CN105827003A - Mobile terminal charged through self power consumption heating - Google Patents

Abstract

The invention discloses a mobile terminal charged through self power consumption heating. The mobile terminal comprises a storage battery, an internal heat colleting component, a thermoelectric converter, an electric energy storage device and a heat conducting component. The internal heat collecting component is used for collecting heat generated by self power consumption heating, the thermoelectric converter is used for converting the heat into electric energy, the electric energy storage device is used for storing the electric energy, and the heat conducting component is used for conducting the heat of the internal heat collecting component to the thermoelectric converter. The heat conducting component is connected with the heat collecting component and the thermoelectric converter. The electric energy storage device charges the storage battery. According to the intelligent mobile, heat energy of self power consumption heating is converted into the electric energy to charge the storage battery, the temperature of the intelligent terminal can be reduced, meanwhile, power consumption waste heat is recycled, and environment friendliness is promoted.

Description

A kind of mobile terminal utilizing oneself power consumption heating to be charged

Technical field

The present invention relates to technical field of mobile terminals, a kind of mobile terminal utilizing oneself power consumption heating to be charged.

Background technology

Intelligent wearable equipment and mobile terminal enrich the life content of people greatly at present, but being limited owing to equipment volume is little, its battery volume designs less the most accordingly, causes flying power the most relatively low, cause equipment to be frequently charged, reduce practicality.

Current Intelligent worn device and mobile terminal internal core power consumption are the highest, create a lot of heats and cause internal temperature high during use, and directly contact skin has high temperature burn hazard.

Existing Intelligent worn device and mobile terminal internal heat dissipating mode are all to utilize existing heat conducting material to be spread out by heat, reach purpose of lowering the temperature, and energy does not recycle, and causes thermal energy to waste, is unfavorable for environmental protection.

Summary of the invention

It is an object of the invention to propose a kind of mobile terminal utilizing oneself power consumption heating to be charged, it is possible to utilize oneself power consumption heating to be charged, while reaching cooling purpose, realize useless pick up the heat.

For reaching this purpose, the present invention by the following technical solutions:

A kind of mobile terminal utilizing oneself power consumption heating to be charged, including accumulator, it is characterized in that, also include the inside heat-collecting part for collecting the heat that self consumption heating produces, for described heat being converted into the thermoelectric converter of electric energy, for storing the energy storage of described electric energy, for the heat of internal heat-collecting part being transmitted to the conducting-heat elements of thermoelectric converter；Described conducting-heat elements is connected with described internal heat-collecting part and described thermoelectric converter respectively, and accumulator is charged by described energy storage.

Wherein, described conducting-heat elements is made up of one or more in Copper Foil, aluminium foil, heat conductive silica gel, graphite flake, nano-sized carbon and thermally conductive gel.

Wherein, described mobile terminal is wearable device.

Wherein, described mobile terminal also includes that shell, described internal heat-collecting part, thermoelectric converter, described energy storage and accumulator are all sealed in the inside of shell.

Wherein, described mobile terminal also includes that processor, described internal heat-collecting part thermally contact with described processor.

Wherein, described mobile terminal also includes that on-off circuit, described on-off circuit are connected with described accumulator and described energy storage respectively.

The invention discloses a kind of mobile terminal utilizing oneself power consumption heating to be charged, the heat energy of oneself power consumption heating is converted to electric energy and is charged accumulator, advantageously reduces the temperature of intelligent terminal, reclaims power consumption used heat, beneficially environmental protection simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of mobile terminal embodiment one utilizing oneself power consumption heating to be charged that the present invention provides.

Fig. 2 is the structural representation of a kind of mobile terminal embodiment two utilizing oneself power consumption heating to be charged that the present invention provides.

Detailed description of the invention

Further illustrate technical scheme below in conjunction with the accompanying drawings and by detailed description of the invention.

As shown in Figure 1, a kind of mobile terminal utilizing oneself power consumption heating to be charged, including accumulator 104, and for collecting the inside heat-collecting part 101 of the heat that self consumption heating produces, and for described heat being converted into the thermoelectric converter 102 of electric energy, and for storing the energy storage 103 of described electric energy, and for the heat of internal heat-collecting part 101 being transmitted to the conducting-heat elements of thermoelectric converter 102；Described conducting-heat elements is connected with described internal heat-collecting part 101 and described thermoelectric converter 102 respectively, and accumulator 104 is charged by described energy storage 103.

The heat caused by oneself power consumption is reclaimed by mobile terminal, battery is charged, energy dissipation can be reduced and can strengthen again the flying power of battery, effectively reduce charge frequency and reach energy-conserving and environment-protective, the temperature of mobile terminal can also be maintained at suitable temperature, stop temperature and raise the hidden danger brought, increase the service life.

