CN105376971A - A shell of a mobile electronic apparatus and a mobile electronic apparatus - Google Patents

Abstract

The invention relates to the technical field of electronic apparatuses and provides a shell of a mobile electronic apparatus and a mobile electronic apparatus. The convenience for charging of mobile electronic apparatuses is improved. The shell of a mobile electronic apparatus comprises a shell body, and a heat energy-to-electric energy module disposed in the shell body and integrated with the shell body. The heat energy-to-electric energy module is provided with a first output electrode and a second output electrode capable of transmitting electric energy to a mobile electronic apparatus. When there is no need to charge the mobile electronic apparatus, the shell is clamped to the back of the body of the mobile electronic apparatus; when the mobile electronic apparatus needs charging, the shell is taken down from the body of the mobile electronic apparatus, the heat energy-to-electric energy module of the shell of the mobile electronic apparatus is heated by devices providing heat sources, such as lighters, alcohol lamps or candles, and the heat energy-to-electric energy module converts the heat energy into electric energy which is output to a battery of the mobile electronic apparatus via the first output electrode and the second output electrode, so that the battery of the mobile electronic apparatus is charged.

Description

The shell of mobile electronic device and mobile electronic device

Technical field

The present invention relates to technical field of electronic equipment, particularly relate to mobile electronic device casing and mobile electronic device.

Background technology

Along with improving constantly of people's living standard, mobile phone more and more becomes the requisite tool of communications of people, plays an important role in daily life and work.

But along with the function of mobile phone constantly increases, the power consumption of mobile phone is increasing.Out on tours or there is no power supply environment under, be difficult to mobile phone and immediately charge.

Summary of the invention

The invention provides a kind of shell and mobile electronic device of mobile electronic device, in order to improve the convenience of mobile electronic device charging.

For achieving the above object, the invention provides following technical scheme:

The invention provides a kind of shell of mobile electronic device, comprising:

Housing;

Be positioned at described housing and be the performance of changing thermal energy into electric energy module of integral type structure with described housing, described performance of changing thermal energy into electric energy module is provided with can by power delivery to the first output electrode of mobile electronic device and the second output electrode.

The shell of mobile electronic device provided by the invention, when not needing to charge to mobile electronic device, the shell of mobile electronic device is buckled in after mobile electronic device body; When needs charge to mobile electronic device, the shell of mobile electronic device is taken off from mobile electronic device body, the performance of changing thermal energy into electric energy module of the device of thermal source to the shell of mobile electronic device can be provided to heat with lighter or alcolhol burner or candle etc., this part heat is converted to electric energy and is outputted to the battery of mobile electronic device by the first output electrode and the second output electrode by performance of changing thermal energy into electric energy module, charges to mobile electronic device battery.

Visible, the shell body of mobile electronic device provided by the invention, directly charges to mobile electronic device, not need the power supply by the external world, charge and carry all more convenient.

In a kind of optional execution mode, above-mentioned electric energy turns heat energy module and specifically comprises:

Be positioned at the adiabatic substrate of housing;

Be positioned at insulated substrate and deviate from the side of housing and the heat-conducting substrate arranged with described adiabatic substrate-parallel;

Multiple P type semiconductors between described adiabatic substrate and described heat-conducting substrate, multiple N type semiconductor, polylith Graphene transmission board, and P type Graphene electrodes and a N-type Graphene electrodes, multiple described P type semiconductor and N type semiconductor are arranged with layer, each described N type semiconductor is between adjacent two described P type semiconductors, adjacent described P type semiconductor is connected by Graphene transmission block described in described N type semiconductor, the voltage that multiple described P type semiconductor and multiple described N type semiconductor produce is exported by described P type Graphene electrodes and described N-type Graphene electrodes, wherein: described P type Graphene electrodes is described first output electrode, described N-type Graphene electrodes is described second output electrode, or described N-type Graphene electrodes is described first output electrode, described P type Graphene electrodes is described second output electrode.

