CN109323287A - An efficient and wide temperature intelligent heating furnace - Google Patents

Abstract

The present invention is suitable for portable power generation technological improvement field, a kind of efficient wide warm intelligent heating furnace is provided, sets gradually the integral structure, first thermal insulation layer, second thermal insulation layer, air supplying layer and furnace body A-frame of both the porous interior furnace of Cellular Networks and copper heat conducting pipe and copper sheet from top to bottom；Further include temperature-difference power generation module, radiator, radiator fan, dismountable portable power source box, contains electronic circuit board and lithium battery in the portable power source box, the portable power source box is also connected with thermoelectric generation film, fan；The temperature-difference power generation module is mounted on porous interior furnace bottom, is attached by copper sheet；The thermoelectric generation film is in first thermal insulation layer；The radiator then first thermal insulation layer of direct puncture, second thermal insulation layer and air supplying layer；The portable power source box and fan are in air supplying layer.It is generated electricity using hot and cold side temperature difference, small outdoor power generation wood stove easy to carry, raw material sources are simple, stable and reliable in work, at low cost.Structure is simple, easy to use.

Description

A kind of efficient wide warm intelligent heating furnace

Technical field

The invention belongs to generation technology improvement areas more particularly to a kind of efficient wide warm intelligent heating furnaces.

Background technique

With the development of social economy and the increasingly raising of living standard, people are increasingly keen to amusement and travel and field The outdoor activities such as exploration, to experience the movable enjoyment of field survivorship and comfortable.For the primary condition for meeting field survivorship, life, The portable electronic equipment such as camp stove and mobile phone, computer becomes one of essential articles.Currently, portable electricity Sub- equipment is with rechargeable battery powered mostly, and the working life of rechargeable battery is generally in a few hours to a couple of days range, it usually needs It is charged by the charging modes of alternating current, it, just can not be normal if electricity exhausts in field or in the case where can fill without alternating current Work, brings great inconvenience to outdoor sportsmen.However, existing outdoor generating equipment is although be able to satisfy general need It wants, but since equipment is insufficient in structure and dexterity, often limits the performance that they are acted on outdoors, and open air is too The limitation affected by environment of positive energy compact electrical generating systems is larger.

Summary of the invention

The purpose of the present invention is to provide a kind of efficient wide warm intelligent heating furnaces, it is intended to solve above-mentioned technical problem.

The invention is realized in this way a kind of efficient wide warm intelligent heating furnace, the efficient wide warm intelligent heating furnace include The porous interior furnace of furnace body A-frame, air supplying layer, second thermal insulation layer, first thermal insulation layer, Cellular Networks, the air supplying layer are set to the furnace On body A-frame, the first thermal insulation layer and the porous interior furnace of Cellular Networks are set on the air supplying layer, and the Cellular Networks are porous interior Furnace is set in the first thermal insulation layer, and the second thermal insulation layer is set on the air supplying layer, the first thermal insulation layer and Cellular Networks Porous interior furnace is placed in the second thermal insulation layer.

A further technical solution of the present invention is: the efficient wide warm intelligent heating furnace further includes generating equipment and heat dissipation dress It sets, the generating equipment is set in the air supplying layer, and the radiator is respectively arranged on the air supplying layer, second thermal insulation layer and the In one thermal insulation layer, the generating equipment is contacted with the porous interior furnace of the Cellular Networks.

A further technical solution of the present invention is: the generating equipment includes thermoelectric generation film, dismountable mobile power source The output end connection of box, boost module, output interface module and igniting combustion supporting module, the thermoelectric generation film is described dismountable The output end of the input terminal of portable power source box, dismountable portable power source box connects the input terminal of the boost module, institute The output end for stating boost module is separately connected the input terminal of the output interface module and the input terminal of igniting combustion supporting module, described Thermoelectric generation film is set in the first thermal insulation layer.

A further technical solution of the present invention is: dismountable portable power source box includes box body and rechargeable battery, institute Rechargeable battery is stated in the box body, the input terminal of the rechargeable battery connects the output end of the thermoelectric generation film, described The output end of rechargeable battery connects the input terminal of the boost module.

