thin-film solar cells the 2, first phase-change material layers the 3, first Electric radiant Heating Film 4-1, film type ultracapacitor the 6, second Electric radiant Heating Film 4-2, the second phase-change material layers 5, shown in Figure 2.

Owing to film type ultracapacitor ultralow temperature characteristic is good, can be operated in the environment of-30 DEG C；Own wt is light and thin, and charging rate is fast, and service life cycle is long, and energy conversion efficiency and safety coefficient are high, thus further ensure the first Electric radiant Heating Film and the stability of the second Electric radiant Heating Film electricity consumption, safety and reliability.

In the present embodiment, the first Electric radiant Heating Film and the second Electric radiant Heating Film all use insulation film of high strength as carrier, safe and reliable, never leak electricity；The thickness of the first Electric radiant Heating Film and the second Electric radiant Heating Film is respectively less than 0.5mm, and own wt is light and thin, reduces the volume and weight of mobile phone shell；The thermal conversion rate of the first Electric radiant Heating Film and the second Electric radiant Heating Film reaches more than 95%, produces 2-13um far infrared wavelength, useful health.

It is energy storage charging for the ease of external power source, mobile phone shell 1 is additionally provided with charging port, external power supply can be that energy storage charges by charging port, thus avoid energy storage electricity to exhaust and mobile phone shell cannot normally use phenomenon during solar energy deficiency generation, improve the reliability of electric energy supply, it is ensured that the normal use of mobile phone shell.

Being additionally provided with blue-tooth device in mobile phone shell 1, controller is connected with blue-tooth device, controls the operation of blue-tooth device, and blue-tooth device communicates with mobile phone.The control signal that mobile phone sends sends to blue-tooth device, and is sent to controller by blue-tooth device, and controller controls the operation of whole mobile phone shell according to the control signal received.

Thin-film solar cells the 2, first phase-change material layers the 3, first Electric radiant Heating Film 4-1, film type ultracapacitor the 6, second Electric radiant Heating Film 4-2, the second phase-change material layers 5 pass sequentially through Tenon mode and connect.Owing to being connected by Tenon mode between all parts of mobile phone shell, it is not necessary to additional fasteners, assemble the easiest flexibly, it is easy to replace and safeguard, enhancing aesthetics simultaneously.

Design based on above-mentioned mobile phone shell, the present embodiment also proposed a kind of mobile phone, including described mobile phone shell.

By designing described mobile phone shell in mobile phone, both improve comfort level when user uses mobile phone, in turn ensure that the normal work of cellular li-ion battery, and then ensure that the normal work of mobile phone, improve the experience of user, improve the market competitiveness of mobile phone.

Above example is only in order to illustrate the technical solution of the utility model, rather than is limited；Although this utility model being described in detail with reference to previous embodiment, for the person of ordinary skill of the art, still the technical scheme described in previous embodiment can be modified, or wherein portion of techniques feature is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of this utility model technical scheme required for protection.

Claims (10)

1. a mobile phone shell, is arranged on the mobile phone back side, it is characterised in that: include by outer and in set gradually thin-film solar cells, the first phase-change material layers, electric membranous layer, the second phase-change material layers；Described thin-film solar cells is that electric membranous layer is powered, described electric membranous layer heating power.

Mobile phone shell the most according to claim 1, it is characterised in that: being additionally provided with energy storage in described mobile phone shell, described thin-film solar cells is energy storage charging, and described energy storage is that electric membranous layer is powered.

Mobile phone shell the most according to claim 2, it is characterized in that: in described mobile phone shell, be additionally provided with controller and two temperature sensors, said two temperature sensor gathers the first phase-change material layers and the temperature of the second phase-change material layers respectively, and the data collected are transmitted to controller, described controller controls the break-make that energy storage is electric membranous layer supply line.

Mobile phone shell the most according to claim 3, it is characterised in that: described electric membranous layer includes the first Electric radiant Heating Film and the second Electric radiant Heating Film, and described first Electric radiant Heating Film is near the first phase-change material layers, and described second Electric radiant Heating Film is near the second phase-change material layers；Described energy storage the respectively first Electric radiant Heating Film and the second Electric radiant Heating Film are powered, and it is the first Electric radiant Heating Film and the break-make of the second Electric radiant Heating Film supply line that described controller controls energy storage respectively.

Mobile phone shell the most according to claim 4, it is characterised in that: described energy storage is film type ultracapacitor, is arranged between described first Electric radiant Heating Film and the second Electric radiant Heating Film.

Mobile phone shell the most according to claim 2, it is characterised in that: being additionally provided with charging port in described mobile phone shell, external power supply is that energy storage charges by described charging port.

Mobile phone shell the most according to claim 3, it is characterised in that: being additionally provided with blue-tooth device in described mobile phone shell, described controller controls the operation of blue-tooth device.

Mobile phone shell the most according to claim 4, it is characterised in that: the thickness of described first Electric radiant Heating Film and the second Electric radiant Heating Film is respectively less than 0.5mm, and the transition temperature range of described first phase-change material layers and the second phase-change material layers is 20 °～45 °.

Mobile phone shell the most according to claim 5, it is characterised in that: described thin-film solar cells, the first phase-change material layers, the first Electric radiant Heating Film, film type ultracapacitor, the second Electric radiant Heating Film, the second phase-change material layers pass sequentially through Tenon mode and connect.

10. a mobile phone, it is characterised in that: include mobile phone shell as claimed in any one of claims 1-9 wherein.