The shell of above-mentioned mobile electronic device, when not needing to charge to mobile electronic device, the shell of mobile electronic device is buckled in after mobile electronic device body, heat insulating substrate and mobile electronic device battery are fitted, and the heat conduction produced to prevent mobile electronic device battery is to the shell body of mobile electronic device, when needs charge to mobile electronic device, the shell of mobile electronic device is taken off from mobile electronic device body, the P type Graphene electrodes of the shell of mobile electronic device and N-type Graphene electrodes are electrically connected with the charging socket of mobile electronic device, the heat-conducting substrate of the device of thermal source to the shell of mobile electronic device can be provided to heat with lighter or alcolhol burner or candle etc., heat conduction is given multiple P type semiconductor of being connected by Graphene transmission board each other and N type semiconductor by heat-conducting substrate, this part heat is converted to electric energy and is outputted to the battery of mobile electronic device by P type Graphene electrodes and N-type Graphene electrodes by multiple P type semiconductor and N type semiconductor, charge to mobile electronic device battery.

In some optional execution modes, described housing is provided with the plug coordinated with the charging socket on mobile electronic device, and two of described plug pins are electrically connected with described first output electrode and described second output electrode respectively.The convenience that the charging improved further is set of plug.

In some optional execution modes, described plug is installed in described housing, and when described plug is in the first state, described plug rotates extended described housing around pivot dress axle, and when described plug is in the second state, described plug is positioned at described housing.Plug is set to pivot on housing, when not needing to charge to mobile electronic device (during the first state), plug is positioned at housing, can not give prominence to outward at mobile electronic device, the outward appearance of mobile electronic device can not be affected, the plug given prominence to can be avoided simultaneously impaired.

In some optional execution modes, described plug is slidably mounted on described housing, and can be locked at desired location, when described plug is in the first state, described plug stretches out described housing, and when described plug is in the second state, described plug is positioned at described housing.Plug is set to be slidably mounted on housing, when not needing to charge to mobile electronic device (during the first state), plug is positioned at housing, can not give prominence to outward at mobile electronic device, the outward appearance of mobile electronic device can not be affected, the plug given prominence to can be avoided simultaneously impaired.Concrete sliding matching structure can as push switch etc.

In some optional execution modes, the material of described heat-conducting substrate is silica gel.

In some optional execution modes, the material of described adiabatic substrate is pottery.

In some optional execution modes, the material of each described P type semiconductor and each described N type semiconductor is low dimensional semiconductor material.Adopt low dimensional semiconductor material formation P type semiconductor and N type semiconductor can greatly reduce thickness and the weight of the shell body of mobile electronic device.

In some optional execution modes, described low dimensional semiconductor material is bismuth telluride Bi2Te3 or with the bismuth telluride CsBi4Te6 of caesium calking or telluride hafnium HfTe5.

Present invention also offers a kind of mobile electronic device, comprise the shell of the mobile electronic device described in above-mentioned any one, and the adiabatic substrate of the shell of described mobile electronic device is towards the battery of described mobile electronic device.Because the shell body of above-mentioned mobile electronic device can charge for mobile electronic device, and it is more convenient to charge, therefore mobile electronic device provided by the invention, there is good serviceability.

Accompanying drawing explanation

Fig. 1 is for inventing the structural solid figure of the shell body of the mobile electronic device provided;

A kind of shell structure sterogram of the shell body of the mobile electronic device that Fig. 2 provides for the embodiment of the present invention;

View during the mobile electronic device charging that Fig. 3 provides for the embodiment of the present invention;

Connection status schematic cross-section during the mobile electronic device charging that Fig. 4 provides for the embodiment of the present invention;

Fig. 5 is view when mobile electronic device that the embodiment of the present invention provides does not charge.