A further technical solution of the present invention is: the porous interior furnace of Cellular Networks include Cellular Networks, interior fire door, heat conducting pipe and Heat-conducting plate, the heat conducting pipe and heat-conducting plate are respectively arranged in the Cellular Networks, and the heat conducting pipe is set on the heat-conducting plate, institute Interior fire door is stated to be set at the top of the Cellular Networks.

A further technical solution of the present invention is: the radiator includes radiator, fan and water-cooling circulating system, institute The top and water-cooling circulating system for stating radiator are respectively arranged in the first thermal insulation layer, and the middle part of the radiator is set to described In second thermal insulation layer, the bottom of the radiator and fan are respectively equipped in the air supplying layer, and the fan is set to the heat dissipation On the bottom of device, the power end of the fan connects the output end of the igniting combustion supporting module.

A further technical solution of the present invention is: the radiator is using copper material material or aluminium material.

A further technical solution of the present invention is: what the heat-conducting plate and heat conducting pipe be all made of is copper material material.

A further technical solution of the present invention is: the rechargeable battery is using lithium ion battery.

The beneficial effects of the present invention are: generated electricity using hot and cold side temperature difference, it is easy to carry, raw material sources are simple, Small outdoor power generation wood stove stable and reliable in work, at low cost.Structure is simple, easy to use.It is helped simultaneously by increasing igniting Combustion module can increase the efficiency of combustion of the fuel such as firewood, so that fuel combustion is more abundant, service efficiency is more increased.

Detailed description of the invention

Fig. 1 is the structural schematic diagram one of efficiently wide temperature intelligent heating furnace provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram two of efficiently wide temperature intelligent heating furnace provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram three of efficiently wide temperature intelligent heating furnace provided in an embodiment of the present invention.

Fig. 4 is the structural block diagram of generating equipment provided in an embodiment of the present invention.

Specific embodiment

Appended drawing reference: the porous interior furnace 40- air supplying layer 50- of 10- furnace body A-frame 20- radiator 30- Cellular Networks Fire door in one thermal insulation layer 60- second thermal insulation layer 301- heat conducting pipe 302-；

As shown in Figs 1-4, efficient wide warm intelligent heating furnace provided by the invention, the efficient wide warm intelligent heating furnace includes furnace body The porous interior furnace 30 of A-frame 10, air supplying layer 40, second thermal insulation layer 60, first thermal insulation layer 50, Cellular Networks, the air supplying layer 40 are set In on the furnace body A-frame 10, the first thermal insulation layer 50 and the porous interior furnace 30 of Cellular Networks are set on the air supplying layer 40, The porous interior furnace 30 of Cellular Networks is set in the first thermal insulation layer 50, and the second thermal insulation layer 60 is set to the air supplying layer 40 On, the first thermal insulation layer 50 and the porous interior furnace 30 of Cellular Networks are placed in the second thermal insulation layer 60.

The efficient wide warm intelligent heating furnace further includes generating equipment and radiator, the generating equipment be set to it is described into In stratification of wind 40, the radiator is respectively arranged in the air supplying layer 40, second thermal insulation layer 60 and first thermal insulation layer 50, the hair Electric equipment is contacted with the porous interior furnace 30 of the Cellular Networks.

The generating equipment include thermoelectric generation film, dismountable portable power source box, boost module, output interface module and Igniting combustion supporting module, the output end of the thermoelectric generation film connect the input terminal of dismountable portable power source box, it is described can The output end of the portable power source box of disassembly connects the input terminal of the boost module, and the output end of the boost module is separately connected The input terminal of the output interface module and the input terminal of igniting combustion supporting module, it is heat-insulated that the thermoelectric generation film is set to described first In layer.

Dismountable portable power source box includes box body and rechargeable battery, and the rechargeable battery is set in the box body, The input terminal of the rechargeable battery connects the output end of the thermoelectric generation film, and the output end of the rechargeable battery connects the liter The input terminal of die block.

The porous interior furnace of Cellular Networks includes Cellular Networks, interior fire door 302, heat conducting pipe 301 and heat-conducting plate, the heat conducting pipe 301 and heat-conducting plate be respectively arranged in the Cellular Networks, the heat conducting pipe 301 be set to the heat-conducting plate on, the interior fire door 302 Set on the top of the Cellular Networks.