Preferably, described conducting-heat elements is made up of one or more in Copper Foil, aluminium foil, heat conductive silica gel, graphite flake, nano-sized carbon and thermally conductive gel.

Copper Foil, aluminium foil, heat conductive silica gel, graphite flake, nano-sized carbon and thermally conductive gel have good heat conductivity, effectively the heat that mobile terminal produces due to power consumption can be conducted one end metal to thermoelectric converter 102, thermal energy, according to Sai Beike pyroelectric effect, is converted to electric energy by thermoelectric converter 102.

It should be noted that, thermoelectric converter 102 and energy storage 103 can be as one, i.e. thermoelectric converter 102 has thermo-electric conversion function and electric energy money saving function simultaneously, thermoelectric converter 102 is according to Seebeck thermoelectric effect, its two metal end is external to electrical energy storage device and forms electric potential difference, and then accumulator 104 is charged.Can be as one using thermoelectric converter 102 and energy storage 103, it is possible to reduce the parts of whole mobile terminal, be conducive to reducing the volume of mobile terminal.

Preferably, described conducting-heat elements can also be for the heat-transfer device being made up of metal liquid.

Preferably, described mobile terminal is wearable device；Further, described mobile terminal is intelligent watch or Intelligent bracelet.

Preferably, described mobile terminal also includes that shell, described internal heat-collecting part 101, thermoelectric converter 102, described energy storage 103 and accumulator 104 are all sealed in the inside of shell.

Preferably, described mobile terminal also includes that processor, described internal heat-collecting part 101 thermally contact with described processor.

Processor is the parts that the heating of whole mobile terminal is the most severe, therefore the heat that oneself power consumption produces mostlys come from processor, described internal heat-collecting part 101 thermally contacts with described processor, it can be the connection being realized internal heat-collecting part 101 and described processor by a conducting-heat elements, can also directly contact with described processor for internal heat-collecting part 101 and realize conduction of heat, thus the heat of processor is conducted to internal heat-collecting part, this advantageously reduces the temperature of processor, extends the life-span of processor.

Preferably, described mobile terminal also includes that on-off circuit 105, described on-off circuit 105 are connected, as shown in Figure 2 with described accumulator 104 and described energy storage 103 respectively.

Energy storage 103 stores the electric energy converted by heat energy, is not at once just to utilize this electric energy to be charged accumulator 104, but the accumulation of electric energy is to after certain degree, contactor conducting, thus is charged accumulator 104.

The invention discloses a kind of mobile terminal utilizing oneself power consumption heating to be charged, including: include accumulator 104, for collecting the inside heat-collecting part 101 of the heat that self consumption heating produces, and for described heat being converted into the thermoelectric converter 102 of electric energy, and for storing the energy storage 103 of described electric energy, and for the heat of internal heat-collecting part 101 being transmitted to the conducting-heat elements of thermoelectric converter 102；Described conducting-heat elements is connected with described internal heat-collecting part 101 and described thermoelectric converter 102 respectively, and accumulator 104 is charged by described energy storage 103.The heat energy that oneself power consumption generates heat is converted to electric energy and is charged accumulator 104 by the intelligent terminal of the present invention, the temperature advantageously reducing intelligent terminal and the frequency utilizing civil power to be charged, and reclaims power consumption used heat, beneficially environmental protection simultaneously.

The know-why of the present invention is described above in association with specific embodiment.These describe the principle being intended merely to explain the present invention, and can not be construed to limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art need not pay performing creative labour can associate other detailed description of the invention of the present invention, within these modes fall within protection scope of the present invention.

Claims (6)

1. one kind utilizes the mobile terminal that oneself power consumption heating is charged, including accumulator, it is characterized in that, also include the inside heat-collecting part for collecting the heat that self consumption heating produces, for described heat being converted into the thermoelectric converter of electric energy, for storing the energy storage of described electric energy, for the heat of internal heat-collecting part being transmitted to the conducting-heat elements of thermoelectric converter；Described conducting-heat elements is connected with described internal heat-collecting part and described thermoelectric converter respectively, and accumulator is charged by described energy storage.

2. mobile terminal as claimed in claim 1, it is characterised in that described conducting-heat elements is made up of one or more in Copper Foil, aluminium foil, heat conductive silica gel, graphite flake, nano-sized carbon and thermally conductive gel.

3. mobile terminal as claimed in claim 1, it is characterised in that described mobile terminal is wearable device.

4. mobile terminal as claimed in claim 1, it is characterised in that also include that shell, described internal heat-collecting part, thermoelectric converter, described energy storage and accumulator are all sealed in the inside of shell.

5. mobile terminal as claimed in claim 1, it is characterised in that also include that processor, described internal heat-collecting part thermally contact with described processor.

6. mobile terminal as claimed in claim 1, it is characterised in that also include that on-off circuit, described on-off circuit are connected with described accumulator and described energy storage respectively.