Accompanying drawing explanation

1-adiabatic substrate 2-heat-conducting substrate

3-P type semiconductor 4-N type semiconductor

5-Graphene transmission board 6-P type Graphene electrodes

7-N type Graphene electrodes 8-housing

81-plug 9-mobile electronic device body

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of patent protection of the present invention.

For the ease of being that user charges to mobile electronic device battery, a kind of shell can giving the mobile electronic device of mobile electronic device battery charging provided by the invention, do not need user's tyre charge power supply again, and the shell of mobile electronic device is that mobile electronic device charging is more convenient.

The invention provides a kind of shell of mobile electronic device, comprising:

Housing;

Be positioned at housing and be the performance of changing thermal energy into electric energy module of integral type structure with housing, performance of changing thermal energy into electric energy module is provided with can by power delivery to the first output electrode of mobile electronic device and the second output electrode.

The shell of mobile electronic device provided by the invention, when not needing to charge to mobile electronic device, the shell of mobile electronic device is buckled in after mobile electronic device body; When needs charge to mobile electronic device, the shell of mobile electronic device is taken off from mobile electronic device body, the performance of changing thermal energy into electric energy module of the device of thermal source to the shell of mobile electronic device can be provided to heat with lighter or alcolhol burner or candle etc., this part heat is converted to electric energy and is outputted to the battery of mobile electronic device by the first output electrode and the second output electrode by performance of changing thermal energy into electric energy module, charges to mobile electronic device battery.

So the shell of mobile electronic device provided by the invention, directly charges to mobile electronic device, not need the power supply by the external world, charge and carry all more convenient.

As shown in Figure 1, above-mentioned performance of changing thermal energy into electric energy module comprises:

Adiabatic substrate 1;

The heat-conducting substrate 2 be arranged in parallel with adiabatic substrate 1;

Multiple P type semiconductors 3 between adiabatic substrate 1 and heat-conducting substrate 2, multiple N type semiconductor 4, polylith Graphene transmission board 5 and P type Graphene electrodes 6 and a N-type Graphene electrodes 7, multiple P type semiconductor 3 and N type semiconductor 4 are arranged with layer, each N type semiconductor 4 is between adjacent two P type semiconductors 3, adjacent P type semiconductor 3 is connected by a Graphene transmission block with N type semiconductor 4, and the voltage that multiple P type semiconductor 3 and multiple N type semiconductor 4 produce is exported by P type Graphene electrodes 6 and N-type Graphene electrodes 7.

The shell of above-mentioned mobile electronic device, in use, when not needing to charge to mobile electronic device, the shell of mobile electronic device is buckled in after mobile electronic device body 9, heat insulating substrate and mobile electronic device battery are fitted, and the heat conduction produced to prevent mobile electronic device battery is to the shell body 8 of mobile electronic device, when needs charge to mobile electronic device, the shell of mobile electronic device is taken off from mobile electronic device body 9, the P type Graphene electrodes 6 of the shell of mobile electronic device and N-type Graphene electrodes 7 are electrically connected with the charging socket of mobile electronic device, the heat-conducting substrate 2 of the device of thermal source to the shell of mobile electronic device can be provided to heat with lighter or alcolhol burner or candle etc., heat conduction is given multiple P type semiconductor 3 of being connected by Graphene transmission board 5 each other and N type semiconductor 4 by heat-conducting substrate 2, this part heat is converted to electric energy and is outputted to the battery of mobile electronic device by P type Graphene electrodes 6 and N-type Graphene electrodes 7 by multiple P type semiconductor 3 and N type semiconductor 4, charge to mobile electronic device battery.

Certainly, above-mentioned performance of changing thermal energy into electric energy module is not limited to said structure, also can adopt thermo-electric converting device of the prior art, just repeats no longer one by one here.