The radiator includes radiator 20, fan and water-cooling circulating system, and the top of the radiator and water cooling are followed Loop system is respectively arranged in the first thermal insulation layer, and the middle part of the radiator is set in the second thermal insulation layer, the heat dissipation The bottom of device and fan are respectively equipped in the air supplying layer, and the fan is set on the bottom of the radiator, the fan Power end connects the output end of the igniting combustion supporting module.

The radiator 20 is using copper material material or aluminium material.

What the heat-conducting plate and heat conducting pipe 301 were all made of is copper material material.

The rechargeable battery is using lithium ion battery.

It is a kind of efficient wide warm using type intelligent power generation furnace, the porous interior furnace 30 of Cellular Networks is set gradually from top to bottom and copper is led Integral structure, first thermal insulation layer 50, second thermal insulation layer 60, air supplying layer 40 and the furnace body triangle branch of both heat pipe and copper sheet Frame 10；It further include temperature-difference power generation module, radiator, radiator fan, dismountable portable power source box, the portable power source box includes There are electronic circuit board and lithium battery, the portable power source box is also connected with thermoelectric generation film, fan；The temperature-difference power generation module peace Mounted in porous interior furnace bottom, it is attached by copper sheet；The thermoelectric generation film is in first thermal insulation layer 50；The radiator 20 Then first thermal insulation layer 50 of direct puncture, second thermal insulation layer 60 and air supplying layer 40；The portable power source box and fan are in air supplying layer 40.

A kind of efficient width is warm to utilize type intelligent power generation furnace, is generated electricity using wood stove hot and cold side temperature difference, temperature difference hair The hot end of electric piece absorbs the high temperature of wood stove combustion chamber, and cold end reduces temperature by radiator and radiator fan, can form intelligence Controllable temperature difference, exportable several watts or more of power charge the battery, and by a booster circuit, raise voltage to Meet the intelligence of the related protocols such as QC4.0, PD3.0, MTK PE, sea think of FCP, AFC, SFCP and Apple 2.4A, BC1.2 Equipment charge voltage is exported using USB, TYPE-C etc. as port, various outdoor equipments, smart machine is powered and is filled Electricity, such as mobile phone, the light bulb with USB port.When needing firewood to burn, firewood only need to be placed into interior furnace, reach one When determining firewood amount, the combustion-supporting module of built-in ignitor can be automatically turned on, lights firewood and combustion-supporting firewood automatically, so that firewood burning is more Add sufficiently, when interior furnace firewood starts burning, when thermoelectric generation film begins to send out electricity, igniting combustion supporting module is automatically closed, and is dissipated Hot-air fan automatically turns on minimum speed, after cooperation radiator radiates to cold end, while radiator fan is opened, inhales from air inlet It is combustion-supporting to firewood progress that the air entered will ascend into the shape of a spiral interior furnace with designed air duct, and radiator fan has three Speed-regulating function is kept off, user can adjust the speed radiator fan according to interior flame size, reach the mesh of flame size in controlling 's.

Can be generated electricity using hot and cold side temperature difference, it is easy to carry, raw material sources are simple, it is stable and reliable in work, at This low small outdoor power generation wood stove.

Wind speed adjusting can be carried out to radiator fan；Overall structure is from top to bottom, to set gradually the porous interior furnace of Cellular Networks 30 and copper heat conductive rod, first thermal insulation layer 50, second thermal insulation layer 60, air supplying layer 40 and furnace body A-frame 10；Further include Thermoelectric generation film, radiator, fan, dismountable portable power source box, and fan, battery, power electronic circuit, radiator 20 are set In lowermost air supplying layer；External power supply socket, which is arranged, can be used for lithium battery to electronic equipments such as mobile phone, MP3, flashlights It is charged or is directly driven；Radiator 20 is using thermally conductive fast, aluminium material rapid heat dissipation the performance of copper material, using copper pipe as leading Hot pin is placed in the radiator of aluminium material, while using newest phase-change material, accelerates temperature of the cold side of the power generation heat dissipation；Radiator 20 other than using fan to carry out active heat removal scheme, while using the passive heat sink conception of water cooling；It is thermally conductive using copper product Performance is strong, and flame envelope will heat copper pipe, and by thermal conductivity to copper sheet, and copper sheet and interior furnace bottom and thermoelectric generation film are hot End directly contacts, and comprehensively utilizes flame temperature and interior furnace bottom temperature generates electricity, charge to lithium battery, improves waste heat benefit With rate；During cooking, when such as firewood deficiency, the firewood being previously placed on belt is automatically put into interior furnace by stove；It is doing Meal finishes, when being not necessarily to flame, moreover it is possible to carry out continuing charging to battery using interior furnace bottom residual temperature, as long as in-furnace temperature is higher than room Temperature compared with power generation stove on the market, enables to UTILIZATION OF VESIDUAL HEAT IN more abundant, the electricity got that is, using cogeneration It measures higher.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.

Claims (9)

1. a kind of efficient wide warm intelligent heating furnace, which is characterized in that the efficient wide warm intelligent heating furnace includes furnace body triangle branch The porous interior furnace of frame, air supplying layer, second thermal insulation layer, first thermal insulation layer, Cellular Networks, the air supplying layer are set to the furnace body A-frame On, the first thermal insulation layer and the porous interior furnace of Cellular Networks are set on the air supplying layer, and the porous interior furnace of Cellular Networks is set to described In first thermal insulation layer, the second thermal insulation layer is set on the air supplying layer, and the first thermal insulation layer and the porous interior furnace of Cellular Networks are set In in the second thermal insulation layer.

2. efficient wide warm intelligent heating furnace according to claim 1, which is characterized in that the efficient wide warm intelligent heating furnace It further include generating equipment and radiator, the generating equipment is set in the air supplying layer, and the radiator is respectively arranged on institute It states in air supplying layer, second thermal insulation layer and first thermal insulation layer, the generating equipment is contacted with the porous interior furnace of the Cellular Networks.

3. efficient wide warm intelligent heating furnace according to claim 2, which is characterized in that the generating equipment includes temperature difference hair Electric piece, dismountable portable power source box, boost module, output interface module and igniting combustion supporting module, the thermoelectric generation film Output end connects the input terminal of dismountable portable power source box, and the output end of dismountable portable power source box connects institute The input terminal of boost module is stated, the output end of the boost module is separately connected input terminal and the igniting of the output interface module The input terminal of combustion-supporting module, the thermoelectric generation film are set in the first thermal insulation layer.

4. efficient wide warm intelligent heating furnace according to claim 3, which is characterized in that dismountable portable power source box Including box body and rechargeable battery, the rechargeable battery is set in the box body, and the input terminal of the rechargeable battery connects the temperature The output end of poor power generation sheet, the output end of the rechargeable battery connect the input terminal of the boost module.

5. efficient wide warm intelligent heating furnace according to claim 4, which is characterized in that the porous interior furnace of Cellular Networks includes Cellular Networks, interior fire door, heat conducting pipe and heat-conducting plate, the heat conducting pipe and heat-conducting plate are respectively arranged in the Cellular Networks, described thermally conductive Pipe is set on the heat-conducting plate, and the interior fire door is set at the top of the Cellular Networks.

6. efficient wide warm intelligent heating furnace according to claim 5, which is characterized in that the radiator includes heat dissipation Device, fan and water-cooling circulating system, the top of the radiator and water-cooling circulating system are respectively arranged in the first thermal insulation layer, The middle part of the radiator is set in the second thermal insulation layer, and the bottom of the radiator and fan are respectively equipped with the air supplying layer Interior, the fan is set on the bottom of the radiator, and the power end of the fan connects the output of the igniting combustion supporting module End.

7. efficient wide warm intelligent heating furnace according to claim 6, which is characterized in that the radiator is using copper material Material or aluminium material.

8. efficient wide warm intelligent heating furnace according to claim 7, which is characterized in that the heat-conducting plate and heat conducting pipe are adopted It is copper material material.

9. efficient wide warm intelligent heating furnace according to claim 8, which is characterized in that the rechargeable battery is using lithium Ion battery.