Shell for the ease of mobile electronic device is connected with the charging between mobile electronic device body 9, as shown in Figure 2, and a kind of housing 8 structural solid figure of the shell body 8 of the mobile electronic device that Fig. 2 provides for the embodiment of the present invention; Housing 8 is provided with the plug 81 coordinated with the charging socket on mobile electronic device, and two of plug 81 pins are electrically connected with P type Graphene electrodes 6 and N-type Graphene electrodes 7 respectively.The convenience that the charging improved further is set of plug 81.When not needing to charge to mobile electronic device, the shell of mobile electronic device is buckled in after mobile electronic device body 9, and as shown in Figure 5, Fig. 5 is view when mobile electronic device that the embodiment of the present invention provides does not charge; When needs charge to mobile electronic device, the shell of mobile electronic device is taken off from mobile electronic device body 9, the plug 81 be provided with by the housing 8 of the shell of mobile electronic device plugs together with the charging socket on mobile electronic device body 9, as shown in Figure 3 and Figure 4, wherein: the view during mobile electronic device charging that Fig. 3 provides for the embodiment of the present invention; Connection status schematic cross-section during the mobile electronic device charging that Fig. 4 provides for the embodiment of the present invention; Now the heat-conducting substrate 2 of the device of thermal source to the shell of mobile electronic device can be provided to heat with lighter or alcolhol burner or candle etc., heat conduction is given multiple P type semiconductor 3 of being connected by Graphene transmission board 5 each other and N type semiconductor 4 by heat-conducting substrate 2, this part heat is converted to electric energy and is outputted to the battery of mobile electronic device by P type Graphene electrodes 6 and N-type Graphene electrodes 7 by multiple P type semiconductor 3 and N type semiconductor 4, charges to mobile electronic device battery.

Above-mentioned plug 81 can be arranged on housing 8 in several ways:

In a kind of optional execution mode, plug 81 is installed in housing 8, and when plug 81 is in the first state, plug 81 rotates extended housing 8 around pivot dress axle, and when plug 81 is in the second state, plug 81 is positioned at housing 8.Plug 81 is set to pivot on housing 8, when not needing to charge to mobile electronic device (during the first state), plug 81 is positioned at housing 8, can not give prominence to outward at mobile electronic device, the outward appearance of mobile electronic device can not be affected, the plug 81 given prominence to can be avoided simultaneously impaired.

In another kind of optional execution mode, plug 81 is slidably mounted on housing 8, and can be locked at desired location, and when plug 81 is in the first state, plug 81 stretches out housing 8, and when plug 81 is in the second state, plug 81 is positioned at housing 8.Plug 81 is set to be slidably mounted on housing 8, when not needing to charge to mobile electronic device (during the first state), plug 81 is positioned at housing 8, can not give prominence to outward at mobile electronic device, the outward appearance of mobile electronic device can not be affected, the plug 81 given prominence to can be avoided simultaneously impaired.Concrete sliding matching structure can as push switch etc.

In the optional execution mode of one, plug is dismountablely be installed on housing, is arranged on housing by plug more when needed.

Optionally, the material of heat-conducting substrate 2 is silica gel.The material of certain heat-conducting substrate 2 is not limited to silica gel, also can make for adopting other Heat Conduction Material, just repeating no longer one by one here.

Optionally, the material of adiabatic substrate 1 is pottery.The material of certain adiabatic substrate 1 is not limited to silica gel, also can for adopt other not Heat Conduction Material make, just repeat no longer one by one here.

Preferably in execution mode, the material of each P type semiconductor 3 and each N type semiconductor 4 is low dimensional semiconductor material.Adopt low dimensional semiconductor material formation P type semiconductor 3 and N type semiconductor 4 can greatly reduce thickness and the weight of the shell body 8 of mobile electronic device.

Optionally, low dimensional semiconductor material is bismuth telluride Bi2Te3 or with the bismuth telluride CsBi4Te6 of caesium calking or telluride hafnium HfTe5.

As shown in Figure 5, present invention also offers a kind of mobile electronic device, comprise the shell of the mobile electronic device described in above-mentioned any one, and the adiabatic substrate 1 of the shell of mobile electronic device is towards the battery of mobile electronic device.Because the shell body 8 of above-mentioned mobile electronic device can charge for mobile electronic device, and it is more convenient to charge, therefore mobile electronic device provided by the invention, there is good serviceability.

In use, when not needing to charge to mobile electronic device, the shell of mobile electronic device is buckled in after mobile electronic device body mobile electronic device of the present invention; When needs charge to mobile electronic device, the shell of mobile electronic device is taken off from mobile electronic device body, the performance of changing thermal energy into electric energy module of the device of thermal source to the shell of mobile electronic device can be provided to heat with lighter or alcolhol burner or candle etc., this part heat is converted to electric energy and is outputted to the battery of mobile electronic device by the first output electrode and the second output electrode by performance of changing thermal energy into electric energy module, charges to mobile electronic device battery.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. a shell for mobile electronic device, is characterized in that, comprising:

Housing;

Be positioned at described housing and be the performance of changing thermal energy into electric energy module of integral type structure with described housing, described performance of changing thermal energy into electric energy module is provided with can by power delivery to the first output electrode of mobile electronic device and the second output electrode.

2. the shell of mobile electronic device as claimed in claim 1, it is characterized in that, described electric energy turns heat energy module and comprises:

Be positioned at the adiabatic substrate of described housing;

Be positioned at described insulated substrate and deviate from the side of described housing and the heat-conducting substrate arranged with described adiabatic substrate-parallel;

Multiple P type semiconductors between described adiabatic substrate and described heat-conducting substrate, multiple N type semiconductor, polylith Graphene transmission board, and P type Graphene electrodes and a N-type Graphene electrodes, multiple described P type semiconductor and N type semiconductor are arranged with layer, each described N type semiconductor is between adjacent two described P type semiconductors, adjacent described P type semiconductor is connected by Graphene transmission block described in described N type semiconductor, the voltage that multiple described P type semiconductor and multiple described N type semiconductor produce is exported by described P type Graphene electrodes and described N-type Graphene electrodes, wherein: described P type Graphene electrodes is described first output electrode, described N-type Graphene electrodes is described second output electrode, or described N-type Graphene electrodes is described first output electrode, described P type Graphene electrodes is described second output electrode.

3. the shell of mobile electronic device as claimed in claim 1, it is characterized in that, described housing is provided with the plug coordinated with the charging socket on mobile electronic device, and two of described plug pins are electrically connected with described first output electrode and described second output electrode respectively.

4. the shell of mobile electronic device as claimed in claim 3, it is characterized in that, described plug is installed in described housing, when described plug is in the first state, described plug rotates extended described housing around pivot dress axle, and when described plug is in the second state, described plug is positioned at described housing.

5. the shell of mobile electronic device as claimed in claim 3, it is characterized in that, described plug is slidably mounted on described housing, and can desired location be locked at, when described plug is in the first state, described plug stretches out described housing, and when described plug is in the second state, described plug is positioned at described housing.

6. as right wants the shell of the mobile electronic device as described in 1 ~ 5 any one, it is characterized in that, the material of described heat-conducting substrate is silica gel.

7. the shell of mobile electronic device as claimed in claim 6, is characterized in that, the material of described adiabatic substrate is pottery.

8. the shell of mobile electronic device as claimed in claim 7, it is characterized in that, the material of each described P type semiconductor and each described N type semiconductor is low dimensional semiconductor material.

9. the shell of mobile electronic device as claimed in claim 8, is characterized in that, described low dimensional semiconductor material is bismuth telluride Bi2Te3 or with the bismuth telluride CsBi4Te6 of caesium calking or telluride hafnium HfTe5.

10. a mobile electronic device, is characterized in that, comprises the shell of the mobile electronic device as described in any one of claim 1 ~ 9, and the adiabatic substrate of the shell of described mobile electronic device is towards the battery of described mobile electronic device.